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phobos/std/datetime.d
jmdavis dd3a0c20a2 Created std.ascii to replace std.ctype. 
All of the new, properly camelcased functions in std.ctype have been
moved to std.ascii, and std.ctype has been scheduled for deprecation.
2011-06-14 04:06:54 -07:00

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//Written in the D programming language
/++
Module containing Date/Time functionality.
This module provides:
$(UL
$(LI Types to represent points in time: $(D SysTime), $(D Date),
$(D TimeOfDay), and $(D DateTime).)
$(LI Types to represent intervals of time.)
$(LI Types to represent ranges over intervals of time.)
$(LI Types to represent time zones (used by $(D SysTime)).)
$(LI A platform-independent, high precision stopwatch type:
$(D StopWatch))
$(LI Benchmarking functions.)
$(LI Various helper functions.)
)
Closely related to std.datetime is <a href="core_time.html">$(D core.time)</a>,
and some of the time types used in std.datetime come from there - such as
$(CXREF time, Duration), $(CXREF time, TickDuration), and
$(CXREF time, FracSec). So, you may want to look at its documentation as
well. However, core.time is publically imported into std.datetime, so you
don't have to import it separately.
Three of the main concepts used in this module are time points, time
durations, and time intervals.
A time point is a specific point in time. e.g. January 5th, 2010
or 5:00.
A time duration is a length of time with units. e.g. 5 days or 231 seconds.
A time interval indicates a period of time associated with a fixed point in
time. So, it is either two time points associated with each other,
indicating the time starting at the first point up to, but not including,
the second point - e.g. [January 5th, 2010 - March 10th, 2010$(RPAREN) - or
it is a time point and a time duration associated with one another. e.g.
January 5th, 2010 and 5 days, indicating [January 5th, 2010 -
January 10th, 2010$(RPAREN).
Various arithmetic operations are supported between time points and
durations (e.g. the difference between two time points is a time duration),
and ranges can be gotten from time intervals, so range-based operations may
be done on a series of time points.
The types that the typical user is most likely to be interested in are
$(D Date) (if they want dates but don't care about time), $(D DateTime)
(if they want dates and times but don't care about time zones), $(D SysTime)
(if they want the date and time from the OS and/or do care about time
zones), and StopWatch (a platform-independent, high precision stop watch).
$(D Date) and $(D DateTime) are optimized for calendar-based operations,
while $(D SysTime) is designed for dealing with time from the OS. Check out
their specific documentation for more details.
To get the current time, use $(D Clock.currTime). It will return the current
time as a $(D SysTime). If you want to print it, $(D toString) is
sufficient, but if you use $(D toISOString), $(D toISOExtString), or
$(D toSimpleString), you can use the corresponding $(D fromISOString),
$(D fromISOExtString), or $(D fromISOExtString) to create a
$(D SysTime) from the string.
--------------------
auto currentTime = Clock.currTime();
auto timeString = currentTime.toISOExtString();
auto restoredTime = SysTime.fromISOExtString(timeString);
--------------------
Various functions take a string (or strings) to represent a unit of time
(e.g. $(D convert!("days", "hours")(numDays))). The valid strings to use
with such functions are $(D "years"), $(D "months"), $(D "weeks"),
$(D "days"), $(D "hours"), $(D "minutes"), $(D "seconds"),
$(D "msecs") (milliseconds), $(D "usecs") (microseconds),
$(D "hnsecs") (hecto-nanoseconds - i.e. 100 ns), or some subset thereof.
There are a few functions in core.time which take $(D "nsecs"), but because
nothing in std.datetime has precision greater than hnsecs, and very little
in core.time does, no functions in std.datetime accept $(D "nsecs").
If you're looking for the definitions of $(D Duration), $(D TickDuration),
or $(D FracSec), they're in core.time.
Note:
$(D DateTimeException) is an alias for core.time's $(D TimeException),
so you don't need to worry about core.time functions and std.datetime
functions throwing different exception types (except in the rare case
that they throw something other than $(D TimeException) or
$(D DateTimeException)).
See_Also:
$(WEB en.wikipedia.org/wiki/ISO_8601, ISO 8601)
$(WEB en.wikipedia.org/wiki/Tz_database, Wikipedia entry on TZ Database)
$(WEB en.wikipedia.org/wiki/List_of_tz_database_time_zones,
List of Time Zones)
Copyright: Copyright 2010 - 2011
License: $(WEB www.boost.org/LICENSE_1_0.txt, Boost License 1.0).
Authors: Jonathan M Davis and Kato Shoichi
Source: $(PHOBOSSRC std/_datetime.d)
+/
module std.datetime;
public import core.time;
import core.exception;
import core.stdc.time;
import std.array;
import std.algorithm;
import std.ascii;
import std.conv;
import std.exception;
import std.file;
import std.functional;
import std.math;
import std.metastrings;
import std.path;
import std.range;
import std.stdio;
import std.string;
import std.system;
import std.traits;
version(Windows)
{
import core.sys.windows.windows;
import std.c.windows.winsock;
//For system call to access the registry.
pragma(lib, "advapi32.lib");
}
else version(Posix)
{
import core.sys.posix.arpa.inet;
import core.sys.posix.stdlib;
import core.sys.posix.time;
import core.sys.posix.sys.time;
//We need to disable many tests because building all of Phobos
//with all of std.datetime's unit tests enables currently causes
//dmd to run out of memory.
//Regardless of that, however, it's also useful to be able to
//easily turn the tests on and off.
version = testStdDateTime;
}
version(unittest)
{
import std.c.string;
import std.stdio;
}
//I'd just alias it to indexOf, but
//http://d.puremagic.com/issues/show_bug.cgi?id=6013 would mean that that would
//pollute the global namespace. So, for now, I've created an alias which is
//highly unlikely to conflict with anything that anyone else is doing.
private alias std.string.indexOf stds_indexOf;
//Verify module example.
version(testStdDateTime) unittest
{
auto currentTime = Clock.currTime();
auto timeString = currentTime.toISOExtString();
auto restoredTime = SysTime.fromISOExtString(timeString);
}
//Note: There various functions which void as their return type and ref of the
// struct type which they're in as a commented out return type. Ideally,
// they would return the ref, but there are several dmd bugs which prevent
// that, relating to both ref and invariants. So, I've left the ref return
// types commented out with the idea that those functions can be made to
// return a ref to this once those bugs have been fixed.
//==============================================================================
// Section with public enums and constants.
//==============================================================================
/++
Represents the 12 months of the Gregorian year (January is 1).
+/
enum Month : ubyte { jan = 1, ///
feb, ///
mar, ///
apr, ///
may, ///
jun, ///
jul, ///
aug, ///
sep, ///
oct, ///
nov, ///
dec ///
}
/++
Represents the 7 days of the Gregorian week (Sunday is 0).
+/
enum DayOfWeek : ubyte { sun = 0, ///
mon, ///
tue, ///
wed, ///
thu, ///
fri, ///
sat ///
}
/++
In some date calculations, adding months or years can cause the date to fall
on a day of the month which is not valid (e.g. February 29th 2001 or
June 31st 2000). If overflow is allowed (as is the default), then the month
will be incremented accordingly (so, February 29th 2001 would become
March 1st 2001, and June 31st 2000 would become July 1st 2000). If overflow
is not allowed, then the day will be adjusted to the last valid day in that
month (so, February 29th 2001 would become February 28th 2001 and
June 31st 2000 would become June 30th 2000).
AllowDayOverflow only applies to calculations involving months or years.
+/
enum AllowDayOverflow
{
/// No, don't allow day overflow.
no,
/// Yes, allow day overflow.
yes
}
/++
Indicates a direction in time. One example of its use is $(D Interval)'s
$(D expand) function which uses it to indicate whether the interval should
be expanded backwards (into the past), forwards (into the future), or both.
+/
enum Direction
{
/// Backward.
bwd,
/// Forward.
fwd,
/// Both backward and forward.
both
}
/++
Used to indicate whether $(D popFront) should be called immediately upon
creating a range. The idea is that for some functions used to generate a
range for an interval, $(D front) is not necessarily a time point which
would ever be generated by the range, and if you want the first time point
in the range to match what the function generates, then you use
$(D PopFirst.yes) to indicate that the range should have $(D popFront)
called on it before the range is returned so that $(D front) is a time point
which the function would generate.
For instance, if the function used to generate a range of time points
generated successive Easters (i.e. you're iterating over all of the Easters
within the interval), the initial date probably isn't an Easter. By using
$(D PopFirst.yes), you would be telling the function which returned the
range that you wanted $(D popFront) to be called so that front would then be
an Easter - the next one generated by the function (which if you were
iterating forward, would be the Easter following the original $(D front),
while if you were iterating backward, it would be the Easter prior to the
original $(D front)). If $(D PopFirst.no) were used, then $(D front) would
remain the original time point and it would not necessarily be a time point
which would be generated by the range-generating function (which in many
cases is exactly what you
want - e.g. if you were iterating over every day starting at the beginning
of the interval).
+/
enum PopFirst
{
/// No, don't call popFront() before returning the range.
no,
/// Yes, call popFront() before returning the range.
yes
}
/++
Used by StopWatch to indicate whether it should start immediately upon
construction.
+/
enum AutoStart
{
/// No, don't start the StopWatch when it is constructed.
no,
/// Yes, do start the StopWatch when it is constructed.
yes
}
/++
Array of the strings representing time units, starting with the smallest
unit and going to the largest. It does not include $(D "nsecs").
Includes $(D "hnsecs") (hecto-nanoseconds (100 ns)),
$(D "usecs") (microseconds), $(D "msecs") (milliseconds), $(D "seconds"),
$(D "minutes"), $(D "hours"), $(D "days"), $(D "weeks"), $(D "months"), and
$(D "years")
+/
immutable string[] timeStrings = ["hnsecs", "usecs", "msecs", "seconds", "minutes",
"hours", "days", "weeks", "months", "years"];
//==============================================================================
// Section with other types.
//==============================================================================
/++
Exception type used by std.datetime. It's an alias to TimeException, which
is what core.time uses. So, you can catch either and not worry about which
module it came from.
+/
alias TimeException DateTimeException;
/++
Effectively a namespace to make it clear that the methods it contains are
getting the time from the system clock. It cannot be instantiated.
+/
final class Clock
{
public:
/++
Returns the current time in the given time zone.
Throws:
$(D ErrnoException) (on Posix) or $(D Exception) (on Windows)
if it fails to get the time of day.
+/
static SysTime currTime(immutable TimeZone tz = LocalTime())
{
return SysTime(currStdTime, tz);
}
version(testStdDateTime) unittest
{
assert(currTime(UTC()).timezone is UTC());
//I have no idea why, but for some reason, Windows/Wine likes to get
//time_t wrong when getting it with core.stdc.time.time. On one box
//I have (which has its local time set to UTC), it always gives time_t
//in the real local time (America/Los_Angeles), and after the most recent
//DST switch, every Windows box that I've tried it in is reporting
//time_t as being 1 hour off of where it's supposed to be. So, I really
//don't know what the deal is, but given what I'm seeing, I don't trust
//core.stdc.time.time on Windows, so I'm just going to disable this test
//on Windows.
version(Posix)
{
immutable unixTimeD = currTime().toUnixTime();
immutable unixTimeC = core.stdc.time.time(null);
immutable diff = unixTimeC - unixTimeD;
_assertPred!">="(diff, -2);
_assertPred!"<="(diff, 2);
}
}
/++
Returns the number of hnsecs since midnight, January 1st, 1 A.D. for the
current time.
Throws:
$(D DateTimeException) if it fails to get the time.
+/
@trusted
static @property long currStdTime()
{
version(Windows)
{
//FILETIME represents hnsecs from midnight, January 1st, 1601.
enum hnsecsFrom1601 = 504_911_232_000_000_000L;
FILETIME fileTime;
GetSystemTimeAsFileTime(&fileTime);
ulong tempHNSecs = fileTime.dwHighDateTime;
tempHNSecs <<= 32;
tempHNSecs |= fileTime.dwLowDateTime;
return cast(long)tempHNSecs + hnsecsFrom1601;
}
else version(Posix)
{
enum hnsecsToUnixEpoch = 621_355_968_000_000_000L;
static if(is(typeof(clock_gettime)))
{
timespec ts;
if(clock_gettime(CLOCK_REALTIME, &ts) != 0)
throw new TimeException("Failed in clock_gettime().");
return convert!("seconds", "hnsecs")(ts.tv_sec) +
ts.tv_nsec / 100 +
hnsecsToUnixEpoch;
}
else
{
timeval tv;
if(gettimeofday(&tv, null) != 0)
throw new TimeException("Failed in gettimeofday().");
return convert!("seconds", "hnsecs")(tv.tv_sec) +
convert!("usecs", "hnsecs")(tv.tv_usec) +
hnsecsToUnixEpoch;
}
}
}
/++
The current system tick. The number of ticks per second varies from
system to system. currSystemTick uses a monotonic clock, so it's
intended for precision timing by comparing relative time values, not
for getting the current system time.
Warning:
On some systems, the monotonic clock may stop counting when
the computer goes to sleep or hibernates. So, the monotonic
clock could be off if that occurs. This is known to happen
on Mac OS X. It has not been tested whether it occurs on
either Windows or Linux.
Throws:
$(D DateTimeException) if it fails to get the time.
+/
@safe
static @property TickDuration currSystemTick()
{
return TickDuration.currSystemTick();
}
version(testStdDateTime) unittest
{
assert(Clock.currSystemTick.length > 0);
}
/++
The current number of system ticks since the application started.
The number of ticks per second varies from system to system.
This uses a monotonic clock.
Warning:
On some systems, the monotonic clock may stop counting when
the computer goes to sleep or hibernates. So, the monotonic
clock could be off if that occurs. This is known to happen
on Mac OS X. It has not been tested whether it occurs on
either Windows or on Linux.
Throws:
$(D DateTimeException) if it fails to get the time.
+/
@safe
static @property TickDuration currAppTick()
{
return currSystemTick - TickDuration.appOrigin;
}
version(testStdDateTime) unittest
{
auto a = Clock.currSystemTick;
auto b = Clock.currAppTick;
assert(a.length);
assert(b.length);
assert(a > b);
}
private:
@disable this() {}
}
//==============================================================================
// Section with time points.
//==============================================================================
/++
$(D SysTime) is the type used when you want to get the current time from the
system or if you're doing anything that involves time zones. Unlike
$(D DateTime), the time zone is an integral part of $(D SysTime) (though if
all you care about is local time, you can pretty much ignore time zones, and
it will work, since it defaults to using the local time zone). It holds its
internal time in std time (hnsecs since midnight, January 1st, 1 A.D. UTC),
so it interfaces well with the system time. However, that means that, unlike
$(D DateTime), it is not optimized for calendar-based operations, and
getting individual units from it such as years or days is going to involve
conversions and be less efficient.
Basically, if you care about calendar-based operations and don't
necessarily care about time zones, then $(D DateTime) would be the type to
use. However, if what you care about is the system time, then $(D SysTime)
would be the type to use.
$(D Clock.currTime) will return the current time as a $(D SysTime). If you
want to convert a $(D SysTime) to a $(D Date) or $(D DateTime), simply cast
it. And if you ever want to convert a $(D Date) or $(D DateTime) to a
$(D SysTime), use $(D SysTime)'s constructor, and you can pass in the
intended time zone with it (or don't pass in a $(D TimeZone), and the local
time zone will be used). Be aware, however, that converting from a
$(D DateTime) to a $(D SysTime) will not necessarily be 100% accurate due to
DST (one hour of the year doesn't exist and another occurs twice). So, if
you don't want to risk any conversion errors, keep your times as
$(D SysTime)s. Aside from DST though, there shouldn't be any conversion
problems.
If you care about using time zones other than local time or UTC, you can use
$(D PosixTimeZone) on Posix systems (or on Windows, if you provide the TZ
Database files), and you can use $(D WindowsTimeZone) on Windows systems.
The time in $(D SysTime) is kept internally in hnsecs from midnight,
January 1st, 1 A.D. UTC. So, you never get conversion errors when changing
the time zone of a $(D SysTime). $(D LocalTime) is the $(D TimeZone) class
which represents the local time, and $(D UTC) is the $(D TimeZone) class
which represents UTC. $(D SysTime) uses $(D LocalTime) if no $(D TimeZone)
is provided. For more details on time zones, look at the documentation for
$(D TimeZone), $(D PosixTimeZone), and $(D WindowsTimeZone).
$(D SysTime)'s range is from approximately 29,000 B.C. to approximately
29,000 A.D.
+/
struct SysTime
{
public:
/++
Params:
dateTime = The $(D DateTime) to use to set this $(D SysTime)'s
internal std time. As $(D DateTime) has no concept of
time zone, tz is used as its time zone.
tz = The $(D TimeZone) to use for this $(D SysTime). If null,
$(D LocalTime) will be used. The given $(D DateTime) is
assumed to be in the given time zone.
+/
this(in DateTime dateTime, immutable TimeZone tz = null) nothrow
{
try
this(dateTime, FracSec.from!"hnsecs"(0), tz);
catch(Exception e)
assert(0, "FracSec's constructor threw when it shouldn't have.");
}
version(testStdDateTime) unittest
{
static void test(DateTime dt, immutable TimeZone tz, long expected)
{
auto sysTime = SysTime(dt, tz);
_assertPred!"=="(sysTime._stdTime, expected);
assert(sysTime._timezone is (tz is null ? LocalTime() : tz),
format("Given DateTime: %s", dt));
}
test(DateTime.init, UTC(), 0);
test(DateTime(1, 1, 1, 12, 30, 33), UTC(), 450_330_000_000L);
test(DateTime(0, 12, 31, 12, 30, 33), UTC(), -413_670_000_000L);
test(DateTime(1, 1, 1, 0, 0, 0), UTC(), 0);
test(DateTime(1, 1, 1, 0, 0, 1), UTC(), 10_000_000L);
test(DateTime(0, 12, 31, 23, 59, 59), UTC(), -10_000_000L);
test(DateTime(1, 1, 1, 0, 0, 0), new SimpleTimeZone(-60),
36_000_000_000L);
test(DateTime(1, 1, 1, 0, 0, 0), new SimpleTimeZone(0), 0);
test(DateTime(1, 1, 1, 0, 0, 0), new SimpleTimeZone(60),
-36_000_000_000L);
}
/++
Params:
dateTime = The $(D DateTime) to use to set this $(D SysTime)'s
internal std time. As $(D DateTime) has no concept of
time zone, tz is used as its time zone.
fsec = The fractional seconds portion of the time.
tz = The $(D TimeZone) to use for this $(D SysTime). If null,
$(D LocalTime) will be used. The given $(D DateTime) is
assumed to be in the given time zone.
+/
this(in DateTime dateTime, in FracSec fsec, immutable TimeZone tz = null) nothrow
{
_timezone = tz is null ? LocalTime() : tz;
try
{
immutable dateDiff = (dateTime.date - Date(1, 1, 1)).total!"hnsecs";
immutable todDiff = (dateTime.timeOfDay - TimeOfDay(0, 0, 0)).total!"hnsecs";
immutable adjustedTime = dateDiff + todDiff + fsec.hnsecs;
immutable standardTime = _timezone.tzToUTC(adjustedTime);
this(standardTime, _timezone.get);
}
catch(Exception e)
{
assert(0, "Date, TimeOfDay, or DateTime's constructor threw when " ~
"it shouldn't have.");
}
}
version(testStdDateTime) unittest
{
static void test(DateTime dt,
FracSec fracSec,
immutable TimeZone tz,
long expected)
{
auto sysTime = SysTime(dt, fracSec, tz);
_assertPred!"=="(sysTime._stdTime, expected);
assert(sysTime._timezone is (tz is null ? LocalTime() : tz),
format("Given DateTime: %s, Given FracSec: %s", dt, fracSec));
}
test(DateTime.init, FracSec.init, UTC(), 0);
test(DateTime(1, 1, 1, 12, 30, 33), FracSec.init, UTC(), 450_330_000_000L);
test(DateTime(0, 12, 31, 12, 30, 33), FracSec.init, UTC(), -413_670_000_000L);
test(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"msecs"(1), UTC(), 10_000L);
test(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"msecs"(999), UTC(), -10_000L);
test(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999), UTC(), -1);
test(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(1), UTC(), -9_999_999);
test(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(0), UTC(), -10_000_000);
}
/++
Params:
date = The $(D Date) to use to set this $(D SysTime)'s internal std
time. As $(D Date) has no concept of time zone, tz is used as
its time zone.
tz = The $(D TimeZone) to use for this $(D SysTime). If null,
$(D LocalTime) will be used. The given $(D Date) is assumed
to be in the given time zone.
+/
this(in Date date, immutable TimeZone tz = null) nothrow
{
_timezone = tz is null ? LocalTime() : tz;
try
{
immutable adjustedTime = (date - Date(1, 1, 1)).total!"hnsecs";
immutable standardTime = _timezone.tzToUTC(adjustedTime);
this(standardTime, _timezone.get);
}
catch(Exception e)
assert(0, "Date's constructor through when it shouldn't have.");
}
version(testStdDateTime) unittest
{
static void test(Date d, immutable TimeZone tz, long expected)
{
auto sysTime = SysTime(d, tz);
_assertPred!"=="(sysTime._stdTime, expected);
assert(sysTime._timezone is (tz is null ? LocalTime() : tz),
format("Given Date: %s", d));
}
test(Date.init, UTC(), 0);
test(Date(1, 1, 1), UTC(), 0);
test(Date(1, 1, 2), UTC(), 864000000000);
test(Date(0, 12, 31), UTC(), -864000000000);
}
/++
Note:
Whereas the other constructors take in the given date/time, assume
that it's in the given time zone, and convert it to hnsecs in UTC
since midnight, January 1st, 1 A.D. UTC - i.e. std time - this
constructor takes a std time, which is specifically already in UTC,
so no conversion takes place. Of course, the various getter
properties and functions will use the given time zone's conversion
function to convert the results to that time zone, but no conversion
of the arguments to this constructor takes place.
Params:
stdTime = The number of hnsecs since midnight, January 1st, 1 A.D. UTC.
tz = The $(D TimeZone) to use for this $(D SysTime). If null,
$(D LocalTime) will be used.
+/
this(long stdTime, immutable TimeZone tz = null) pure nothrow
{
_stdTime = stdTime;
_timezone = tz is null ? LocalTime() : tz;
}
version(testStdDateTime) unittest
{
static void test(long stdTime, immutable TimeZone tz)
{
auto sysTime = SysTime(stdTime, tz);
_assertPred!"=="(sysTime._stdTime, stdTime);
assert(sysTime._timezone is (tz is null ? LocalTime() : tz),
format("Given stdTime: %s", stdTime));
}
foreach(stdTime; [-1234567890L, -250, 0, 250, 1235657390L])
{
foreach(tz; testTZs)
test(stdTime, tz);
}
}
/++
Params:
rhs = The $(D SysTime) to assign to this one.
+/
ref SysTime opAssign(const ref SysTime rhs) pure nothrow
{
_stdTime = rhs._stdTime;
_timezone = rhs._timezone.get;
return this;
}
/++
Params:
rhs = The $(D SysTime) to assign to this one.
+/
ref SysTime opAssign(SysTime rhs) pure nothrow
{
_stdTime = rhs._stdTime;
_timezone = rhs._timezone.get;
return this;
}
/++
Checks for equality between this $(D SysTime) and the given
$(D SysTime).
Note that the time zone is ignored. Only the internal
std times (which are in UTC) are compared.
+/
bool opEquals(const ref SysTime rhs) const pure nothrow
{
return _stdTime == rhs._stdTime;
}
version(testStdDateTime) unittest
{
_assertPred!"=="(SysTime(DateTime.init, UTC()), SysTime(0, UTC()));
_assertPred!"=="(SysTime(DateTime.init, UTC()), SysTime(0));
_assertPred!"=="(SysTime(Date.init, UTC()), SysTime(0));
_assertPred!"=="(SysTime(0), SysTime(0));
static void test(DateTime dt,
immutable TimeZone tz1,
immutable TimeZone tz2)
{
auto st1 = SysTime(dt);
st1.timezone = tz1;
auto st2 = SysTime(dt);
st2.timezone = tz2;
_assertPred!"=="(st1, st2);
}
foreach(tz1; testTZs)
{
foreach(tz2; testTZs)
{
foreach(dt; chain(testDateTimesBC, testDateTimesAD))
test(dt, tz1, tz2);
}
}
auto st = SysTime(DateTime(1999, 7, 6, 12, 33, 30));
const cst = SysTime(DateTime(1999, 7, 6, 12, 33, 30));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 33, 30));
static assert(__traits(compiles, st == st));
static assert(__traits(compiles, st == cst));
//static assert(__traits(compiles, st == ist));
static assert(__traits(compiles, cst == st));
static assert(__traits(compiles, cst == cst));
//static assert(__traits(compiles, cst == ist));
//static assert(__traits(compiles, ist == st));
//static assert(__traits(compiles, ist == cst));
//static assert(__traits(compiles, ist == ist));
}
/++
Compares this $(D SysTime) with the given $(D SysTime).
Time zone is irrelevant when comparing $(D SysTime)s.
Returns:
$(TABLE
$(TR $(TD this &lt; rhs) $(TD &lt; 0))
$(TR $(TD this == rhs) $(TD 0))
$(TR $(TD this &gt; rhs) $(TD &gt; 0))
)
+/
int opCmp(in SysTime rhs) const pure nothrow
{
if(_stdTime < rhs._stdTime)
return -1;
if(_stdTime > rhs._stdTime)
return 1;
return 0;
}
version(testStdDateTime) unittest
{
_assertPred!("opCmp", "==")(SysTime(DateTime.init, UTC()),
SysTime(0, UTC()));
_assertPred!("opCmp", "==")(SysTime(DateTime.init, UTC()), SysTime(0));
_assertPred!("opCmp", "==")(SysTime(Date.init, UTC()), SysTime(0));
_assertPred!("opCmp", "==")(SysTime(0), SysTime(0));
static void testEqual(DateTime dt,
immutable TimeZone tz1,
immutable TimeZone tz2)
{
auto st1 = SysTime(dt);
st1.timezone = tz1;
auto st2 = SysTime(dt);
st2.timezone = tz2;
_assertPred!("opCmp", "==")(st1, st2);
}
foreach(dt; chain(testDateTimesBC, testDateTimesAD))
{
foreach(tz1; testTZs)
{
foreach(tz2; testTZs)
testEqual(dt, tz1, tz2);
}
}
static void testCmp(DateTime dt1,
immutable TimeZone tz1,
DateTime dt2,
immutable TimeZone tz2)
{
auto st1 = SysTime(dt1);
st1.timezone = tz1;
auto st2 = SysTime(dt2);
st2.timezone = tz2;
_assertPred!("opCmp", "<")(st1, st2);
_assertPred!("opCmp", ">")(st2, st1);
}
auto dts = testDateTimesBC ~ testDateTimesAD;
foreach(tz1; testTZs)
{
foreach(tz2; testTZs)
{
for(size_t i = 0; i < dts.length; ++i)
{
for(size_t j = i + 1; j < dts.length; ++j)
testCmp(dts[i], tz1, dts[j], tz2);
}
}
}
auto st = SysTime(DateTime(1999, 7, 6, 12, 33, 30));
const cst = SysTime(DateTime(1999, 7, 6, 12, 33, 30));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 33, 30));
static assert(__traits(compiles, st.opCmp(st)));
static assert(__traits(compiles, st.opCmp(cst)));
//static assert(__traits(compiles, st.opCmp(ist)));
static assert(__traits(compiles, cst.opCmp(st)));
static assert(__traits(compiles, cst.opCmp(cst)));
//static assert(__traits(compiles, cst.opCmp(ist)));
//static assert(__traits(compiles, ist.opCmp(st)));
//static assert(__traits(compiles, ist.opCmp(cst)));
//static assert(__traits(compiles, ist.opCmp(ist)));
}
/++
Year of the Gregorian Calendar. Positive numbers are A.D. Non-positive
are B.C.
+/
@property short year() const nothrow
{
return (cast(Date)this).year;
}
version(testStdDateTime) unittest
{
static void test(SysTime sysTime, long expected, size_t line = __LINE__)
{
_assertPred!"=="(sysTime.year, expected,
format("Value given: %s", sysTime), __FILE__, line);
}
test(SysTime(0, UTC()), 1);
test(SysTime(1, UTC()), 1);
test(SysTime(-1, UTC()), 0);
foreach(year; chain(testYearsBC, testYearsAD))
{
foreach(md; testMonthDays)
{
foreach(tod; testTODs)
{
auto dt = DateTime(Date(year, md.month, md.day), tod);
foreach(tz; testTZs)
{
foreach(fs; testFracSecs)
test(SysTime(dt, fs, tz), year);
}
}
}
}
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, cst.year));
//static assert(__traits(compiles, ist.year));
}
/++
Year of the Gregorian Calendar. Positive numbers are A.D. Non-positive
are B.C.
Params:
year = The year to set this $(D SysTime)'s year to.
Throws:
$(D DateTimeException) if the new year is not a leap year and the
resulting date would be on February 29th.
Examples:
--------------------
assert(SysTime(DateTime(1999, 7, 6, 9, 7, 5)).year == 1999);
assert(SysTime(DateTime(2010, 10, 4, 0, 0, 30)).year == 2010);
assert(SysTime(DateTime(-7, 4, 5, 7, 45, 2)).year == -7);
--------------------
+/
@property void year(int year)
{
auto hnsecs = adjTime;
auto days = splitUnitsFromHNSecs!"days"(hnsecs) + 1;
if(hnsecs < 0)
{
hnsecs += convert!("hours", "hnsecs")(24);
--days;
}
auto date = Date(cast(int)days);
date.year = year;
immutable newDaysHNSecs = convert!("days", "hnsecs")(date.dayOfGregorianCal - 1);
adjTime = newDaysHNSecs + hnsecs;
}
//Verify Examples.
version(testStdDateTime) unittest
{
assert(SysTime(DateTime(1999, 7, 6, 9, 7, 5)).year == 1999);
assert(SysTime(DateTime(2010, 10, 4, 0, 0, 30)).year == 2010);
assert(SysTime(DateTime(-7, 4, 5, 7, 45, 2)).year == -7);
}
version(testStdDateTime) unittest
{
static void test(SysTime st, int year, in SysTime expected, size_t line = __LINE__)
{
st.year = year;
_assertPred!"=="(st, expected, "", __FILE__, line);
}
foreach(st; chain(testSysTimesBC, testSysTimesAD))
{
auto dt = cast(DateTime)st;
foreach(year; chain(testYearsBC, testYearsAD))
{
auto e = SysTime(DateTime(year, dt.month, dt.day, dt.hour, dt.minute, dt.second),
st.fracSec,
st.timezone);
test(st, year, e);
}
}
foreach(fs; testFracSecs)
{
foreach(tz; testTZs)
{
foreach(tod; testTODs)
{
test(SysTime(DateTime(Date(1999, 2, 28), tod), fs, tz), 2000,
SysTime(DateTime(Date(2000, 2, 28), tod), fs, tz));
test(SysTime(DateTime(Date(2000, 2, 28), tod), fs, tz), 1999,
SysTime(DateTime(Date(1999, 2, 28), tod), fs, tz));
}
foreach(tod; testTODsThrown)
{
auto st = SysTime(DateTime(Date(2000, 2, 29), tod), fs, tz);
assertThrown!DateTimeException(st.year = 1999);
}
}
}
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(!__traits(compiles, cst.year = 7));
//static assert(!__traits(compiles, ist.year = 7));
}
/++
Year B.C. of the Gregorian Calendar counting year 0 as 1 B.C.
Throws:
$(D DateTimeException) if $(D isAD) is true.
Examples:
--------------------
assert(SysTime(DateTime(0, 1, 1, 12, 30, 33)).yearBC == 1);
assert(SysTime(DateTime(-1, 1, 1, 10, 7, 2)).yearBC == 2);
assert(SysTime(DateTime(-100, 1, 1, 4, 59, 0)).yearBC == 101);
--------------------
+/
@property ushort yearBC() const
{
return (cast(Date)this).yearBC;
}
//Verify Examples.
version(testStdDateTime) unittest
{
assert(SysTime(DateTime(0, 1, 1, 12, 30, 33)).yearBC == 1);
assert(SysTime(DateTime(-1, 1, 1, 10, 7, 2)).yearBC == 2);
assert(SysTime(DateTime(-100, 1, 1, 4, 59, 0)).yearBC == 101);
}
version(testStdDateTime) unittest
{
foreach(st; testSysTimesBC)
{
auto msg = format("SysTime: %s", st);
assertNotThrown!DateTimeException(st.yearBC, msg);
_assertPred!"=="(st.yearBC, (st.year * -1) + 1, msg);
}
foreach(st; [testSysTimesAD[0], testSysTimesAD[$/2], testSysTimesAD[$-1]])
assertThrown!DateTimeException(st.yearBC, format("SysTime: %s", st));
auto st = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, st.year = 12));
static assert(!__traits(compiles, cst.year = 12));
//static assert(!__traits(compiles, ist.year = 12));
}
/++
Year B.C. of the Gregorian Calendar counting year 0 as 1 B.C.
Params:
year = The year B.C. to set this $(D SysTime)'s year to.
Throws:
$(D DateTimeException) if a non-positive value is given.
Examples:
--------------------
auto st = SysTime(DateTime(2010, 1, 1, 7, 30, 0));
st.yearBC = 1;
assert(st == SysTime(DateTime(0, 1, 1, 7, 30, 0)));
st.yearBC = 10;
assert(st == SysTime(DateTime(-9, 1, 1, 7, 30, 0)));
--------------------
+/
@property void yearBC(int year)
{
auto hnsecs = adjTime;
auto days = splitUnitsFromHNSecs!"days"(hnsecs) + 1;
if(hnsecs < 0)
{
hnsecs += convert!("hours", "hnsecs")(24);
--days;
}
auto date = Date(cast(int)days);
date.yearBC = year;
immutable newDaysHNSecs = convert!("days", "hnsecs")(date.dayOfGregorianCal - 1);
adjTime = newDaysHNSecs + hnsecs;
}
//Verify Examples
version(testStdDateTime) unittest
{
auto st = SysTime(DateTime(2010, 1, 1, 7, 30, 0));
st.yearBC = 1;
assert(st == SysTime(DateTime(0, 1, 1, 7, 30, 0)));
st.yearBC = 10;
assert(st == SysTime(DateTime(-9, 1, 1, 7, 30, 0)));
}
version(testStdDateTime) unittest
{
static void test(SysTime st, int year, in SysTime expected, size_t line = __LINE__)
{
st.yearBC = year;
_assertPred!"=="(st, expected, format("SysTime: %s", st), __FILE__, line);
}
foreach(st; chain(testSysTimesBC, testSysTimesAD))
{
auto dt = cast(DateTime)st;
foreach(year; testYearsBC)
{
auto e = SysTime(DateTime(year, dt.month, dt.day, dt.hour, dt.minute, dt.second),
st.fracSec,
st.timezone);
test(st, (year * -1) + 1, e);
}
}
foreach(st; [testSysTimesBC[0], testSysTimesBC[$ - 1],
testSysTimesAD[0], testSysTimesAD[$ - 1]])
{
foreach(year; testYearsBC)
assertThrown!DateTimeException(st.yearBC = year);
}
foreach(fs; testFracSecs)
{
foreach(tz; testTZs)
{
foreach(tod; testTODs)
{
test(SysTime(DateTime(Date(-1999, 2, 28), tod), fs, tz), 2001,
SysTime(DateTime(Date(-2000, 2, 28), tod), fs, tz));
test(SysTime(DateTime(Date(-2000, 2, 28), tod), fs, tz), 2000,
SysTime(DateTime(Date(-1999, 2, 28), tod), fs, tz));
}
foreach(tod; testTODsThrown)
{
auto st = SysTime(DateTime(Date(-2000, 2, 29), tod), fs, tz);
assertThrown!DateTimeException(st.year = -1999);
}
}
}
auto st = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, st.yearBC = 12));
static assert(!__traits(compiles, cst.yearBC = 12));
//static assert(!__traits(compiles, ist.yearBC = 12));
}
/++
Month of a Gregorian Year.
Examples:
--------------------
assert(SysTime(DateTime(1999, 7, 6, 9, 7, 5)).month == 7);
assert(SysTime(DateTime(2010, 10, 4, 0, 0, 30)).month == 10);
assert(SysTime(DateTime(-7, 4, 5, 7, 45, 2)).month == 4);
--------------------
+/
@property Month month() const nothrow
{
return (cast(Date)this).month;
}
//Verify Examples.
version(testStdDateTime) unittest
{
assert(SysTime(DateTime(1999, 7, 6, 9, 7, 5)).month == 7);
assert(SysTime(DateTime(2010, 10, 4, 0, 0, 30)).month == 10);
assert(SysTime(DateTime(-7, 4, 5, 7, 45, 2)).month == 4);
}
version(testStdDateTime) unittest
{
static void test(SysTime sysTime, Month expected, size_t line = __LINE__)
{
_assertPred!"=="(sysTime.month, expected,
format("Value given: %s", sysTime), __FILE__, line);
}
test(SysTime(0, UTC()), Month.jan);
test(SysTime(1, UTC()), Month.jan);
test(SysTime(-1, UTC()), Month.dec);
foreach(year; chain(testYearsBC, testYearsAD))
{
foreach(md; testMonthDays)
{
foreach(tod; testTODs)
{
auto dt = DateTime(Date(year, md.month, md.day), tod);
foreach(fs; testFracSecs)
{
foreach(tz; testTZs)
test(SysTime(dt, fs, tz), md.month);
}
}
}
}
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, cst.month));
//static assert(__traits(compiles, ist.month));
}
/++
Month of a Gregorian Year.
Params:
month = The month to set this $(D SysTime)'s month to.
Throws:
$(D DateTimeException) if the given month is not a valid month.
+/
@property void month(Month month)
{
auto hnsecs = adjTime;
auto days = splitUnitsFromHNSecs!"days"(hnsecs) + 1;
if(hnsecs < 0)
{
hnsecs += convert!("hours", "hnsecs")(24);
--days;
}
auto date = Date(cast(int)days);
date.month = month;
immutable newDaysHNSecs = convert!("days", "hnsecs")(date.dayOfGregorianCal - 1);
adjTime = newDaysHNSecs + hnsecs;
}
version(testStdDateTime) unittest
{
static void test(SysTime st, Month month, in SysTime expected, size_t line = __LINE__)
{
st.month = cast(Month)month;
_assertPred!"=="(st, expected, "", __FILE__, line);
}
foreach(st; chain(testSysTimesBC, testSysTimesAD))
{
auto dt = cast(DateTime)st;
foreach(md; testMonthDays)
{
if(st.day > maxDay(dt.year, md.month))
continue;
auto e = SysTime(DateTime(dt.year, md.month, dt.day, dt.hour, dt.minute, dt.second),
st.fracSec,
st.timezone);
test(st, md.month, e);
}
}
foreach(fs; testFracSecs)
{
foreach(tz; testTZs)
{
foreach(tod; testTODs)
{
foreach(year; filter!((a){return yearIsLeapYear(a);})
(chain(testYearsBC, testYearsAD)))
{
test(SysTime(DateTime(Date(year, 1, 29), tod), fs, tz),
Month.feb,
SysTime(DateTime(Date(year, 2, 29), tod), fs, tz));
}
foreach(year; chain(testYearsBC, testYearsAD))
{
test(SysTime(DateTime(Date(year, 1, 28), tod), fs, tz),
Month.feb,
SysTime(DateTime(Date(year, 2, 28), tod), fs, tz));
test(SysTime(DateTime(Date(year, 7, 30), tod), fs, tz),
Month.jun,
SysTime(DateTime(Date(year, 6, 30), tod), fs, tz));
}
}
}
}
foreach(fs; [testFracSecs[0], testFracSecs[$-1]])
{
foreach(tz; testTZs)
{
foreach(tod; testTODsThrown)
{
foreach(year; [testYearsBC[$-3], testYearsBC[$-2],
testYearsBC[$-2], testYearsAD[0],
testYearsAD[$-2], testYearsAD[$-1]])
{
auto day = yearIsLeapYear(year) ? 30 : 29;
auto st1 = SysTime(DateTime(Date(year, 1, day), tod), fs, tz);
assertThrown!DateTimeException(st1.month = Month.feb);
auto st2 = SysTime(DateTime(Date(year, 7, 31), tod), fs, tz);
assertThrown!DateTimeException(st2.month = Month.jun);
}
}
}
}
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(!__traits(compiles, cst.month = 12));
//static assert(!__traits(compiles, ist.month = 12));
}
/++
Day of a Gregorian Month.
Examples:
--------------------
assert(SysTime(DateTime(1999, 7, 6, 9, 7, 5)).day == 6);
assert(SysTime(DateTime(2010, 10, 4, 0, 0, 30)).day == 4);
assert(SysTime(DateTime(-7, 4, 5, 7, 45, 2)).day == 5);
--------------------
+/
@property ubyte day() const nothrow
{
return (cast(Date)this).day;
}
//Verify Examples.
version(testStdDateTime) unittest
{
assert(SysTime(DateTime(1999, 7, 6, 9, 7, 5)).day == 6);
assert(SysTime(DateTime(2010, 10, 4, 0, 0, 30)).day == 4);
assert(SysTime(DateTime(-7, 4, 5, 7, 45, 2)).day == 5);
}
version(testStdDateTime) unittest
{
static void test(SysTime sysTime, int expected, size_t line = __LINE__)
{
_assertPred!"=="(sysTime.day, expected,
format("Value given: %s", sysTime), __FILE__, line);
}
test(SysTime(0, UTC()), 1);
test(SysTime(1, UTC()), 1);
test(SysTime(-1, UTC()), 31);
foreach(year; chain(testYearsBC, testYearsAD))
{
foreach(md; testMonthDays)
{
foreach(tod; testTODs)
{
auto dt = DateTime(Date(year, md.month, md.day), tod);
foreach(tz; testTZs)
{
foreach(fs; testFracSecs)
test(SysTime(dt, fs, tz), md.day);
}
}
}
}
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, cst.day));
//static assert(__traits(compiles, ist.day));
}
/++
Day of a Gregorian Month.
Params:
day = The day of the month to set this $(D SysTime)'s day to.
Throws:
$(D DateTimeException) if the given day is not a valid day of the
current month.
+/
@property void day(int day)
{
auto hnsecs = adjTime;
auto days = splitUnitsFromHNSecs!"days"(hnsecs) + 1;
if(hnsecs < 0)
{
hnsecs += convert!("hours", "hnsecs")(24);
--days;
}
auto date = Date(cast(int)days);
date.day = day;
immutable newDaysHNSecs = convert!("days", "hnsecs")(date.dayOfGregorianCal - 1);
adjTime = newDaysHNSecs + hnsecs;
}
version(testStdDateTime) unittest
{
static void test(SysTime st, int day, in SysTime expected, size_t line = __LINE__)
{
st.day = day;
_assertPred!"=="(st, expected, "", __FILE__, line);
}
foreach(day; chain(testDays))
{
foreach(st; chain(testSysTimesBC, testSysTimesAD))
{
auto dt = cast(DateTime)st;
if(day > maxDay(dt.year, dt.month))
continue;
auto e = SysTime(DateTime(dt.year, dt.month, day, dt.hour, dt.minute, dt.second),
st.fracSec,
st.timezone);
test(st, day, e);
}
}
foreach(tz; testTZs)
{
foreach(tod; testTODs)
{
foreach(fs; testFracSecs)
{
foreach(year; chain(testYearsBC, testYearsAD))
{
foreach(month; EnumMembers!Month)
{
auto st = SysTime(DateTime(Date(year, month, 1), tod), fs, tz);
immutable max = maxDay(year, month);
test(st, max, SysTime(DateTime(Date(year, month, max), tod), fs, tz));
}
}
}
}
}
foreach(tz; testTZs)
{
foreach(tod; testTODsThrown)
{
foreach(fs; [testFracSecs[0], testFracSecs[$-1]])
{
foreach(year; [testYearsBC[$-3], testYearsBC[$-2],
testYearsBC[$-2], testYearsAD[0],
testYearsAD[$-2], testYearsAD[$-1]])
{
foreach(month; EnumMembers!Month)
{
auto st = SysTime(DateTime(Date(year, month, 1), tod), fs, tz);
immutable max = maxDay(year, month);
assertThrown!DateTimeException(st.day = max + 1);
}
}
}
}
}
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(!__traits(compiles, cst.day = 27));
//static assert(!__traits(compiles, ist.day = 27));
}
/++
Hours past midnight.
+/
@property ubyte hour() const nothrow
{
auto hnsecs = adjTime;
auto days = splitUnitsFromHNSecs!"days"(hnsecs) + 1;
if(hnsecs < 0)
{
hnsecs += convert!("hours", "hnsecs")(24);
--days;
}
return cast(ubyte)getUnitsFromHNSecs!"hours"(hnsecs);
}
version(testStdDateTime) unittest
{
static void test(SysTime sysTime, int expected, size_t line = __LINE__)
{
_assertPred!"=="(sysTime.hour, expected,
format("Value given: %s", sysTime), __FILE__, line);
}
test(SysTime(0, UTC()), 0);
test(SysTime(1, UTC()), 0);
test(SysTime(-1, UTC()), 23);
foreach(tz; testTZs)
{
foreach(year; chain(testYearsBC, testYearsAD))
{
foreach(md; testMonthDays)
{
foreach(hour; testHours)
{
foreach(minute; testMinSecs)
{
foreach(second; testMinSecs)
{
auto dt = DateTime(Date(year, md.month, md.day),
TimeOfDay(hour, minute, second));
foreach(fs; testFracSecs)
test(SysTime(dt, fs, tz), hour);
}
}
}
}
}
}
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, cst.hour));
//static assert(__traits(compiles, ist.hour));
}
/++
Hours past midnight.
Params:
hour = The hours to set this $(D SysTime)'s hour to.
Throws:
$(D DateTimeException) if the given hour are not a valid hour of
the day.
+/
@property void hour(int hour)
{
enforceValid!"hours"(hour);
auto hnsecs = adjTime;
auto days = splitUnitsFromHNSecs!"days"(hnsecs);
immutable daysHNSecs = convert!("days", "hnsecs")(days);
immutable negative = hnsecs < 0;
if(negative)
hnsecs += convert!("hours", "hnsecs")(24);
hnsecs = removeUnitsFromHNSecs!"hours"(hnsecs);
hnsecs += convert!("hours", "hnsecs")(hour);
if(negative)
hnsecs -= convert!("hours", "hnsecs")(24);
adjTime = daysHNSecs + hnsecs;
}
version(testStdDateTime) unittest
{
static void test(SysTime st, int hour, in SysTime expected,
size_t line = __LINE__)
{
st.hour = hour;
_assertPred!"=="(st, expected, "", __FILE__, line);
}
foreach(hour; chain(testHours))
{
foreach(st; chain(testSysTimesBC, testSysTimesAD))
{
auto dt = cast(DateTime)st;
auto e = SysTime(DateTime(dt.year, dt.month, dt.day, hour, dt.minute, dt.second),
st.fracSec,
st.timezone);
test(st, hour, e);
}
}
auto st = testSysTimesAD[0];
assertThrown!DateTimeException(st.hour = -1);
assertThrown!DateTimeException(st.hour = 60);
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(!__traits(compiles, cst.hour = 27));
//static assert(!__traits(compiles, ist.hour = 27));
}
/++
Minutes past the current hour.
+/
@property ubyte minute() const nothrow
{
auto hnsecs = adjTime;
auto days = splitUnitsFromHNSecs!"days"(hnsecs) + 1;
if(hnsecs < 0)
{
hnsecs += convert!("hours", "hnsecs")(24);
--days;
}
hnsecs = removeUnitsFromHNSecs!"hours"(hnsecs);
return cast(ubyte)getUnitsFromHNSecs!"minutes"(hnsecs);
}
version(testStdDateTime) unittest
{
static void test(SysTime sysTime, int expected, size_t line = __LINE__)
{
_assertPred!"=="(sysTime.minute, expected,
format("Value given: %s", sysTime), __FILE__, line);
}
test(SysTime(0, UTC()), 0);
test(SysTime(1, UTC()), 0);
test(SysTime(-1, UTC()), 59);
foreach(tz; testTZs)
{
foreach(year; chain(testYearsBC, testYearsAD))
{
foreach(md; testMonthDays)
{
foreach(hour; testHours)
{
foreach(minute; testMinSecs)
{
foreach(second; testMinSecs)
{
auto dt = DateTime(Date(year, md.month, md.day),
TimeOfDay(hour, minute, second));
foreach(fs; testFracSecs)
test(SysTime(dt, fs, tz), minute);
}
}
}
}
}
}
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, cst.minute));
//static assert(__traits(compiles, ist.minute));
}
/++
Minutes past the current hour.
Params:
minutes = The minute to set this $(D SysTime)'s minute to.
Throws:
$(D DateTimeException) if the given minute are not a valid minute
of an hour.
+/
@property void minute(int minute)
{
enforceValid!"minutes"(minute);
auto hnsecs = adjTime;
auto days = splitUnitsFromHNSecs!"days"(hnsecs);
immutable daysHNSecs = convert!("days", "hnsecs")(days);
immutable negative = hnsecs < 0;
if(negative)
hnsecs += convert!("hours", "hnsecs")(24);
immutable hour = splitUnitsFromHNSecs!"hours"(hnsecs);
hnsecs = removeUnitsFromHNSecs!"minutes"(hnsecs);
hnsecs += convert!("hours", "hnsecs")(hour);
hnsecs += convert!("minutes", "hnsecs")(minute);
if(negative)
hnsecs -= convert!("hours", "hnsecs")(24);
adjTime = daysHNSecs + hnsecs;
}
version(testStdDateTime) unittest
{
static void test(SysTime st, int minute, in SysTime expected, size_t line = __LINE__)
{
st.minute = minute;
_assertPred!"=="(st, expected, "", __FILE__, line);
}
foreach(minute; testMinSecs)
{
foreach(st; chain(testSysTimesBC, testSysTimesAD))
{
auto dt = cast(DateTime)st;
auto e = SysTime(DateTime(dt.year, dt.month, dt.day, dt.hour, minute, dt.second),
st.fracSec,
st.timezone);
test(st, minute, e);
}
}
auto st = testSysTimesAD[0];
assertThrown!DateTimeException(st.minute = -1);
assertThrown!DateTimeException(st.minute = 60);
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(!__traits(compiles, cst.minute = 27));
//static assert(!__traits(compiles, ist.minute = 27));
}
/++
Seconds past the current minute.
+/
@property ubyte second() const nothrow
{
auto hnsecs = adjTime;
auto days = splitUnitsFromHNSecs!"days"(hnsecs) + 1;
if(hnsecs < 0)
{
hnsecs += convert!("hours", "hnsecs")(24);
--days;
}
hnsecs = removeUnitsFromHNSecs!"hours"(hnsecs);
hnsecs = removeUnitsFromHNSecs!"minutes"(hnsecs);
return cast(ubyte)getUnitsFromHNSecs!"seconds"(hnsecs);
}
version(testStdDateTime) unittest
{
static void test(SysTime sysTime, int expected, size_t line = __LINE__)
{
_assertPred!"=="(sysTime.second, expected,
format("Value given: %s", sysTime), __FILE__, line);
}
test(SysTime(0, UTC()), 0);
test(SysTime(1, UTC()), 0);
test(SysTime(-1, UTC()), 59);
foreach(tz; testTZs)
{
foreach(year; chain(testYearsBC, testYearsAD))
{
foreach(md; testMonthDays)
{
foreach(hour; testHours)
{
foreach(minute; testMinSecs)
{
foreach(second; testMinSecs)
{
auto dt = DateTime(Date(year, md.month, md.day),
TimeOfDay(hour, minute, second));
foreach(fs; testFracSecs)
test(SysTime(dt, fs, tz), second);
}
}
}
}
}
}
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, cst.second));
//static assert(__traits(compiles, ist.second));
}
/++
Seconds past the current minute.
Params:
second = The second to set this $(D SysTime)'s second to.
Throws:
$(D DateTimeException) if the given second are not a valid second
of a minute.
+/
@property void second(int second)
{
enforceValid!"seconds"(second);
auto hnsecs = adjTime;
auto days = splitUnitsFromHNSecs!"days"(hnsecs);
immutable daysHNSecs = convert!("days", "hnsecs")(days);
immutable negative = hnsecs < 0;
if(negative)
hnsecs += convert!("hours", "hnsecs")(24);
immutable hour = splitUnitsFromHNSecs!"hours"(hnsecs);
immutable minute = splitUnitsFromHNSecs!"minutes"(hnsecs);
hnsecs = removeUnitsFromHNSecs!"seconds"(hnsecs);
hnsecs += convert!("hours", "hnsecs")(hour);
hnsecs += convert!("minutes", "hnsecs")(minute);
hnsecs += convert!("seconds", "hnsecs")(second);
if(negative)
hnsecs -= convert!("hours", "hnsecs")(24);
adjTime = daysHNSecs + hnsecs;
}
version(testStdDateTime) unittest
{
static void test(SysTime st, int second, in SysTime expected,
size_t line = __LINE__)
{
st.second = second;
_assertPred!"=="(st, expected, "", __FILE__, line);
}
foreach(second; testMinSecs)
{
foreach(st; chain(testSysTimesBC, testSysTimesAD))
{
auto dt = cast(DateTime)st;
auto e = SysTime(DateTime(dt.year, dt.month, dt.day, dt.hour, dt.minute, second),
st.fracSec,
st.timezone);
test(st, second, e);
}
}
auto st = testSysTimesAD[0];
assertThrown!DateTimeException(st.second = -1);
assertThrown!DateTimeException(st.second = 60);
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(!__traits(compiles, cst.seconds = 27));
//static assert(!__traits(compiles, ist.seconds = 27));
}
/++
Fractional seconds passed the second.
+/
@property FracSec fracSec() const nothrow
{
try
{
auto hnsecs = removeUnitsFromHNSecs!"days"(adjTime);
if(hnsecs < 0)
hnsecs += convert!("hours", "hnsecs")(24);
hnsecs = removeUnitsFromHNSecs!"seconds"(hnsecs);
return FracSec.from!"hnsecs"(cast(int)hnsecs);
}
catch(Exception e)
assert(0, "FracSec.from!\"hnsecs\"() threw.");
}
version(testStdDateTime) unittest
{
static void test(SysTime sysTime, FracSec expected, size_t line = __LINE__)
{
_assertPred!"=="(sysTime.fracSec, expected,
format("Value given: %s", sysTime), __FILE__, line);
}
test(SysTime(0, UTC()), FracSec.from!"hnsecs"(0));
test(SysTime(1, UTC()), FracSec.from!"hnsecs"(1));
test(SysTime(-1, UTC()), FracSec.from!"hnsecs"(9_999_999));
foreach(tz; testTZs)
{
foreach(year; chain(testYearsBC, testYearsAD))
{
foreach(md; testMonthDays)
{
foreach(hour; testHours)
{
foreach(minute; testMinSecs)
{
foreach(second; testMinSecs)
{
auto dt = DateTime(Date(year, md.month, md.day),
TimeOfDay(hour, minute, second));
foreach(fs; testFracSecs)
test(SysTime(dt, fs, tz), fs);
}
}
}
}
}
}
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, cst.fracSec));
//static assert(__traits(compiles, ist.fracSec));
}
/++
Fractional seconds passed the second.
Params:
fracSec = The fractional seconds to set this $(D SysTimes)'s
fractional seconds to.
+/
@property void fracSec(FracSec fracSec) nothrow
{
auto hnsecs = adjTime;
auto days = splitUnitsFromHNSecs!"days"(hnsecs);
immutable daysHNSecs = convert!("days", "hnsecs")(days);
immutable negative = hnsecs < 0;
if(negative)
hnsecs += convert!("hours", "hnsecs")(24);
immutable hour = splitUnitsFromHNSecs!"hours"(hnsecs);
immutable minute = splitUnitsFromHNSecs!"minutes"(hnsecs);
immutable second = getUnitsFromHNSecs!"seconds"(hnsecs);
hnsecs = fracSec.hnsecs;
hnsecs += convert!("hours", "hnsecs")(hour);
hnsecs += convert!("minutes", "hnsecs")(minute);
hnsecs += convert!("seconds", "hnsecs")(second);
if(negative)
hnsecs -= convert!("hours", "hnsecs")(24);
adjTime = daysHNSecs + hnsecs;
}
version(testStdDateTime) unittest
{
static void test(SysTime st, FracSec fracSec, in SysTime expected, size_t line = __LINE__)
{
st.fracSec = fracSec;
_assertPred!"=="(st, expected, "", __FILE__, line);
}
foreach(fracSec; testFracSecs)
{
foreach(st; chain(testSysTimesBC, testSysTimesAD))
{
auto dt = cast(DateTime)st;
auto e = SysTime(DateTime(dt.year, dt.month, dt.day, dt.hour, dt.minute, dt.second),
fracSec,
st.timezone);
test(st, fracSec, e);
}
}
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(!__traits(compiles, cst.fracSec = FracSec.from!"msecs"(7)));
//static assert(!__traits(compiles, ist.fracSec = FracSec.from!"msecs"(7)));
}
/++
The total hnsecs from midnight, January 1st, 1 A.D. UTC. This is the
internal representation of $(D SysTime).
+/
@property long stdTime() const pure nothrow
{
return _stdTime;
}
version(testStdDateTime) unittest
{
_assertPred!"=="(SysTime(0).stdTime, 0);
_assertPred!"=="(SysTime(1).stdTime, 1);
_assertPred!"=="(SysTime(-1).stdTime, -1);
_assertPred!"=="(SysTime(DateTime(1, 1, 1, 0, 0, 33), FracSec.from!"hnsecs"(502), UTC()).stdTime,
330000502L);
_assertPred!"=="(SysTime(DateTime(1970, 1, 1, 0, 0, 0), UTC()).stdTime,
621355968000000000L);
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, cst.stdTime));
//static assert(__traits(compiles, ist.stdTime));
}
/++
The total hnsecs from midnight, January 1st, 1 A.D. UTC. This is the
internal representation of $(D SysTime).
Params:
stdTime = The number of hnsecs since January 1st, 1 A.D. UTC.
+/
@property void stdTime(long stdTime) pure nothrow
{
_stdTime = stdTime;
}
version(testStdDateTime) unittest
{
static void test(long stdTime, in SysTime expected, size_t line = __LINE__)
{
auto st = SysTime(0, UTC());
st.stdTime = stdTime;
_assertPred!"=="(st, expected);
}
test(0, SysTime(Date(1, 1, 1), UTC()));
test(1, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(1), UTC()));
test(-1, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999), UTC()));
test(330_000_502L, SysTime(DateTime(1, 1, 1, 0, 0, 33), FracSec.from!"hnsecs"(502), UTC()));
test(621_355_968_000_000_000L, SysTime(DateTime(1970, 1, 1, 0, 0, 0), UTC()));
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(!__traits(compiles, cst.stdTime = 27));
//static assert(!__traits(compiles, ist.stdTime = 27));
}
/++
The current time zone of this $(D SysTime). Its internal time is always
kept in UTC, so there are no conversion issues between time zones due to
DST. Functions which return all or part of the time - such as hours -
adjust the time to this $(D SysTime)'s time zone before returning.
+/
@property immutable(TimeZone) timezone() const pure nothrow
{
return _timezone.get;
}
/++
The current time zone of this $(D SysTime). It's internal time is always
kept in UTC, so there are no conversion issues between time zones due to
DST. Functions which return all or part of the time - such as hours -
adjust the time to this $(D SysTime)'s time zone before returning.
Params:
tz = The $(D TimeZone) to set this $(D SysTime)'s time zone to.
+/
@property void timezone(immutable TimeZone timezone) pure nothrow
{
if(timezone is null)
_timezone = LocalTime();
else
_timezone = timezone;
}
/++
Returns whether DST is in effect for this $(D SysTime).
+/
@property bool dstInEffect() const nothrow
{
return _timezone.dstInEffect(_stdTime);
//This function's unit testing is done in the time zone classes.
}
/++
Returns a $(D SysTime) with the same std time as this one, but with
$(D LocalTime) as its time zone.
+/
SysTime toLocalTime() const nothrow
{
return SysTime(_stdTime, LocalTime());
}
unittest
{
version(testStdDateTime)
{
{
auto sysTime = SysTime(DateTime(1982, 1, 4, 8, 59, 7), FracSec.from!"hnsecs"(27));
_assertPred!"=="(sysTime, sysTime.toLocalTime());
_assertPred!"=="(sysTime._stdTime, sysTime.toLocalTime()._stdTime);
assert(sysTime.toLocalTime().timezone is LocalTime());
assert(sysTime.toLocalTime().timezone is sysTime.timezone);
assert(sysTime.toLocalTime().timezone !is UTC());
}
{
immutable stz = new SimpleTimeZone(-3 * 60);
auto sysTime = SysTime(DateTime(1982, 1, 4, 8, 59, 7), FracSec.from!"hnsecs"(27), stz);
_assertPred!"=="(sysTime, sysTime.toLocalTime());
_assertPred!"=="(sysTime._stdTime, sysTime.toLocalTime()._stdTime);
assert(sysTime.toLocalTime().timezone is LocalTime());
assert(sysTime.toLocalTime().timezone !is UTC());
assert(sysTime.toLocalTime().timezone !is stz);
}
}
}
/++
Returns a $(D SysTime) with the same std time as this one, but with
$(D UTC) as its time zone.
+/
SysTime toUTC() const pure nothrow
{
return SysTime(_stdTime, UTC());
}
unittest
{
version(testStdDateTime)
{
auto sysTime = SysTime(DateTime(1982, 1, 4, 8, 59, 7), FracSec.from!"hnsecs"(27));
_assertPred!"=="(sysTime, sysTime.toUTC());
_assertPred!"=="(sysTime._stdTime, sysTime.toUTC()._stdTime);
assert(sysTime.toUTC().timezone is UTC());
assert(sysTime.toUTC().timezone !is LocalTime());
assert(sysTime.toUTC().timezone !is sysTime.timezone);
}
}
/++
Returns a $(D SysTime) with the same std time as this one, but with
given time zone as its time zone.
+/
SysTime toOtherTZ(immutable TimeZone tz) const pure nothrow
{
if(tz is null)
return SysTime(_stdTime, LocalTime());
else
return SysTime(_stdTime, tz);
}
unittest
{
version(testStdDateTime)
{
immutable stz = new SimpleTimeZone(11 * 60);
auto sysTime = SysTime(DateTime(1982, 1, 4, 8, 59, 7), FracSec.from!"hnsecs"(27));
_assertPred!"=="(sysTime, sysTime.toOtherTZ(stz));
_assertPred!"=="(sysTime._stdTime, sysTime.toOtherTZ(stz)._stdTime);
assert(sysTime.toOtherTZ(stz).timezone is stz);
assert(sysTime.toOtherTZ(stz).timezone !is LocalTime());
assert(sysTime.toOtherTZ(stz).timezone !is UTC());
}
}
/++
Returns a $(D time_t) which represents the same time as this
$(D SysTime).
Note that like all conversions in std.datetime, this is a truncating
conversion.
If $(D time_t) is 32 bits, rather than 64, and the result can't fit in a
32-bit value, then the closest value that can be held in 32 bits will be
used (so $(D time_t.max) if it goes over and $(D time_t.min) if it goes
under).
+/
time_t toUnixTime() const pure nothrow
{
return stdTimeToUnixTime(_stdTime);
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(SysTime(DateTime(1970, 1, 1), UTC()).toUnixTime, 0);
_assertPred!"=="(SysTime(DateTime(1970, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(1), UTC()).toUnixTime, 0);
_assertPred!"=="(SysTime(DateTime(1970, 1, 1, 0, 0, 0), FracSec.from!"usecs"(1), UTC()).toUnixTime, 0);
_assertPred!"=="(SysTime(DateTime(1970, 1, 1, 0, 0, 0), FracSec.from!"msecs"(1), UTC()).toUnixTime, 0);
_assertPred!"=="(SysTime(DateTime(1970, 1, 1, 0, 0, 1), UTC()).toUnixTime, 1);
_assertPred!"=="(SysTime(DateTime(1969, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999), UTC()).toUnixTime, 0);
_assertPred!"=="(SysTime(DateTime(1969, 12, 31, 23, 59, 59), FracSec.from!"usecs"(999_999), UTC()).toUnixTime, 0);
_assertPred!"=="(SysTime(DateTime(1969, 12, 31, 23, 59, 59), FracSec.from!"msecs"(999), UTC()).toUnixTime, 0);
_assertPred!"=="(SysTime(DateTime(1969, 12, 31, 23, 59, 59), UTC()).toUnixTime, -1);
}
}
/++
Returns a $(D timeval) which represents this $(D SysTime).
Note that like all conversions in std.datetime, this is a truncating
conversion.
If $(D time_t) is 32 bits, rather than 64, and the result can't fit in a
32-bit value, then the closest value that can be held in 32 bits will be
used for $(D tv_sec). (so $(D time_t.max) if it goes over and
$(D time_t.min) if it goes under).
+/
timeval toTimeVal() const pure nothrow
{
immutable tv_sec = toUnixTime();
immutable fracHNSecs = removeUnitsFromHNSecs!"seconds"(_stdTime - 621355968000000000L);
immutable tv_usec = cast(int)convert!("hnsecs", "usecs")(fracHNSecs);
return timeval(tv_sec, tv_usec);
}
unittest
{
version(testStdDateTime)
{
assert(SysTime(DateTime(1970, 1, 1), UTC()).toTimeVal() == timeval(0, 0));
assert(SysTime(DateTime(1970, 1, 1), FracSec.from!"hnsecs"(9), UTC()).toTimeVal() == timeval(0, 0));
assert(SysTime(DateTime(1970, 1, 1), FracSec.from!"hnsecs"(10), UTC()).toTimeVal() == timeval(0, 1));
assert(SysTime(DateTime(1970, 1, 1), FracSec.from!"usecs"(7), UTC()).toTimeVal() == timeval(0, 7));
assert(SysTime(DateTime(1970, 1, 1, 0, 0, 1), UTC()).toTimeVal() == timeval(1, 0));
assert(SysTime(DateTime(1970, 1, 1, 0, 0, 1), FracSec.from!"hnsecs"(9), UTC()).toTimeVal() == timeval(1, 0));
assert(SysTime(DateTime(1970, 1, 1, 0, 0, 1), FracSec.from!"hnsecs"(10), UTC()).toTimeVal() == timeval(1, 1));
assert(SysTime(DateTime(1970, 1, 1, 0, 0, 1), FracSec.from!"usecs"(7), UTC()).toTimeVal() == timeval(1, 7));
assert(SysTime(DateTime(1969, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999), UTC()).toTimeVal() ==
timeval(0, 0));
assert(SysTime(DateTime(1969, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_990), UTC()).toTimeVal() ==
timeval(0, -1));
assert(SysTime(DateTime(1969, 12, 31, 23, 59, 59), FracSec.from!"usecs"(999_999), UTC()).toTimeVal() ==
timeval(0, -1));
assert(SysTime(DateTime(1969, 12, 31, 23, 59, 59), FracSec.from!"usecs"(999), UTC()).toTimeVal() ==
timeval(0, -999_001));
assert(SysTime(DateTime(1969, 12, 31, 23, 59, 59), FracSec.from!"msecs"(999), UTC()).toTimeVal() ==
timeval(0, -1000));
assert(SysTime(DateTime(1969, 12, 31, 23, 59, 59), UTC()).toTimeVal() == timeval(-1, 0));
assert(SysTime(DateTime(1969, 12, 31, 23, 59, 58), FracSec.from!"usecs"(17), UTC()).toTimeVal() ==
timeval(-1, -999_983));
}
}
/++
Returns a $(D tm) which represents this $(D SysTime).
+/
tm toTM() const nothrow
{
try
{
auto dateTime = cast(DateTime)this;
tm timeInfo;
timeInfo.tm_sec = dateTime.second;
timeInfo.tm_min = dateTime.minute;
timeInfo.tm_hour = dateTime.hour;
timeInfo.tm_mday = dateTime.day;
timeInfo.tm_mon = dateTime.month - 1;
timeInfo.tm_year = dateTime.year - 1900;
timeInfo.tm_wday = dateTime.dayOfWeek;
timeInfo.tm_yday = dateTime.dayOfYear - 1;
timeInfo.tm_isdst = _timezone.dstInEffect(_stdTime);
version(Posix)
{
char[] zone = (timeInfo.tm_isdst ? _timezone.dstName : _timezone.stdName).dup;
zone ~= "\0";
timeInfo.tm_gmtoff = cast(int)convert!("hnsecs", "seconds")(adjTime - _stdTime);
timeInfo.tm_zone = zone.ptr;
}
return timeInfo;
}
catch(Exception e)
assert(0, "Either DateTime's constructor threw.");
}
unittest
{
version(testStdDateTime)
{
version(Posix)
{
scope(exit) clearTZEnvVar();
setTZEnvVar("America/Los_Angeles");
}
{
auto timeInfo = SysTime(DateTime(1970, 1, 1)).toTM();
_assertPred!"=="(timeInfo.tm_sec, 0);
_assertPred!"=="(timeInfo.tm_min, 0);
_assertPred!"=="(timeInfo.tm_hour, 0);
_assertPred!"=="(timeInfo.tm_mday, 1);
_assertPred!"=="(timeInfo.tm_mon, 0);
_assertPred!"=="(timeInfo.tm_year, 70);
_assertPred!"=="(timeInfo.tm_wday, 4);
_assertPred!"=="(timeInfo.tm_yday, 0);
version(Posix)
_assertPred!"=="(timeInfo.tm_isdst, 0);
else version(Windows)
assert(timeInfo.tm_isdst == 0 || timeInfo.tm_isdst == 1);
version(Posix)
{
_assertPred!"=="(timeInfo.tm_gmtoff, -8 * 60 * 60);
_assertPred!"=="(to!string(timeInfo.tm_zone), "PST");
}
}
{
auto timeInfo = SysTime(DateTime(2010, 7, 4, 12, 15, 7), FracSec.from!"hnsecs"(15)).toTM();
_assertPred!"=="(timeInfo.tm_sec, 7);
_assertPred!"=="(timeInfo.tm_min, 15);
_assertPred!"=="(timeInfo.tm_hour, 12);
_assertPred!"=="(timeInfo.tm_mday, 4);
_assertPred!"=="(timeInfo.tm_mon, 6);
_assertPred!"=="(timeInfo.tm_year, 110);
_assertPred!"=="(timeInfo.tm_wday, 0);
_assertPred!"=="(timeInfo.tm_yday, 184);
version(Posix)
_assertPred!"=="(timeInfo.tm_isdst, 1);
else version(Windows)
assert(timeInfo.tm_isdst == 0 || timeInfo.tm_isdst == 1);
version(Posix)
{
_assertPred!"=="(timeInfo.tm_gmtoff, -7 * 60 * 60);
_assertPred!"=="(to!string(timeInfo.tm_zone), "PDT");
}
}
}
}
/++
Adds the given number of years or months to this $(D SysTime). A
negative number will subtract.
Note that if day overflow is allowed, and the date with the adjusted
year/month overflows the number of days in the new month, then the month
will be incremented by one, and the day set to the number of days
overflowed. (e.g. if the day were 31 and the new month were June, then
the month would be incremented to July, and the new day would be 1). If
day overflow is not allowed, then the day will be set to the last valid
day in the month (e.g. June 31st would become June 30th).
Params:
units = The type of units to add ("years" or "months").
value = The number of months or years to add to this
$(D SysTime).
allowOverflow = Whether the days should be allowed to overflow,
causing the month to increment.
Examples:
--------------------
auto st1 = SysTime(DateTime(2010, 1, 1, 12, 30, 33));
st1.add!"months"(11);
assert(st1 == SysTime(DateTime(2010, 12, 1, 12, 30, 33)));
auto st2 = SysTime(DateTime(2010, 1, 1, 12, 30, 33));
st2.add!"months"(-11);
assert(st2 == SysTime(DateTime(2009, 2, 1, 12, 30, 33)));
auto st3 = SysTime(DateTime(2000, 2, 29, 12, 30, 33));
st3.add!"years"(1);
assert(st3 == SysTime(DateTime(2001, 3, 1, 12, 30, 33)));
auto st4 = SysTime(DateTime(2000, 2, 29, 12, 30, 33));
st4.add!"years"(1, AllowDayOverflow.no);
assert(st4 == SysTime(DateTime(2001, 2, 28, 12, 30, 33)));
--------------------
+/
ref SysTime add(string units)(long value, AllowDayOverflow allowOverflow = AllowDayOverflow.yes) nothrow
if(units == "years" ||
units == "months")
{
auto hnsecs = adjTime;
auto days = splitUnitsFromHNSecs!"days"(hnsecs) + 1;
if(hnsecs < 0)
{
hnsecs += convert!("hours", "hnsecs")(24);
--days;
}
auto date = Date(cast(int)days);
date.add!units(value, allowOverflow);
days = date.dayOfGregorianCal - 1;
if(days < 0)
{
hnsecs -= convert!("hours", "hnsecs")(24);
++days;
}
immutable newDaysHNSecs = convert!("days", "hnsecs")(days);
adjTime = newDaysHNSecs + hnsecs;
return this;
}
//Verify Examples.
unittest
{
version (testStdDateTime)
{
auto st1 = SysTime(DateTime(2010, 1, 1, 12, 30, 33));
st1.add!"months"(11);
assert(st1 == SysTime(DateTime(2010, 12, 1, 12, 30, 33)));
auto st2 = SysTime(DateTime(2010, 1, 1, 12, 30, 33));
st2.add!"months"(-11);
assert(st2 == SysTime(DateTime(2009, 2, 1, 12, 30, 33)));
auto st3 = SysTime(DateTime(2000, 2, 29, 12, 30, 33));
st3.add!"years"(1);
assert(st3 == SysTime(DateTime(2001, 3, 1, 12, 30, 33)));
auto st4 = SysTime(DateTime(2000, 2, 29, 12, 30, 33));
st4.add!"years"(1, AllowDayOverflow.no);
assert(st4 == SysTime(DateTime(2001, 2, 28, 12, 30, 33)));
}
}
//Test add!"years"() with AllowDayOverlow.yes
unittest
{
version(testStdDateTime)
{
//Test A.D.
{
auto sysTime = SysTime(Date(1999, 7, 6));
sysTime.add!"years"(7);
_assertPred!"=="(sysTime, SysTime(Date(2006, 7, 6)));
sysTime.add!"years"(-9);
_assertPred!"=="(sysTime, SysTime(Date(1997, 7, 6)));
}
{
auto sysTime = SysTime(Date(1999, 2, 28));
sysTime.add!"years"(1);
_assertPred!"=="(sysTime, SysTime(Date(2000, 2, 28)));
}
{
auto sysTime = SysTime(Date(2000, 2, 29));
sysTime.add!"years"(-1);
_assertPred!"=="(sysTime, SysTime(Date(1999, 3, 1)));
}
{
auto sysTime = SysTime(DateTime(1999, 7, 6, 12, 7, 3), FracSec.from!"msecs"(234));
sysTime.add!"years"(7);
_assertPred!"=="(sysTime, SysTime(DateTime(2006, 7, 6, 12, 7, 3), FracSec.from!"msecs"(234)));
sysTime.add!"years"(-9);
_assertPred!"=="(sysTime, SysTime(DateTime(1997, 7, 6, 12, 7, 3), FracSec.from!"msecs"(234)));
}
{
auto sysTime = SysTime(DateTime(1999, 2, 28, 0, 7, 2), FracSec.from!"usecs"(1207));
sysTime.add!"years"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(2000, 2, 28, 0, 7, 2), FracSec.from!"usecs"(1207)));
}
{
auto sysTime = SysTime(DateTime(2000, 2, 29, 0, 7, 2), FracSec.from!"usecs"(1207));
sysTime.add!"years"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(1999, 3, 1, 0, 7, 2), FracSec.from!"usecs"(1207)));
}
//Test B.C.
{
auto sysTime = SysTime(Date(-1999, 7, 6));
sysTime.add!"years"(-7);
_assertPred!"=="(sysTime, SysTime(Date(-2006, 7, 6)));
sysTime.add!"years"(9);
_assertPred!"=="(sysTime, SysTime(Date(-1997, 7, 6)));
}
{
auto sysTime = SysTime(Date(-1999, 2, 28));
sysTime.add!"years"(-1);
_assertPred!"=="(sysTime, SysTime(Date(-2000, 2, 28)));
}
{
auto sysTime = SysTime(Date(-2000, 2, 29));
sysTime.add!"years"(1);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 3, 1)));
}
{
auto sysTime = SysTime(DateTime(-1999, 7, 6, 12, 7, 3), FracSec.from!"msecs"(234));
sysTime.add!"years"(-7);
_assertPred!"=="(sysTime, SysTime(DateTime(-2006, 7, 6, 12, 7, 3), FracSec.from!"msecs"(234)));
sysTime.add!"years"(9);
_assertPred!"=="(sysTime, SysTime(DateTime(-1997, 7, 6, 12, 7, 3), FracSec.from!"msecs"(234)));
}
{
auto sysTime = SysTime(DateTime(-1999, 2, 28, 3, 3, 3), FracSec.from!"hnsecs"(3));
sysTime.add!"years"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(-2000, 2, 28, 3, 3, 3), FracSec.from!"hnsecs"(3)));
}
{
auto sysTime = SysTime(DateTime(-2000, 2, 29, 3, 3, 3), FracSec.from!"hnsecs"(3));
sysTime.add!"years"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(-1999, 3, 1, 3, 3, 3), FracSec.from!"hnsecs"(3)));
}
//Test Both
{
auto sysTime = SysTime(Date(4, 7, 6));
sysTime.add!"years"(-5);
_assertPred!"=="(sysTime, SysTime(Date(-1, 7, 6)));
sysTime.add!"years"(5);
_assertPred!"=="(sysTime, SysTime(Date(4, 7, 6)));
}
{
auto sysTime = SysTime(Date(-4, 7, 6));
sysTime.add!"years"(5);
_assertPred!"=="(sysTime, SysTime(Date(1, 7, 6)));
sysTime.add!"years"(-5);
_assertPred!"=="(sysTime, SysTime(Date(-4, 7, 6)));
}
{
auto sysTime = SysTime(Date(4, 7, 6));
sysTime.add!"years"(-8);
_assertPred!"=="(sysTime, SysTime(Date(-4, 7, 6)));
sysTime.add!"years"(8);
_assertPred!"=="(sysTime, SysTime(Date(4, 7, 6)));
}
{
auto sysTime = SysTime(Date(-4, 7, 6));
sysTime.add!"years"(8);
_assertPred!"=="(sysTime, SysTime(Date(4, 7, 6)));
sysTime.add!"years"(-8);
_assertPred!"=="(sysTime, SysTime(Date(-4, 7, 6)));
}
{
auto sysTime = SysTime(Date(-4, 2, 29));
sysTime.add!"years"(5);
_assertPred!"=="(sysTime, SysTime(Date(1, 3, 1)));
}
{
auto sysTime = SysTime(Date(4, 2, 29));
sysTime.add!"years"(-5);
_assertPred!"=="(sysTime, SysTime(Date(-1, 3, 1)));
}
{
auto sysTime = SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0));
sysTime.add!"years"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
sysTime.add!"years"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
}
{
auto sysTime = SysTime(DateTime(1, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999));
sysTime.add!"years"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
sysTime.add!"years"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
}
{
auto sysTime = SysTime(DateTime(0, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0));
sysTime.add!"years"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
sysTime.add!"years"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
}
{
auto sysTime = SysTime(DateTime(0, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999));
sysTime.add!"years"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
sysTime.add!"years"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
}
{
auto sysTime = SysTime(DateTime(4, 7, 6, 14, 7, 1), FracSec.from!"usecs"(54329));
sysTime.add!"years"(-5);
_assertPred!"=="(sysTime, SysTime(DateTime(-1, 7, 6, 14, 7, 1), FracSec.from!"usecs"(54329)));
sysTime.add!"years"(5);
_assertPred!"=="(sysTime, SysTime(DateTime(4, 7, 6, 14, 7, 1), FracSec.from!"usecs"(54329)));
}
{
auto sysTime = SysTime(DateTime(-4, 7, 6, 14, 7, 1), FracSec.from!"usecs"(54329));
sysTime.add!"years"(5);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 7, 6, 14, 7, 1), FracSec.from!"usecs"(54329)));
sysTime.add!"years"(-5);
_assertPred!"=="(sysTime, SysTime(DateTime(-4, 7, 6, 14, 7, 1), FracSec.from!"usecs"(54329)));
}
{
auto sysTime = SysTime(DateTime(-4, 2, 29, 5, 5, 5), FracSec.from!"msecs"(555));
sysTime.add!"years"(5);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 3, 1, 5, 5, 5), FracSec.from!"msecs"(555)));
}
{
auto sysTime = SysTime(DateTime(4, 2, 29, 5, 5, 5), FracSec.from!"msecs"(555));
sysTime.add!"years"(-5);
_assertPred!"=="(sysTime, SysTime(DateTime(-1, 3, 1, 5, 5, 5), FracSec.from!"msecs"(555)));
}
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(!__traits(compiles, cst.add!"years"(4)));
//static assert(!__traits(compiles, ist.add!"years"(4)));
}
}
//Test add!"years"() with AllowDayOverlow.no
unittest
{
version(testStdDateTime)
{
//Test A.D.
{
auto sysTime = SysTime(Date(1999, 7, 6));
sysTime.add!"years"(7, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(2006, 7, 6)));
sysTime.add!"years"(-9, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1997, 7, 6)));
}
{
auto sysTime = SysTime(Date(1999, 2, 28));
sysTime.add!"years"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(2000, 2, 28)));
}
{
auto sysTime = SysTime(Date(2000, 2, 29));
sysTime.add!"years"(-1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 2, 28)));
}
{
auto sysTime = SysTime(DateTime(1999, 7, 6, 12, 7, 3), FracSec.from!"msecs"(234));
sysTime.add!"years"(7, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(2006, 7, 6, 12, 7, 3), FracSec.from!"msecs"(234)));
sysTime.add!"years"(-9, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1997, 7, 6, 12, 7, 3), FracSec.from!"msecs"(234)));
}
{
auto sysTime = SysTime(DateTime(1999, 2, 28, 0, 7, 2), FracSec.from!"usecs"(1207));
sysTime.add!"years"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(2000, 2, 28, 0, 7, 2), FracSec.from!"usecs"(1207)));
}
{
auto sysTime = SysTime(DateTime(2000, 2, 29, 0, 7, 2), FracSec.from!"usecs"(1207));
sysTime.add!"years"(-1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1999, 2, 28, 0, 7, 2), FracSec.from!"usecs"(1207)));
}
//Test B.C.
{
auto sysTime = SysTime(Date(-1999, 7, 6));
sysTime.add!"years"(-7, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-2006, 7, 6)));
sysTime.add!"years"(9, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1997, 7, 6)));
}
{
auto sysTime = SysTime(Date(-1999, 2, 28));
sysTime.add!"years"(-1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-2000, 2, 28)));
}
{
auto sysTime = SysTime(Date(-2000, 2, 29));
sysTime.add!"years"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 2, 28)));
}
{
auto sysTime = SysTime(DateTime(-1999, 7, 6, 12, 7, 3), FracSec.from!"msecs"(234));
sysTime.add!"years"(-7, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(-2006, 7, 6, 12, 7, 3), FracSec.from!"msecs"(234)));
sysTime.add!"years"(9, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(-1997, 7, 6, 12, 7, 3), FracSec.from!"msecs"(234)));
}
{
auto sysTime = SysTime(DateTime(-1999, 2, 28, 3, 3, 3), FracSec.from!"hnsecs"(3));
sysTime.add!"years"(-1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(-2000, 2, 28, 3, 3, 3), FracSec.from!"hnsecs"(3)));
}
{
auto sysTime = SysTime(DateTime(-2000, 2, 29, 3, 3, 3), FracSec.from!"hnsecs"(3));
sysTime.add!"years"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(-1999, 2, 28, 3, 3, 3), FracSec.from!"hnsecs"(3)));
}
//Test Both
{
auto sysTime = SysTime(Date(4, 7, 6));
sysTime.add!"years"(-5, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1, 7, 6)));
sysTime.add!"years"(5, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(4, 7, 6)));
}
{
auto sysTime = SysTime(Date(-4, 7, 6));
sysTime.add!"years"(5, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1, 7, 6)));
sysTime.add!"years"(-5, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-4, 7, 6)));
}
{
auto sysTime = SysTime(Date(4, 7, 6));
sysTime.add!"years"(-8, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-4, 7, 6)));
sysTime.add!"years"(8, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(4, 7, 6)));
}
{
auto sysTime = SysTime(Date(-4, 7, 6));
sysTime.add!"years"(8, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(4, 7, 6)));
sysTime.add!"years"(-8, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-4, 7, 6)));
}
{
auto sysTime = SysTime(Date(-4, 2, 29));
sysTime.add!"years"(5, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1, 2, 28)));
}
{
auto sysTime = SysTime(Date(4, 2, 29));
sysTime.add!"years"(-5, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1, 2, 28)));
}
{
auto sysTime = SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0));
sysTime.add!"years"(-1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
sysTime.add!"years"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
}
{
auto sysTime = SysTime(DateTime(1, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999));
sysTime.add!"years"(-1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
sysTime.add!"years"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
}
{
auto sysTime = SysTime(DateTime(0, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0));
sysTime.add!"years"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
sysTime.add!"years"(-1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
}
{
auto sysTime = SysTime(DateTime(0, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999));
sysTime.add!"years"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
sysTime.add!"years"(-1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
}
{
auto sysTime = SysTime(DateTime(4, 7, 6, 14, 7, 1), FracSec.from!"usecs"(54329));
sysTime.add!"years"(-5);
_assertPred!"=="(sysTime, SysTime(DateTime(-1, 7, 6, 14, 7, 1), FracSec.from!"usecs"(54329)));
sysTime.add!"years"(5);
_assertPred!"=="(sysTime, SysTime(DateTime(4, 7, 6, 14, 7, 1), FracSec.from!"usecs"(54329)));
}
{
auto sysTime = SysTime(DateTime(4, 7, 6, 14, 7, 1), FracSec.from!"usecs"(54329));
sysTime.add!"years"(-5, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(-1, 7, 6, 14, 7, 1), FracSec.from!"usecs"(54329)));
sysTime.add!"years"(5, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(4, 7, 6, 14, 7, 1), FracSec.from!"usecs"(54329)));
}
{
auto sysTime = SysTime(DateTime(-4, 7, 6, 14, 7, 1), FracSec.from!"usecs"(54329));
sysTime.add!"years"(5, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 7, 6, 14, 7, 1), FracSec.from!"usecs"(54329)));
sysTime.add!"years"(-5, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(-4, 7, 6, 14, 7, 1), FracSec.from!"usecs"(54329)));
}
{
auto sysTime = SysTime(DateTime(-4, 2, 29, 5, 5, 5), FracSec.from!"msecs"(555));
sysTime.add!"years"(5, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 2, 28, 5, 5, 5), FracSec.from!"msecs"(555)));
}
{
auto sysTime = SysTime(DateTime(4, 2, 29, 5, 5, 5), FracSec.from!"msecs"(555));
sysTime.add!"years"(-5, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(-1, 2, 28, 5, 5, 5), FracSec.from!"msecs"(555)));
}
}
}
//Test add!"months"() with AllowDayOverlow.yes
unittest
{
version(testStdDateTime)
{
//Test A.D.
{
auto sysTime = SysTime(Date(1999, 7, 6));
sysTime.add!"months"(3);
_assertPred!"=="(sysTime, SysTime(Date(1999, 10, 6)));
sysTime.add!"months"(-4);
_assertPred!"=="(sysTime, SysTime(Date(1999, 6, 6)));
}
{
auto sysTime = SysTime(Date(1999, 7, 6));
sysTime.add!"months"(6);
_assertPred!"=="(sysTime, SysTime(Date(2000, 1, 6)));
sysTime.add!"months"(-6);
_assertPred!"=="(sysTime, SysTime(Date(1999, 7, 6)));
}
{
auto sysTime = SysTime(Date(1999, 7, 6));
sysTime.add!"months"(27);
_assertPred!"=="(sysTime, SysTime(Date(2001, 10, 6)));
sysTime.add!"months"(-28);
_assertPred!"=="(sysTime, SysTime(Date(1999, 6, 6)));
}
{
auto sysTime = SysTime(Date(1999, 5, 31));
sysTime.add!"months"(1);
_assertPred!"=="(sysTime, SysTime(Date(1999, 7, 1)));
}
{
auto sysTime = SysTime(Date(1999, 5, 31));
sysTime.add!"months"(-1);
_assertPred!"=="(sysTime, SysTime(Date(1999, 5, 1)));
}
{
auto sysTime = SysTime(Date(1999, 2, 28));
sysTime.add!"months"(12);
_assertPred!"=="(sysTime, SysTime(Date(2000, 2, 28)));
}
{
auto sysTime = SysTime(Date(2000, 2, 29));
sysTime.add!"months"(12);
_assertPred!"=="(sysTime, SysTime(Date(2001, 3, 1)));
}
{
auto sysTime = SysTime(Date(1999, 7, 31));
sysTime.add!"months"(1);
_assertPred!"=="(sysTime, SysTime(Date(1999, 8, 31)));
sysTime.add!"months"(1);
_assertPred!"=="(sysTime, SysTime(Date(1999, 10, 1)));
}
{
auto sysTime = SysTime(Date(1998, 8, 31));
sysTime.add!"months"(13);
_assertPred!"=="(sysTime, SysTime(Date(1999, 10, 1)));
sysTime.add!"months"(-13);
_assertPred!"=="(sysTime, SysTime(Date(1998, 9, 1)));
}
{
auto sysTime = SysTime(Date(1997, 12, 31));
sysTime.add!"months"(13);
_assertPred!"=="(sysTime, SysTime(Date(1999, 1, 31)));
sysTime.add!"months"(-13);
_assertPred!"=="(sysTime, SysTime(Date(1997, 12, 31)));
}
{
auto sysTime = SysTime(Date(1997, 12, 31));
sysTime.add!"months"(14);
_assertPred!"=="(sysTime, SysTime(Date(1999, 3, 3)));
sysTime.add!"months"(-14);
_assertPred!"=="(sysTime, SysTime(Date(1998, 1, 3)));
}
{
auto sysTime = SysTime(Date(1998, 12, 31));
sysTime.add!"months"(14);
_assertPred!"=="(sysTime, SysTime(Date(2000, 3, 2)));
sysTime.add!"months"(-14);
_assertPred!"=="(sysTime, SysTime(Date(1999, 1, 2)));
}
{
auto sysTime = SysTime(Date(1999, 12, 31));
sysTime.add!"months"(14);
_assertPred!"=="(sysTime, SysTime(Date(2001, 3, 3)));
sysTime.add!"months"(-14);
_assertPred!"=="(sysTime, SysTime(Date(2000, 1, 3)));
}
{
auto sysTime = SysTime(DateTime(1999, 7, 6, 12, 2, 7), FracSec.from!"usecs"(5007));
sysTime.add!"months"(3);
_assertPred!"=="(sysTime, SysTime(DateTime(1999, 10, 6, 12, 2, 7), FracSec.from!"usecs"(5007)));
sysTime.add!"months"(-4);
_assertPred!"=="(sysTime, SysTime(DateTime(1999, 6, 6, 12, 2, 7), FracSec.from!"usecs"(5007)));
}
{
auto sysTime = SysTime(DateTime(1998, 12, 31, 7, 7, 7), FracSec.from!"hnsecs"(422202));
sysTime.add!"months"(14);
_assertPred!"=="(sysTime, SysTime(DateTime(2000, 3, 2, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
sysTime.add!"months"(-14);
_assertPred!"=="(sysTime, SysTime(DateTime(1999, 1, 2, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
}
{
auto sysTime = SysTime(DateTime(1999, 12, 31, 7, 7, 7), FracSec.from!"hnsecs"(422202));
sysTime.add!"months"(14);
_assertPred!"=="(sysTime, SysTime(DateTime(2001, 3, 3, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
sysTime.add!"months"(-14);
_assertPred!"=="(sysTime, SysTime(DateTime(2000, 1, 3, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
}
//Test B.C.
{
auto sysTime = SysTime(Date(-1999, 7, 6));
sysTime.add!"months"(3);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 10, 6)));
sysTime.add!"months"(-4);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 6, 6)));
}
{
auto sysTime = SysTime(Date(-1999, 7, 6));
sysTime.add!"months"(6);
_assertPred!"=="(sysTime, SysTime(Date(-1998, 1, 6)));
sysTime.add!"months"(-6);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 7, 6)));
}
{
auto sysTime = SysTime(Date(-1999, 7, 6));
sysTime.add!"months"(-27);
_assertPred!"=="(sysTime, SysTime(Date(-2001, 4, 6)));
sysTime.add!"months"(28);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 8, 6)));
}
{
auto sysTime = SysTime(Date(-1999, 5, 31));
sysTime.add!"months"(1);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 7, 1)));
}
{
auto sysTime = SysTime(Date(-1999, 5, 31));
sysTime.add!"months"(-1);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 5, 1)));
}
{
auto sysTime = SysTime(Date(-1999, 2, 28));
sysTime.add!"months"(-12);
_assertPred!"=="(sysTime, SysTime(Date(-2000, 2, 28)));
}
{
auto sysTime = SysTime(Date(-2000, 2, 29));
sysTime.add!"months"(-12);
_assertPred!"=="(sysTime, SysTime(Date(-2001, 3, 1)));
}
{
auto sysTime = SysTime(Date(-1999, 7, 31));
sysTime.add!"months"(1);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 8, 31)));
sysTime.add!"months"(1);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 10, 1)));
}
{
auto sysTime = SysTime(Date(-1998, 8, 31));
sysTime.add!"months"(13);
_assertPred!"=="(sysTime, SysTime(Date(-1997, 10, 1)));
sysTime.add!"months"(-13);
_assertPred!"=="(sysTime, SysTime(Date(-1998, 9, 1)));
}
{
auto sysTime = SysTime(Date(-1997, 12, 31));
sysTime.add!"months"(13);
_assertPred!"=="(sysTime, SysTime(Date(-1995, 1, 31)));
sysTime.add!"months"(-13);
_assertPred!"=="(sysTime, SysTime(Date(-1997, 12, 31)));
}
{
auto sysTime = SysTime(Date(-1997, 12, 31));
sysTime.add!"months"(14);
_assertPred!"=="(sysTime, SysTime(Date(-1995, 3, 3)));
sysTime.add!"months"(-14);
_assertPred!"=="(sysTime, SysTime(Date(-1996, 1, 3)));
}
{
auto sysTime = SysTime(Date(-2002, 12, 31));
sysTime.add!"months"(14);
_assertPred!"=="(sysTime, SysTime(Date(-2000, 3, 2)));
sysTime.add!"months"(-14);
_assertPred!"=="(sysTime, SysTime(Date(-2001, 1, 2)));
}
{
auto sysTime = SysTime(Date(-2001, 12, 31));
sysTime.add!"months"(14);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 3, 3)));
sysTime.add!"months"(-14);
_assertPred!"=="(sysTime, SysTime(Date(-2000, 1, 3)));
}
{
auto sysTime = SysTime(DateTime(-1999, 7, 6, 12, 2, 7), FracSec.from!"usecs"(5007));
sysTime.add!"months"(3);
_assertPred!"=="(sysTime, SysTime(DateTime(-1999, 10, 6, 12, 2, 7), FracSec.from!"usecs"(5007)));
sysTime.add!"months"(-4);
_assertPred!"=="(sysTime, SysTime(DateTime(-1999, 6, 6, 12, 2, 7), FracSec.from!"usecs"(5007)));
}
{
auto sysTime = SysTime(DateTime(-2002, 12, 31, 7, 7, 7), FracSec.from!"hnsecs"(422202));
sysTime.add!"months"(14);
_assertPred!"=="(sysTime, SysTime(DateTime(-2000, 3, 2, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
sysTime.add!"months"(-14);
_assertPred!"=="(sysTime, SysTime(DateTime(-2001, 1, 2, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
}
{
auto sysTime = SysTime(DateTime(-2001, 12, 31, 7, 7, 7), FracSec.from!"hnsecs"(422202));
sysTime.add!"months"(14);
_assertPred!"=="(sysTime, SysTime(DateTime(-1999, 3, 3, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
sysTime.add!"months"(-14);
_assertPred!"=="(sysTime, SysTime(DateTime(-2000, 1, 3, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
}
//Test Both
{
auto sysTime = SysTime(Date(1, 1, 1));
sysTime.add!"months"(-1);
_assertPred!"=="(sysTime, SysTime(Date(0, 12, 1)));
sysTime.add!"months"(1);
_assertPred!"=="(sysTime, SysTime(Date(1, 1, 1)));
}
{
auto sysTime = SysTime(Date(4, 1, 1));
sysTime.add!"months"(-48);
_assertPred!"=="(sysTime, SysTime(Date(0, 1, 1)));
sysTime.add!"months"(48);
_assertPred!"=="(sysTime, SysTime(Date(4, 1, 1)));
}
{
auto sysTime = SysTime(Date(4, 3, 31));
sysTime.add!"months"(-49);
_assertPred!"=="(sysTime, SysTime(Date(0, 3, 2)));
sysTime.add!"months"(49);
_assertPred!"=="(sysTime, SysTime(Date(4, 4, 2)));
}
{
auto sysTime = SysTime(Date(4, 3, 31));
sysTime.add!"months"(-85);
_assertPred!"=="(sysTime, SysTime(Date(-3, 3, 3)));
sysTime.add!"months"(85);
_assertPred!"=="(sysTime, SysTime(Date(4, 4, 3)));
}
{
auto sysTime = SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0));
sysTime.add!"months"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
sysTime.add!"months"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
}
{
auto sysTime = SysTime(DateTime(1, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999));
sysTime.add!"months"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
sysTime.add!"months"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
}
{
auto sysTime = SysTime(DateTime(0, 12, 1, 0, 0, 0), FracSec.from!"hnsecs"(0));
sysTime.add!"months"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
sysTime.add!"months"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
}
{
auto sysTime = SysTime(DateTime(0, 12, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999));
sysTime.add!"months"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
sysTime.add!"months"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
}
{
auto sysTime = SysTime(DateTime(1, 1, 1, 0, 7, 9), FracSec.from!"hnsecs"(17));
sysTime.add!"months"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 1, 0, 7, 9), FracSec.from!"hnsecs"(17)));
sysTime.add!"months"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 0, 7, 9), FracSec.from!"hnsecs"(17)));
}
{
auto sysTime = SysTime(DateTime(4, 3, 31, 12, 11, 10), FracSec.from!"msecs"(9));
sysTime.add!"months"(-85);
_assertPred!"=="(sysTime, SysTime(DateTime(-3, 3, 3, 12, 11, 10), FracSec.from!"msecs"(9)));
sysTime.add!"months"(85);
_assertPred!"=="(sysTime, SysTime(DateTime(4, 4, 3, 12, 11, 10), FracSec.from!"msecs"(9)));
}
{
auto sysTime = SysTime(DateTime(-3, 3, 31, 12, 11, 10), FracSec.from!"msecs"(9));
sysTime.add!"months"(85);
_assertPred!"=="(sysTime, SysTime(DateTime(4, 5, 1, 12, 11, 10), FracSec.from!"msecs"(9)));
sysTime.add!"months"(-85);
_assertPred!"=="(sysTime, SysTime(DateTime(-3, 4, 1, 12, 11, 10), FracSec.from!"msecs"(9)));
}
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(!__traits(compiles, cst.add!"months"(4)));
//static assert(!__traits(compiles, ist.add!"months"(4)));
}
}
//Test add!"months"() with AllowDayOverlow.no
unittest
{
version(testStdDateTime)
{
//Test A.D.
{
auto sysTime = SysTime(Date(1999, 7, 6));
sysTime.add!"months"(3, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 10, 6)));
sysTime.add!"months"(-4, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 6, 6)));
}
{
auto sysTime = SysTime(Date(1999, 7, 6));
sysTime.add!"months"(6, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(2000, 1, 6)));
sysTime.add!"months"(-6, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 7, 6)));
}
{
auto sysTime = SysTime(Date(1999, 7, 6));
sysTime.add!"months"(27, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(2001, 10, 6)));
sysTime.add!"months"(-28, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 6, 6)));
}
{
auto sysTime = SysTime(Date(1999, 5, 31));
sysTime.add!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 6, 30)));
}
{
auto sysTime = SysTime(Date(1999, 5, 31));
sysTime.add!"months"(-1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 4, 30)));
}
{
auto sysTime = SysTime(Date(1999, 2, 28));
sysTime.add!"months"(12, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(2000, 2, 28)));
}
{
auto sysTime = SysTime(Date(2000, 2, 29));
sysTime.add!"months"(12, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(2001, 2, 28)));
}
{
auto sysTime = SysTime(Date(1999, 7, 31));
sysTime.add!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 8, 31)));
sysTime.add!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 9, 30)));
}
{
auto sysTime = SysTime(Date(1998, 8, 31));
sysTime.add!"months"(13, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 9, 30)));
sysTime.add!"months"(-13, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1998, 8, 30)));
}
{
auto sysTime = SysTime(Date(1997, 12, 31));
sysTime.add!"months"(13, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 1, 31)));
sysTime.add!"months"(-13, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1997, 12, 31)));
}
{
auto sysTime = SysTime(Date(1997, 12, 31));
sysTime.add!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 2, 28)));
sysTime.add!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1997, 12, 28)));
}
{
auto sysTime = SysTime(Date(1998, 12, 31));
sysTime.add!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(2000, 2, 29)));
sysTime.add!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1998, 12, 29)));
}
{
auto sysTime = SysTime(Date(1999, 12, 31));
sysTime.add!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(2001, 2, 28)));
sysTime.add!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 12, 28)));
}
{
auto sysTime = SysTime(DateTime(1999, 7, 6, 12, 2, 7), FracSec.from!"usecs"(5007));
sysTime.add!"months"(3, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1999, 10, 6, 12, 2, 7), FracSec.from!"usecs"(5007)));
sysTime.add!"months"(-4, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1999, 6, 6, 12, 2, 7), FracSec.from!"usecs"(5007)));
}
{
auto sysTime = SysTime(DateTime(1998, 12, 31, 7, 7, 7), FracSec.from!"hnsecs"(422202));
sysTime.add!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(2000, 2, 29, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
sysTime.add!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1998, 12, 29, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
}
{
auto sysTime = SysTime(DateTime(1999, 12, 31, 7, 7, 7), FracSec.from!"hnsecs"(422202));
sysTime.add!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(2001, 2, 28, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
sysTime.add!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1999, 12, 28, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
}
//Test B.C.
{
auto sysTime = SysTime(Date(-1999, 7, 6));
sysTime.add!"months"(3, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 10, 6)));
sysTime.add!"months"(-4, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 6, 6)));
}
{
auto sysTime = SysTime(Date(-1999, 7, 6));
sysTime.add!"months"(6, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1998, 1, 6)));
sysTime.add!"months"(-6, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 7, 6)));
}
{
auto sysTime = SysTime(Date(-1999, 7, 6));
sysTime.add!"months"(-27, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-2001, 4, 6)));
sysTime.add!"months"(28, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 8, 6)));
}
{
auto sysTime = SysTime(Date(-1999, 5, 31));
sysTime.add!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 6, 30)));
}
{
auto sysTime = SysTime(Date(-1999, 5, 31));
sysTime.add!"months"(-1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 4, 30)));
}
{
auto sysTime = SysTime(Date(-1999, 2, 28));
sysTime.add!"months"(-12, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-2000, 2, 28)));
}
{
auto sysTime = SysTime(Date(-2000, 2, 29));
sysTime.add!"months"(-12, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-2001, 2, 28)));
}
{
auto sysTime = SysTime(Date(-1999, 7, 31));
sysTime.add!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 8, 31)));
sysTime.add!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 9, 30)));
}
{
auto sysTime = SysTime(Date(-1998, 8, 31));
sysTime.add!"months"(13, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1997, 9, 30)));
sysTime.add!"months"(-13, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1998, 8, 30)));
}
{
auto sysTime = SysTime(Date(-1997, 12, 31));
sysTime.add!"months"(13, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1995, 1, 31)));
sysTime.add!"months"(-13, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1997, 12, 31)));
}
{
auto sysTime = SysTime(Date(-1997, 12, 31));
sysTime.add!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1995, 2, 28)));
sysTime.add!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1997, 12, 28)));
}
{
auto sysTime = SysTime(Date(-2002, 12, 31));
sysTime.add!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-2000, 2, 29)));
sysTime.add!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-2002, 12, 29)));
}
{
auto sysTime = SysTime(Date(-2001, 12, 31));
sysTime.add!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 2, 28)));
sysTime.add!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-2001, 12, 28)));
}
{
auto sysTime = SysTime(DateTime(-1999, 7, 6, 12, 2, 7), FracSec.from!"usecs"(5007));
sysTime.add!"months"(3, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(-1999, 10, 6, 12, 2, 7), FracSec.from!"usecs"(5007)));
sysTime.add!"months"(-4, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(-1999, 6, 6, 12, 2, 7), FracSec.from!"usecs"(5007)));
}
{
auto sysTime = SysTime(DateTime(-2002, 12, 31, 7, 7, 7), FracSec.from!"hnsecs"(422202));
sysTime.add!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(-2000, 2, 29, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
sysTime.add!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(-2002, 12, 29, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
}
{
auto sysTime = SysTime(DateTime(-2001, 12, 31, 7, 7, 7), FracSec.from!"hnsecs"(422202));
sysTime.add!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(-1999, 2, 28, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
sysTime.add!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(-2001, 12, 28, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
}
//Test Both
{
auto sysTime = SysTime(Date(1, 1, 1));
sysTime.add!"months"(-1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(0, 12, 1)));
sysTime.add!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1, 1, 1)));
}
{
auto sysTime = SysTime(Date(4, 1, 1));
sysTime.add!"months"(-48, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(0, 1, 1)));
sysTime.add!"months"(48, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(4, 1, 1)));
}
{
auto sysTime = SysTime(Date(4, 3, 31));
sysTime.add!"months"(-49, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(0, 2, 29)));
sysTime.add!"months"(49, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(4, 3, 29)));
}
{
auto sysTime = SysTime(Date(4, 3, 31));
sysTime.add!"months"(-85, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-3, 2, 28)));
sysTime.add!"months"(85, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(4, 3, 28)));
}
{
auto sysTime = SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0));
sysTime.add!"months"(-1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
sysTime.add!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
}
{
auto sysTime = SysTime(DateTime(1, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999));
sysTime.add!"months"(-1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
sysTime.add!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
}
{
auto sysTime = SysTime(DateTime(0, 12, 1, 0, 0, 0), FracSec.from!"hnsecs"(0));
sysTime.add!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
sysTime.add!"months"(-1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
}
{
auto sysTime = SysTime(DateTime(0, 12, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999));
sysTime.add!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
sysTime.add!"months"(-1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
}
{
auto sysTime = SysTime(DateTime(1, 1, 1, 0, 7, 9), FracSec.from!"hnsecs"(17));
sysTime.add!"months"(-1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 1, 0, 7, 9), FracSec.from!"hnsecs"(17)));
sysTime.add!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 0, 7, 9), FracSec.from!"hnsecs"(17)));
}
{
auto sysTime = SysTime(DateTime(4, 3, 31, 12, 11, 10), FracSec.from!"msecs"(9));
sysTime.add!"months"(-85, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(-3, 2, 28, 12, 11, 10), FracSec.from!"msecs"(9)));
sysTime.add!"months"(85, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(4, 3, 28, 12, 11, 10), FracSec.from!"msecs"(9)));
}
{
auto sysTime = SysTime(DateTime(-3, 3, 31, 12, 11, 10), FracSec.from!"msecs"(9));
sysTime.add!"months"(85, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(4, 4, 30, 12, 11, 10), FracSec.from!"msecs"(9)));
sysTime.add!"months"(-85, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(-3, 3, 30, 12, 11, 10), FracSec.from!"msecs"(9)));
}
}
}
/++
Adds the given number of years or months to this $(D SysTime). A
negative number will subtract.
The difference between rolling and adding is that rolling does not
affect larger units. So, if you roll a $(D SysTime) 12 months, you
get the exact same $(D SysTime). However, the days can still be affected
due to the differing number of days in each month.
Because there are no units larger than years, there is no difference
between adding and rolling years.
Params:
units = The type of units to add ("years" or "months").
value = The number of months or years to add to this
$(D SysTime).
allowOverflow = Whether the days should be allowed to overflow,
causing the month to increment.
Examples:
--------------------
auto st1 = SysTime(DateTime(2010, 1, 1, 12, 33, 33));
st1.roll!"months"(1);
assert(st1 == SysTime(DateTime(2010, 2, 1, 12, 33, 33)));
auto st2 = SysTime(DateTime(2010, 1, 1, 12, 33, 33));
st2.roll!"months"(-1);
assert(st2 == SysTime(DateTime(2010, 12, 1, 12, 33, 33)));
auto st3 = SysTime(DateTime(1999, 1, 29, 12, 33, 33));
st3.roll!"months"(1);
assert(st3 == SysTime(DateTime(1999, 3, 1, 12, 33, 33)));
auto st4 = SysTime(DateTime(1999, 1, 29, 12, 33, 33));
st4.roll!"months"(1, AllowDayOverflow.no);
assert(st4 == SysTime(DateTime(1999, 2, 28, 12, 33, 33)));
auto st5 = SysTime(DateTime(2000, 2, 29, 12, 30, 33));
st5.roll!"years"(1);
assert(st5 == SysTime(DateTime(2001, 3, 1, 12, 30, 33)));
auto st6 = SysTime(DateTime(2000, 2, 29, 12, 30, 33));
st6.roll!"years"(1, AllowDayOverflow.no);
assert(st6 == SysTime(DateTime(2001, 2, 28, 12, 30, 33)));
--------------------
+/
/+ref SysTime+/ void roll(string units)(long value, AllowDayOverflow allowOverflow = AllowDayOverflow.yes) nothrow
if(units == "years")
{
add!"years"(value, allowOverflow);
}
unittest
{
version(testStdDateTime)
{
//Verify Examples.
auto st1 = SysTime(DateTime(2010, 1, 1, 12, 33, 33));
st1.roll!"months"(1);
assert(st1 == SysTime(DateTime(2010, 2, 1, 12, 33, 33)));
auto st2 = SysTime(DateTime(2010, 1, 1, 12, 33, 33));
st2.roll!"months"(-1);
assert(st2 == SysTime(DateTime(2010, 12, 1, 12, 33, 33)));
auto st3 = SysTime(DateTime(1999, 1, 29, 12, 33, 33));
st3.roll!"months"(1);
assert(st3 == SysTime(DateTime(1999, 3, 1, 12, 33, 33)));
auto st4 = SysTime(DateTime(1999, 1, 29, 12, 33, 33));
st4.roll!"months"(1, AllowDayOverflow.no);
assert(st4 == SysTime(DateTime(1999, 2, 28, 12, 33, 33)));
auto st5 = SysTime(DateTime(2000, 2, 29, 12, 30, 33));
st5.roll!"years"(1);
assert(st5 == SysTime(DateTime(2001, 3, 1, 12, 30, 33)));
auto st6 = SysTime(DateTime(2000, 2, 29, 12, 30, 33));
st6.roll!"years"(1, AllowDayOverflow.no);
assert(st6 == SysTime(DateTime(2001, 2, 28, 12, 30, 33)));
}
}
unittest
{
version(testStdDateTime)
{
auto st = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, st.roll!"years"(4)));
static assert(!__traits(compiles, cst.roll!"years"(4)));
//static assert(!__traits(compiles, ist.roll!"years"(4)));
}
}
//Shares documentation with "years" version.
/+ref SysTime+/ void roll(string units)(long value, AllowDayOverflow allowOverflow = AllowDayOverflow.yes) nothrow
if(units == "months")
{
auto hnsecs = adjTime;
auto days = splitUnitsFromHNSecs!"days"(hnsecs) + 1;
if(hnsecs < 0)
{
hnsecs += convert!("hours", "hnsecs")(24);
--days;
}
auto date = Date(cast(int)days);
date.roll!"months"(value, allowOverflow);
days = date.dayOfGregorianCal - 1;
if(days < 0)
{
hnsecs -= convert!("hours", "hnsecs")(24);
++days;
}
immutable newDaysHNSecs = convert!("days", "hnsecs")(days);
adjTime = newDaysHNSecs + hnsecs;
}
//Test roll!"months"() with AllowDayOverlow.yes
unittest
{
version(testStdDateTime)
{
//Test A.D.
{
auto sysTime = SysTime(Date(1999, 7, 6));
sysTime.roll!"months"(3);
_assertPred!"=="(sysTime, SysTime(Date(1999, 10, 6)));
sysTime.roll!"months"(-4);
_assertPred!"=="(sysTime, SysTime(Date(1999, 6, 6)));
}
{
auto sysTime = SysTime(Date(1999, 7, 6));
sysTime.roll!"months"(6);
_assertPred!"=="(sysTime, SysTime(Date(1999, 1, 6)));
sysTime.roll!"months"(-6);
_assertPred!"=="(sysTime, SysTime(Date(1999, 7, 6)));
}
{
auto sysTime = SysTime(Date(1999, 7, 6));
sysTime.roll!"months"(27);
_assertPred!"=="(sysTime, SysTime(Date(1999, 10, 6)));
sysTime.roll!"months"(-28);
_assertPred!"=="(sysTime, SysTime(Date(1999, 6, 6)));
}
{
auto sysTime = SysTime(Date(1999, 5, 31));
sysTime.roll!"months"(1);
_assertPred!"=="(sysTime, SysTime(Date(1999, 7, 1)));
}
{
auto sysTime = SysTime(Date(1999, 5, 31));
sysTime.roll!"months"(-1);
_assertPred!"=="(sysTime, SysTime(Date(1999, 5, 1)));
}
{
auto sysTime = SysTime(Date(1999, 2, 28));
sysTime.roll!"months"(12);
_assertPred!"=="(sysTime, SysTime(Date(1999, 2, 28)));
}
{
auto sysTime = SysTime(Date(2000, 2, 29));
sysTime.roll!"months"(12);
_assertPred!"=="(sysTime, SysTime(Date(2000, 2, 29)));
}
{
auto sysTime = SysTime(Date(1999, 7, 31));
sysTime.roll!"months"(1);
_assertPred!"=="(sysTime, SysTime(Date(1999, 8, 31)));
sysTime.roll!"months"(1);
_assertPred!"=="(sysTime, SysTime(Date(1999, 10, 1)));
}
{
auto sysTime = SysTime(Date(1998, 8, 31));
sysTime.roll!"months"(13);
_assertPred!"=="(sysTime, SysTime(Date(1998, 10, 1)));
sysTime.roll!"months"(-13);
_assertPred!"=="(sysTime, SysTime(Date(1998, 9, 1)));
}
{
auto sysTime = SysTime(Date(1997, 12, 31));
sysTime.roll!"months"(13);
_assertPred!"=="(sysTime, SysTime(Date(1997, 1, 31)));
sysTime.roll!"months"(-13);
_assertPred!"=="(sysTime, SysTime(Date(1997, 12, 31)));
}
{
auto sysTime = SysTime(Date(1997, 12, 31));
sysTime.roll!"months"(14);
_assertPred!"=="(sysTime, SysTime(Date(1997, 3, 3)));
sysTime.roll!"months"(-14);
_assertPred!"=="(sysTime, SysTime(Date(1997, 1, 3)));
}
{
auto sysTime = SysTime(Date(1998, 12, 31));
sysTime.roll!"months"(14);
_assertPred!"=="(sysTime, SysTime(Date(1998, 3, 3)));
sysTime.roll!"months"(-14);
_assertPred!"=="(sysTime, SysTime(Date(1998, 1, 3)));
}
{
auto sysTime = SysTime(Date(1999, 12, 31));
sysTime.roll!"months"(14);
_assertPred!"=="(sysTime, SysTime(Date(1999, 3, 3)));
sysTime.roll!"months"(-14);
_assertPred!"=="(sysTime, SysTime(Date(1999, 1, 3)));
}
{
auto sysTime = SysTime(DateTime(1999, 7, 6, 12, 2, 7), FracSec.from!"usecs"(5007));
sysTime.roll!"months"(3);
_assertPred!"=="(sysTime, SysTime(DateTime(1999, 10, 6, 12, 2, 7), FracSec.from!"usecs"(5007)));
sysTime.roll!"months"(-4);
_assertPred!"=="(sysTime, SysTime(DateTime(1999, 6, 6, 12, 2, 7), FracSec.from!"usecs"(5007)));
}
{
auto sysTime = SysTime(DateTime(1998, 12, 31, 7, 7, 7), FracSec.from!"hnsecs"(422202));
sysTime.roll!"months"(14);
_assertPred!"=="(sysTime, SysTime(DateTime(1998, 3, 3, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
sysTime.roll!"months"(-14);
_assertPred!"=="(sysTime, SysTime(DateTime(1998, 1, 3, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
}
{
auto sysTime = SysTime(DateTime(1999, 12, 31, 7, 7, 7), FracSec.from!"hnsecs"(422202));
sysTime.roll!"months"(14);
_assertPred!"=="(sysTime, SysTime(DateTime(1999, 3, 3, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
sysTime.roll!"months"(-14);
_assertPred!"=="(sysTime, SysTime(DateTime(1999, 1, 3, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
}
//Test B.C.
{
auto sysTime = SysTime(Date(-1999, 7, 6));
sysTime.roll!"months"(3);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 10, 6)));
sysTime.roll!"months"(-4);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 6, 6)));
}
{
auto sysTime = SysTime(Date(-1999, 7, 6));
sysTime.roll!"months"(6);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 1, 6)));
sysTime.roll!"months"(-6);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 7, 6)));
}
{
auto sysTime = SysTime(Date(-1999, 7, 6));
sysTime.roll!"months"(-27);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 4, 6)));
sysTime.roll!"months"(28);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 8, 6)));
}
{
auto sysTime = SysTime(Date(-1999, 5, 31));
sysTime.roll!"months"(1);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 7, 1)));
}
{
auto sysTime = SysTime(Date(-1999, 5, 31));
sysTime.roll!"months"(-1);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 5, 1)));
}
{
auto sysTime = SysTime(Date(-1999, 2, 28));
sysTime.roll!"months"(-12);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 2, 28)));
}
{
auto sysTime = SysTime(Date(-2000, 2, 29));
sysTime.roll!"months"(-12);
_assertPred!"=="(sysTime, SysTime(Date(-2000, 2, 29)));
}
{
auto sysTime = SysTime(Date(-1999, 7, 31));
sysTime.roll!"months"(1);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 8, 31)));
sysTime.roll!"months"(1);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 10, 1)));
}
{
auto sysTime = SysTime(Date(-1998, 8, 31));
sysTime.roll!"months"(13);
_assertPred!"=="(sysTime, SysTime(Date(-1998, 10, 1)));
sysTime.roll!"months"(-13);
_assertPred!"=="(sysTime, SysTime(Date(-1998, 9, 1)));
}
{
auto sysTime = SysTime(Date(-1997, 12, 31));
sysTime.roll!"months"(13);
_assertPred!"=="(sysTime, SysTime(Date(-1997, 1, 31)));
sysTime.roll!"months"(-13);
_assertPred!"=="(sysTime, SysTime(Date(-1997, 12, 31)));
}
{
auto sysTime = SysTime(Date(-1997, 12, 31));
sysTime.roll!"months"(14);
_assertPred!"=="(sysTime, SysTime(Date(-1997, 3, 3)));
sysTime.roll!"months"(-14);
_assertPred!"=="(sysTime, SysTime(Date(-1997, 1, 3)));
}
{
auto sysTime = SysTime(Date(-2002, 12, 31));
sysTime.roll!"months"(14);
_assertPred!"=="(sysTime, SysTime(Date(-2002, 3, 3)));
sysTime.roll!"months"(-14);
_assertPred!"=="(sysTime, SysTime(Date(-2002, 1, 3)));
}
{
auto sysTime = SysTime(Date(-2001, 12, 31));
sysTime.roll!"months"(14);
_assertPred!"=="(sysTime, SysTime(Date(-2001, 3, 3)));
sysTime.roll!"months"(-14);
_assertPred!"=="(sysTime, SysTime(Date(-2001, 1, 3)));
}
{
auto sysTime = SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0));
sysTime.roll!"months"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 12, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
sysTime.roll!"months"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
}
{
auto sysTime = SysTime(DateTime(1, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999));
sysTime.roll!"months"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 12, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
sysTime.roll!"months"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
}
{
auto sysTime = SysTime(DateTime(0, 12, 1, 0, 0, 0), FracSec.from!"hnsecs"(0));
sysTime.roll!"months"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
sysTime.roll!"months"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
}
{
auto sysTime = SysTime(DateTime(0, 12, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999));
sysTime.roll!"months"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
sysTime.roll!"months"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
}
{
auto sysTime = SysTime(DateTime(-1999, 7, 6, 12, 2, 7), FracSec.from!"hnsecs"(5007));
sysTime.roll!"months"(3);
_assertPred!"=="(sysTime, SysTime(DateTime(-1999, 10, 6, 12, 2, 7), FracSec.from!"hnsecs"(5007)));
sysTime.roll!"months"(-4);
_assertPred!"=="(sysTime, SysTime(DateTime(-1999, 6, 6, 12, 2, 7), FracSec.from!"hnsecs"(5007)));
}
{
auto sysTime = SysTime(DateTime(-2002, 12, 31, 7, 7, 7), FracSec.from!"hnsecs"(422202));
sysTime.roll!"months"(14);
_assertPred!"=="(sysTime, SysTime(DateTime(-2002, 3, 3, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
sysTime.roll!"months"(-14);
_assertPred!"=="(sysTime, SysTime(DateTime(-2002, 1, 3, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
}
{
auto sysTime = SysTime(DateTime(-2001, 12, 31, 7, 7, 7), FracSec.from!"hnsecs"(422202));
sysTime.roll!"months"(14);
_assertPred!"=="(sysTime, SysTime(DateTime(-2001, 3, 3, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
sysTime.roll!"months"(-14);
_assertPred!"=="(sysTime, SysTime(DateTime(-2001, 1, 3, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
}
//Test Both
{
auto sysTime = SysTime(Date(1, 1, 1));
sysTime.roll!"months"(-1);
_assertPred!"=="(sysTime, SysTime(Date(1, 12, 1)));
sysTime.roll!"months"(1);
_assertPred!"=="(sysTime, SysTime(Date(1, 1, 1)));
}
{
auto sysTime = SysTime(Date(4, 1, 1));
sysTime.roll!"months"(-48);
_assertPred!"=="(sysTime, SysTime(Date(4, 1, 1)));
sysTime.roll!"months"(48);
_assertPred!"=="(sysTime, SysTime(Date(4, 1, 1)));
}
{
auto sysTime = SysTime(Date(4, 3, 31));
sysTime.roll!"months"(-49);
_assertPred!"=="(sysTime, SysTime(Date(4, 3, 2)));
sysTime.roll!"months"(49);
_assertPred!"=="(sysTime, SysTime(Date(4, 4, 2)));
}
{
auto sysTime = SysTime(Date(4, 3, 31));
sysTime.roll!"months"(-85);
_assertPred!"=="(sysTime, SysTime(Date(4, 3, 2)));
sysTime.roll!"months"(85);
_assertPred!"=="(sysTime, SysTime(Date(4, 4, 2)));
}
{
auto sysTime = SysTime(Date(-1, 1, 1));
sysTime.roll!"months"(-1);
_assertPred!"=="(sysTime, SysTime(Date(-1, 12, 1)));
sysTime.roll!"months"(1);
_assertPred!"=="(sysTime, SysTime(Date(-1, 1, 1)));
}
{
auto sysTime = SysTime(Date(-4, 1, 1));
sysTime.roll!"months"(-48);
_assertPred!"=="(sysTime, SysTime(Date(-4, 1, 1)));
sysTime.roll!"months"(48);
_assertPred!"=="(sysTime, SysTime(Date(-4, 1, 1)));
}
{
auto sysTime = SysTime(Date(-4, 3, 31));
sysTime.roll!"months"(-49);
_assertPred!"=="(sysTime, SysTime(Date(-4, 3, 2)));
sysTime.roll!"months"(49);
_assertPred!"=="(sysTime, SysTime(Date(-4, 4, 2)));
}
{
auto sysTime = SysTime(Date(-4, 3, 31));
sysTime.roll!"months"(-85);
_assertPred!"=="(sysTime, SysTime(Date(-4, 3, 2)));
sysTime.roll!"months"(85);
_assertPred!"=="(sysTime, SysTime(Date(-4, 4, 2)));
}
{
auto sysTime = SysTime(DateTime(1, 1, 1, 0, 7, 9), FracSec.from!"hnsecs"(17));
sysTime.roll!"months"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 12, 1, 0, 7, 9), FracSec.from!"hnsecs"(17)));
sysTime.roll!"months"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 0, 7, 9), FracSec.from!"hnsecs"(17)));
}
{
auto sysTime = SysTime(DateTime(4, 3, 31, 12, 11, 10), FracSec.from!"msecs"(9));
sysTime.roll!"months"(-85);
_assertPred!"=="(sysTime, SysTime(DateTime(4, 3, 2, 12, 11, 10), FracSec.from!"msecs"(9)));
sysTime.roll!"months"(85);
_assertPred!"=="(sysTime, SysTime(DateTime(4, 4, 2, 12, 11, 10), FracSec.from!"msecs"(9)));
}
{
auto sysTime = SysTime(DateTime(-3, 3, 31, 12, 11, 10), FracSec.from!"msecs"(9));
sysTime.roll!"months"(85);
_assertPred!"=="(sysTime, SysTime(DateTime(-3, 5, 1, 12, 11, 10), FracSec.from!"msecs"(9)));
sysTime.roll!"months"(-85);
_assertPred!"=="(sysTime, SysTime(DateTime(-3, 4, 1, 12, 11, 10), FracSec.from!"msecs"(9)));
}
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(!__traits(compiles, cst.roll!"months"(4)));
//static assert(!__traits(compiles, ist.roll!"months"(4)));
//Verify Examples.
auto st1 = SysTime(DateTime(2010, 1, 1, 12, 33, 33));
st1.roll!"months"(1);
assert(st1 == SysTime(DateTime(2010, 2, 1, 12, 33, 33)));
auto st2 = SysTime(DateTime(2010, 1, 1, 12, 33, 33));
st2.roll!"months"(-1);
assert(st2 == SysTime(DateTime(2010, 12, 1, 12, 33, 33)));
auto st3 = SysTime(DateTime(1999, 1, 29, 12, 33, 33));
st3.roll!"months"(1);
assert(st3 == SysTime(DateTime(1999, 3, 1, 12, 33, 33)));
auto st4 = SysTime(DateTime(1999, 1, 29, 12, 33, 33));
st4.roll!"months"(1, AllowDayOverflow.no);
assert(st4 == SysTime(DateTime(1999, 2, 28, 12, 33, 33)));
}
}
//Test roll!"months"() with AllowDayOverlow.no
unittest
{
version(testStdDateTime)
{
//Test A.D.
{
auto sysTime = SysTime(Date(1999, 7, 6));
sysTime.roll!"months"(3, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 10, 6)));
sysTime.roll!"months"(-4, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 6, 6)));
}
{
auto sysTime = SysTime(Date(1999, 7, 6));
sysTime.roll!"months"(6, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 1, 6)));
sysTime.roll!"months"(-6, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 7, 6)));
}
{
auto sysTime = SysTime(Date(1999, 7, 6));
sysTime.roll!"months"(27, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 10, 6)));
sysTime.roll!"months"(-28, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 6, 6)));
}
{
auto sysTime = SysTime(Date(1999, 5, 31));
sysTime.roll!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 6, 30)));
}
{
auto sysTime = SysTime(Date(1999, 5, 31));
sysTime.roll!"months"(-1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 4, 30)));
}
{
auto sysTime = SysTime(Date(1999, 2, 28));
sysTime.roll!"months"(12, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 2, 28)));
}
{
auto sysTime = SysTime(Date(2000, 2, 29));
sysTime.roll!"months"(12, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(2000, 2, 29)));
}
{
auto sysTime = SysTime(Date(1999, 7, 31));
sysTime.roll!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 8, 31)));
sysTime.roll!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 9, 30)));
}
{
auto sysTime = SysTime(Date(1998, 8, 31));
sysTime.roll!"months"(13, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1998, 9, 30)));
sysTime.roll!"months"(-13, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1998, 8, 30)));
}
{
auto sysTime = SysTime(Date(1997, 12, 31));
sysTime.roll!"months"(13, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1997, 1, 31)));
sysTime.roll!"months"(-13, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1997, 12, 31)));
}
{
auto sysTime = SysTime(Date(1997, 12, 31));
sysTime.roll!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1997, 2, 28)));
sysTime.roll!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1997, 12, 28)));
}
{
auto sysTime = SysTime(Date(1998, 12, 31));
sysTime.roll!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1998, 2, 28)));
sysTime.roll!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1998, 12, 28)));
}
{
auto sysTime = SysTime(Date(1999, 12, 31));
sysTime.roll!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 2, 28)));
sysTime.roll!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1999, 12, 28)));
}
{
auto sysTime = SysTime(DateTime(1999, 7, 6, 12, 2, 7), FracSec.from!"usecs"(5007));
sysTime.roll!"months"(3, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1999, 10, 6, 12, 2, 7), FracSec.from!"usecs"(5007)));
sysTime.roll!"months"(-4, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1999, 6, 6, 12, 2, 7), FracSec.from!"usecs"(5007)));
}
{
auto sysTime = SysTime(DateTime(1998, 12, 31, 7, 7, 7), FracSec.from!"hnsecs"(422202));
sysTime.roll!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1998, 2, 28, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
sysTime.roll!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1998, 12, 28, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
}
{
auto sysTime = SysTime(DateTime(1999, 12, 31, 7, 7, 7), FracSec.from!"hnsecs"(422202));
sysTime.roll!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1999, 2, 28, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
sysTime.roll!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1999, 12, 28, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
}
//Test B.C.
{
auto sysTime = SysTime(Date(-1999, 7, 6));
sysTime.roll!"months"(3, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 10, 6)));
sysTime.roll!"months"(-4, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 6, 6)));
}
{
auto sysTime = SysTime(Date(-1999, 7, 6));
sysTime.roll!"months"(6, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 1, 6)));
sysTime.roll!"months"(-6, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 7, 6)));
}
{
auto sysTime = SysTime(Date(-1999, 7, 6));
sysTime.roll!"months"(-27, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 4, 6)));
sysTime.roll!"months"(28, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 8, 6)));
}
{
auto sysTime = SysTime(Date(-1999, 5, 31));
sysTime.roll!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 6, 30)));
}
{
auto sysTime = SysTime(Date(-1999, 5, 31));
sysTime.roll!"months"(-1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 4, 30)));
}
{
auto sysTime = SysTime(Date(-1999, 2, 28));
sysTime.roll!"months"(-12, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 2, 28)));
}
{
auto sysTime = SysTime(Date(-2000, 2, 29));
sysTime.roll!"months"(-12, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-2000, 2, 29)));
}
{
auto sysTime = SysTime(Date(-1999, 7, 31));
sysTime.roll!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 8, 31)));
sysTime.roll!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 9, 30)));
}
{
auto sysTime = SysTime(Date(-1998, 8, 31));
sysTime.roll!"months"(13, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1998, 9, 30)));
sysTime.roll!"months"(-13, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1998, 8, 30)));
}
{
auto sysTime = SysTime(Date(-1997, 12, 31));
sysTime.roll!"months"(13, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1997, 1, 31)));
sysTime.roll!"months"(-13, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1997, 12, 31)));
}
{
auto sysTime = SysTime(Date(-1997, 12, 31));
sysTime.roll!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1997, 2, 28)));
sysTime.roll!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1997, 12, 28)));
}
{
auto sysTime = SysTime(Date(-2002, 12, 31));
sysTime.roll!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-2002, 2, 28)));
sysTime.roll!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-2002, 12, 28)));
}
{
auto sysTime = SysTime(Date(-2001, 12, 31));
sysTime.roll!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-2001, 2, 28)));
sysTime.roll!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-2001, 12, 28)));
}
{
auto sysTime = SysTime(DateTime(-1999, 7, 6, 12, 2, 7), FracSec.from!"usecs"(5007));
sysTime.roll!"months"(3, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(-1999, 10, 6, 12, 2, 7), FracSec.from!"usecs"(5007)));
sysTime.roll!"months"(-4, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(-1999, 6, 6, 12, 2, 7), FracSec.from!"usecs"(5007)));
}
{
auto sysTime = SysTime(DateTime(-2002, 12, 31, 7, 7, 7), FracSec.from!"hnsecs"(422202));
sysTime.roll!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(-2002, 2, 28, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
sysTime.roll!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(-2002, 12, 28, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
}
{
auto sysTime = SysTime(DateTime(-2001, 12, 31, 7, 7, 7), FracSec.from!"hnsecs"(422202));
sysTime.roll!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(-2001, 2, 28, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
sysTime.roll!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(-2001, 12, 28, 7, 7, 7), FracSec.from!"hnsecs"(422202)));
}
//Test Both
{
auto sysTime = SysTime(Date(1, 1, 1));
sysTime.roll!"months"(-1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1, 12, 1)));
sysTime.roll!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(1, 1, 1)));
}
{
auto sysTime = SysTime(Date(4, 1, 1));
sysTime.roll!"months"(-48, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(4, 1, 1)));
sysTime.roll!"months"(48, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(4, 1, 1)));
}
{
auto sysTime = SysTime(Date(4, 3, 31));
sysTime.roll!"months"(-49, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(4, 2, 29)));
sysTime.roll!"months"(49, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(4, 3, 29)));
}
{
auto sysTime = SysTime(Date(4, 3, 31));
sysTime.roll!"months"(-85, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(4, 2, 29)));
sysTime.roll!"months"(85, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(4, 3, 29)));
}
{
auto sysTime = SysTime(Date(-1, 1, 1));
sysTime.roll!"months"(-1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1, 12, 1)));
sysTime.roll!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-1, 1, 1)));
}
{
auto sysTime = SysTime(Date(-4, 1, 1));
sysTime.roll!"months"(-48, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-4, 1, 1)));
sysTime.roll!"months"(48, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-4, 1, 1)));
}
{
auto sysTime = SysTime(Date(-4, 3, 31));
sysTime.roll!"months"(-49, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-4, 2, 29)));
sysTime.roll!"months"(49, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-4, 3, 29)));
}
{
auto sysTime = SysTime(Date(-4, 3, 31));
sysTime.roll!"months"(-85, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-4, 2, 29)));
sysTime.roll!"months"(85, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(Date(-4, 3, 29)));
}
{
auto sysTime = SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0));
sysTime.roll!"months"(-1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 12, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
sysTime.roll!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
}
{
auto sysTime = SysTime(DateTime(1, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999));
sysTime.roll!"months"(-1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 12, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
sysTime.roll!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
}
{
auto sysTime = SysTime(DateTime(0, 12, 1, 0, 0, 0), FracSec.from!"hnsecs"(0));
sysTime.roll!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
sysTime.roll!"months"(-1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
}
{
auto sysTime = SysTime(DateTime(0, 12, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999));
sysTime.roll!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
sysTime.roll!"months"(-1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
}
{
auto sysTime = SysTime(DateTime(1, 1, 1, 0, 7, 9), FracSec.from!"hnsecs"(17));
sysTime.roll!"months"(-1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 12, 1, 0, 7, 9), FracSec.from!"hnsecs"(17)));
sysTime.roll!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 0, 7, 9), FracSec.from!"hnsecs"(17)));
}
{
auto sysTime = SysTime(DateTime(4, 3, 31, 12, 11, 10), FracSec.from!"msecs"(9));
sysTime.roll!"months"(-85, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(4, 2, 29, 12, 11, 10), FracSec.from!"msecs"(9)));
sysTime.roll!"months"(85, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(4, 3, 29, 12, 11, 10), FracSec.from!"msecs"(9)));
}
{
auto sysTime = SysTime(DateTime(-3, 3, 31, 12, 11, 10), FracSec.from!"msecs"(9));
sysTime.roll!"months"(85, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(-3, 4, 30, 12, 11, 10), FracSec.from!"msecs"(9)));
sysTime.roll!"months"(-85, AllowDayOverflow.no);
_assertPred!"=="(sysTime, SysTime(DateTime(-3, 3, 30, 12, 11, 10), FracSec.from!"msecs"(9)));
}
}
}
/++
Adds the given number of units to this $(D SysTime). A negative number
will subtract.
The difference between rolling and adding is that rolling does not
affect larger units. So, for instance, if you roll a $(D SysTime) one
year's worth of days, then you get the exact same $(D SysTime).
Accepted units are $(D "days"), $(D "minutes"), $(D "hours"),
$(D "minutes"), $(D "seconds"), $(D "msecs"), $(D "usecs"), and
$(D "hnsecs").
Note that when rolling msecs, usecs or hnsecs, they all add up to a
second. So, for example, rolling 1000 msecs is exactly the same as
rolling 100,000 usecs.
Params:
units = The units to add.
value = The number of $(D_PARAM units) to add to this $(D SysTime).
Examples:
--------------------
auto st1 = SysTime(DateTime(2010, 1, 1, 11, 23, 12));
st1.roll!"days"(1);
assert(st1 == SysTime(DateTime(2010, 1, 2, 11, 23, 12)));
st1.roll!"days"(365);
assert(st1 == SysTime(DateTime(2010, 1, 26, 11, 23, 12)));
st1.roll!"days"(-32);
assert(st1 == SysTime(DateTime(2010, 1, 25, 11, 23, 12)));
auto st2 = SysTime(DateTime(2010, 7, 4, 12, 0, 0));
st2.roll!"hours"(1);
assert(st2 == SysTime(DateTime(2010, 7, 4, 13, 0, 0)));
auto st3 = SysTime(DateTime(2010, 1, 1, 0, 0, 0));
st3.roll!"seconds"(-1);
assert(st3 == SysTime(DateTime(2010, 1, 1, 0, 0, 59)));
auto st4 = SysTime(DateTime(2010, 1, 1, 0, 0, 0),
FracSec.from!"usecs"(2_400));
st4.roll!"usecs"(-1_200_000);
assert(st4 == SysTime(DateTime(2010, 1, 1, 0, 0, 0),
FracSec.from!"usecs"(802_400)));
--------------------
+/
/+ref SysTime+/ void roll(string units)(long value) nothrow
if(units == "days")
{
auto hnsecs = adjTime;
auto gdays = splitUnitsFromHNSecs!"days"(hnsecs) + 1;
if(hnsecs < 0)
{
hnsecs += convert!("hours", "hnsecs")(24);
--gdays;
}
auto date = Date(cast(int)gdays);
date.roll!"days"(value);
gdays = date.dayOfGregorianCal - 1;
if(gdays < 0)
{
hnsecs -= convert!("hours", "hnsecs")(24);
++gdays;
}
immutable newDaysHNSecs = convert!("days", "hnsecs")(gdays);
adjTime = newDaysHNSecs + hnsecs;
}
//Verify Examples.
unittest
{
version(testStdDateTime)
{
auto st1 = SysTime(DateTime(2010, 1, 1, 11, 23, 12));
st1.roll!"days"(1);
assert(st1 == SysTime(DateTime(2010, 1, 2, 11, 23, 12)));
st1.roll!"days"(365);
assert(st1 == SysTime(DateTime(2010, 1, 26, 11, 23, 12)));
st1.roll!"days"(-32);
assert(st1 == SysTime(DateTime(2010, 1, 25, 11, 23, 12)));
auto st2 = SysTime(DateTime(2010, 7, 4, 12, 0, 0));
st2.roll!"hours"(1);
assert(st2 == SysTime(DateTime(2010, 7, 4, 13, 0, 0)));
auto st3 = SysTime(DateTime(2010, 1, 1, 0, 0, 0));
st3.roll!"seconds"(-1);
assert(st3 == SysTime(DateTime(2010, 1, 1, 0, 0, 59)));
auto st4 = SysTime(DateTime(2010, 1, 1, 0, 0, 0),
FracSec.from!"usecs"(2_400));
st4.roll!"usecs"(-1_200_000);
assert(st4 == SysTime(DateTime(2010, 1, 1, 0, 0, 0),
FracSec.from!"usecs"(802_400)));
}
}
unittest
{
version(testStdDateTime)
{
//Test A.D.
{
auto sysTime = SysTime(Date(1999, 2, 28));
sysTime.roll!"days"(1);
_assertPred!"=="(sysTime, SysTime(Date(1999, 2, 1)));
sysTime.roll!"days"(-1);
_assertPred!"=="(sysTime, SysTime(Date(1999, 2, 28)));
}
{
auto sysTime = SysTime(Date(2000, 2, 28));
sysTime.roll!"days"(1);
_assertPred!"=="(sysTime, SysTime(Date(2000, 2, 29)));
sysTime.roll!"days"(1);
_assertPred!"=="(sysTime, SysTime(Date(2000, 2, 1)));
sysTime.roll!"days"(-1);
_assertPred!"=="(sysTime, SysTime(Date(2000, 2, 29)));
}
{
auto sysTime = SysTime(Date(1999, 6, 30));
sysTime.roll!"days"(1);
_assertPred!"=="(sysTime, SysTime(Date(1999, 6, 1)));
sysTime.roll!"days"(-1);
_assertPred!"=="(sysTime, SysTime(Date(1999, 6, 30)));
}
{
auto sysTime = SysTime(Date(1999, 7, 31));
sysTime.roll!"days"(1);
_assertPred!"=="(sysTime, SysTime(Date(1999, 7, 1)));
sysTime.roll!"days"(-1);
_assertPred!"=="(sysTime, SysTime(Date(1999, 7, 31)));
}
{
auto sysTime = SysTime(Date(1999, 1, 1));
sysTime.roll!"days"(-1);
_assertPred!"=="(sysTime, SysTime(Date(1999, 1, 31)));
sysTime.roll!"days"(1);
_assertPred!"=="(sysTime, SysTime(Date(1999, 1, 1)));
}
{
auto sysTime = SysTime(Date(1999, 7, 6));
sysTime.roll!"days"(9);
_assertPred!"=="(sysTime, SysTime(Date(1999, 7, 15)));
sysTime.roll!"days"(-11);
_assertPred!"=="(sysTime, SysTime(Date(1999, 7, 4)));
sysTime.roll!"days"(30);
_assertPred!"=="(sysTime, SysTime(Date(1999, 7, 3)));
sysTime.roll!"days"(-3);
_assertPred!"=="(sysTime, SysTime(Date(1999, 7, 31)));
}
{
auto sysTime = SysTime(Date(1999, 7, 6));
sysTime.roll!"days"(365);
_assertPred!"=="(sysTime, SysTime(Date(1999, 7, 30)));
sysTime.roll!"days"(-365);
_assertPred!"=="(sysTime, SysTime(Date(1999, 7, 6)));
sysTime.roll!"days"(366);
_assertPred!"=="(sysTime, SysTime(Date(1999, 7, 31)));
sysTime.roll!"days"(730);
_assertPred!"=="(sysTime, SysTime(Date(1999, 7, 17)));
sysTime.roll!"days"(-1096);
_assertPred!"=="(sysTime, SysTime(Date(1999, 7, 6)));
}
{
auto sysTime = SysTime(Date(1999, 2, 6));
sysTime.roll!"days"(365);
_assertPred!"=="(sysTime, SysTime(Date(1999, 2, 7)));
sysTime.roll!"days"(-365);
_assertPred!"=="(sysTime, SysTime(Date(1999, 2, 6)));
sysTime.roll!"days"(366);
_assertPred!"=="(sysTime, SysTime(Date(1999, 2, 8)));
sysTime.roll!"days"(730);
_assertPred!"=="(sysTime, SysTime(Date(1999, 2, 10)));
sysTime.roll!"days"(-1096);
_assertPred!"=="(sysTime, SysTime(Date(1999, 2, 6)));
}
{
auto sysTime = SysTime(DateTime(1999, 2, 28, 7, 9, 2), FracSec.from!"usecs"(234578));
sysTime.roll!"days"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(1999, 2, 1, 7, 9, 2), FracSec.from!"usecs"(234578)));
sysTime.roll!"days"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(1999, 2, 28, 7, 9, 2), FracSec.from!"usecs"(234578)));
}
{
auto sysTime = SysTime(DateTime(1999, 7, 6, 7, 9, 2), FracSec.from!"usecs"(234578));
sysTime.roll!"days"(9);
_assertPred!"=="(sysTime, SysTime(DateTime(1999, 7, 15, 7, 9, 2), FracSec.from!"usecs"(234578)));
sysTime.roll!"days"(-11);
_assertPred!"=="(sysTime, SysTime(DateTime(1999, 7, 4, 7, 9, 2), FracSec.from!"usecs"(234578)));
sysTime.roll!"days"(30);
_assertPred!"=="(sysTime, SysTime(DateTime(1999, 7, 3, 7, 9, 2), FracSec.from!"usecs"(234578)));
sysTime.roll!"days"(-3);
_assertPred!"=="(sysTime, SysTime(DateTime(1999, 7, 31, 7, 9, 2), FracSec.from!"usecs"(234578)));
}
//Test B.C.
{
auto sysTime = SysTime(Date(-1999, 2, 28));
sysTime.roll!"days"(1);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 2, 1)));
sysTime.roll!"days"(-1);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 2, 28)));
}
{
auto sysTime = SysTime(Date(-2000, 2, 28));
sysTime.roll!"days"(1);
_assertPred!"=="(sysTime, SysTime(Date(-2000, 2, 29)));
sysTime.roll!"days"(1);
_assertPred!"=="(sysTime, SysTime(Date(-2000, 2, 1)));
sysTime.roll!"days"(-1);
_assertPred!"=="(sysTime, SysTime(Date(-2000, 2, 29)));
}
{
auto sysTime = SysTime(Date(-1999, 6, 30));
sysTime.roll!"days"(1);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 6, 1)));
sysTime.roll!"days"(-1);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 6, 30)));
}
{
auto sysTime = SysTime(Date(-1999, 7, 31));
sysTime.roll!"days"(1);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 7, 1)));
sysTime.roll!"days"(-1);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 7, 31)));
}
{
auto sysTime = SysTime(Date(-1999, 1, 1));
sysTime.roll!"days"(-1);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 1, 31)));
sysTime.roll!"days"(1);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 1, 1)));
}
{
auto sysTime = SysTime(Date(-1999, 7, 6));
sysTime.roll!"days"(9);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 7, 15)));
sysTime.roll!"days"(-11);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 7, 4)));
sysTime.roll!"days"(30);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 7, 3)));
sysTime.roll!"days"(-3);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 7, 31)));
}
{
auto sysTime = SysTime(Date(-1999, 7, 6));
sysTime.roll!"days"(365);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 7, 30)));
sysTime.roll!"days"(-365);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 7, 6)));
sysTime.roll!"days"(366);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 7, 31)));
sysTime.roll!"days"(730);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 7, 17)));
sysTime.roll!"days"(-1096);
_assertPred!"=="(sysTime, SysTime(Date(-1999, 7, 6)));
}
{
auto sysTime = SysTime(DateTime(-1999, 2, 28, 7, 9, 2), FracSec.from!"usecs"(234578));
sysTime.roll!"days"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(-1999, 2, 1, 7, 9, 2), FracSec.from!"usecs"(234578)));
sysTime.roll!"days"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(-1999, 2, 28, 7, 9, 2), FracSec.from!"usecs"(234578)));
}
{
auto sysTime = SysTime(DateTime(-1999, 7, 6, 7, 9, 2), FracSec.from!"usecs"(234578));
sysTime.roll!"days"(9);
_assertPred!"=="(sysTime, SysTime(DateTime(-1999, 7, 15, 7, 9, 2), FracSec.from!"usecs"(234578)));
sysTime.roll!"days"(-11);
_assertPred!"=="(sysTime, SysTime(DateTime(-1999, 7, 4, 7, 9, 2), FracSec.from!"usecs"(234578)));
sysTime.roll!"days"(30);
_assertPred!"=="(sysTime, SysTime(DateTime(-1999, 7, 3, 7, 9, 2), FracSec.from!"usecs"(234578)));
sysTime.roll!"days"(-3);
}
//Test Both
{
auto sysTime = SysTime(Date(1, 7, 6));
sysTime.roll!"days"(-365);
_assertPred!"=="(sysTime, SysTime(Date(1, 7, 13)));
sysTime.roll!"days"(365);
_assertPred!"=="(sysTime, SysTime(Date(1, 7, 6)));
sysTime.roll!"days"(-731);
_assertPred!"=="(sysTime, SysTime(Date(1, 7, 19)));
sysTime.roll!"days"(730);
_assertPred!"=="(sysTime, SysTime(Date(1, 7, 5)));
}
{
auto sysTime = SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0));
sysTime.roll!"days"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 31, 0, 0, 0), FracSec.from!"hnsecs"(0)));
sysTime.roll!"days"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
}
{
auto sysTime = SysTime(DateTime(1, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999));
sysTime.roll!"days"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
sysTime.roll!"days"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
}
{
auto sysTime = SysTime(DateTime(0, 12, 31, 0, 0, 0), FracSec.from!"hnsecs"(0));
sysTime.roll!"days"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
sysTime.roll!"days"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 31, 0, 0, 0), FracSec.from!"hnsecs"(0)));
}
{
auto sysTime = SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999));
sysTime.roll!"days"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
sysTime.roll!"days"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
}
{
auto sysTime = SysTime(DateTime(1, 7, 6, 13, 13, 9), FracSec.from!"msecs"(22));
sysTime.roll!"days"(-365);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 7, 13, 13, 13, 9), FracSec.from!"msecs"(22)));
sysTime.roll!"days"(365);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 7, 6, 13, 13, 9), FracSec.from!"msecs"(22)));
sysTime.roll!"days"(-731);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 7, 19, 13, 13, 9), FracSec.from!"msecs"(22)));
sysTime.roll!"days"(730);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 7, 5, 13, 13, 9), FracSec.from!"msecs"(22)));
}
{
auto sysTime = SysTime(DateTime(0, 7, 6, 13, 13, 9), FracSec.from!"msecs"(22));
sysTime.roll!"days"(-365);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 7, 13, 13, 13, 9), FracSec.from!"msecs"(22)));
sysTime.roll!"days"(365);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 7, 6, 13, 13, 9), FracSec.from!"msecs"(22)));
sysTime.roll!"days"(-731);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 7, 19, 13, 13, 9), FracSec.from!"msecs"(22)));
sysTime.roll!"days"(730);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 7, 5, 13, 13, 9), FracSec.from!"msecs"(22)));
}
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(!__traits(compiles, cst.roll!"days"(4)));
//static assert(!__traits(compiles, ist.roll!"days"(4)));
//Verify Examples.
auto st = SysTime(DateTime(2010, 1, 1, 11, 23, 12));
st.roll!"days"(1);
assert(st == SysTime(DateTime(2010, 1, 2, 11, 23, 12)));
st.roll!"days"(365);
assert(st == SysTime(DateTime(2010, 1, 26, 11, 23, 12)));
st.roll!"days"(-32);
assert(st == SysTime(DateTime(2010, 1, 25, 11, 23, 12)));
}
}
//Shares documentation with "days" version.
/+ref SysTime+/ void roll(string units)(long value) nothrow
if(units == "hours" ||
units == "minutes" ||
units == "seconds")
{
try
{
auto hnsecs = adjTime;
auto days = splitUnitsFromHNSecs!"days"(hnsecs) + 1;
if(hnsecs < 0)
{
hnsecs += convert!("hours", "hnsecs")(24);
--days;
}
immutable hour = splitUnitsFromHNSecs!"hours"(hnsecs);
immutable minute = splitUnitsFromHNSecs!"minutes"(hnsecs);
immutable second = splitUnitsFromHNSecs!"seconds"(hnsecs);
auto dateTime = DateTime(Date(cast(int)days), TimeOfDay(cast(int)hour, cast(int)minute, cast(int)second));
dateTime.roll!units(value);
--days;
hnsecs += convert!("hours", "hnsecs")(dateTime.hour);
hnsecs += convert!("minutes", "hnsecs")(dateTime.minute);
hnsecs += convert!("seconds", "hnsecs")(dateTime.second);
if(days < 0)
{
hnsecs -= convert!("hours", "hnsecs")(24);
++days;
}
immutable newDaysHNSecs = convert!("days", "hnsecs")(days);
adjTime = newDaysHNSecs + hnsecs;
}
catch(Exception e)
assert(0, "Either DateTime's constructor or TimeOfDay's constructor threw.");
}
//Test roll!"hours"().
unittest
{
version(testStdDateTime)
{
static void TestST(SysTime orig, int hours, in SysTime expected, size_t line = __LINE__)
{
orig.roll!"hours"(hours);
_assertPred!"=="(orig, expected, "", __FILE__, line);
}
//Test A.D.
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 0, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 1, SysTime(DateTime(1999, 7, 6, 13, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 2, SysTime(DateTime(1999, 7, 6, 14, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 3, SysTime(DateTime(1999, 7, 6, 15, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 4, SysTime(DateTime(1999, 7, 6, 16, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 5, SysTime(DateTime(1999, 7, 6, 17, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 6, SysTime(DateTime(1999, 7, 6, 18, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 7, SysTime(DateTime(1999, 7, 6, 19, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 8, SysTime(DateTime(1999, 7, 6, 20, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 9, SysTime(DateTime(1999, 7, 6, 21, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 10, SysTime(DateTime(1999, 7, 6, 22, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 11, SysTime(DateTime(1999, 7, 6, 23, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 12, SysTime(DateTime(1999, 7, 6, 0, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 13, SysTime(DateTime(1999, 7, 6, 1, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 14, SysTime(DateTime(1999, 7, 6, 2, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 15, SysTime(DateTime(1999, 7, 6, 3, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 16, SysTime(DateTime(1999, 7, 6, 4, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 17, SysTime(DateTime(1999, 7, 6, 5, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 18, SysTime(DateTime(1999, 7, 6, 6, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 19, SysTime(DateTime(1999, 7, 6, 7, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 20, SysTime(DateTime(1999, 7, 6, 8, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 21, SysTime(DateTime(1999, 7, 6, 9, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 22, SysTime(DateTime(1999, 7, 6, 10, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 23, SysTime(DateTime(1999, 7, 6, 11, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 24, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 25, SysTime(DateTime(1999, 7, 6, 13, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 50, SysTime(DateTime(1999, 7, 6, 14, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 10_000, SysTime(DateTime(1999, 7, 6, 4, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -1, SysTime(DateTime(1999, 7, 6, 11, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -2, SysTime(DateTime(1999, 7, 6, 10, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -3, SysTime(DateTime(1999, 7, 6, 9, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -4, SysTime(DateTime(1999, 7, 6, 8, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -5, SysTime(DateTime(1999, 7, 6, 7, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -6, SysTime(DateTime(1999, 7, 6, 6, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -7, SysTime(DateTime(1999, 7, 6, 5, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -8, SysTime(DateTime(1999, 7, 6, 4, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -9, SysTime(DateTime(1999, 7, 6, 3, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -10, SysTime(DateTime(1999, 7, 6, 2, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -11, SysTime(DateTime(1999, 7, 6, 1, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -12, SysTime(DateTime(1999, 7, 6, 0, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -13, SysTime(DateTime(1999, 7, 6, 23, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -14, SysTime(DateTime(1999, 7, 6, 22, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -15, SysTime(DateTime(1999, 7, 6, 21, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -16, SysTime(DateTime(1999, 7, 6, 20, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -17, SysTime(DateTime(1999, 7, 6, 19, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -18, SysTime(DateTime(1999, 7, 6, 18, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -19, SysTime(DateTime(1999, 7, 6, 17, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -20, SysTime(DateTime(1999, 7, 6, 16, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -21, SysTime(DateTime(1999, 7, 6, 15, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -22, SysTime(DateTime(1999, 7, 6, 14, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -23, SysTime(DateTime(1999, 7, 6, 13, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -24, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -25, SysTime(DateTime(1999, 7, 6, 11, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -50, SysTime(DateTime(1999, 7, 6, 10, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -10_000, SysTime(DateTime(1999, 7, 6, 20, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 0, 30, 33), FracSec.from!"msecs"(45)), 1, SysTime(DateTime(1999, 7, 6, 1, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 0, 30, 33), FracSec.from!"msecs"(45)), 0, SysTime(DateTime(1999, 7, 6, 0, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 0, 30, 33), FracSec.from!"msecs"(45)), -1, SysTime(DateTime(1999, 7, 6, 23, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 23, 30, 33), FracSec.from!"msecs"(45)), 1, SysTime(DateTime(1999, 7, 6, 0, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 23, 30, 33), FracSec.from!"msecs"(45)), 0, SysTime(DateTime(1999, 7, 6, 23, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 6, 23, 30, 33), FracSec.from!"msecs"(45)), -1, SysTime(DateTime(1999, 7, 6, 22, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 7, 31, 23, 30, 33), FracSec.from!"msecs"(45)), 1, SysTime(DateTime(1999, 7, 31, 0, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 8, 1, 0, 30, 33), FracSec.from!"msecs"(45)), -1, SysTime(DateTime(1999, 8, 1, 23, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 12, 31, 23, 30, 33), FracSec.from!"msecs"(45)), 1, SysTime(DateTime(1999, 12, 31, 0, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(2000, 1, 1, 0, 30, 33), FracSec.from!"msecs"(45)), -1, SysTime(DateTime(2000, 1, 1, 23, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 2, 28, 23, 30, 33), FracSec.from!"msecs"(45)), 25, SysTime(DateTime(1999, 2, 28, 0, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1999, 3, 2, 0, 30, 33), FracSec.from!"msecs"(45)), -25, SysTime(DateTime(1999, 3, 2, 23, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(2000, 2, 28, 23, 30, 33), FracSec.from!"msecs"(45)), 25, SysTime(DateTime(2000, 2, 28, 0, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(2000, 3, 1, 0, 30, 33), FracSec.from!"msecs"(45)), -25, SysTime(DateTime(2000, 3, 1, 23, 30, 33), FracSec.from!"msecs"(45)));
//Test B.C.
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 0, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 1, SysTime(DateTime(-1999, 7, 6, 13, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 2, SysTime(DateTime(-1999, 7, 6, 14, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 3, SysTime(DateTime(-1999, 7, 6, 15, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 4, SysTime(DateTime(-1999, 7, 6, 16, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 5, SysTime(DateTime(-1999, 7, 6, 17, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 6, SysTime(DateTime(-1999, 7, 6, 18, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 7, SysTime(DateTime(-1999, 7, 6, 19, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 8, SysTime(DateTime(-1999, 7, 6, 20, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 9, SysTime(DateTime(-1999, 7, 6, 21, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 10, SysTime(DateTime(-1999, 7, 6, 22, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 11, SysTime(DateTime(-1999, 7, 6, 23, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 12, SysTime(DateTime(-1999, 7, 6, 0, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 13, SysTime(DateTime(-1999, 7, 6, 1, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 14, SysTime(DateTime(-1999, 7, 6, 2, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 15, SysTime(DateTime(-1999, 7, 6, 3, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 16, SysTime(DateTime(-1999, 7, 6, 4, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 17, SysTime(DateTime(-1999, 7, 6, 5, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 18, SysTime(DateTime(-1999, 7, 6, 6, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 19, SysTime(DateTime(-1999, 7, 6, 7, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 20, SysTime(DateTime(-1999, 7, 6, 8, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 21, SysTime(DateTime(-1999, 7, 6, 9, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 22, SysTime(DateTime(-1999, 7, 6, 10, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 23, SysTime(DateTime(-1999, 7, 6, 11, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 24, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 25, SysTime(DateTime(-1999, 7, 6, 13, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 50, SysTime(DateTime(-1999, 7, 6, 14, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), 10_000, SysTime(DateTime(-1999, 7, 6, 4, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -1, SysTime(DateTime(-1999, 7, 6, 11, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -2, SysTime(DateTime(-1999, 7, 6, 10, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -3, SysTime(DateTime(-1999, 7, 6, 9, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -4, SysTime(DateTime(-1999, 7, 6, 8, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -5, SysTime(DateTime(-1999, 7, 6, 7, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -6, SysTime(DateTime(-1999, 7, 6, 6, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -7, SysTime(DateTime(-1999, 7, 6, 5, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -8, SysTime(DateTime(-1999, 7, 6, 4, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -9, SysTime(DateTime(-1999, 7, 6, 3, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -10, SysTime(DateTime(-1999, 7, 6, 2, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -11, SysTime(DateTime(-1999, 7, 6, 1, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -12, SysTime(DateTime(-1999, 7, 6, 0, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -13, SysTime(DateTime(-1999, 7, 6, 23, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -14, SysTime(DateTime(-1999, 7, 6, 22, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -15, SysTime(DateTime(-1999, 7, 6, 21, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -16, SysTime(DateTime(-1999, 7, 6, 20, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -17, SysTime(DateTime(-1999, 7, 6, 19, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -18, SysTime(DateTime(-1999, 7, 6, 18, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -19, SysTime(DateTime(-1999, 7, 6, 17, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -20, SysTime(DateTime(-1999, 7, 6, 16, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -21, SysTime(DateTime(-1999, 7, 6, 15, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -22, SysTime(DateTime(-1999, 7, 6, 14, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -23, SysTime(DateTime(-1999, 7, 6, 13, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -24, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -25, SysTime(DateTime(-1999, 7, 6, 11, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -50, SysTime(DateTime(-1999, 7, 6, 10, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(45)), -10_000, SysTime(DateTime(-1999, 7, 6, 20, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 0, 30, 33), FracSec.from!"msecs"(45)), 1, SysTime(DateTime(-1999, 7, 6, 1, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 0, 30, 33), FracSec.from!"msecs"(45)), 0, SysTime(DateTime(-1999, 7, 6, 0, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 0, 30, 33), FracSec.from!"msecs"(45)), -1, SysTime(DateTime(-1999, 7, 6, 23, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 23, 30, 33), FracSec.from!"msecs"(45)), 1, SysTime(DateTime(-1999, 7, 6, 0, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 23, 30, 33), FracSec.from!"msecs"(45)), 0, SysTime(DateTime(-1999, 7, 6, 23, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 6, 23, 30, 33), FracSec.from!"msecs"(45)), -1, SysTime(DateTime(-1999, 7, 6, 22, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 7, 31, 23, 30, 33), FracSec.from!"msecs"(45)), 1, SysTime(DateTime(-1999, 7, 31, 0, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-1999, 8, 1, 0, 30, 33), FracSec.from!"msecs"(45)), -1, SysTime(DateTime(-1999, 8, 1, 23, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-2001, 12, 31, 23, 30, 33), FracSec.from!"msecs"(45)), 1, SysTime(DateTime(-2001, 12, 31, 0, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-2000, 1, 1, 0, 30, 33), FracSec.from!"msecs"(45)), -1, SysTime(DateTime(-2000, 1, 1, 23, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-2001, 2, 28, 23, 30, 33), FracSec.from!"msecs"(45)), 25, SysTime(DateTime(-2001, 2, 28, 0, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-2001, 3, 2, 0, 30, 33), FracSec.from!"msecs"(45)), -25, SysTime(DateTime(-2001, 3, 2, 23, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-2000, 2, 28, 23, 30, 33), FracSec.from!"msecs"(45)), 25, SysTime(DateTime(-2000, 2, 28, 0, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(-2000, 3, 1, 0, 30, 33), FracSec.from!"msecs"(45)), -25, SysTime(DateTime(-2000, 3, 1, 23, 30, 33), FracSec.from!"msecs"(45)));
//Test Both
TestST(SysTime(DateTime(-1, 1, 1, 11, 30, 33), FracSec.from!"msecs"(45)), 17_546, SysTime(DateTime(-1, 1, 1, 13, 30, 33), FracSec.from!"msecs"(45)));
TestST(SysTime(DateTime(1, 1, 1, 13, 30, 33), FracSec.from!"msecs"(45)), -17_546, SysTime(DateTime(1, 1, 1, 11, 30, 33), FracSec.from!"msecs"(45)));
{
auto sysTime = SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0));
sysTime.roll!"hours"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 23, 0, 0), FracSec.from!"hnsecs"(0)));
sysTime.roll!"hours"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
}
{
auto sysTime = SysTime(DateTime(1, 1, 1, 0, 59, 59), FracSec.from!"hnsecs"(9_999_999));
sysTime.roll!"hours"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
sysTime.roll!"hours"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 0, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
}
{
auto sysTime = SysTime(DateTime(0, 12, 31, 23, 0, 0), FracSec.from!"hnsecs"(0));
sysTime.roll!"hours"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 31, 0, 0, 0), FracSec.from!"hnsecs"(0)));
sysTime.roll!"hours"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 31, 23, 0, 0), FracSec.from!"hnsecs"(0)));
}
{
auto sysTime = SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999));
sysTime.roll!"hours"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 31, 0, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
sysTime.roll!"hours"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
}
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(!__traits(compiles, cst.roll!"hours"(4)));
//static assert(!__traits(compiles, ist.roll!"hours"(4)));
//Verify Examples.
auto st1 = SysTime(DateTime(2010, 7, 4, 12, 0, 0));
st1.roll!"hours"(1);
assert(st1 == SysTime(DateTime(2010, 7, 4, 13, 0, 0)));
auto st2 = SysTime(DateTime(2010, 2, 12, 12, 0, 0));
st2.roll!"hours"(-1);
assert(st2 == SysTime(DateTime(2010, 2, 12, 11, 0, 0)));
auto st3 = SysTime(DateTime(2009, 12, 31, 0, 0, 0));
st3.roll!"minutes"(1);
assert(st3 == SysTime(DateTime(2009, 12, 31, 0, 1, 0)));
auto st4 = SysTime(DateTime(2010, 1, 1, 0, 0, 0));
st4.roll!"minutes"(-1);
assert(st4 == SysTime(DateTime(2010, 1, 1, 0, 59, 0)));
auto st5 = SysTime(DateTime(2009, 12, 31, 0, 0, 0));
st5.roll!"seconds"(1);
assert(st5 == SysTime(DateTime(2009, 12, 31, 0, 0, 1)));
auto st6 = SysTime(DateTime(2010, 1, 1, 0, 0, 0));
st6.roll!"seconds"(-1);
assert(st6 == SysTime(DateTime(2010, 1, 1, 0, 0, 59)));
}
}
//Test roll!"minutes"().
unittest
{
version(testStdDateTime)
{
static void TestST(SysTime orig, int minutes, in SysTime expected, size_t line = __LINE__)
{
orig.roll!"minutes"(minutes);
_assertPred!"=="(orig, expected, "", __FILE__, line);
}
//Test A.D.
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 0, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 1, SysTime(DateTime(1999, 7, 6, 12, 31, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 2, SysTime(DateTime(1999, 7, 6, 12, 32, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 3, SysTime(DateTime(1999, 7, 6, 12, 33, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 4, SysTime(DateTime(1999, 7, 6, 12, 34, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 5, SysTime(DateTime(1999, 7, 6, 12, 35, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 10, SysTime(DateTime(1999, 7, 6, 12, 40, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 15, SysTime(DateTime(1999, 7, 6, 12, 45, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 29, SysTime(DateTime(1999, 7, 6, 12, 59, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 30, SysTime(DateTime(1999, 7, 6, 12, 0, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 45, SysTime(DateTime(1999, 7, 6, 12, 15, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 60, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 75, SysTime(DateTime(1999, 7, 6, 12, 45, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 90, SysTime(DateTime(1999, 7, 6, 12, 0, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 100, SysTime(DateTime(1999, 7, 6, 12, 10, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 689, SysTime(DateTime(1999, 7, 6, 12, 59, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 690, SysTime(DateTime(1999, 7, 6, 12, 0, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 691, SysTime(DateTime(1999, 7, 6, 12, 1, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 960, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 1439, SysTime(DateTime(1999, 7, 6, 12, 29, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 1440, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 1441, SysTime(DateTime(1999, 7, 6, 12, 31, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 2880, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -1, SysTime(DateTime(1999, 7, 6, 12, 29, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -2, SysTime(DateTime(1999, 7, 6, 12, 28, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -3, SysTime(DateTime(1999, 7, 6, 12, 27, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -4, SysTime(DateTime(1999, 7, 6, 12, 26, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -5, SysTime(DateTime(1999, 7, 6, 12, 25, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -10, SysTime(DateTime(1999, 7, 6, 12, 20, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -15, SysTime(DateTime(1999, 7, 6, 12, 15, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -29, SysTime(DateTime(1999, 7, 6, 12, 1, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -30, SysTime(DateTime(1999, 7, 6, 12, 0, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -45, SysTime(DateTime(1999, 7, 6, 12, 45, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -60, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -75, SysTime(DateTime(1999, 7, 6, 12, 15, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -90, SysTime(DateTime(1999, 7, 6, 12, 0, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -100, SysTime(DateTime(1999, 7, 6, 12, 50, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -749, SysTime(DateTime(1999, 7, 6, 12, 1, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -750, SysTime(DateTime(1999, 7, 6, 12, 0, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -751, SysTime(DateTime(1999, 7, 6, 12, 59, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -960, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -1439, SysTime(DateTime(1999, 7, 6, 12, 31, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -1440, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -1441, SysTime(DateTime(1999, 7, 6, 12, 29, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -2880, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 0, 33), FracSec.from!"usecs"(7203)), 1, SysTime(DateTime(1999, 7, 6, 12, 1, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 0, 33), FracSec.from!"usecs"(7203)), 0, SysTime(DateTime(1999, 7, 6, 12, 0, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 0, 33), FracSec.from!"usecs"(7203)), -1, SysTime(DateTime(1999, 7, 6, 12, 59, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 11, 59, 33), FracSec.from!"usecs"(7203)), 1, SysTime(DateTime(1999, 7, 6, 11, 0, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 11, 59, 33), FracSec.from!"usecs"(7203)), 0, SysTime(DateTime(1999, 7, 6, 11, 59, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 11, 59, 33), FracSec.from!"usecs"(7203)), -1, SysTime(DateTime(1999, 7, 6, 11, 58, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 0, 0, 33), FracSec.from!"usecs"(7203)), 1, SysTime(DateTime(1999, 7, 6, 0, 1, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 0, 0, 33), FracSec.from!"usecs"(7203)), 0, SysTime(DateTime(1999, 7, 6, 0, 0, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 6, 0, 0, 33), FracSec.from!"usecs"(7203)), -1, SysTime(DateTime(1999, 7, 6, 0, 59, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 5, 23, 59, 33), FracSec.from!"usecs"(7203)), 1, SysTime(DateTime(1999, 7, 5, 23, 0, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 5, 23, 59, 33), FracSec.from!"usecs"(7203)), 0, SysTime(DateTime(1999, 7, 5, 23, 59, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1999, 7, 5, 23, 59, 33), FracSec.from!"usecs"(7203)), -1, SysTime(DateTime(1999, 7, 5, 23, 58, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1998, 12, 31, 23, 59, 33), FracSec.from!"usecs"(7203)), 1, SysTime(DateTime(1998, 12, 31, 23, 0, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1998, 12, 31, 23, 59, 33), FracSec.from!"usecs"(7203)), 0, SysTime(DateTime(1998, 12, 31, 23, 59, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1998, 12, 31, 23, 59, 33), FracSec.from!"usecs"(7203)), -1, SysTime(DateTime(1998, 12, 31, 23, 58, 33), FracSec.from!"usecs"(7203)));
//Test B.C.
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 0, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 1, SysTime(DateTime(-1999, 7, 6, 12, 31, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 2, SysTime(DateTime(-1999, 7, 6, 12, 32, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 3, SysTime(DateTime(-1999, 7, 6, 12, 33, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 4, SysTime(DateTime(-1999, 7, 6, 12, 34, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 5, SysTime(DateTime(-1999, 7, 6, 12, 35, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 10, SysTime(DateTime(-1999, 7, 6, 12, 40, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 15, SysTime(DateTime(-1999, 7, 6, 12, 45, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 29, SysTime(DateTime(-1999, 7, 6, 12, 59, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 30, SysTime(DateTime(-1999, 7, 6, 12, 0, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 45, SysTime(DateTime(-1999, 7, 6, 12, 15, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 60, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 75, SysTime(DateTime(-1999, 7, 6, 12, 45, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 90, SysTime(DateTime(-1999, 7, 6, 12, 0, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 100, SysTime(DateTime(-1999, 7, 6, 12, 10, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 689, SysTime(DateTime(-1999, 7, 6, 12, 59, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 690, SysTime(DateTime(-1999, 7, 6, 12, 0, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 691, SysTime(DateTime(-1999, 7, 6, 12, 1, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 960, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 1439, SysTime(DateTime(-1999, 7, 6, 12, 29, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 1440, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 1441, SysTime(DateTime(-1999, 7, 6, 12, 31, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), 2880, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -1, SysTime(DateTime(-1999, 7, 6, 12, 29, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -2, SysTime(DateTime(-1999, 7, 6, 12, 28, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -3, SysTime(DateTime(-1999, 7, 6, 12, 27, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -4, SysTime(DateTime(-1999, 7, 6, 12, 26, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -5, SysTime(DateTime(-1999, 7, 6, 12, 25, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -10, SysTime(DateTime(-1999, 7, 6, 12, 20, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -15, SysTime(DateTime(-1999, 7, 6, 12, 15, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -29, SysTime(DateTime(-1999, 7, 6, 12, 1, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -30, SysTime(DateTime(-1999, 7, 6, 12, 0, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -45, SysTime(DateTime(-1999, 7, 6, 12, 45, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -60, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -75, SysTime(DateTime(-1999, 7, 6, 12, 15, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -90, SysTime(DateTime(-1999, 7, 6, 12, 0, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -100, SysTime(DateTime(-1999, 7, 6, 12, 50, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -749, SysTime(DateTime(-1999, 7, 6, 12, 1, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -750, SysTime(DateTime(-1999, 7, 6, 12, 0, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -751, SysTime(DateTime(-1999, 7, 6, 12, 59, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -960, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -1439, SysTime(DateTime(-1999, 7, 6, 12, 31, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -1440, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -1441, SysTime(DateTime(-1999, 7, 6, 12, 29, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)), -2880, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 0, 33), FracSec.from!"usecs"(7203)), 1, SysTime(DateTime(-1999, 7, 6, 12, 1, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 0, 33), FracSec.from!"usecs"(7203)), 0, SysTime(DateTime(-1999, 7, 6, 12, 0, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 0, 33), FracSec.from!"usecs"(7203)), -1, SysTime(DateTime(-1999, 7, 6, 12, 59, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 11, 59, 33), FracSec.from!"usecs"(7203)), 1, SysTime(DateTime(-1999, 7, 6, 11, 0, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 11, 59, 33), FracSec.from!"usecs"(7203)), 0, SysTime(DateTime(-1999, 7, 6, 11, 59, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 11, 59, 33), FracSec.from!"usecs"(7203)), -1, SysTime(DateTime(-1999, 7, 6, 11, 58, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 0, 0, 33), FracSec.from!"usecs"(7203)), 1, SysTime(DateTime(-1999, 7, 6, 0, 1, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 0, 0, 33), FracSec.from!"usecs"(7203)), 0, SysTime(DateTime(-1999, 7, 6, 0, 0, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 6, 0, 0, 33), FracSec.from!"usecs"(7203)), -1, SysTime(DateTime(-1999, 7, 6, 0, 59, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 5, 23, 59, 33), FracSec.from!"usecs"(7203)), 1, SysTime(DateTime(-1999, 7, 5, 23, 0, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 5, 23, 59, 33), FracSec.from!"usecs"(7203)), 0, SysTime(DateTime(-1999, 7, 5, 23, 59, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1999, 7, 5, 23, 59, 33), FracSec.from!"usecs"(7203)), -1, SysTime(DateTime(-1999, 7, 5, 23, 58, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-2000, 12, 31, 23, 59, 33), FracSec.from!"usecs"(7203)), 1, SysTime(DateTime(-2000, 12, 31, 23, 0, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-2000, 12, 31, 23, 59, 33), FracSec.from!"usecs"(7203)), 0, SysTime(DateTime(-2000, 12, 31, 23, 59, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-2000, 12, 31, 23, 59, 33), FracSec.from!"usecs"(7203)), -1, SysTime(DateTime(-2000, 12, 31, 23, 58, 33), FracSec.from!"usecs"(7203)));
//Test Both
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0)), -1, SysTime(DateTime(1, 1, 1, 0, 59, 0)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 0)), 1, SysTime(DateTime(0, 12, 31, 23, 0, 0)));
TestST(SysTime(DateTime(0, 1, 1, 0, 0, 0)), -1, SysTime(DateTime(0, 1, 1, 0, 59, 0)));
TestST(SysTime(DateTime(-1, 12, 31, 23, 59, 0)), 1, SysTime(DateTime(-1, 12, 31, 23, 0, 0)));
TestST(SysTime(DateTime(-1, 1, 1, 11, 30, 33), FracSec.from!"usecs"(7203)), 1_052_760, SysTime(DateTime(-1, 1, 1, 11, 30, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1, 1, 1, 13, 30, 33), FracSec.from!"usecs"(7203)), -1_052_760, SysTime(DateTime(1, 1, 1, 13, 30, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(-1, 1, 1, 11, 30, 33), FracSec.from!"usecs"(7203)), 1_052_782, SysTime(DateTime(-1, 1, 1, 11, 52, 33), FracSec.from!"usecs"(7203)));
TestST(SysTime(DateTime(1, 1, 1, 13, 52, 33), FracSec.from!"usecs"(7203)), -1_052_782, SysTime(DateTime(1, 1, 1, 13, 30, 33), FracSec.from!"usecs"(7203)));
{
auto sysTime = SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0));
sysTime.roll!"minutes"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 0, 59, 0), FracSec.from!"hnsecs"(0)));
sysTime.roll!"minutes"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
}
{
auto sysTime = SysTime(DateTime(1, 1, 1, 0, 0, 59), FracSec.from!"hnsecs"(9_999_999));
sysTime.roll!"minutes"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 0, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
sysTime.roll!"minutes"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 0, 0, 59), FracSec.from!"hnsecs"(9_999_999)));
}
{
auto sysTime = SysTime(DateTime(0, 12, 31, 23, 59, 0), FracSec.from!"hnsecs"(0));
sysTime.roll!"minutes"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 31, 23, 0, 0), FracSec.from!"hnsecs"(0)));
sysTime.roll!"minutes"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 31, 23, 59, 0), FracSec.from!"hnsecs"(0)));
}
{
auto sysTime = SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999));
sysTime.roll!"minutes"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 31, 23, 0, 59), FracSec.from!"hnsecs"(9_999_999)));
sysTime.roll!"minutes"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
}
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(!__traits(compiles, cst.roll!"minutes"(4)));
//static assert(!__traits(compiles, ist.roll!"minutes"(4)));
}
}
//Test roll!"seconds"().
unittest
{
version(testStdDateTime)
{
static void TestST(SysTime orig, int seconds, in SysTime expected, size_t line = __LINE__)
{
orig.roll!"seconds"(seconds);
_assertPred!"=="(orig, expected, "", __FILE__, line);
}
//Test A.D.
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 0, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 1, SysTime(DateTime(1999, 7, 6, 12, 30, 34), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 2, SysTime(DateTime(1999, 7, 6, 12, 30, 35), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 3, SysTime(DateTime(1999, 7, 6, 12, 30, 36), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 4, SysTime(DateTime(1999, 7, 6, 12, 30, 37), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 5, SysTime(DateTime(1999, 7, 6, 12, 30, 38), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 10, SysTime(DateTime(1999, 7, 6, 12, 30, 43), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 15, SysTime(DateTime(1999, 7, 6, 12, 30, 48), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 26, SysTime(DateTime(1999, 7, 6, 12, 30, 59), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 27, SysTime(DateTime(1999, 7, 6, 12, 30, 0), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 30, SysTime(DateTime(1999, 7, 6, 12, 30, 3), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 59, SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 60, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 61, SysTime(DateTime(1999, 7, 6, 12, 30, 34), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 1766, SysTime(DateTime(1999, 7, 6, 12, 30, 59), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 1767, SysTime(DateTime(1999, 7, 6, 12, 30, 0), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 1768, SysTime(DateTime(1999, 7, 6, 12, 30, 1), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 2007, SysTime(DateTime(1999, 7, 6, 12, 30, 0), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 3599, SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 3600, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 3601, SysTime(DateTime(1999, 7, 6, 12, 30, 34), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 7200, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -1, SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -2, SysTime(DateTime(1999, 7, 6, 12, 30, 31), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -3, SysTime(DateTime(1999, 7, 6, 12, 30, 30), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -4, SysTime(DateTime(1999, 7, 6, 12, 30, 29), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -5, SysTime(DateTime(1999, 7, 6, 12, 30, 28), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -10, SysTime(DateTime(1999, 7, 6, 12, 30, 23), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -15, SysTime(DateTime(1999, 7, 6, 12, 30, 18), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -33, SysTime(DateTime(1999, 7, 6, 12, 30, 0), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -34, SysTime(DateTime(1999, 7, 6, 12, 30, 59), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -35, SysTime(DateTime(1999, 7, 6, 12, 30, 58), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -59, SysTime(DateTime(1999, 7, 6, 12, 30, 34), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -60, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -61, SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 0), FracSec.from!"msecs"(274)), 1, SysTime(DateTime(1999, 7, 6, 12, 30, 1), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 0), FracSec.from!"msecs"(274)), 0, SysTime(DateTime(1999, 7, 6, 12, 30, 0), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 0), FracSec.from!"msecs"(274)), -1, SysTime(DateTime(1999, 7, 6, 12, 30, 59), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 0, 0), FracSec.from!"msecs"(274)), 1, SysTime(DateTime(1999, 7, 6, 12, 0, 1), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 0, 0), FracSec.from!"msecs"(274)), 0, SysTime(DateTime(1999, 7, 6, 12, 0, 0), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 0, 0), FracSec.from!"msecs"(274)), -1, SysTime(DateTime(1999, 7, 6, 12, 0, 59), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 0, 0, 0), FracSec.from!"msecs"(274)), 1, SysTime(DateTime(1999, 7, 6, 0, 0, 1), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 0, 0, 0), FracSec.from!"msecs"(274)), 0, SysTime(DateTime(1999, 7, 6, 0, 0, 0), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 0, 0, 0), FracSec.from!"msecs"(274)), -1, SysTime(DateTime(1999, 7, 6, 0, 0, 59), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 5, 23, 59, 59), FracSec.from!"msecs"(274)), 1, SysTime(DateTime(1999, 7, 5, 23, 59, 0), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 5, 23, 59, 59), FracSec.from!"msecs"(274)), 0, SysTime(DateTime(1999, 7, 5, 23, 59, 59), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 5, 23, 59, 59), FracSec.from!"msecs"(274)), -1, SysTime(DateTime(1999, 7, 5, 23, 59, 58), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1998, 12, 31, 23, 59, 59), FracSec.from!"msecs"(274)), 1, SysTime(DateTime(1998, 12, 31, 23, 59, 0), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1998, 12, 31, 23, 59, 59), FracSec.from!"msecs"(274)), 0, SysTime(DateTime(1998, 12, 31, 23, 59, 59), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1998, 12, 31, 23, 59, 59), FracSec.from!"msecs"(274)), -1, SysTime(DateTime(1998, 12, 31, 23, 59, 58), FracSec.from!"msecs"(274)));
//Test B.C.
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 0, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 1, SysTime(DateTime(-1999, 7, 6, 12, 30, 34), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 2, SysTime(DateTime(-1999, 7, 6, 12, 30, 35), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 3, SysTime(DateTime(-1999, 7, 6, 12, 30, 36), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 4, SysTime(DateTime(-1999, 7, 6, 12, 30, 37), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 5, SysTime(DateTime(-1999, 7, 6, 12, 30, 38), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 10, SysTime(DateTime(-1999, 7, 6, 12, 30, 43), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 15, SysTime(DateTime(-1999, 7, 6, 12, 30, 48), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 26, SysTime(DateTime(-1999, 7, 6, 12, 30, 59), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 27, SysTime(DateTime(-1999, 7, 6, 12, 30, 0), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 30, SysTime(DateTime(-1999, 7, 6, 12, 30, 3), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 59, SysTime(DateTime(-1999, 7, 6, 12, 30, 32), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 60, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 61, SysTime(DateTime(-1999, 7, 6, 12, 30, 34), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 1766, SysTime(DateTime(-1999, 7, 6, 12, 30, 59), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 1767, SysTime(DateTime(-1999, 7, 6, 12, 30, 0), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 1768, SysTime(DateTime(-1999, 7, 6, 12, 30, 1), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 2007, SysTime(DateTime(-1999, 7, 6, 12, 30, 0), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 3599, SysTime(DateTime(-1999, 7, 6, 12, 30, 32), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 3600, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 3601, SysTime(DateTime(-1999, 7, 6, 12, 30, 34), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 7200, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -1, SysTime(DateTime(-1999, 7, 6, 12, 30, 32), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -2, SysTime(DateTime(-1999, 7, 6, 12, 30, 31), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -3, SysTime(DateTime(-1999, 7, 6, 12, 30, 30), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -4, SysTime(DateTime(-1999, 7, 6, 12, 30, 29), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -5, SysTime(DateTime(-1999, 7, 6, 12, 30, 28), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -10, SysTime(DateTime(-1999, 7, 6, 12, 30, 23), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -15, SysTime(DateTime(-1999, 7, 6, 12, 30, 18), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -33, SysTime(DateTime(-1999, 7, 6, 12, 30, 0), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -34, SysTime(DateTime(-1999, 7, 6, 12, 30, 59), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -35, SysTime(DateTime(-1999, 7, 6, 12, 30, 58), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -59, SysTime(DateTime(-1999, 7, 6, 12, 30, 34), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -60, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -61, SysTime(DateTime(-1999, 7, 6, 12, 30, 32), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 0), FracSec.from!"msecs"(274)), 1, SysTime(DateTime(-1999, 7, 6, 12, 30, 1), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 0), FracSec.from!"msecs"(274)), 0, SysTime(DateTime(-1999, 7, 6, 12, 30, 0), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 0), FracSec.from!"msecs"(274)), -1, SysTime(DateTime(-1999, 7, 6, 12, 30, 59), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 0, 0), FracSec.from!"msecs"(274)), 1, SysTime(DateTime(-1999, 7, 6, 12, 0, 1), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 0, 0), FracSec.from!"msecs"(274)), 0, SysTime(DateTime(-1999, 7, 6, 12, 0, 0), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 0, 0), FracSec.from!"msecs"(274)), -1, SysTime(DateTime(-1999, 7, 6, 12, 0, 59), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 0, 0, 0), FracSec.from!"msecs"(274)), 1, SysTime(DateTime(-1999, 7, 6, 0, 0, 1), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 0, 0, 0), FracSec.from!"msecs"(274)), 0, SysTime(DateTime(-1999, 7, 6, 0, 0, 0), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 0, 0, 0), FracSec.from!"msecs"(274)), -1, SysTime(DateTime(-1999, 7, 6, 0, 0, 59), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 5, 23, 59, 59), FracSec.from!"msecs"(274)), 1, SysTime(DateTime(-1999, 7, 5, 23, 59, 0), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 5, 23, 59, 59), FracSec.from!"msecs"(274)), 0, SysTime(DateTime(-1999, 7, 5, 23, 59, 59), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 5, 23, 59, 59), FracSec.from!"msecs"(274)), -1, SysTime(DateTime(-1999, 7, 5, 23, 59, 58), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-2000, 12, 31, 23, 59, 59), FracSec.from!"msecs"(274)), 1, SysTime(DateTime(-2000, 12, 31, 23, 59, 0), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-2000, 12, 31, 23, 59, 59), FracSec.from!"msecs"(274)), 0, SysTime(DateTime(-2000, 12, 31, 23, 59, 59), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-2000, 12, 31, 23, 59, 59), FracSec.from!"msecs"(274)), -1, SysTime(DateTime(-2000, 12, 31, 23, 59, 58), FracSec.from!"msecs"(274)));
//Test Both
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"msecs"(274)), -1, SysTime(DateTime(1, 1, 1, 0, 0, 59), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"msecs"(274)), 1, SysTime(DateTime(0, 12, 31, 23, 59, 0), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(0, 1, 1, 0, 0, 0), FracSec.from!"msecs"(274)), -1, SysTime(DateTime(0, 1, 1, 0, 0, 59), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1, 12, 31, 23, 59, 59), FracSec.from!"msecs"(274)), 1, SysTime(DateTime(-1, 12, 31, 23, 59, 0), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1, 1, 1, 11, 30, 33), FracSec.from!"msecs"(274)), 63_165_600L, SysTime(DateTime(-1, 1, 1, 11, 30, 33), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1, 1, 1, 13, 30, 33), FracSec.from!"msecs"(274)), -63_165_600L, SysTime(DateTime(1, 1, 1, 13, 30, 33), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1, 1, 1, 11, 30, 33), FracSec.from!"msecs"(274)), 63_165_617L, SysTime(DateTime(-1, 1, 1, 11, 30, 50), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1, 1, 1, 13, 30, 50), FracSec.from!"msecs"(274)), -63_165_617L, SysTime(DateTime(1, 1, 1, 13, 30, 33), FracSec.from!"msecs"(274)));
{
auto sysTime = SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0));
sysTime.roll!"seconds"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 0, 0, 59), FracSec.from!"hnsecs"(0)));
sysTime.roll!"seconds"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
}
{
auto sysTime = SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(9_999_999));
sysTime.roll!"seconds"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 0, 0, 59), FracSec.from!"hnsecs"(9_999_999)));
sysTime.roll!"seconds"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(9_999_999)));
}
{
auto sysTime = SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(0));
sysTime.roll!"seconds"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 31, 23, 59, 0), FracSec.from!"hnsecs"(0)));
sysTime.roll!"seconds"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(0)));
}
{
auto sysTime = SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999));
sysTime.roll!"seconds"(1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 31, 23, 59, 0), FracSec.from!"hnsecs"(9_999_999)));
sysTime.roll!"seconds"(-1);
_assertPred!"=="(sysTime, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
}
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(!__traits(compiles, cst.roll!"seconds"(4)));
//static assert(!__traits(compiles, ist.roll!"seconds"(4)));
}
}
//Shares documentation with "days" version.
/+ref SysTime+/ void roll(string units)(long value) nothrow
if(units == "msecs" ||
units == "usecs" ||
units == "hnsecs")
{
auto hnsecs = adjTime;
immutable days = splitUnitsFromHNSecs!"days"(hnsecs);
immutable negative = hnsecs < 0;
if(negative)
hnsecs += convert!("hours", "hnsecs")(24);
immutable seconds = splitUnitsFromHNSecs!"seconds"(hnsecs);
hnsecs += convert!(units, "hnsecs")(value);
hnsecs %= convert!("seconds", "hnsecs")(1);
if(hnsecs < 0)
hnsecs += convert!("seconds", "hnsecs")(1);
hnsecs += convert!("seconds", "hnsecs")(seconds);
if(negative)
hnsecs -= convert!("hours", "hnsecs")(24);
immutable newDaysHNSecs = convert!("days", "hnsecs")(days);
adjTime = newDaysHNSecs + hnsecs;
}
//Test roll!"msecs"().
unittest
{
version(testStdDateTime)
{
static void TestST(SysTime orig, int milliseconds, in SysTime expected, size_t line = __LINE__)
{
orig.roll!"msecs"(milliseconds);
_assertPred!"=="(orig, expected, "", __FILE__, line);
}
//Test A.D.
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 0, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 1, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(275)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 2, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(276)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 10, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(284)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 100, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(374)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 725, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 726, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(0)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 1000, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 1001, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(275)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 2000, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 26_725, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 26_726, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(0)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 26_727, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(1)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 1_766_725, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 1_766_726, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(0)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -1, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(273)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -2, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(272)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -10, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(264)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -100, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(174)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -274, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(0)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -275, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -1000, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -1001, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(273)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -2000, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -33_274, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(0)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -33_275, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -1_833_274, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(0)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -1_833_275, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(999)));
//Test B.C.
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 0, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 1, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(275)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 2, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(276)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 10, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(284)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 100, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(374)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 725, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 726, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(0)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 1000, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 1001, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(275)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 2000, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 26_725, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 26_726, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(0)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 26_727, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(1)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 1_766_725, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), 1_766_726, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(0)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -1, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(273)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -2, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(272)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -10, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(264)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -100, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(174)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -274, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(0)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -275, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -1000, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -1001, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(273)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -2000, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -33_274, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(0)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -33_275, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -1_833_274, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(0)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(274)), -1_833_275, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(999)));
//Test Both
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"msecs"(0)), 1, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"msecs"(1)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"msecs"(0)), 0, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"msecs"(0)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"msecs"(0)), -1, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"msecs"(999)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"msecs"(0)), -2, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"msecs"(998)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"msecs"(0)), -1000, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"msecs"(0)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"msecs"(0)), -2000, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"msecs"(0)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"msecs"(0)), -2555, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"msecs"(445)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), -1, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_989_999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 0, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 1, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 2, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(19_999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 1000, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 2000, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 2555, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(5_549_999)));
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(!__traits(compiles, cst.addMSecs(4)));
//static assert(!__traits(compiles, ist.addMSecs(4)));
}
}
//Test roll!"usecs"().
unittest
{
version(testStdDateTime)
{
static void TestST(SysTime orig, long microseconds, in SysTime expected, size_t line = __LINE__)
{
orig.roll!"usecs"(microseconds);
_assertPred!"=="(orig, expected, "", __FILE__, line);
}
//Test A.D.
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 0, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 1, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(275)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 2, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(276)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 10, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(284)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 100, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(374)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 725, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 726, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(1000)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 1000, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(1274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 1001, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(1275)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 2000, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(2274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 26_725, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(26_999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 26_726, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(27_000)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 26_727, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(27_001)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 1_766_725, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(766_999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 1_766_726, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(767_000)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 1_000_000, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 60_000_000L, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 3_600_000_000L, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -1, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(273)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -2, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(272)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -10, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(264)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -100, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(174)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -274, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(0)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -275, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(999_999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -1000, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(999_274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -1001, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(999_273)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -2000, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(998_274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -33_274, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(967_000)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -33_275, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(966_999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -1_833_274, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(167_000)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -1_833_275, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(166_999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -1_000_000, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -60_000_000L, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -3_600_000_000L, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)));
//Test B.C.
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 0, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 1, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(275)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 2, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(276)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 10, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(284)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 100, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(374)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 725, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 726, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(1000)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 1000, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(1274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 1001, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(1275)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 2000, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(2274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 26_725, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(26_999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 26_726, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(27_000)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 26_727, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(27_001)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 1_766_725, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(766_999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 1_766_726, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(767_000)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 1_000_000, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 60_000_000L, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), 3_600_000_000L, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -1, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(273)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -2, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(272)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -10, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(264)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -100, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(174)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -274, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(0)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -275, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(999_999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -1000, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(999_274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -1001, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(999_273)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -2000, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(998_274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -33_274, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(967_000)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -33_275, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(966_999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -1_833_274, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(167_000)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -1_833_275, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(166_999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -1_000_000, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -60_000_000L, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)), -3_600_000_000L, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(274)));
//Test Both
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"usecs"(0)), 1, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"usecs"(1)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"usecs"(0)), 0, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"usecs"(0)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"usecs"(0)), -1, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"usecs"(999_999)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"usecs"(0)), -2, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"usecs"(999_998)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"usecs"(0)), -1000, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"usecs"(999_000)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"usecs"(0)), -2000, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"usecs"(998_000)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"usecs"(0)), -2555, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"usecs"(997_445)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"usecs"(0)), -1_000_000, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"usecs"(0)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"usecs"(0)), -2_000_000, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"usecs"(0)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"usecs"(0)), -2_333_333, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"usecs"(666_667)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), -1, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_989)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 0, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 1, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 2, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(19)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 1000, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 2000, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(19_999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 2555, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(25_549)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 1_000_000, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 2_000_000, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 2_333_333, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(3_333_329)));
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(!__traits(compiles, cst.roll!"usecs"(4)));
//static assert(!__traits(compiles, ist.roll!"usecs"(4)));
}
}
//Test roll!"hnsecs"().
unittest
{
version(testStdDateTime)
{
static void TestST(SysTime orig, long hnsecs, in SysTime expected, size_t line = __LINE__)
{
orig.roll!"hnsecs"(hnsecs);
_assertPred!"=="(orig, expected, "", __FILE__, line);
}
//Test A.D.
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 0, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(275)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 2, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(276)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 10, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(284)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 100, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(374)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 725, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 726, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1000)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1000, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1001, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1275)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 2000, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(2274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 26_725, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(26_999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 26_726, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(27_000)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 26_727, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(27_001)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1_766_725, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1_766_999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1_766_726, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1_767_000)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1_000_000, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1_000_274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 60_000_000L, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 3_600_000_000L, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 600_000_000L, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 36_000_000_000L, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(273)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -2, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(272)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -10, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(264)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -100, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(174)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -274, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(0)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -275, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(9_999_999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1000, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(9_999_274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1001, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(9_999_273)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -2000, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(9_998_274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -33_274, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(9_967_000)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -33_275, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(9_966_999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1_833_274, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(8_167_000)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1_833_275, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(8_166_999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1_000_000, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(9_000_274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -60_000_000L, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -3_600_000_000L, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -600_000_000L, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -36_000_000_000L, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)));
//Test B.C.
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 0, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(275)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 2, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(276)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 10, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(284)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 100, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(374)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 725, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 726, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1000)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1000, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1001, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1275)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 2000, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(2274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 26_725, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(26_999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 26_726, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(27_000)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 26_727, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(27_001)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1_766_725, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1_766_999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1_766_726, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1_767_000)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1_000_000, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1_000_274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 60_000_000L, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 3_600_000_000L, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 600_000_000L, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 36_000_000_000L, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(273)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -2, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(272)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -10, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(264)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -100, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(174)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -274, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(0)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -275, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(9_999_999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1000, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(9_999_274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1001, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(9_999_273)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -2000, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(9_998_274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -33_274, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(9_967_000)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -33_275, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(9_966_999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1_833_274, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(8_167_000)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1_833_275, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(8_166_999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1_000_000, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(9_000_274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -60_000_000L, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -3_600_000_000L, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -600_000_000L, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -36_000_000_000L, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)));
//Test Both
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), 1, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(1)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), 0, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -1, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(9_999_999)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -2, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(9_999_998)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -1000, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(9_999_000)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -2000, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(9_998_000)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -2555, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(9_997_445)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -1_000_000, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(9_000_000)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -2_000_000, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(8_000_000)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -2_333_333, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(7_666_667)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -10_000_000, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -20_000_000, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -20_888_888, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(9_111_112)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), -1, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_998)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 0, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 1, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(0)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 2, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(1)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 1000, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 2000, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(1999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 2555, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(2554)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 1_000_000, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(999_999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 2_000_000, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(1_999_999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 2_333_333, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(2_333_332)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 10_000_000, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 20_000_000, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 20_888_888, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(888_887)));
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(!__traits(compiles, cst.roll!"hnsecs"(4)));
//static assert(!__traits(compiles, ist.roll!"hnsecs"(4)));
}
}
/++
Gives the result of adding or subtracting a duration from this
$(D SysTime).
The legal types of arithmetic for $(D SysTime) using this operator are
$(TABLE
$(TR $(TD SysTime) $(TD +) $(TD duration) $(TD -->) $(TD SysTime))
$(TR $(TD SysTime) $(TD -) $(TD duration) $(TD -->) $(TD SysTime))
)
Params:
duration = The duration to add to or subtract from this
$(D SysTime).
+/
SysTime opBinary(string op, D)(in D duration) const pure nothrow
if((op == "+" || op == "-") &&
(is(Unqual!D == Duration) ||
is(Unqual!D == TickDuration)))
{
SysTime retval = SysTime(this._stdTime, this._timezone.get);
static if(is(Unqual!D == Duration))
immutable hnsecs = duration.total!"hnsecs";
else static if(is(Unqual!D == TickDuration))
immutable hnsecs = duration.hnsecs;
//Ideally, this would just be
//retval._stdTime += unaryFun!(op ~ "a")(hnsecs);
//But there isn't currently a pure version of unaryFun!().
static if(op == "+")
immutable signedHNSecs = hnsecs;
else static if(op == "-")
immutable signedHNSecs = -hnsecs;
else
static assert(0);
retval._stdTime += signedHNSecs;
return retval;
}
unittest
{
version(testStdDateTime)
{
auto st = SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(2_345_678));
_assertPred!"=="(st + dur!"weeks"(7), SysTime(DateTime(1999, 8, 24, 12, 30, 33), FracSec.from!"hnsecs"(2_345_678)));
_assertPred!"=="(st + dur!"weeks"(-7), SysTime(DateTime(1999, 5, 18, 12, 30, 33), FracSec.from!"hnsecs"(2_345_678)));
_assertPred!"=="(st + dur!"days"(7), SysTime(DateTime(1999, 7, 13, 12, 30, 33), FracSec.from!"hnsecs"(2_345_678)));
_assertPred!"=="(st + dur!"days"(-7), SysTime(DateTime(1999, 6, 29, 12, 30, 33), FracSec.from!"hnsecs"(2_345_678)));
_assertPred!"=="(st + dur!"hours"(7), SysTime(DateTime(1999, 7, 6, 19, 30, 33), FracSec.from!"hnsecs"(2_345_678)));
_assertPred!"=="(st + dur!"hours"(-7), SysTime(DateTime(1999, 7, 6, 5, 30, 33), FracSec.from!"hnsecs"(2_345_678)));
_assertPred!"=="(st + dur!"minutes"(7), SysTime(DateTime(1999, 7, 6, 12, 37, 33), FracSec.from!"hnsecs"(2_345_678)));
_assertPred!"=="(st + dur!"minutes"(-7), SysTime(DateTime(1999, 7, 6, 12, 23, 33), FracSec.from!"hnsecs"(2_345_678)));
_assertPred!"=="(st + dur!"seconds"(7), SysTime(DateTime(1999, 7, 6, 12, 30, 40), FracSec.from!"hnsecs"(2_345_678)));
_assertPred!"=="(st + dur!"seconds"(-7), SysTime(DateTime(1999, 7, 6, 12, 30, 26), FracSec.from!"hnsecs"(2_345_678)));
_assertPred!"=="(st + dur!"msecs"(7), SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(2_415_678)));
_assertPred!"=="(st + dur!"msecs"(-7), SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(2_275_678)));
_assertPred!"=="(st + dur!"usecs"(7), SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(2_345_748)));
_assertPred!"=="(st + dur!"usecs"(-7), SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(2_345_608)));
_assertPred!"=="(st + dur!"hnsecs"(7), SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(2_345_685)));
_assertPred!"=="(st + dur!"hnsecs"(-7), SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(2_345_671)));
//This probably only runs in cases where gettimeofday() is used, but it's
//hard to do this test correctly with variable ticksPerSec.
if(TickDuration.ticksPerSec == 1_000_000)
{
_assertPred!"=="(st + TickDuration.from!"usecs"(7), SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(2_345_748)));
_assertPred!"=="(st + TickDuration.from!"usecs"(-7), SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(2_345_608)));
}
_assertPred!"=="(st - dur!"weeks"(-7), SysTime(DateTime(1999, 8, 24, 12, 30, 33), FracSec.from!"hnsecs"(2_345_678)));
_assertPred!"=="(st - dur!"weeks"(7), SysTime(DateTime(1999, 5, 18, 12, 30, 33), FracSec.from!"hnsecs"(2_345_678)));
_assertPred!"=="(st - dur!"days"(-7), SysTime(DateTime(1999, 7, 13, 12, 30, 33), FracSec.from!"hnsecs"(2_345_678)));
_assertPred!"=="(st - dur!"days"(7), SysTime(DateTime(1999, 6, 29, 12, 30, 33), FracSec.from!"hnsecs"(2_345_678)));
_assertPred!"=="(st - dur!"hours"(-7), SysTime(DateTime(1999, 7, 6, 19, 30, 33), FracSec.from!"hnsecs"(2_345_678)));
_assertPred!"=="(st - dur!"hours"(7), SysTime(DateTime(1999, 7, 6, 5, 30, 33), FracSec.from!"hnsecs"(2_345_678)));
_assertPred!"=="(st - dur!"minutes"(-7), SysTime(DateTime(1999, 7, 6, 12, 37, 33), FracSec.from!"hnsecs"(2_345_678)));
_assertPred!"=="(st - dur!"minutes"(7), SysTime(DateTime(1999, 7, 6, 12, 23, 33), FracSec.from!"hnsecs"(2_345_678)));
_assertPred!"=="(st - dur!"seconds"(-7), SysTime(DateTime(1999, 7, 6, 12, 30, 40), FracSec.from!"hnsecs"(2_345_678)));
_assertPred!"=="(st - dur!"seconds"(7), SysTime(DateTime(1999, 7, 6, 12, 30, 26), FracSec.from!"hnsecs"(2_345_678)));
_assertPred!"=="(st - dur!"msecs"(-7), SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(2_415_678)));
_assertPred!"=="(st - dur!"msecs"(7), SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(2_275_678)));
_assertPred!"=="(st - dur!"usecs"(-7), SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(2_345_748)));
_assertPred!"=="(st - dur!"usecs"(7), SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(2_345_608)));
_assertPred!"=="(st - dur!"hnsecs"(-7), SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(2_345_685)));
_assertPred!"=="(st - dur!"hnsecs"(7), SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(2_345_671)));
//This probably only runs in cases where gettimeofday() is used, but it's
//hard to do this test correctly with variable ticksPerSec.
if(TickDuration.ticksPerSec == 1_000_000)
{
_assertPred!"=="(st - TickDuration.from!"usecs"(-7), SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(2_345_748)));
_assertPred!"=="(st - TickDuration.from!"usecs"(7), SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(2_345_608)));
}
static void TestST(in SysTime orig, long hnsecs, in SysTime expected, size_t line = __LINE__)
{
_assertPred!"=="(orig + dur!"hnsecs"(hnsecs), expected, "", __FILE__, line);
}
//Test A.D.
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 0, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(275)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 2, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(276)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 10, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(284)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 100, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(374)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 725, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 726, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1000)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1000, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1001, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1275)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 2000, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(2274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 26_725, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(26_999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 26_726, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(27_000)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 26_727, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(27_001)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1_766_725, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1_766_999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1_766_726, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1_767_000)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1_000_000, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1_000_274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 60_000_000L, SysTime(DateTime(1999, 7, 6, 12, 30, 39), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 3_600_000_000L, SysTime(DateTime(1999, 7, 6, 12, 36, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 600_000_000L, SysTime(DateTime(1999, 7, 6, 12, 31, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 36_000_000_000L, SysTime(DateTime(1999, 7, 6, 13, 30, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(273)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -2, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(272)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -10, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(264)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -100, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(174)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -274, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(0)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -275, SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_999_999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1000, SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_999_274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1001, SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_999_273)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -2000, SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_998_274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -33_274, SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_967_000)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -33_275, SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_966_999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1_833_274, SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(8_167_000)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1_833_275, SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(8_166_999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1_000_000, SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_000_274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -60_000_000L, SysTime(DateTime(1999, 7, 6, 12, 30, 27), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -3_600_000_000L, SysTime(DateTime(1999, 7, 6, 12, 24, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -600_000_000L, SysTime(DateTime(1999, 7, 6, 12, 29, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -36_000_000_000L, SysTime(DateTime(1999, 7, 6, 11, 30, 33), FracSec.from!"hnsecs"(274)));
//Test B.C.
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 0, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(275)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 2, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(276)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 10, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(284)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 100, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(374)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 725, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 726, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1000)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1000, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1001, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1275)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 2000, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(2274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 26_725, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(26_999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 26_726, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(27_000)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 26_727, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(27_001)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1_766_725, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1_766_999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1_766_726, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1_767_000)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1_000_000, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1_000_274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 60_000_000L, SysTime(DateTime(-1999, 7, 6, 12, 30, 39), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 3_600_000_000L, SysTime(DateTime(-1999, 7, 6, 12, 36, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 600_000_000L, SysTime(DateTime(-1999, 7, 6, 12, 31, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 36_000_000_000L, SysTime(DateTime(-1999, 7, 6, 13, 30, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(273)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -2, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(272)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -10, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(264)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -100, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(174)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -274, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(0)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -275, SysTime(DateTime(-1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_999_999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1000, SysTime(DateTime(-1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_999_274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1001, SysTime(DateTime(-1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_999_273)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -2000, SysTime(DateTime(-1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_998_274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -33_274, SysTime(DateTime(-1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_967_000)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -33_275, SysTime(DateTime(-1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_966_999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1_833_274, SysTime(DateTime(-1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(8_167_000)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1_833_275, SysTime(DateTime(-1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(8_166_999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1_000_000, SysTime(DateTime(-1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_000_274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -60_000_000L, SysTime(DateTime(-1999, 7, 6, 12, 30, 27), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -3_600_000_000L, SysTime(DateTime(-1999, 7, 6, 12, 24, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -600_000_000L, SysTime(DateTime(-1999, 7, 6, 12, 29, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -36_000_000_000L, SysTime(DateTime(-1999, 7, 6, 11, 30, 33), FracSec.from!"hnsecs"(274)));
//Test Both
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), 1, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(1)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), 0, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -1, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -2, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_998)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -1000, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_000)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -2000, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_998_000)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -2555, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_997_445)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -1_000_000, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_000_000)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -2_000_000, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(8_000_000)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -2_333_333, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(7_666_667)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -10_000_000, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(0)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -20_000_000, SysTime(DateTime(0, 12, 31, 23, 59, 58), FracSec.from!"hnsecs"(0)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -20_888_888, SysTime(DateTime(0, 12, 31, 23, 59, 57), FracSec.from!"hnsecs"(9_111_112)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), -1, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_998)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 0, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 1, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 2, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(1)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 1000, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 2000, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(1999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 2555, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(2554)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 1_000_000, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(999_999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 2_000_000, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(1_999_999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 2_333_333, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(2_333_332)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 10_000_000, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(9_999_999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 20_000_000, SysTime(DateTime(1, 1, 1, 0, 0, 1), FracSec.from!"hnsecs"(9_999_999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 20_888_888, SysTime(DateTime(1, 1, 1, 0, 0, 2), FracSec.from!"hnsecs"(888_887)));
auto duration = dur!"seconds"(12);
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, cst + duration));
//static assert(__traits(compiles, ist + duration));
static assert(__traits(compiles, cst - duration));
//static assert(__traits(compiles, ist - duration));
}
}
/++
Gives the result of adding or subtracting a duration from this
$(D SysTime), as well as assigning the result to this $(D SysTime).
The legal types of arithmetic for $(D SysTime) using this operator are
$(TABLE
$(TR $(TD SysTime) $(TD +) $(TD duration) $(TD -->) $(TD SysTime))
$(TR $(TD SysTime) $(TD -) $(TD duration) $(TD -->) $(TD SysTime))
)
Params:
duration = The duration to add to or subtract from this
$(D SysTime).
+/
/+ref+/ SysTime opOpAssign(string op, D)(in D duration) pure nothrow
if((op == "+" || op == "-") &&
(is(Unqual!D == Duration) ||
is(Unqual!D == TickDuration)))
{
static if(is(Unqual!D == Duration))
auto hnsecs = duration.total!"hnsecs";
else static if(is(Unqual!D == TickDuration))
auto hnsecs = duration.hnsecs;
//Ideally, this would just be
//_stdTime += unaryFun!(op ~ "a")(hnsecs);
//But there isn't currently a pure version of unaryFun!().
static if(op == "+")
immutable signedHNSecs = hnsecs;
else static if(op == "-")
immutable signedHNSecs = -hnsecs;
else
static assert(0);
_stdTime += signedHNSecs;
return this;
}
unittest
{
version(testStdDateTime)
{
_assertPred!"+="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"weeks"(7), SysTime(DateTime(1999, 8, 24, 12, 30, 33)));
_assertPred!"+="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"weeks"(-7), SysTime(DateTime(1999, 5, 18, 12, 30, 33)));
_assertPred!"+="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"days"(7), SysTime(DateTime(1999, 7, 13, 12, 30, 33)));
_assertPred!"+="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"days"(-7), SysTime(DateTime(1999, 6, 29, 12, 30, 33)));
_assertPred!"+="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"hours"(7), SysTime(DateTime(1999, 7, 6, 19, 30, 33)));
_assertPred!"+="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"hours"(-7), SysTime(DateTime(1999, 7, 6, 5, 30, 33)));
_assertPred!"+="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"minutes"(7), SysTime(DateTime(1999, 7, 6, 12, 37, 33)));
_assertPred!"+="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"minutes"(-7), SysTime(DateTime(1999, 7, 6, 12, 23, 33)));
_assertPred!"+="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"seconds"(7), SysTime(DateTime(1999, 7, 6, 12, 30, 40)));
_assertPred!"+="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"seconds"(-7), SysTime(DateTime(1999, 7, 6, 12, 30, 26)));
_assertPred!"+="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"msecs"(7), SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(7)));
_assertPred!"+="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"msecs"(-7), SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"msecs"(993)));
_assertPred!"+="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"usecs"(7), SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7)));
_assertPred!"+="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"usecs"(-7), SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"usecs"(999_993)));
_assertPred!"+="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"hnsecs"(7), SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(7)));
_assertPred!"+="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"hnsecs"(-7), SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_999_993)));
_assertPred!"-="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"weeks"(-7), SysTime(DateTime(1999, 8, 24, 12, 30, 33)));
_assertPred!"-="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"weeks"(7), SysTime(DateTime(1999, 5, 18, 12, 30, 33)));
_assertPred!"-="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"days"(-7), SysTime(DateTime(1999, 7, 13, 12, 30, 33)));
_assertPred!"-="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"days"(7), SysTime(DateTime(1999, 6, 29, 12, 30, 33)));
_assertPred!"-="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"hours"(-7), SysTime(DateTime(1999, 7, 6, 19, 30, 33)));
_assertPred!"-="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"hours"(7), SysTime(DateTime(1999, 7, 6, 5, 30, 33)));
_assertPred!"-="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"minutes"(-7), SysTime(DateTime(1999, 7, 6, 12, 37, 33)));
_assertPred!"-="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"minutes"(7), SysTime(DateTime(1999, 7, 6, 12, 23, 33)));
_assertPred!"-="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"seconds"(-7), SysTime(DateTime(1999, 7, 6, 12, 30, 40)));
_assertPred!"-="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"seconds"(7), SysTime(DateTime(1999, 7, 6, 12, 30, 26)));
_assertPred!"-="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"msecs"(-7), SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(7)));
_assertPred!"-="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"msecs"(7), SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"msecs"(993)));
_assertPred!"-="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"usecs"(-7), SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(7)));
_assertPred!"-="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"usecs"(7), SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"usecs"(999_993)));
_assertPred!"-="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"hnsecs"(-7), SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(7)));
_assertPred!"-="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)), dur!"hnsecs"(7), SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_999_993)));
static void TestST(SysTime orig, long hnsecs, in SysTime expected, size_t line = __LINE__)
{
orig += dur!"hnsecs"(hnsecs);
_assertPred!"=="(orig, expected, "", __FILE__, line);
}
//Test A.D.
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 0, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(275)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 2, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(276)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 10, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(284)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 100, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(374)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 725, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 726, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1000)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1000, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1001, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1275)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 2000, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(2274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 26_725, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(26_999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 26_726, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(27_000)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 26_727, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(27_001)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1_766_725, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1_766_999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1_766_726, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1_767_000)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1_000_000, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1_000_274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 60_000_000L, SysTime(DateTime(1999, 7, 6, 12, 30, 39), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 3_600_000_000L, SysTime(DateTime(1999, 7, 6, 12, 36, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 600_000_000L, SysTime(DateTime(1999, 7, 6, 12, 31, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 36_000_000_000L, SysTime(DateTime(1999, 7, 6, 13, 30, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(273)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -2, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(272)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -10, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(264)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -100, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(174)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -274, SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(0)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -275, SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_999_999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1000, SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_999_274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1001, SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_999_273)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -2000, SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_998_274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -33_274, SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_967_000)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -33_275, SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_966_999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1_833_274, SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(8_167_000)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1_833_275, SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(8_166_999)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1_000_000, SysTime(DateTime(1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_000_274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -60_000_000L, SysTime(DateTime(1999, 7, 6, 12, 30, 27), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -3_600_000_000L, SysTime(DateTime(1999, 7, 6, 12, 24, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -600_000_000L, SysTime(DateTime(1999, 7, 6, 12, 29, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -36_000_000_000L, SysTime(DateTime(1999, 7, 6, 11, 30, 33), FracSec.from!"hnsecs"(274)));
//Test B.C.
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 0, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(275)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 2, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(276)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 10, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(284)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 100, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(374)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 725, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 726, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1000)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1000, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1001, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1275)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 2000, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(2274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 26_725, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(26_999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 26_726, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(27_000)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 26_727, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(27_001)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1_766_725, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1_766_999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1_766_726, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1_767_000)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 1_000_000, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1_000_274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 60_000_000L, SysTime(DateTime(-1999, 7, 6, 12, 30, 39), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 3_600_000_000L, SysTime(DateTime(-1999, 7, 6, 12, 36, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 600_000_000L, SysTime(DateTime(-1999, 7, 6, 12, 31, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), 36_000_000_000L, SysTime(DateTime(-1999, 7, 6, 13, 30, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(273)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -2, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(272)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -10, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(264)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -100, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(174)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -274, SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(0)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -275, SysTime(DateTime(-1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_999_999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1000, SysTime(DateTime(-1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_999_274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1001, SysTime(DateTime(-1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_999_273)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -2000, SysTime(DateTime(-1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_998_274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -33_274, SysTime(DateTime(-1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_967_000)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -33_275, SysTime(DateTime(-1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_966_999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1_833_274, SysTime(DateTime(-1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(8_167_000)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1_833_275, SysTime(DateTime(-1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(8_166_999)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -1_000_000, SysTime(DateTime(-1999, 7, 6, 12, 30, 32), FracSec.from!"hnsecs"(9_000_274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -60_000_000L, SysTime(DateTime(-1999, 7, 6, 12, 30, 27), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -3_600_000_000L, SysTime(DateTime(-1999, 7, 6, 12, 24, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -600_000_000L, SysTime(DateTime(-1999, 7, 6, 12, 29, 33), FracSec.from!"hnsecs"(274)));
TestST(SysTime(DateTime(-1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(274)), -36_000_000_000L, SysTime(DateTime(-1999, 7, 6, 11, 30, 33), FracSec.from!"hnsecs"(274)));
//Test Both
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), 1, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(1)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), 0, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -1, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -2, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_998)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -1000, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_000)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -2000, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_998_000)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -2555, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_997_445)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -1_000_000, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_000_000)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -2_000_000, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(8_000_000)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -2_333_333, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(7_666_667)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -10_000_000, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(0)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -20_000_000, SysTime(DateTime(0, 12, 31, 23, 59, 58), FracSec.from!"hnsecs"(0)));
TestST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), -20_888_888, SysTime(DateTime(0, 12, 31, 23, 59, 57), FracSec.from!"hnsecs"(9_111_112)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), -1, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_998)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 0, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 1, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 2, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(1)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 1000, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 2000, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(1999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 2555, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(2554)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 1_000_000, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(999_999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 2_000_000, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(1_999_999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 2_333_333, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(2_333_332)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 10_000_000, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(9_999_999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 20_000_000, SysTime(DateTime(1, 1, 1, 0, 0, 1), FracSec.from!"hnsecs"(9_999_999)));
TestST(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 20_888_888, SysTime(DateTime(1, 1, 1, 0, 0, 2), FracSec.from!"hnsecs"(888_887)));
auto duration = dur!"seconds"(12);
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(!__traits(compiles, cst += duration));
//static assert(!__traits(compiles, ist += duration));
static assert(!__traits(compiles, cst -= duration));
//static assert(!__traits(compiles, ist -= duration));
}
}
/++
Gives the difference between two $(D SysTime)s.
The legal types of arithmetic for $(D SysTime) using this operator are
$(TABLE
$(TR $(TD SysTime) $(TD -) $(TD SysTime) $(TD -->) $(TD duration))
)
+/
Duration opBinary(string op)(in SysTime rhs) const pure nothrow
if(op == "-")
{
return dur!"hnsecs"(_stdTime - rhs._stdTime);
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)) - SysTime(DateTime(1998, 7, 6, 12, 30, 33)),
dur!"seconds"(31_536_000));
_assertPred!"=="(SysTime(DateTime(1998, 7, 6, 12, 30, 33)) - SysTime(DateTime(1999, 7, 6, 12, 30, 33)),
dur!"seconds"(-31_536_000));
_assertPred!"=="(SysTime(DateTime(1999, 8, 6, 12, 30, 33)) - SysTime(DateTime(1999, 7, 6, 12, 30, 33)),
dur!"seconds"(26_78_400));
_assertPred!"=="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)) - SysTime(DateTime(1999, 8, 6, 12, 30, 33)),
dur!"seconds"(-26_78_400));
_assertPred!"=="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)) - SysTime(DateTime(1999, 7, 5, 12, 30, 33)),
dur!"seconds"(86_400));
_assertPred!"=="(SysTime(DateTime(1999, 7, 5, 12, 30, 33)) - SysTime(DateTime(1999, 7, 6, 12, 30, 33)),
dur!"seconds"(-86_400));
_assertPred!"=="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)) - SysTime(DateTime(1999, 7, 6, 11, 30, 33)),
dur!"seconds"(3600));
_assertPred!"=="(SysTime(DateTime(1999, 7, 6, 11, 30, 33)) - SysTime(DateTime(1999, 7, 6, 12, 30, 33)),
dur!"seconds"(-3600));
_assertPred!"=="(SysTime(DateTime(1999, 7, 6, 12, 31, 33)) - SysTime(DateTime(1999, 7, 6, 12, 30, 33)),
dur!"seconds"(60));
_assertPred!"=="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)) - SysTime(DateTime(1999, 7, 6, 12, 31, 33)),
dur!"seconds"(-60));
_assertPred!"=="(SysTime(DateTime(1999, 7, 6, 12, 30, 34)) - SysTime(DateTime(1999, 7, 6, 12, 30, 33)),
dur!"seconds"(1));
_assertPred!"=="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)) - SysTime(DateTime(1999, 7, 6, 12, 30, 34)),
dur!"seconds"(-1));
_assertPred!"=="(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(532)) - SysTime(DateTime(1999, 7, 6, 12, 30, 33)),
dur!"msecs"(532));
_assertPred!"=="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)) - SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"msecs"(532)),
dur!"msecs"(-532));
_assertPred!"=="(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(333_347)) - SysTime(DateTime(1999, 7, 6, 12, 30, 33)),
dur!"usecs"(333_347));
_assertPred!"=="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)) - SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"usecs"(333_347)),
dur!"usecs"(-333_347));
_assertPred!"=="(SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1_234_567)) - SysTime(DateTime(1999, 7, 6, 12, 30, 33)),
dur!"hnsecs"(1_234_567));
_assertPred!"=="(SysTime(DateTime(1999, 7, 6, 12, 30, 33)) - SysTime(DateTime(1999, 7, 6, 12, 30, 33), FracSec.from!"hnsecs"(1_234_567)),
dur!"hnsecs"(-1_234_567));
_assertPred!"=="(SysTime(DateTime(1, 1, 1, 12, 30, 33)) - SysTime(DateTime(1, 1, 1, 0, 0, 0)), dur!"seconds"(45033));
_assertPred!"=="(SysTime(DateTime(1, 1, 1, 0, 0, 0)) - SysTime(DateTime(1, 1, 1, 12, 30, 33)), dur!"seconds"(-45033));
_assertPred!"=="(SysTime(DateTime(0, 12, 31, 12, 30, 33)) - SysTime(DateTime(1, 1, 1, 0, 0, 0)), dur!"seconds"(-41367));
_assertPred!"=="(SysTime(DateTime(1, 1, 1, 0, 0, 0)) - SysTime(DateTime(0, 12, 31, 12, 30, 33)), dur!"seconds"(41367));
_assertPred!"=="(SysTime(DateTime(1, 1, 1, 0, 0, 0)) - SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)),
dur!"hnsecs"(1));
_assertPred!"=="(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)) - SysTime(DateTime(1, 1, 1, 0, 0, 0)),
dur!"hnsecs"(-1));
auto tz = TimeZone.getTimeZone("America/Los_Angeles");
_assertPred!"=="(SysTime(DateTime(2011, 1, 13, 8, 17, 2), FracSec.from!"msecs"(296), tz) -
SysTime(DateTime(2011, 1, 13, 8, 17, 2), FracSec.from!"msecs"(296), tz),
dur!"hnsecs"(0));
_assertPred!"=="(SysTime(DateTime(2011, 1, 13, 8, 17, 2), FracSec.from!"msecs"(296), tz) -
SysTime(DateTime(2011, 1, 13, 8, 17, 2), FracSec.from!"msecs"(296), UTC()),
dur!"hours"(8));
_assertPred!"=="(SysTime(DateTime(2011, 1, 13, 8, 17, 2), FracSec.from!"msecs"(296), UTC()) -
SysTime(DateTime(2011, 1, 13, 8, 17, 2), FracSec.from!"msecs"(296), tz),
dur!"hours"(-8));
auto st = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, st - st));
static assert(__traits(compiles, cst - st));
//static assert(__traits(compiles, ist - st));
static assert(__traits(compiles, st - cst));
static assert(__traits(compiles, cst - cst));
//static assert(__traits(compiles, ist - cst));
//static assert(__traits(compiles, st - ist));
//static assert(__traits(compiles, cst - ist));
//static assert(__traits(compiles, ist - ist));
}
}
/++
Returns the difference between the two $(D SysTime)s in months.
You can get the difference in years by subtracting the year property
of two $(D SysTime)s, and you can get the difference in days or weeks by
subtracting the $(D SysTime)s themselves and using the $(D Duration)
that results, but because you cannot convert between months and smaller
units without a specific date (which $(D Duration)s don't have), you
cannot get the difference in months without doing some math using both
the year and month properties, so this is a convenience function for
getting the difference in months.
Note that the number of days in the months or how far into the month
either date is is irrelevant. It is the difference in the month property
combined with the difference in years * 12. So, for instance,
December 31st and January 1st are one month apart just as December 1st
and January 31st are one month apart.
Params:
rhs = The $(D SysTime) to subtract from this one.
Examples:
--------------------
assert(SysTime(Date(1999, 2, 1)).diffMonths(SysTime(Date(1999, 1, 31))) == 1);
assert(SysTime(Date(1999, 1, 31)).diffMonths(SysTime(Date(1999, 2, 1))) == -1);
assert(SysTime(Date(1999, 3, 1)).diffMonths(SysTime(Date(1999, 1, 1))) == 2);
assert(SysTime(Date(1999, 1, 1)).diffMonths(SysTime(Date(1999, 3, 31))) == -2);
--------------------
+/
int diffMonths(in SysTime rhs) const nothrow
{
return (cast(Date)this).diffMonths(cast(Date)rhs);
}
unittest
{
version(testStdDateTime)
{
auto st = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, st.diffMonths(st)));
static assert(__traits(compiles, cst.diffMonths(st)));
//static assert(__traits(compiles, ist.diffMonths(st)));
static assert(__traits(compiles, st.diffMonths(cst)));
static assert(__traits(compiles, cst.diffMonths(cst)));
//static assert(__traits(compiles, ist.diffMonths(cst)));
//static assert(__traits(compiles, st.diffMonths(ist)));
//static assert(__traits(compiles, cst.diffMonths(ist)));
//static assert(__traits(compiles, ist.diffMonths(ist)));
//Verify Examples.
assert(SysTime(Date(1999, 2, 1)).diffMonths(SysTime(Date(1999, 1, 31))) == 1);
assert(SysTime(Date(1999, 1, 31)).diffMonths(SysTime(Date(1999, 2, 1))) == -1);
assert(SysTime(Date(1999, 3, 1)).diffMonths(SysTime(Date(1999, 1, 1))) == 2);
assert(SysTime(Date(1999, 1, 1)).diffMonths(SysTime(Date(1999, 3, 31))) == -2);
}
}
/++
Whether this $(D SysTime) is in a leap year.
+/
@property bool isLeapYear() const nothrow
{
return (cast(Date)this).isLeapYear;
}
unittest
{
version(testStdDateTime)
{
auto st = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, st.isLeapYear));
static assert(__traits(compiles, cst.isLeapYear));
//static assert(__traits(compiles, ist.isLeapYear));
}
}
/++
Day of the week this $(D SysTime) is on.
+/
@property DayOfWeek dayOfWeek() const nothrow
{
return getDayOfWeek(dayOfGregorianCal);
}
unittest
{
version(testStdDateTime)
{
auto st = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, st.dayOfWeek));
static assert(__traits(compiles, cst.dayOfWeek));
//static assert(__traits(compiles, ist.dayOfWeek));
}
}
/++
Day of the year this $(D SysTime) is on.
Examples:
--------------------
assert(SysTime(DateTime(1999, 1, 1, 12, 22, 7)).dayOfYear == 1);
assert(SysTime(DateTime(1999, 12, 31, 7, 2, 59)).dayOfYear == 365);
assert(SysTime(DateTime(2000, 12, 31, 21, 20, 0)).dayOfYear == 366);
--------------------
+/
@property ushort dayOfYear() const nothrow
{
return (cast(Date)this).dayOfYear;
}
unittest
{
version(testStdDateTime)
{
auto st = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, st.dayOfYear));
static assert(__traits(compiles, cst.dayOfYear));
//static assert(__traits(compiles, ist.dayOfYear));
//Verify Examples.
assert(SysTime(DateTime(1999, 1, 1, 12, 22, 7)).dayOfYear == 1);
assert(SysTime(DateTime(1999, 12, 31, 7, 2, 59)).dayOfYear == 365);
assert(SysTime(DateTime(2000, 12, 31, 21, 20, 0)).dayOfYear == 366);
}
}
/++
Day of the year.
Params:
day = The day of the year to set which day of the year this
$(D SysTime) is on.
+/
@property void dayOfYear(int day)
{
immutable hnsecs = adjTime;
immutable days = convert!("hnsecs", "days")(hnsecs);
immutable theRest = hnsecs - convert!("days", "hnsecs")(days);
auto date = Date(cast(int)days);
date.dayOfYear = day;
immutable newDaysHNSecs = convert!("days", "hnsecs")(date.dayOfGregorianCal - 1);
adjTime = newDaysHNSecs + theRest;
}
unittest
{
version(testStdDateTime)
{
auto st = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, st.dayOfYear = 12));
static assert(!__traits(compiles, cst.dayOfYear = 12));
//static assert(!__traits(compiles, ist.dayOfYear = 12));
}
}
/++
The Xth day of the Gregorian Calendar that this $(D SysTime) is on.
Examples:
--------------------
assert(SysTime(DateTime(1, 1, 1, 0, 0, 0)).dayOfGregorianCal == 1);
assert(SysTime(DateTime(1, 12, 31, 23, 59, 59)).dayOfGregorianCal == 365);
assert(SysTime(DateTime(2, 1, 1, 2, 2, 2)).dayOfGregorianCal == 366);
assert(SysTime(DateTime(0, 12, 31, 7, 7, 7)).dayOfGregorianCal == 0);
assert(SysTime(DateTime(0, 1, 1, 19, 30, 0)).dayOfGregorianCal == -365);
assert(SysTime(DateTime(-1, 12, 31, 4, 7, 0)).dayOfGregorianCal == -366);
assert(SysTime(DateTime(2000, 1, 1, 9, 30, 20)).dayOfGregorianCal == 730_120);
assert(SysTime(DateTime(2010, 12, 31, 15, 45, 50)).dayOfGregorianCal == 734_137);
--------------------
+/
@property int dayOfGregorianCal() const nothrow
{
immutable adjustedTime = adjTime;
//We have to add one because 0 would be midnight, January 1st, 1 A.D.,
//which would be the 1st day of the Gregorian Calendar, not the 0th. So,
//simply casting to days is one day off.
if(adjustedTime > 0)
return cast(int)getUnitsFromHNSecs!"days"(adjustedTime) + 1;
auto hnsecs = adjustedTime;
immutable days = cast(int)splitUnitsFromHNSecs!"days"(hnsecs);
return hnsecs == 0 ? days + 1 : days;
}
unittest
{
version(testStdDateTime)
{
//Test A.D.
_assertPred!"=="(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)).dayOfGregorianCal, 1);
_assertPred!"=="(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(1)).dayOfGregorianCal, 1);
_assertPred!"=="(SysTime(DateTime(1, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal, 1);
_assertPred!"=="(SysTime(DateTime(1, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 1);
_assertPred!"=="(SysTime(DateTime(1, 1, 2, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 2);
_assertPred!"=="(SysTime(DateTime(1, 2, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 32);
_assertPred!"=="(SysTime(DateTime(2, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 366);
_assertPred!"=="(SysTime(DateTime(3, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 731);
_assertPred!"=="(SysTime(DateTime(4, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 1096);
_assertPred!"=="(SysTime(DateTime(5, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 1462);
_assertPred!"=="(SysTime(DateTime(50, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 17_898);
_assertPred!"=="(SysTime(DateTime(97, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 35_065);
_assertPred!"=="(SysTime(DateTime(100, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 36_160);
_assertPred!"=="(SysTime(DateTime(101, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 36_525);
_assertPred!"=="(SysTime(DateTime(105, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 37_986);
_assertPred!"=="(SysTime(DateTime(200, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 72_684);
_assertPred!"=="(SysTime(DateTime(201, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 73_049);
_assertPred!"=="(SysTime(DateTime(300, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 109_208);
_assertPred!"=="(SysTime(DateTime(301, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 109_573);
_assertPred!"=="(SysTime(DateTime(400, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 145_732);
_assertPred!"=="(SysTime(DateTime(401, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 146_098);
_assertPred!"=="(SysTime(DateTime(500, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 182_257);
_assertPred!"=="(SysTime(DateTime(501, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 182_622);
_assertPred!"=="(SysTime(DateTime(1000, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 364_878);
_assertPred!"=="(SysTime(DateTime(1001, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 365_243);
_assertPred!"=="(SysTime(DateTime(1600, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 584_023);
_assertPred!"=="(SysTime(DateTime(1601, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 584_389);
_assertPred!"=="(SysTime(DateTime(1900, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 693_596);
_assertPred!"=="(SysTime(DateTime(1901, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 693_961);
_assertPred!"=="(SysTime(DateTime(1945, 11, 12, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 710_347);
_assertPred!"=="(SysTime(DateTime(1999, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 729_755);
_assertPred!"=="(SysTime(DateTime(2000, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 730_120);
_assertPred!"=="(SysTime(DateTime(2001, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 730_486);
_assertPred!"=="(SysTime(DateTime(2010, 1, 1, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, 733_773);
_assertPred!"=="(SysTime(DateTime(2010, 1, 31, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, 733_803);
_assertPred!"=="(SysTime(DateTime(2010, 2, 1, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, 733_804);
_assertPred!"=="(SysTime(DateTime(2010, 2, 28, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, 733_831);
_assertPred!"=="(SysTime(DateTime(2010, 3, 1, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, 733_832);
_assertPred!"=="(SysTime(DateTime(2010, 3, 31, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, 733_862);
_assertPred!"=="(SysTime(DateTime(2010, 4, 1, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, 733_863);
_assertPred!"=="(SysTime(DateTime(2010, 4, 30, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, 733_892);
_assertPred!"=="(SysTime(DateTime(2010, 5, 1, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, 733_893);
_assertPred!"=="(SysTime(DateTime(2010, 5, 31, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, 733_923);
_assertPred!"=="(SysTime(DateTime(2010, 6, 1, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, 733_924);
_assertPred!"=="(SysTime(DateTime(2010, 6, 30, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, 733_953);
_assertPred!"=="(SysTime(DateTime(2010, 7, 1, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, 733_954);
_assertPred!"=="(SysTime(DateTime(2010, 7, 31, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, 733_984);
_assertPred!"=="(SysTime(DateTime(2010, 8, 1, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, 733_985);
_assertPred!"=="(SysTime(DateTime(2010, 8, 31, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, 734_015);
_assertPred!"=="(SysTime(DateTime(2010, 9, 1, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, 734_016);
_assertPred!"=="(SysTime(DateTime(2010, 9, 30, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, 734_045);
_assertPred!"=="(SysTime(DateTime(2010, 10, 1, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, 734_046);
_assertPred!"=="(SysTime(DateTime(2010, 10, 31, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, 734_076);
_assertPred!"=="(SysTime(DateTime(2010, 11, 1, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, 734_077);
_assertPred!"=="(SysTime(DateTime(2010, 11, 30, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, 734_106);
_assertPred!"=="(SysTime(DateTime(2010, 12, 1, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, 734_107);
_assertPred!"=="(SysTime(DateTime(2010, 12, 31, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, 734_137);
_assertPred!"=="(SysTime(DateTime(2012, 2, 1, 0, 0, 0), FracSec.from!"msecs"(0)).dayOfGregorianCal, 734_534);
_assertPred!"=="(SysTime(DateTime(2012, 2, 28, 0, 0, 0), FracSec.from!"msecs"(0)).dayOfGregorianCal, 734_561);
_assertPred!"=="(SysTime(DateTime(2012, 2, 29, 0, 0, 0), FracSec.from!"msecs"(0)).dayOfGregorianCal, 734_562);
_assertPred!"=="(SysTime(DateTime(2012, 3, 1, 0, 0, 0), FracSec.from!"msecs"(0)).dayOfGregorianCal, 734_563);
//Test B.C.
_assertPred!"=="(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal, 0);
_assertPred!"=="(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_998)).dayOfGregorianCal, 0);
_assertPred!"=="(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(0)).dayOfGregorianCal, 0);
_assertPred!"=="(SysTime(DateTime(0, 12, 31, 0, 0, 0), FracSec.from!"hnsecs"(1)).dayOfGregorianCal, 0);
_assertPred!"=="(SysTime(DateTime(0, 12, 31, 0, 0, 0), FracSec.from!"hnsecs"(0)).dayOfGregorianCal, 0);
_assertPred!"=="(SysTime(DateTime(-1, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal, -366);
_assertPred!"=="(SysTime(DateTime(-1, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_998)).dayOfGregorianCal, -366);
_assertPred!"=="(SysTime(DateTime(-1, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(0)).dayOfGregorianCal, -366);
_assertPred!"=="(SysTime(DateTime(-1, 12, 31, 0, 0, 0), FracSec.from!"hnsecs"(0)).dayOfGregorianCal, -366);
_assertPred!"=="(SysTime(DateTime(0, 12, 31, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, 0);
_assertPred!"=="(SysTime(DateTime(0, 12, 30, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -1);
_assertPred!"=="(SysTime(DateTime(0, 12, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -30);
_assertPred!"=="(SysTime(DateTime(0, 11, 30, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -31);
_assertPred!"=="(SysTime(DateTime(-1, 12, 31, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -366);
_assertPred!"=="(SysTime(DateTime(-1, 12, 30, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -367);
_assertPred!"=="(SysTime(DateTime(-1, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -730);
_assertPred!"=="(SysTime(DateTime(-2, 12, 31, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -731);
_assertPred!"=="(SysTime(DateTime(-2, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -1095);
_assertPred!"=="(SysTime(DateTime(-3, 12, 31, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -1096);
_assertPred!"=="(SysTime(DateTime(-3, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -1460);
_assertPred!"=="(SysTime(DateTime(-4, 12, 31, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -1461);
_assertPred!"=="(SysTime(DateTime(-4, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -1826);
_assertPred!"=="(SysTime(DateTime(-5, 12, 31, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -1827);
_assertPred!"=="(SysTime(DateTime(-5, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -2191);
_assertPred!"=="(SysTime(DateTime(-9, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -3652);
_assertPred!"=="(SysTime(DateTime(-49, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -18_262);
_assertPred!"=="(SysTime(DateTime(-50, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -18_627);
_assertPred!"=="(SysTime(DateTime(-97, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -35_794);
_assertPred!"=="(SysTime(DateTime(-99, 12, 31, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -36_160);
_assertPred!"=="(SysTime(DateTime(-99, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -36_524);
_assertPred!"=="(SysTime(DateTime(-100, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -36_889);
_assertPred!"=="(SysTime(DateTime(-101, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -37_254);
_assertPred!"=="(SysTime(DateTime(-105, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -38_715);
_assertPred!"=="(SysTime(DateTime(-200, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -73_413);
_assertPred!"=="(SysTime(DateTime(-201, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -73_778);
_assertPred!"=="(SysTime(DateTime(-300, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -109_937);
_assertPred!"=="(SysTime(DateTime(-301, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -110_302);
_assertPred!"=="(SysTime(DateTime(-400, 12, 31, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -146_097);
_assertPred!"=="(SysTime(DateTime(-400, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -146_462);
_assertPred!"=="(SysTime(DateTime(-401, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -146_827);
_assertPred!"=="(SysTime(DateTime(-499, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -182_621);
_assertPred!"=="(SysTime(DateTime(-500, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -182_986);
_assertPred!"=="(SysTime(DateTime(-501, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -183_351);
_assertPred!"=="(SysTime(DateTime(-1000, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -365_607);
_assertPred!"=="(SysTime(DateTime(-1001, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -365_972);
_assertPred!"=="(SysTime(DateTime(-1599, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -584_387);
_assertPred!"=="(SysTime(DateTime(-1600, 12, 31, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -584_388);
_assertPred!"=="(SysTime(DateTime(-1600, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -584_753);
_assertPred!"=="(SysTime(DateTime(-1601, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -585_118);
_assertPred!"=="(SysTime(DateTime(-1900, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -694_325);
_assertPred!"=="(SysTime(DateTime(-1901, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -694_690);
_assertPred!"=="(SysTime(DateTime(-1999, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -730_484);
_assertPred!"=="(SysTime(DateTime(-2000, 12, 31, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -730_485);
_assertPred!"=="(SysTime(DateTime(-2000, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -730_850);
_assertPred!"=="(SysTime(DateTime(-2001, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)).dayOfGregorianCal, -731_215);
_assertPred!"=="(SysTime(DateTime(-2010, 1, 1, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, -734_502);
_assertPred!"=="(SysTime(DateTime(-2010, 1, 31, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, -734_472);
_assertPred!"=="(SysTime(DateTime(-2010, 2, 1, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, -734_471);
_assertPred!"=="(SysTime(DateTime(-2010, 2, 28, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, -734_444);
_assertPred!"=="(SysTime(DateTime(-2010, 3, 1, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, -734_443);
_assertPred!"=="(SysTime(DateTime(-2010, 3, 31, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, -734_413);
_assertPred!"=="(SysTime(DateTime(-2010, 4, 1, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, -734_412);
_assertPred!"=="(SysTime(DateTime(-2010, 4, 30, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, -734_383);
_assertPred!"=="(SysTime(DateTime(-2010, 5, 1, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, -734_382);
_assertPred!"=="(SysTime(DateTime(-2010, 5, 31, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, -734_352);
_assertPred!"=="(SysTime(DateTime(-2010, 6, 1, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, -734_351);
_assertPred!"=="(SysTime(DateTime(-2010, 6, 30, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, -734_322);
_assertPred!"=="(SysTime(DateTime(-2010, 7, 1, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, -734_321);
_assertPred!"=="(SysTime(DateTime(-2010, 7, 31, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, -734_291);
_assertPred!"=="(SysTime(DateTime(-2010, 8, 1, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, -734_290);
_assertPred!"=="(SysTime(DateTime(-2010, 8, 31, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, -734_260);
_assertPred!"=="(SysTime(DateTime(-2010, 9, 1, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, -734_259);
_assertPred!"=="(SysTime(DateTime(-2010, 9, 30, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, -734_230);
_assertPred!"=="(SysTime(DateTime(-2010, 10, 1, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, -734_229);
_assertPred!"=="(SysTime(DateTime(-2010, 10, 31, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, -734_199);
_assertPred!"=="(SysTime(DateTime(-2010, 11, 1, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, -734_198);
_assertPred!"=="(SysTime(DateTime(-2010, 11, 30, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, -734_169);
_assertPred!"=="(SysTime(DateTime(-2010, 12, 1, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, -734_168);
_assertPred!"=="(SysTime(DateTime(-2010, 12, 31, 23, 59, 59), FracSec.from!"msecs"(999)).dayOfGregorianCal, -734_138);
_assertPred!"=="(SysTime(DateTime(-2012, 2, 1, 0, 0, 0), FracSec.from!"msecs"(0)).dayOfGregorianCal, -735_202);
_assertPred!"=="(SysTime(DateTime(-2012, 2, 28, 0, 0, 0), FracSec.from!"msecs"(0)).dayOfGregorianCal, -735_175);
_assertPred!"=="(SysTime(DateTime(-2012, 2, 29, 0, 0, 0), FracSec.from!"msecs"(0)).dayOfGregorianCal, -735_174);
_assertPred!"=="(SysTime(DateTime(-2012, 3, 1, 0, 0, 0), FracSec.from!"msecs"(0)).dayOfGregorianCal, -735_173);
_assertPred!"=="(SysTime(DateTime(-3760, 9, 7, 0, 0, 0), FracSec.from!"msecs"(0)).dayOfGregorianCal, -1_373_427); //Start of Hebrew Calendar
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, cst.dayOfGregorianCal));
//static assert(__traits(compiles, ist.dayOfGregorianCal));
//Verify Examples.
assert(SysTime(DateTime(1, 1, 1, 0, 0, 0)).dayOfGregorianCal == 1);
assert(SysTime(DateTime(1, 12, 31, 23, 59, 59)).dayOfGregorianCal == 365);
assert(SysTime(DateTime(2, 1, 1, 2, 2, 2)).dayOfGregorianCal == 366);
assert(SysTime(DateTime(0, 12, 31, 7, 7, 7)).dayOfGregorianCal == 0);
assert(SysTime(DateTime(0, 1, 1, 19, 30, 0)).dayOfGregorianCal == -365);
assert(SysTime(DateTime(-1, 12, 31, 4, 7, 0)).dayOfGregorianCal == -366);
assert(SysTime(DateTime(2000, 1, 1, 9, 30, 20)).dayOfGregorianCal == 730_120);
assert(SysTime(DateTime(2010, 12, 31, 15, 45, 50)).dayOfGregorianCal == 734_137);
}
}
//Test that the logic for the day of the Gregorian Calendar is consistent
//between Date and SysTime.
unittest
{
version(testStdDateTime)
{
//Test A.D.
_assertPred!"=="(Date(1, 1, 1).dayOfGregorianCal, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(1, 1, 2).dayOfGregorianCal, SysTime(DateTime(1, 1, 2, 0, 0, 0), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(1, 2, 1).dayOfGregorianCal, SysTime(DateTime(1, 2, 1, 0, 0, 0), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(2, 1, 1).dayOfGregorianCal, SysTime(DateTime(2, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(3, 1, 1).dayOfGregorianCal, SysTime(DateTime(3, 1, 1, 12, 13, 14), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(4, 1, 1).dayOfGregorianCal, SysTime(DateTime(4, 1, 1, 12, 13, 14), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(5, 1, 1).dayOfGregorianCal, SysTime(DateTime(5, 1, 1, 12, 13, 14), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(50, 1, 1).dayOfGregorianCal, SysTime(DateTime(50, 1, 1, 12, 13, 14), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(97, 1, 1).dayOfGregorianCal, SysTime(DateTime(97, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(100, 1, 1).dayOfGregorianCal, SysTime(DateTime(100, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(101, 1, 1).dayOfGregorianCal, SysTime(DateTime(101, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(105, 1, 1).dayOfGregorianCal, SysTime(DateTime(105, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(200, 1, 1).dayOfGregorianCal, SysTime(DateTime(200, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(201, 1, 1).dayOfGregorianCal, SysTime(DateTime(201, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(300, 1, 1).dayOfGregorianCal, SysTime(DateTime(300, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(301, 1, 1).dayOfGregorianCal, SysTime(DateTime(301, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(400, 1, 1).dayOfGregorianCal, SysTime(DateTime(400, 1, 1, 12, 13, 14), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(401, 1, 1).dayOfGregorianCal, SysTime(DateTime(401, 1, 1, 12, 13, 14), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(500, 1, 1).dayOfGregorianCal, SysTime(DateTime(500, 1, 1, 12, 13, 14), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(501, 1, 1).dayOfGregorianCal, SysTime(DateTime(501, 1, 1, 12, 13, 14), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(1000, 1, 1).dayOfGregorianCal, SysTime(DateTime(1000, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(1001, 1, 1).dayOfGregorianCal, SysTime(DateTime(1001, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(1600, 1, 1).dayOfGregorianCal, SysTime(DateTime(1600, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(1601, 1, 1).dayOfGregorianCal, SysTime(DateTime(1601, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(1900, 1, 1).dayOfGregorianCal, SysTime(DateTime(1900, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(1901, 1, 1).dayOfGregorianCal, SysTime(DateTime(1901, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(1945, 11, 12).dayOfGregorianCal, SysTime(DateTime(1945, 11, 12, 0, 0, 0), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(1999, 1, 1).dayOfGregorianCal, SysTime(DateTime(1999, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(1999, 7, 6).dayOfGregorianCal, SysTime(DateTime(1999, 7, 6, 12, 13, 14), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(2000, 1, 1).dayOfGregorianCal, SysTime(DateTime(2000, 1, 1, 12, 13, 14), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(2001, 1, 1).dayOfGregorianCal, SysTime(DateTime(2001, 1, 1, 12, 13, 14), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(2010, 1, 1).dayOfGregorianCal, SysTime(DateTime(2010, 1, 1, 12, 13, 14), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(2010, 1, 31).dayOfGregorianCal, SysTime(DateTime(2010, 1, 31, 23, 0, 0), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(2010, 2, 1).dayOfGregorianCal, SysTime(DateTime(2010, 2, 1, 23, 59, 59), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(2010, 2, 28).dayOfGregorianCal, SysTime(DateTime(2010, 2, 28, 23, 59, 59), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(2010, 3, 1).dayOfGregorianCal, SysTime(DateTime(2010, 3, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(2010, 3, 31).dayOfGregorianCal, SysTime(DateTime(2010, 3, 31, 0, 0, 0), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(2010, 4, 1).dayOfGregorianCal, SysTime(DateTime(2010, 4, 1, 0, 0, 0), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(2010, 4, 30).dayOfGregorianCal, SysTime(DateTime(2010, 4, 30, 0, 0, 0), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(2010, 5, 1).dayOfGregorianCal, SysTime(DateTime(2010, 5, 1, 0, 0, 0), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(2010, 5, 31).dayOfGregorianCal, SysTime(DateTime(2010, 5, 31, 12, 13, 14), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(2010, 6, 1).dayOfGregorianCal, SysTime(DateTime(2010, 6, 1, 12, 13, 14), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(2010, 6, 30).dayOfGregorianCal, SysTime(DateTime(2010, 6, 30, 12, 13, 14), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(2010, 7, 1).dayOfGregorianCal, SysTime(DateTime(2010, 7, 1, 12, 13, 14), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(2010, 7, 31).dayOfGregorianCal, SysTime(DateTime(2010, 7, 31, 23, 59, 59), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(2010, 8, 1).dayOfGregorianCal, SysTime(DateTime(2010, 8, 1, 23, 59, 59), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(2010, 8, 31).dayOfGregorianCal, SysTime(DateTime(2010, 8, 31, 23, 59, 59), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(2010, 9, 1).dayOfGregorianCal, SysTime(DateTime(2010, 9, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(2010, 9, 30).dayOfGregorianCal, SysTime(DateTime(2010, 9, 30, 12, 0, 0), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(2010, 10, 1).dayOfGregorianCal, SysTime(DateTime(2010, 10, 1, 0, 12, 0), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(2010, 10, 31).dayOfGregorianCal, SysTime(DateTime(2010, 10, 31, 0, 0, 12), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(2010, 11, 1).dayOfGregorianCal, SysTime(DateTime(2010, 11, 1, 23, 0, 0), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(2010, 11, 30).dayOfGregorianCal, SysTime(DateTime(2010, 11, 30, 0, 59, 0), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(2010, 12, 1).dayOfGregorianCal, SysTime(DateTime(2010, 12, 1, 0, 0, 59), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(2010, 12, 31).dayOfGregorianCal, SysTime(DateTime(2010, 12, 31, 0, 59, 59), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(2012, 2, 1).dayOfGregorianCal, SysTime(DateTime(2012, 2, 1, 23, 0, 59), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(2012, 2, 28).dayOfGregorianCal, SysTime(DateTime(2012, 2, 28, 23, 59, 0), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(2012, 2, 29).dayOfGregorianCal, SysTime(DateTime(2012, 2, 29, 7, 7, 7), FracSec.from!"hnsecs"(7)).dayOfGregorianCal);
_assertPred!"=="(Date(2012, 3, 1).dayOfGregorianCal, SysTime(DateTime(2012, 3, 1, 7, 7, 7), FracSec.from!"hnsecs"(7)).dayOfGregorianCal);
//Test B.C.
_assertPred!"=="(Date(0, 12, 31).dayOfGregorianCal, SysTime(DateTime(0, 12, 31, 0, 0, 0), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(0, 12, 30).dayOfGregorianCal, SysTime(DateTime(0, 12, 30, 0, 0, 0), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(0, 12, 1).dayOfGregorianCal, SysTime(DateTime(0, 12, 1, 0, 0, 0), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(0, 11, 30).dayOfGregorianCal, SysTime(DateTime(0, 11, 30, 0, 0, 0), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(-1, 12, 31).dayOfGregorianCal, SysTime(DateTime(-1, 12, 31, 12, 13, 14), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(-1, 12, 30).dayOfGregorianCal, SysTime(DateTime(-1, 12, 30, 12, 13, 14), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(-1, 1, 1).dayOfGregorianCal, SysTime(DateTime(-1, 1, 1, 12, 13, 14), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(-2, 12, 31).dayOfGregorianCal, SysTime(DateTime(-2, 12, 31, 12, 13, 14), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(-2, 1, 1).dayOfGregorianCal, SysTime(DateTime(-2, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(-3, 12, 31).dayOfGregorianCal, SysTime(DateTime(-3, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(-3, 1, 1).dayOfGregorianCal, SysTime(DateTime(-3, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(-4, 12, 31).dayOfGregorianCal, SysTime(DateTime(-4, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(-4, 1, 1).dayOfGregorianCal, SysTime(DateTime(-4, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(-5, 12, 31).dayOfGregorianCal, SysTime(DateTime(-5, 12, 31, 0, 0, 0), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(-5, 1, 1).dayOfGregorianCal, SysTime(DateTime(-5, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(-9, 1, 1).dayOfGregorianCal, SysTime(DateTime(-9, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(-49, 1, 1).dayOfGregorianCal, SysTime(DateTime(-49, 1, 1, 12, 13, 14), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(-50, 1, 1).dayOfGregorianCal, SysTime(DateTime(-50, 1, 1, 12, 13, 14), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(-97, 1, 1).dayOfGregorianCal, SysTime(DateTime(-97, 1, 1, 12, 13, 14), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(-99, 12, 31).dayOfGregorianCal, SysTime(DateTime(-99, 12, 31, 12, 13, 14), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(-99, 1, 1).dayOfGregorianCal, SysTime(DateTime(-99, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(-100, 1, 1).dayOfGregorianCal, SysTime(DateTime(-100, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(-101, 1, 1).dayOfGregorianCal, SysTime(DateTime(-101, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(-105, 1, 1).dayOfGregorianCal, SysTime(DateTime(-105, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(-200, 1, 1).dayOfGregorianCal, SysTime(DateTime(-200, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(-201, 1, 1).dayOfGregorianCal, SysTime(DateTime(-201, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(-300, 1, 1).dayOfGregorianCal, SysTime(DateTime(-300, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(-301, 1, 1).dayOfGregorianCal, SysTime(DateTime(-301, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(-400, 12, 31).dayOfGregorianCal, SysTime(DateTime(-400, 12, 31, 12, 13, 14), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(-400, 1, 1).dayOfGregorianCal, SysTime(DateTime(-400, 1, 1, 12, 13, 14), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(-401, 1, 1).dayOfGregorianCal, SysTime(DateTime(-401, 1, 1, 12, 13, 14), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(-499, 1, 1).dayOfGregorianCal, SysTime(DateTime(-499, 1, 1, 12, 13, 14), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(-500, 1, 1).dayOfGregorianCal, SysTime(DateTime(-500, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(-501, 1, 1).dayOfGregorianCal, SysTime(DateTime(-501, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(-1000, 1, 1).dayOfGregorianCal, SysTime(DateTime(-1000, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(-1001, 1, 1).dayOfGregorianCal, SysTime(DateTime(-1001, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(-1599, 1, 1).dayOfGregorianCal, SysTime(DateTime(-1599, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(-1600, 12, 31).dayOfGregorianCal, SysTime(DateTime(-1600, 12, 31, 0, 0, 0), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(-1600, 1, 1).dayOfGregorianCal, SysTime(DateTime(-1600, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(-1601, 1, 1).dayOfGregorianCal, SysTime(DateTime(-1601, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(-1900, 1, 1).dayOfGregorianCal, SysTime(DateTime(-1900, 1, 1, 12, 13, 14), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(-1901, 1, 1).dayOfGregorianCal, SysTime(DateTime(-1901, 1, 1, 12, 13, 14), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(-1999, 1, 1).dayOfGregorianCal, SysTime(DateTime(-1999, 1, 1, 12, 13, 14), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(-1999, 7, 6).dayOfGregorianCal, SysTime(DateTime(-1999, 7, 6, 12, 13, 14), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(-2000, 12, 31).dayOfGregorianCal, SysTime(DateTime(-2000, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(-2000, 1, 1).dayOfGregorianCal, SysTime(DateTime(-2000, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(-2001, 1, 1).dayOfGregorianCal, SysTime(DateTime(-2001, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(-2010, 1, 1).dayOfGregorianCal, SysTime(DateTime(-2010, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(-2010, 1, 31).dayOfGregorianCal, SysTime(DateTime(-2010, 1, 31, 0, 0, 0), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(-2010, 2, 1).dayOfGregorianCal, SysTime(DateTime(-2010, 2, 1, 0, 0, 0), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(-2010, 2, 28).dayOfGregorianCal, SysTime(DateTime(-2010, 2, 28, 0, 0, 0), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(-2010, 3, 1).dayOfGregorianCal, SysTime(DateTime(-2010, 3, 1, 0, 0, 0), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(-2010, 3, 31).dayOfGregorianCal, SysTime(DateTime(-2010, 3, 31, 12, 13, 14), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(-2010, 4, 1).dayOfGregorianCal, SysTime(DateTime(-2010, 4, 1, 12, 13, 14), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(-2010, 4, 30).dayOfGregorianCal, SysTime(DateTime(-2010, 4, 30, 12, 13, 14), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(-2010, 5, 1).dayOfGregorianCal, SysTime(DateTime(-2010, 5, 1, 12, 13, 14), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(-2010, 5, 31).dayOfGregorianCal, SysTime(DateTime(-2010, 5, 31, 23, 59, 59), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(-2010, 6, 1).dayOfGregorianCal, SysTime(DateTime(-2010, 6, 1, 23, 59, 59), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(-2010, 6, 30).dayOfGregorianCal, SysTime(DateTime(-2010, 6, 30, 23, 59, 59), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(-2010, 7, 1).dayOfGregorianCal, SysTime(DateTime(-2010, 7, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(-2010, 7, 31).dayOfGregorianCal, SysTime(DateTime(-2010, 7, 31, 0, 0, 0), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(-2010, 8, 1).dayOfGregorianCal, SysTime(DateTime(-2010, 8, 1, 0, 0, 0), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(-2010, 8, 31).dayOfGregorianCal, SysTime(DateTime(-2010, 8, 31, 0, 0, 0), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(-2010, 9, 1).dayOfGregorianCal, SysTime(DateTime(-2010, 9, 1, 0, 0, 0), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(-2010, 9, 30).dayOfGregorianCal, SysTime(DateTime(-2010, 9, 30, 12, 0, 0), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(-2010, 10, 1).dayOfGregorianCal, SysTime(DateTime(-2010, 10, 1, 0, 12, 0), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(-2010, 10, 31).dayOfGregorianCal, SysTime(DateTime(-2010, 10, 31, 0, 0, 12), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(-2010, 11, 1).dayOfGregorianCal, SysTime(DateTime(-2010, 11, 1, 23, 0, 0), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(-2010, 11, 30).dayOfGregorianCal, SysTime(DateTime(-2010, 11, 30, 0, 59, 0), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(-2010, 12, 1).dayOfGregorianCal, SysTime(DateTime(-2010, 12, 1, 0, 0, 59), FracSec.from!"hnsecs"(500)).dayOfGregorianCal);
_assertPred!"=="(Date(-2010, 12, 31).dayOfGregorianCal, SysTime(DateTime(-2010, 12, 31, 0, 59, 59), FracSec.from!"hnsecs"(50_000)).dayOfGregorianCal);
_assertPred!"=="(Date(-2012, 2, 1).dayOfGregorianCal, SysTime(DateTime(-2012, 2, 1, 23, 0, 59), FracSec.from!"hnsecs"(9_999_999)).dayOfGregorianCal);
_assertPred!"=="(Date(-2012, 2, 28).dayOfGregorianCal, SysTime(DateTime(-2012, 2, 28, 23, 59, 0), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
_assertPred!"=="(Date(-2012, 2, 29).dayOfGregorianCal, SysTime(DateTime(-2012, 2, 29, 7, 7, 7), FracSec.from!"hnsecs"(7)).dayOfGregorianCal);
_assertPred!"=="(Date(-2012, 3, 1).dayOfGregorianCal, SysTime(DateTime(-2012, 3, 1, 7, 7, 7), FracSec.from!"hnsecs"(7)).dayOfGregorianCal);
_assertPred!"=="(Date(-3760, 9, 7).dayOfGregorianCal, SysTime(DateTime(-3760, 9, 7, 0, 0, 0), FracSec.from!"hnsecs"(0)).dayOfGregorianCal);
}
}
/++
The Xth day of the Gregorian Calendar that this $(D SysTime) is on.
Setting this property does not affect the time portion of $(D SysTime).
Params:
days = The day of the Gregorian Calendar to set this $(D SysTime)
to.
Examples:
--------------------
auto st = SysTime(DateTime(0, 0, 0, 12, 0, 0));
st.dayOfGregorianCal = 1;
assert(st == SysTime(DateTime(1, 1, 1, 12, 0, 0)));
st.dayOfGregorianCal = 365;
assert(st == SysTime(DateTime(1, 12, 31, 12, 0, 0)));
st.dayOfGregorianCal = 366;
assert(st == SysTime(DateTime(2, 1, 1, 12, 0, 0)));
st.dayOfGregorianCal = 0;
assert(st == SysTime(DateTime(0, 12, 31, 12, 0, 0)));
st.dayOfGregorianCal = -365;
assert(st == SysTime(DateTime(-0, 1, 1, 12, 0, 0)));
st.dayOfGregorianCal = -366;
assert(st == SysTime(DateTime(-1, 12, 31, 12, 0, 0)));
st.dayOfGregorianCal = 730_120;
assert(st == SysTime(DateTime(2000, 1, 1, 12, 0, 0)));
st.dayOfGregorianCal = 734_137;
assert(st == SysTime(DateTime(2010, 12, 31, 12, 0, 0)));
--------------------
+/
@property void dayOfGregorianCal(int days) nothrow
{
auto hnsecs = adjTime;
hnsecs = removeUnitsFromHNSecs!"days"(hnsecs);
if(hnsecs < 0)
hnsecs += convert!("hours", "hnsecs")(24);
if(--days < 0)
{
hnsecs -= convert!("hours", "hnsecs")(24);
++days;
}
immutable newDaysHNSecs = convert!("days", "hnsecs")(days);
adjTime = newDaysHNSecs + hnsecs;
}
unittest
{
version(testStdDateTime)
{
void testST(SysTime orig, int day, in SysTime expected, size_t line = __LINE__)
{
orig.dayOfGregorianCal = day;
_assertPred!"=="(orig, expected, "", __FILE__, line);
}
//Test A.D.
testST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), 1, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
testST(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(1)), 1, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(1)));
testST(SysTime(DateTime(1, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 1, SysTime(DateTime(1, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
//Test B.C.
testST(SysTime(DateTime(0, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)), 0, SysTime(DateTime(0, 12, 31, 0, 0, 0), FracSec.from!"hnsecs"(0)));
testST(SysTime(DateTime(0, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 0, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
testST(SysTime(DateTime(0, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(1)), 0, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(1)));
testST(SysTime(DateTime(0, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(0)), 0, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(0)));
//Test Both.
testST(SysTime(DateTime(-512, 7, 20, 0, 0, 0), FracSec.from!"hnsecs"(0)), 1, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(0)));
testST(SysTime(DateTime(-513, 6, 6, 0, 0, 0), FracSec.from!"hnsecs"(1)), 1, SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(1)));
testST(SysTime(DateTime(-511, 5, 7, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 1, SysTime(DateTime(1, 1, 1, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
testST(SysTime(DateTime(1607, 4, 8, 0, 0, 0), FracSec.from!"hnsecs"(0)), 0, SysTime(DateTime(0, 12, 31, 0, 0, 0), FracSec.from!"hnsecs"(0)));
testST(SysTime(DateTime(1500, 3, 9, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)), 0, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
testST(SysTime(DateTime(999, 2, 10, 23, 59, 59), FracSec.from!"hnsecs"(1)), 0, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(1)));
testST(SysTime(DateTime(2007, 12, 11, 23, 59, 59), FracSec.from!"hnsecs"(0)), 0, SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(0)));
auto sysTime = SysTime(DateTime(1, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212));
void testST2(int day, in SysTime expected, size_t line = __LINE__)
{
sysTime.dayOfGregorianCal = day;
_assertPred!"=="(sysTime, expected, "", __FILE__, line);
}
//Test A.D.
testST2(1, SysTime(DateTime(1, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(2, SysTime(DateTime(1, 1, 2, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(32, SysTime(DateTime(1, 2, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(366, SysTime(DateTime(2, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(731, SysTime(DateTime(3, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(1096, SysTime(DateTime(4, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(1462, SysTime(DateTime(5, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(17_898, SysTime(DateTime(50, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(35_065, SysTime(DateTime(97, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(36_160, SysTime(DateTime(100, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(36_525, SysTime(DateTime(101, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(37_986, SysTime(DateTime(105, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(72_684, SysTime(DateTime(200, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(73_049, SysTime(DateTime(201, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(109_208, SysTime(DateTime(300, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(109_573, SysTime(DateTime(301, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(145_732, SysTime(DateTime(400, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(146_098, SysTime(DateTime(401, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(182_257, SysTime(DateTime(500, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(182_622, SysTime(DateTime(501, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(364_878, SysTime(DateTime(1000, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(365_243, SysTime(DateTime(1001, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(584_023, SysTime(DateTime(1600, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(584_389, SysTime(DateTime(1601, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(693_596, SysTime(DateTime(1900, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(693_961, SysTime(DateTime(1901, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(729_755, SysTime(DateTime(1999, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(730_120, SysTime(DateTime(2000, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(730_486, SysTime(DateTime(2001, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(733_773, SysTime(DateTime(2010, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(733_803, SysTime(DateTime(2010, 1, 31, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(733_804, SysTime(DateTime(2010, 2, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(733_831, SysTime(DateTime(2010, 2, 28, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(733_832, SysTime(DateTime(2010, 3, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(733_862, SysTime(DateTime(2010, 3, 31, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(733_863, SysTime(DateTime(2010, 4, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(733_892, SysTime(DateTime(2010, 4, 30, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(733_893, SysTime(DateTime(2010, 5, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(733_923, SysTime(DateTime(2010, 5, 31, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(733_924, SysTime(DateTime(2010, 6, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(733_953, SysTime(DateTime(2010, 6, 30, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(733_954, SysTime(DateTime(2010, 7, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(733_984, SysTime(DateTime(2010, 7, 31, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(733_985, SysTime(DateTime(2010, 8, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(734_015, SysTime(DateTime(2010, 8, 31, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(734_016, SysTime(DateTime(2010, 9, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(734_045, SysTime(DateTime(2010, 9, 30, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(734_046, SysTime(DateTime(2010, 10, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(734_076, SysTime(DateTime(2010, 10, 31, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(734_077, SysTime(DateTime(2010, 11, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(734_106, SysTime(DateTime(2010, 11, 30, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(734_107, SysTime(DateTime(2010, 12, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(734_137, SysTime(DateTime(2010, 12, 31, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(734_534, SysTime(DateTime(2012, 2, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(734_561, SysTime(DateTime(2012, 2, 28, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(734_562, SysTime(DateTime(2012, 2, 29, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(734_563, SysTime(DateTime(2012, 3, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(734_534, SysTime(DateTime(2012, 2, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(734_561, SysTime(DateTime(2012, 2, 28, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(734_562, SysTime(DateTime(2012, 2, 29, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(734_563, SysTime(DateTime(2012, 3, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
//Test B.C.
testST2(0, SysTime(DateTime(0, 12, 31, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-1, SysTime(DateTime(0, 12, 30, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-30, SysTime(DateTime(0, 12, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-31, SysTime(DateTime(0, 11, 30, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-366, SysTime(DateTime(-1, 12, 31, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-367, SysTime(DateTime(-1, 12, 30, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-730, SysTime(DateTime(-1, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-731, SysTime(DateTime(-2, 12, 31, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-1095, SysTime(DateTime(-2, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-1096, SysTime(DateTime(-3, 12, 31, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-1460, SysTime(DateTime(-3, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-1461, SysTime(DateTime(-4, 12, 31, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-1826, SysTime(DateTime(-4, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-1827, SysTime(DateTime(-5, 12, 31, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-2191, SysTime(DateTime(-5, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-3652, SysTime(DateTime(-9, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-18_262, SysTime(DateTime(-49, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-18_627, SysTime(DateTime(-50, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-35_794, SysTime(DateTime(-97, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-36_160, SysTime(DateTime(-99, 12, 31, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-36_524, SysTime(DateTime(-99, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-36_889, SysTime(DateTime(-100, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-37_254, SysTime(DateTime(-101, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-38_715, SysTime(DateTime(-105, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-73_413, SysTime(DateTime(-200, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-73_778, SysTime(DateTime(-201, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-109_937, SysTime(DateTime(-300, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-110_302, SysTime(DateTime(-301, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-146_097, SysTime(DateTime(-400, 12, 31, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-146_462, SysTime(DateTime(-400, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-146_827, SysTime(DateTime(-401, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-182_621, SysTime(DateTime(-499, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-182_986, SysTime(DateTime(-500, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-183_351, SysTime(DateTime(-501, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-365_607, SysTime(DateTime(-1000, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-365_972, SysTime(DateTime(-1001, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-584_387, SysTime(DateTime(-1599, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-584_388, SysTime(DateTime(-1600, 12, 31, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-584_753, SysTime(DateTime(-1600, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-585_118, SysTime(DateTime(-1601, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-694_325, SysTime(DateTime(-1900, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-694_690, SysTime(DateTime(-1901, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-730_484, SysTime(DateTime(-1999, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-730_485, SysTime(DateTime(-2000, 12, 31, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-730_850, SysTime(DateTime(-2000, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-731_215, SysTime(DateTime(-2001, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-734_502, SysTime(DateTime(-2010, 1, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-734_472, SysTime(DateTime(-2010, 1, 31, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-734_471, SysTime(DateTime(-2010, 2, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-734_444, SysTime(DateTime(-2010, 2, 28, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-734_443, SysTime(DateTime(-2010, 3, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-734_413, SysTime(DateTime(-2010, 3, 31, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-734_412, SysTime(DateTime(-2010, 4, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-734_383, SysTime(DateTime(-2010, 4, 30, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-734_382, SysTime(DateTime(-2010, 5, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-734_352, SysTime(DateTime(-2010, 5, 31, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-734_351, SysTime(DateTime(-2010, 6, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-734_322, SysTime(DateTime(-2010, 6, 30, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-734_321, SysTime(DateTime(-2010, 7, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-734_291, SysTime(DateTime(-2010, 7, 31, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-734_290, SysTime(DateTime(-2010, 8, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-734_260, SysTime(DateTime(-2010, 8, 31, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-734_259, SysTime(DateTime(-2010, 9, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-734_230, SysTime(DateTime(-2010, 9, 30, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-734_229, SysTime(DateTime(-2010, 10, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-734_199, SysTime(DateTime(-2010, 10, 31, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-734_198, SysTime(DateTime(-2010, 11, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-734_169, SysTime(DateTime(-2010, 11, 30, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-734_168, SysTime(DateTime(-2010, 12, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-734_138, SysTime(DateTime(-2010, 12, 31, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-735_202, SysTime(DateTime(-2012, 2, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-735_175, SysTime(DateTime(-2012, 2, 28, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-735_174, SysTime(DateTime(-2012, 2, 29, 12, 2, 9), FracSec.from!"msecs"(212)));
testST2(-735_173, SysTime(DateTime(-2012, 3, 1, 12, 2, 9), FracSec.from!"msecs"(212)));
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(!__traits(compiles, cst.dayOfGregorianCal = 7));
//static assert(!__traits(compiles, ist.dayOfGregorianCal = 7));
//Verify Examples.
auto st = SysTime(DateTime(0, 1, 1, 12, 0, 0));
st.dayOfGregorianCal = 1;
assert(st == SysTime(DateTime(1, 1, 1, 12, 0, 0)));
st.dayOfGregorianCal = 365;
assert(st == SysTime(DateTime(1, 12, 31, 12, 0, 0)));
st.dayOfGregorianCal = 366;
assert(st == SysTime(DateTime(2, 1, 1, 12, 0, 0)));
st.dayOfGregorianCal = 0;
assert(st == SysTime(DateTime(0, 12, 31, 12, 0, 0)));
st.dayOfGregorianCal = -365;
assert(st == SysTime(DateTime(-0, 1, 1, 12, 0, 0)));
st.dayOfGregorianCal = -366;
assert(st == SysTime(DateTime(-1, 12, 31, 12, 0, 0)));
st.dayOfGregorianCal = 730_120;
assert(st == SysTime(DateTime(2000, 1, 1, 12, 0, 0)));
st.dayOfGregorianCal = 734_137;
assert(st == SysTime(DateTime(2010, 12, 31, 12, 0, 0)));
}
}
/++
The ISO 8601 week of the year that this $(D SysTime) is in.
See_Also:
$(WEB en.wikipedia.org/wiki/ISO_week_date, ISO Week Date).
+/
@property ubyte isoWeek() const nothrow
{
return (cast(Date)this).isoWeek;
}
unittest
{
version(testStdDateTime)
{
auto st = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, st.isoWeek));
static assert(__traits(compiles, cst.isoWeek));
//static assert(__traits(compiles, ist.isoWeek));
}
}
/++
$(D SysTime) for the last day in the month that this Date is in.
The time portion of endOfMonth is always 23:59:59.9999999.
Examples:
--------------------
assert(SysTime(DateTime(1999, 1, 6, 0, 0, 0)).endOfMonth ==
SysTime(DateTime(1999, 1, 31, 23, 59, 59),
FracSec.from!"hnsecs"(9_999_999)));
assert(SysTime(DateTime(1999, 2, 7, 19, 30, 0),
FracSec.from!"msecs"(24)).endOfMonth ==
SysTime(DateTime(1999, 2, 28, 23, 59, 59),
FracSec.from!"hnsecs"(9_999_999)));
assert(SysTime(DateTime(2000, 2, 7, 5, 12, 27),
FracSec.from!"usecs"(5203)).endOfMonth ==
SysTime(DateTime(2000, 2, 29, 23, 59, 59),
FracSec.from!"hnsecs"(9_999_999)));
assert(SysTime(DateTime(2000, 6, 4, 12, 22, 9),
FracSec.from!"hnsecs"(12345)).endOfMonth ==
SysTime(DateTime(2000, 6, 30, 23, 59, 59),
FracSec.from!"hnsecs"(9_999_999)));
--------------------
+/
@property SysTime endOfMonth() const nothrow
{
immutable hnsecs = adjTime;
immutable days = getUnitsFromHNSecs!"days"(hnsecs);
auto date = Date(cast(int)days + 1).endOfMonth;
auto newDays = date.dayOfGregorianCal - 1;
long theTimeHNSecs;
if(newDays < 0)
{
theTimeHNSecs = -1;
++newDays;
}
else
theTimeHNSecs = convert!("days", "hnsecs")(1) - 1;
immutable newDaysHNSecs = convert!("days", "hnsecs")(newDays);
auto retval = SysTime(this._stdTime, this._timezone.get);
retval.adjTime = newDaysHNSecs + theTimeHNSecs;
return retval;
}
unittest
{
version(testStdDateTime)
{
//Test A.D.
_assertPred!"=="(SysTime(Date(1999, 1, 1)).endOfMonth, SysTime(DateTime(1999, 1, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
_assertPred!"=="(SysTime(Date(1999, 2, 1)).endOfMonth, SysTime(DateTime(1999, 2, 28, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
_assertPred!"=="(SysTime(Date(2000, 2, 1)).endOfMonth, SysTime(DateTime(2000, 2, 29, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
_assertPred!"=="(SysTime(Date(1999, 3, 1)).endOfMonth, SysTime(DateTime(1999, 3, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
_assertPred!"=="(SysTime(Date(1999, 4, 1)).endOfMonth, SysTime(DateTime(1999, 4, 30, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
_assertPred!"=="(SysTime(Date(1999, 5, 1)).endOfMonth, SysTime(DateTime(1999, 5, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
_assertPred!"=="(SysTime(Date(1999, 6, 1)).endOfMonth, SysTime(DateTime(1999, 6, 30, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
_assertPred!"=="(SysTime(Date(1999, 7, 1)).endOfMonth, SysTime(DateTime(1999, 7, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
_assertPred!"=="(SysTime(Date(1999, 8, 1)).endOfMonth, SysTime(DateTime(1999, 8, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
_assertPred!"=="(SysTime(Date(1999, 9, 1)).endOfMonth, SysTime(DateTime(1999, 9, 30, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
_assertPred!"=="(SysTime(Date(1999, 10, 1)).endOfMonth, SysTime(DateTime(1999, 10, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
_assertPred!"=="(SysTime(Date(1999, 11, 1)).endOfMonth, SysTime(DateTime(1999, 11, 30, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
_assertPred!"=="(SysTime(Date(1999, 12, 1)).endOfMonth, SysTime(DateTime(1999, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
//Test B.C.
_assertPred!"=="(SysTime(Date(-1999, 1, 1)).endOfMonth, SysTime(DateTime(-1999, 1, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
_assertPred!"=="(SysTime(Date(-1999, 2, 1)).endOfMonth, SysTime(DateTime(-1999, 2, 28, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
_assertPred!"=="(SysTime(Date(-2000, 2, 1)).endOfMonth, SysTime(DateTime(-2000, 2, 29, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
_assertPred!"=="(SysTime(Date(-1999, 3, 1)).endOfMonth, SysTime(DateTime(-1999, 3, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
_assertPred!"=="(SysTime(Date(-1999, 4, 1)).endOfMonth, SysTime(DateTime(-1999, 4, 30, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
_assertPred!"=="(SysTime(Date(-1999, 5, 1)).endOfMonth, SysTime(DateTime(-1999, 5, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
_assertPred!"=="(SysTime(Date(-1999, 6, 1)).endOfMonth, SysTime(DateTime(-1999, 6, 30, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
_assertPred!"=="(SysTime(Date(-1999, 7, 1)).endOfMonth, SysTime(DateTime(-1999, 7, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
_assertPred!"=="(SysTime(Date(-1999, 8, 1)).endOfMonth, SysTime(DateTime(-1999, 8, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
_assertPred!"=="(SysTime(Date(-1999, 9, 1)).endOfMonth, SysTime(DateTime(-1999, 9, 30, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
_assertPred!"=="(SysTime(Date(-1999, 10, 1)).endOfMonth, SysTime(DateTime(-1999, 10, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
_assertPred!"=="(SysTime(Date(-1999, 11, 1)).endOfMonth, SysTime(DateTime(-1999, 11, 30, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
_assertPred!"=="(SysTime(Date(-1999, 12, 1)).endOfMonth, SysTime(DateTime(-1999, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, cst.endOfMonth));
//static assert(__traits(compiles, ist.endOfMonth));
//Verify Examples.
assert(SysTime(DateTime(1999, 1, 6, 0, 0, 0)).endOfMonth == SysTime(DateTime(1999, 1, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
assert(SysTime(DateTime(1999, 2, 7, 19, 30, 0), FracSec.from!"msecs"(24)).endOfMonth == SysTime(DateTime(1999, 2, 28, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
assert(SysTime(DateTime(2000, 2, 7, 5, 12, 27), FracSec.from!"usecs"(5203)).endOfMonth == SysTime(DateTime(2000, 2, 29, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
assert(SysTime(DateTime(2000, 6, 4, 12, 22, 9), FracSec.from!"hnsecs"(12345)).endOfMonth == SysTime(DateTime(2000, 6, 30, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999)));
}
}
/++
The last day in the month that this $(D SysTime) is in.
Examples:
--------------------
assert(SysTime(DateTime(1999, 1, 6, 0, 0, 0)).endOfMonthDay == 31);
assert(SysTime(DateTime(1999, 2, 7, 19, 30, 0)).endOfMonthDay == 28);
assert(SysTime(DateTime(2000, 2, 7, 5, 12, 27)).endOfMonthDay == 29);
assert(SysTime(DateTime(2000, 6, 4, 12, 22, 9)).endOfMonthDay == 30);
--------------------
+/
@property ubyte endOfMonthDay() const nothrow
{
return Date(dayOfGregorianCal).endOfMonthDay;
}
unittest
{
version(testStdDateTime)
{
//Test A.D.
_assertPred!"=="(SysTime(DateTime(1999, 1, 1, 12, 1, 13)).endOfMonthDay, 31);
_assertPred!"=="(SysTime(DateTime(1999, 2, 1, 17, 13, 12)).endOfMonthDay, 28);
_assertPred!"=="(SysTime(DateTime(2000, 2, 1, 13, 2, 12)).endOfMonthDay, 29);
_assertPred!"=="(SysTime(DateTime(1999, 3, 1, 12, 13, 12)).endOfMonthDay, 31);
_assertPred!"=="(SysTime(DateTime(1999, 4, 1, 12, 6, 13)).endOfMonthDay, 30);
_assertPred!"=="(SysTime(DateTime(1999, 5, 1, 15, 13, 12)).endOfMonthDay, 31);
_assertPred!"=="(SysTime(DateTime(1999, 6, 1, 13, 7, 12)).endOfMonthDay, 30);
_assertPred!"=="(SysTime(DateTime(1999, 7, 1, 12, 13, 17)).endOfMonthDay, 31);
_assertPred!"=="(SysTime(DateTime(1999, 8, 1, 12, 3, 13)).endOfMonthDay, 31);
_assertPred!"=="(SysTime(DateTime(1999, 9, 1, 12, 13, 12)).endOfMonthDay, 30);
_assertPred!"=="(SysTime(DateTime(1999, 10, 1, 13, 19, 12)).endOfMonthDay, 31);
_assertPred!"=="(SysTime(DateTime(1999, 11, 1, 12, 13, 17)).endOfMonthDay, 30);
_assertPred!"=="(SysTime(DateTime(1999, 12, 1, 12, 52, 13)).endOfMonthDay, 31);
//Test B.C.
_assertPred!"=="(SysTime(DateTime(-1999, 1, 1, 12, 1, 13)).endOfMonthDay, 31);
_assertPred!"=="(SysTime(DateTime(-1999, 2, 1, 7, 13, 12)).endOfMonthDay, 28);
_assertPred!"=="(SysTime(DateTime(-2000, 2, 1, 13, 2, 12)).endOfMonthDay, 29);
_assertPred!"=="(SysTime(DateTime(-1999, 3, 1, 12, 13, 12)).endOfMonthDay, 31);
_assertPred!"=="(SysTime(DateTime(-1999, 4, 1, 12, 6, 13)).endOfMonthDay, 30);
_assertPred!"=="(SysTime(DateTime(-1999, 5, 1, 5, 13, 12)).endOfMonthDay, 31);
_assertPred!"=="(SysTime(DateTime(-1999, 6, 1, 13, 7, 12)).endOfMonthDay, 30);
_assertPred!"=="(SysTime(DateTime(-1999, 7, 1, 12, 13, 17)).endOfMonthDay, 31);
_assertPred!"=="(SysTime(DateTime(-1999, 8, 1, 12, 3, 13)).endOfMonthDay, 31);
_assertPred!"=="(SysTime(DateTime(-1999, 9, 1, 12, 13, 12)).endOfMonthDay, 30);
_assertPred!"=="(SysTime(DateTime(-1999, 10, 1, 13, 19, 12)).endOfMonthDay, 31);
_assertPred!"=="(SysTime(DateTime(-1999, 11, 1, 12, 13, 17)).endOfMonthDay, 30);
_assertPred!"=="(SysTime(DateTime(-1999, 12, 1, 12, 52, 13)).endOfMonthDay, 31);
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, cst.endOfMonthDay));
//static assert(__traits(compiles, ist.endOfMonthDay));
//Verify Examples.
assert(SysTime(DateTime(1999, 1, 6, 0, 0, 0)).endOfMonthDay == 31);
assert(SysTime(DateTime(1999, 2, 7, 19, 30, 0)).endOfMonthDay == 28);
assert(SysTime(DateTime(2000, 2, 7, 5, 12, 27)).endOfMonthDay == 29);
assert(SysTime(DateTime(2000, 6, 4, 12, 22, 9)).endOfMonthDay == 30);
}
}
/++
Whether the current year is a date in A.D.
Examples:
--------------------
assert(SysTime(DateTime(1, 1, 1, 12, 7, 0)).isAD);
assert(SysTime(DateTime(2010, 12, 31, 0, 0, 0)).isAD);
assert(!SysTime(DateTime(0, 12, 31, 23, 59, 59)).isAD);
assert(!SysTime(DateTime(-2010, 1, 1, 2, 2, 2)).isAD);
--------------------
+/
@property bool isAD() const nothrow
{
return adjTime >= 0;
}
unittest
{
version(testStdDateTime)
{
assert(SysTime(DateTime(2010, 7, 4, 12, 0, 9)).isAD);
assert(SysTime(DateTime(1, 1, 1, 0, 0, 0)).isAD);
assert(!SysTime(DateTime(0, 12, 31, 23, 59, 59)).isAD);
assert(!SysTime(DateTime(0, 1, 1, 23, 59, 59)).isAD);
assert(!SysTime(DateTime(-1, 1, 1, 23 ,59 ,59)).isAD);
assert(!SysTime(DateTime(-2010, 7, 4, 12, 2, 2)).isAD);
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, cst.isAD));
//static assert(__traits(compiles, ist.isAD));
//Verify Examples.
assert(SysTime(DateTime(1, 1, 1, 12, 7, 0)).isAD);
assert(SysTime(DateTime(2010, 12, 31, 0, 0, 0)).isAD);
assert(!SysTime(DateTime(0, 12, 31, 23, 59, 59)).isAD);
assert(!SysTime(DateTime(-2010, 1, 1, 2, 2, 2)).isAD);
}
}
/++
The julian day for this $(D SysTime) at the given time. For example,
prior to noon, 1996-03-31 would be the julian day number 2_450_173, so
this function returns 2_450_173, while from noon onward, the julian
day number would be 2_450_174, so this function returns 2_450_174.
+/
@property long julianDay() const nothrow
{
immutable jd = dayOfGregorianCal + 1_721_425;
return hour < 12 ? jd - 1 : jd;
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(SysTime(DateTime(-4713, 11, 24, 0, 0, 0)).julianDay, -1);
_assertPred!"=="(SysTime(DateTime(-4713, 11, 24, 12, 0, 0)).julianDay, 0);
_assertPred!"=="(SysTime(DateTime(0, 12, 31, 0, 0, 0)).julianDay, 1_721_424);
_assertPred!"=="(SysTime(DateTime(0, 12, 31, 12, 0, 0)).julianDay, 1_721_425);
_assertPred!"=="(SysTime(DateTime(1, 1, 1, 0, 0, 0)).julianDay, 1_721_425);
_assertPred!"=="(SysTime(DateTime(1, 1, 1, 12, 0, 0)).julianDay, 1_721_426);
_assertPred!"=="(SysTime(DateTime(1582, 10, 15, 0, 0, 0)).julianDay, 2_299_160);
_assertPred!"=="(SysTime(DateTime(1582, 10, 15, 12, 0, 0)).julianDay, 2_299_161);
_assertPred!"=="(SysTime(DateTime(1858, 11, 17, 0, 0, 0)).julianDay, 2_400_000);
_assertPred!"=="(SysTime(DateTime(1858, 11, 17, 12, 0, 0)).julianDay, 2_400_001);
_assertPred!"=="(SysTime(DateTime(1982, 1, 4, 0, 0, 0)).julianDay, 2_444_973);
_assertPred!"=="(SysTime(DateTime(1982, 1, 4, 12, 0, 0)).julianDay, 2_444_974);
_assertPred!"=="(SysTime(DateTime(1996, 3, 31, 0, 0, 0)).julianDay, 2_450_173);
_assertPred!"=="(SysTime(DateTime(1996, 3, 31, 12, 0, 0)).julianDay, 2_450_174);
_assertPred!"=="(SysTime(DateTime(2010, 8, 24, 0, 0, 0)).julianDay, 2_455_432);
_assertPred!"=="(SysTime(DateTime(2010, 8, 24, 12, 0, 0)).julianDay, 2_455_433);
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, cst.julianDay));
//static assert(__traits(compiles, ist.julianDay));
}
}
/++
The modified julian day for any time on this date (since, the modified
julian day changes at midnight).
+/
@property long modJulianDay() const nothrow
{
return (dayOfGregorianCal + 1_721_425) - 2_400_001;
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(SysTime(DateTime(1858, 11, 17, 0, 0, 0)).modJulianDay, 0);
_assertPred!"=="(SysTime(DateTime(1858, 11, 17, 12, 0, 0)).modJulianDay, 0);
_assertPred!"=="(SysTime(DateTime(2010, 8, 24, 0, 0, 0)).modJulianDay, 55_432);
_assertPred!"=="(SysTime(DateTime(2010, 8, 24, 12, 0, 0)).modJulianDay, 55_432);
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, cst.modJulianDay));
//static assert(__traits(compiles, ist.modJulianDay));
}
}
/++
Returns a $(D Date) equivalent to this $(D SysTime).
+/
Date opCast(T)() const nothrow
if(is(Unqual!T == Date))
{
return Date(dayOfGregorianCal);
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(cast(Date)SysTime(Date(1999, 7, 6)), Date(1999, 7, 6));
_assertPred!"=="(cast(Date)SysTime(Date(2000, 12, 31)), Date(2000, 12, 31));
_assertPred!"=="(cast(Date)SysTime(Date(2001, 1, 1)), Date(2001, 1, 1));
_assertPred!"=="(cast(Date)SysTime(DateTime(1999, 7, 6, 12, 10, 9)), Date(1999, 7, 6));
_assertPred!"=="(cast(Date)SysTime(DateTime(2000, 12, 31, 13, 11, 10)), Date(2000, 12, 31));
_assertPred!"=="(cast(Date)SysTime(DateTime(2001, 1, 1, 14, 12, 11)), Date(2001, 1, 1));
_assertPred!"=="(cast(Date)SysTime(Date(-1999, 7, 6)), Date(-1999, 7, 6));
_assertPred!"=="(cast(Date)SysTime(Date(-2000, 12, 31)), Date(-2000, 12, 31));
_assertPred!"=="(cast(Date)SysTime(Date(-2001, 1, 1)), Date(-2001, 1, 1));
_assertPred!"=="(cast(Date)SysTime(DateTime(-1999, 7, 6, 12, 10, 9)), Date(-1999, 7, 6));
_assertPred!"=="(cast(Date)SysTime(DateTime(-2000, 12, 31, 13, 11, 10)), Date(-2000, 12, 31));
_assertPred!"=="(cast(Date)SysTime(DateTime(-2001, 1, 1, 14, 12, 11)), Date(-2001, 1, 1));
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, cast(Date)cst));
//static assert(__traits(compiles, cast(Date)ist));
}
}
/++
Returns a $(D DateTime) equivalent to this $(D SysTime).
+/
DateTime opCast(T)() const nothrow
if(is(Unqual!T == DateTime))
{
try
{
auto hnsecs = adjTime;
auto days = splitUnitsFromHNSecs!"days"(hnsecs) + 1;
if(hnsecs < 0)
{
hnsecs += convert!("hours", "hnsecs")(24);
--days;
}
immutable hour = splitUnitsFromHNSecs!"hours"(hnsecs);
immutable minute = splitUnitsFromHNSecs!"minutes"(hnsecs);
immutable second = getUnitsFromHNSecs!"seconds"(hnsecs);
return DateTime(Date(cast(int)days), TimeOfDay(cast(int)hour, cast(int)minute, cast(int)second));
}
catch(Exception e)
assert(0, "Either DateTime's constructor or TimeOfDay's constructor threw.");
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(cast(DateTime)SysTime(DateTime(1, 1, 6, 7, 12, 22)), DateTime(1, 1, 6, 7, 12, 22));
_assertPred!"=="(cast(DateTime)SysTime(DateTime(1, 1, 6, 7, 12, 22), FracSec.from!"msecs"(22)), DateTime(1, 1, 6, 7, 12, 22));
_assertPred!"=="(cast(DateTime)SysTime(Date(1999, 7, 6)), DateTime(1999, 7, 6, 0, 0, 0));
_assertPred!"=="(cast(DateTime)SysTime(Date(2000, 12, 31)), DateTime(2000, 12, 31, 0, 0, 0));
_assertPred!"=="(cast(DateTime)SysTime(Date(2001, 1, 1)), DateTime(2001, 1, 1, 0, 0, 0));
_assertPred!"=="(cast(DateTime)SysTime(DateTime(1999, 7, 6, 12, 10, 9)), DateTime(1999, 7, 6, 12, 10, 9));
_assertPred!"=="(cast(DateTime)SysTime(DateTime(2000, 12, 31, 13, 11, 10)), DateTime(2000, 12, 31, 13, 11, 10));
_assertPred!"=="(cast(DateTime)SysTime(DateTime(2001, 1, 1, 14, 12, 11)), DateTime(2001, 1, 1, 14, 12, 11));
_assertPred!"=="(cast(DateTime)SysTime(DateTime(-1, 1, 6, 7, 12, 22)), DateTime(-1, 1, 6, 7, 12, 22));
_assertPred!"=="(cast(DateTime)SysTime(DateTime(-1, 1, 6, 7, 12, 22), FracSec.from!"msecs"(22)), DateTime(-1, 1, 6, 7, 12, 22));
_assertPred!"=="(cast(DateTime)SysTime(Date(-1999, 7, 6)), DateTime(-1999, 7, 6, 0, 0, 0));
_assertPred!"=="(cast(DateTime)SysTime(Date(-2000, 12, 31)), DateTime(-2000, 12, 31, 0, 0, 0));
_assertPred!"=="(cast(DateTime)SysTime(Date(-2001, 1, 1)), DateTime(-2001, 1, 1, 0, 0, 0));
_assertPred!"=="(cast(DateTime)SysTime(DateTime(-1999, 7, 6, 12, 10, 9)), DateTime(-1999, 7, 6, 12, 10, 9));
_assertPred!"=="(cast(DateTime)SysTime(DateTime(-2000, 12, 31, 13, 11, 10)), DateTime(-2000, 12, 31, 13, 11, 10));
_assertPred!"=="(cast(DateTime)SysTime(DateTime(-2001, 1, 1, 14, 12, 11)), DateTime(-2001, 1, 1, 14, 12, 11));
_assertPred!"=="(cast(DateTime)SysTime(DateTime(2011, 1, 13, 8, 17, 2), FracSec.from!"msecs"(296), LocalTime()),
DateTime(2011, 1, 13, 8, 17, 2));
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, cast(DateTime)cst));
//static assert(__traits(compiles, cast(DateTime)ist));
}
}
/++
Returns a $(D TimeOfDay) equivalent to this $(D SysTime).
+/
TimeOfDay opCast(T)() const nothrow
if(is(Unqual!T == TimeOfDay))
{
try
{
auto hnsecs = adjTime;
hnsecs = removeUnitsFromHNSecs!"days"(hnsecs);
if(hnsecs < 0)
hnsecs += convert!("hours", "hnsecs")(24);
immutable hour = splitUnitsFromHNSecs!"hours"(hnsecs);
immutable minute = splitUnitsFromHNSecs!"minutes"(hnsecs);
immutable second = getUnitsFromHNSecs!"seconds"(hnsecs);
return TimeOfDay(cast(int)hour, cast(int)minute, cast(int)second);
}
catch(Exception e)
assert(0, "TimeOfDay's constructor threw.");
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(cast(TimeOfDay)SysTime(Date(1999, 7, 6)), TimeOfDay(0, 0, 0));
_assertPred!"=="(cast(TimeOfDay)SysTime(Date(2000, 12, 31)), TimeOfDay(0, 0, 0));
_assertPred!"=="(cast(TimeOfDay)SysTime(Date(2001, 1, 1)), TimeOfDay(0, 0, 0));
_assertPred!"=="(cast(TimeOfDay)SysTime(DateTime(1999, 7, 6, 12, 10, 9)), TimeOfDay(12, 10, 9));
_assertPred!"=="(cast(TimeOfDay)SysTime(DateTime(2000, 12, 31, 13, 11, 10)), TimeOfDay(13, 11, 10));
_assertPred!"=="(cast(TimeOfDay)SysTime(DateTime(2001, 1, 1, 14, 12, 11)), TimeOfDay(14, 12, 11));
_assertPred!"=="(cast(TimeOfDay)SysTime(Date(-1999, 7, 6)), TimeOfDay(0, 0, 0));
_assertPred!"=="(cast(TimeOfDay)SysTime(Date(-2000, 12, 31)), TimeOfDay(0, 0, 0));
_assertPred!"=="(cast(TimeOfDay)SysTime(Date(-2001, 1, 1)), TimeOfDay(0, 0, 0));
_assertPred!"=="(cast(TimeOfDay)SysTime(DateTime(-1999, 7, 6, 12, 10, 9)), TimeOfDay(12, 10, 9));
_assertPred!"=="(cast(TimeOfDay)SysTime(DateTime(-2000, 12, 31, 13, 11, 10)), TimeOfDay(13, 11, 10));
_assertPred!"=="(cast(TimeOfDay)SysTime(DateTime(-2001, 1, 1, 14, 12, 11)), TimeOfDay(14, 12, 11));
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, cast(TimeOfDay)cst));
//static assert(__traits(compiles, cast(TimeOfDay)ist));
}
}
//Temporary hack until bug http://d.puremagic.com/issues/show_bug.cgi?id=4867 is fixed.
//This allows assignment from const(SysTime) to SysTime.
//It may be a good idea to keep it though, since casting from a type to itself
//should be allowed, and it doesn't work without this opCast() since opCast()
//has already been defined for other types.
SysTime opCast(T)() const pure nothrow
if(is(Unqual!T == SysTime))
{
return SysTime(_stdTime, _timezone.get);
}
/++
Converts this $(D SysTime) to a string with the format
YYYYMMDDTHHMMSS.FFFFFFFTZ (where F is fractional seconds and TZ is time
zone).
Note that the number of digits in the fractional seconds varies with the
number of fractional seconds. It's a maximum of 7 (which would be
hnsecs), but only has as many as are necessary to hold the correct value
(so no trailing zeroes), and if there are no fractional seconds, then
there is no decimal point.
If this $(D SysTime)'s time zone is $(D LocalTime), then TZ is empty.
If its time zone is $(D UTC), then it is "Z". Otherwise, it is the
offset from UTC (e.g. +1:00 or -7:00). Note that the offset from UTC
is $(I not) enough to uniquely identify the time zone.
Time zone offsets will be in the form +HH:MM or -HH:MM.
Examples:
--------------------
assert(SysTime(DateTime(2010, 7, 4, 7, 6, 12)).toISOString() ==
"20100704T070612");
assert(SysTime(DateTime(1998, 12, 25, 2, 15, 0),
FracSec.from!"msecs"(24)).toISOString() ==
"19981225T021500.024");
assert(SysTime(DateTime(0, 1, 5, 23, 9, 59)).toISOString() ==
"00000105T230959");
assert(SysTime(DateTime(-4, 1, 5, 0, 0, 2),
FracSec.from!"hnsecs"(520_920)).toISOString() ==
"-00040105T000002.052092");
--------------------
+/
string toISOString() const nothrow
{
try
{
immutable adjustedTime = adjTime;
long hnsecs = adjustedTime;
auto days = splitUnitsFromHNSecs!"days"(hnsecs) + 1;
if(hnsecs < 0)
{
hnsecs += convert!("hours", "hnsecs")(24);
--days;
}
auto hour = splitUnitsFromHNSecs!"hours"(hnsecs);
auto minute = splitUnitsFromHNSecs!"minutes"(hnsecs);
auto second = splitUnitsFromHNSecs!"seconds"(hnsecs);
auto dateTime = DateTime(Date(cast(int)days), TimeOfDay(cast(int)hour, cast(int)minute, cast(int)second));
auto fracSecStr = fracSecToISOString(cast(int)hnsecs);
if(_timezone.get is LocalTime())
return dateTime.toISOString() ~ fracSecToISOString(cast(int)hnsecs);
if(_timezone.get is UTC())
return dateTime.toISOString() ~ fracSecToISOString(cast(int)hnsecs) ~ "Z";
immutable utcOffset = cast(int)convert!("hnsecs", "minutes")(adjustedTime - stdTime);
return dateTime.toISOString() ~ fracSecToISOString(cast(int)hnsecs) ~ SimpleTimeZone.toISOString(utcOffset);
}
catch(Exception e)
assert(0, "format() threw.");
}
unittest
{
version(testStdDateTime)
{
//Test A.D.
_assertPred!"=="(SysTime(DateTime.init, UTC()).toISOString(), "00010101T000000Z");
_assertPred!"=="(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(1), UTC()).toISOString(), "00010101T000000.0000001Z");
_assertPred!"=="(SysTime(DateTime(9, 12, 4, 0, 0, 0)).toISOString(), "00091204T000000");
_assertPred!"=="(SysTime(DateTime(99, 12, 4, 5, 6, 12)).toISOString(), "00991204T050612");
_assertPred!"=="(SysTime(DateTime(999, 12, 4, 13, 44, 59)).toISOString(), "09991204T134459");
_assertPred!"=="(SysTime(DateTime(9999, 7, 4, 23, 59, 59)).toISOString(), "99990704T235959");
_assertPred!"=="(SysTime(DateTime(10000, 10, 20, 1, 1, 1)).toISOString(), "+100001020T010101");
_assertPred!"=="(SysTime(DateTime(9, 12, 4, 0, 0, 0), FracSec.from!"msecs"(42)).toISOString(), "00091204T000000.042");
_assertPred!"=="(SysTime(DateTime(99, 12, 4, 5, 6, 12), FracSec.from!"msecs"(100)).toISOString(), "00991204T050612.1");
_assertPred!"=="(SysTime(DateTime(999, 12, 4, 13, 44, 59), FracSec.from!"usecs"(45020)).toISOString(), "09991204T134459.04502");
_assertPred!"=="(SysTime(DateTime(9999, 7, 4, 23, 59, 59), FracSec.from!"hnsecs"(12)).toISOString(), "99990704T235959.0000012");
_assertPred!"=="(SysTime(DateTime(10000, 10, 20, 1, 1, 1), FracSec.from!"hnsecs"(507890)).toISOString(), "+100001020T010101.050789");
_assertPred!"=="(SysTime(DateTime(2012, 12, 21, 12, 12, 12),
new SimpleTimeZone(-360)).toISOString(),
"20121221T121212-06:00");
_assertPred!"=="(SysTime(DateTime(2012, 12, 21, 12, 12, 12),
new SimpleTimeZone(420)).toISOString(),
"20121221T121212+07:00");
//Test B.C.
_assertPred!"=="(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999), UTC()).toISOString(), "00001231T235959.9999999Z");
_assertPred!"=="(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(1), UTC()).toISOString(), "00001231T235959.0000001Z");
_assertPred!"=="(SysTime(DateTime(0, 12, 31, 23, 59, 59), UTC()).toISOString(), "00001231T235959Z");
_assertPred!"=="(SysTime(DateTime(0, 12, 4, 0, 12, 4)).toISOString(), "00001204T001204");
_assertPred!"=="(SysTime(DateTime(-9, 12, 4, 0, 0, 0)).toISOString(), "-00091204T000000");
_assertPred!"=="(SysTime(DateTime(-99, 12, 4, 5, 6, 12)).toISOString(), "-00991204T050612");
_assertPred!"=="(SysTime(DateTime(-999, 12, 4, 13, 44, 59)).toISOString(), "-09991204T134459");
_assertPred!"=="(SysTime(DateTime(-9999, 7, 4, 23, 59, 59)).toISOString(), "-99990704T235959");
_assertPred!"=="(SysTime(DateTime(-10000, 10, 20, 1, 1, 1)).toISOString(), "-100001020T010101");
_assertPred!"=="(SysTime(DateTime(0, 12, 4, 0, 0, 0), FracSec.from!"msecs"(7)).toISOString(), "00001204T000000.007");
_assertPred!"=="(SysTime(DateTime(-9, 12, 4, 0, 0, 0), FracSec.from!"msecs"(42)).toISOString(), "-00091204T000000.042");
_assertPred!"=="(SysTime(DateTime(-99, 12, 4, 5, 6, 12), FracSec.from!"msecs"(100)).toISOString(), "-00991204T050612.1");
_assertPred!"=="(SysTime(DateTime(-999, 12, 4, 13, 44, 59), FracSec.from!"usecs"(45020)).toISOString(), "-09991204T134459.04502");
_assertPred!"=="(SysTime(DateTime(-9999, 7, 4, 23, 59, 59), FracSec.from!"hnsecs"(12)).toISOString(), "-99990704T235959.0000012");
_assertPred!"=="(SysTime(DateTime(-10000, 10, 20, 1, 1, 1), FracSec.from!"hnsecs"(507890)).toISOString(), "-100001020T010101.050789");
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, cast(TimeOfDay)cst));
//static assert(__traits(compiles, cast(TimeOfDay)ist));
//Verify Examples.
assert(SysTime(DateTime(2010, 7, 4, 7, 6, 12)).toISOString() ==
"20100704T070612");
assert(SysTime(DateTime(1998, 12, 25, 2, 15, 0),
FracSec.from!"msecs"(24)).toISOString() ==
"19981225T021500.024");
assert(SysTime(DateTime(0, 1, 5, 23, 9, 59)).toISOString() ==
"00000105T230959");
assert(SysTime(DateTime(-4, 1, 5, 0, 0, 2),
FracSec.from!"hnsecs"(520_920)).toISOString() ==
"-00040105T000002.052092");
}
}
/++
Converts this $(D SysTime) to a string with the format
YYYY-MM-DDTHH:MM:SS.FFFFFFFTZ (where F is fractional seconds and TZ
is the time zone).
Note that the number of digits in the fractional seconds varies with the
number of fractional seconds. It's a maximum of 7 (which would be
hnsecs), but only has as many as are necessary to hold the correct value
(so no trailing zeroes), and if there are no fractional seconds, then
there is no decimal point.
If this $(D SysTime)'s time zone is $(D LocalTime), then TZ is empty. If
its time zone is $(D UTC), then it is "Z". Otherwise, it is the offset
from UTC (e.g. +1:00 or -7:00). Note that the offset from UTC is
$(I not) enough to uniquely identify the time zone.
Time zone offsets will be in the form +HH:MM or -HH:MM.
Examples:
--------------------
assert(SysTime(DateTime(2010, 7, 4, 7, 6, 12)).toISOExtString() ==
"2010-07-04T07:06:12");
assert(SysTime(DateTime(1998, 12, 25, 2, 15, 0),
FracSec.from!"msecs"(24)).toISOExtString() ==
"1998-12-25T02:15:00.024");
assert(SysTime(DateTime(0, 1, 5, 23, 9, 59)).toISOExtString() ==
"0000-01-05T23:09:59");
assert(SysTime(DateTime(-4, 1, 5, 0, 0, 2),
FracSec.from!"hnsecs"(520_920)).toISOExtString() ==
"-0004-01-05T00:00:02.052092");
--------------------
+/
string toISOExtString() const nothrow
{
try
{
immutable adjustedTime = adjTime;
long hnsecs = adjustedTime;
auto days = splitUnitsFromHNSecs!"days"(hnsecs) + 1;
if(hnsecs < 0)
{
hnsecs += convert!("hours", "hnsecs")(24);
--days;
}
auto hour = splitUnitsFromHNSecs!"hours"(hnsecs);
auto minute = splitUnitsFromHNSecs!"minutes"(hnsecs);
auto second = splitUnitsFromHNSecs!"seconds"(hnsecs);
auto dateTime = DateTime(Date(cast(int)days), TimeOfDay(cast(int)hour, cast(int)minute, cast(int)second));
auto fracSecStr = fracSecToISOString(cast(int)hnsecs);
if(_timezone.get is LocalTime())
return dateTime.toISOExtString() ~ fracSecToISOString(cast(int)hnsecs);
if(_timezone.get is UTC())
return dateTime.toISOExtString() ~ fracSecToISOString(cast(int)hnsecs) ~ "Z";
immutable utcOffset = cast(int)convert!("hnsecs", "minutes")(adjustedTime - stdTime);
return dateTime.toISOExtString() ~ fracSecToISOString(cast(int)hnsecs) ~ SimpleTimeZone.toISOString(utcOffset);
}
catch(Exception e)
assert(0, "format() threw.");
}
/++
$(RED Scheduled for deprecation. Use toISOExtString instead.)
+/
alias toISOExtString toISOExtendedString;
unittest
{
version(testStdDateTime)
{
//Test A.D.
_assertPred!"=="(SysTime(DateTime.init, UTC()).toISOExtString(), "0001-01-01T00:00:00Z");
_assertPred!"=="(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(1), UTC()).toISOExtString(), "0001-01-01T00:00:00.0000001Z");
_assertPred!"=="(SysTime(DateTime(9, 12, 4, 0, 0, 0)).toISOExtString(), "0009-12-04T00:00:00");
_assertPred!"=="(SysTime(DateTime(99, 12, 4, 5, 6, 12)).toISOExtString(), "0099-12-04T05:06:12");
_assertPred!"=="(SysTime(DateTime(999, 12, 4, 13, 44, 59)).toISOExtString(), "0999-12-04T13:44:59");
_assertPred!"=="(SysTime(DateTime(9999, 7, 4, 23, 59, 59)).toISOExtString(), "9999-07-04T23:59:59");
_assertPred!"=="(SysTime(DateTime(10000, 10, 20, 1, 1, 1)).toISOExtString(), "+10000-10-20T01:01:01");
_assertPred!"=="(SysTime(DateTime(9, 12, 4, 0, 0, 0), FracSec.from!"msecs"(42)).toISOExtString(), "0009-12-04T00:00:00.042");
_assertPred!"=="(SysTime(DateTime(99, 12, 4, 5, 6, 12), FracSec.from!"msecs"(100)).toISOExtString(), "0099-12-04T05:06:12.1");
_assertPred!"=="(SysTime(DateTime(999, 12, 4, 13, 44, 59), FracSec.from!"usecs"(45020)).toISOExtString(), "0999-12-04T13:44:59.04502");
_assertPred!"=="(SysTime(DateTime(9999, 7, 4, 23, 59, 59), FracSec.from!"hnsecs"(12)).toISOExtString(), "9999-07-04T23:59:59.0000012");
_assertPred!"=="(SysTime(DateTime(10000, 10, 20, 1, 1, 1), FracSec.from!"hnsecs"(507890)).toISOExtString(), "+10000-10-20T01:01:01.050789");
_assertPred!"=="(SysTime(DateTime(2012, 12, 21, 12, 12, 12),
new SimpleTimeZone(-360)).toISOExtString(),
"2012-12-21T12:12:12-06:00");
_assertPred!"=="(SysTime(DateTime(2012, 12, 21, 12, 12, 12),
new SimpleTimeZone(420)).toISOExtString(),
"2012-12-21T12:12:12+07:00");
//Test B.C.
_assertPred!"=="(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999), UTC()).toISOExtString(), "0000-12-31T23:59:59.9999999Z");
_assertPred!"=="(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(1), UTC()).toISOExtString(), "0000-12-31T23:59:59.0000001Z");
_assertPred!"=="(SysTime(DateTime(0, 12, 31, 23, 59, 59), UTC()).toISOExtString(), "0000-12-31T23:59:59Z");
_assertPred!"=="(SysTime(DateTime(0, 12, 4, 0, 12, 4)).toISOExtString(), "0000-12-04T00:12:04");
_assertPred!"=="(SysTime(DateTime(-9, 12, 4, 0, 0, 0)).toISOExtString(), "-0009-12-04T00:00:00");
_assertPred!"=="(SysTime(DateTime(-99, 12, 4, 5, 6, 12)).toISOExtString(), "-0099-12-04T05:06:12");
_assertPred!"=="(SysTime(DateTime(-999, 12, 4, 13, 44, 59)).toISOExtString(), "-0999-12-04T13:44:59");
_assertPred!"=="(SysTime(DateTime(-9999, 7, 4, 23, 59, 59)).toISOExtString(), "-9999-07-04T23:59:59");
_assertPred!"=="(SysTime(DateTime(-10000, 10, 20, 1, 1, 1)).toISOExtString(), "-10000-10-20T01:01:01");
_assertPred!"=="(SysTime(DateTime(0, 12, 4, 0, 0, 0), FracSec.from!"msecs"(7)).toISOExtString(), "0000-12-04T00:00:00.007");
_assertPred!"=="(SysTime(DateTime(-9, 12, 4, 0, 0, 0), FracSec.from!"msecs"(42)).toISOExtString(), "-0009-12-04T00:00:00.042");
_assertPred!"=="(SysTime(DateTime(-99, 12, 4, 5, 6, 12), FracSec.from!"msecs"(100)).toISOExtString(), "-0099-12-04T05:06:12.1");
_assertPred!"=="(SysTime(DateTime(-999, 12, 4, 13, 44, 59), FracSec.from!"usecs"(45020)).toISOExtString(), "-0999-12-04T13:44:59.04502");
_assertPred!"=="(SysTime(DateTime(-9999, 7, 4, 23, 59, 59), FracSec.from!"hnsecs"(12)).toISOExtString(), "-9999-07-04T23:59:59.0000012");
_assertPred!"=="(SysTime(DateTime(-10000, 10, 20, 1, 1, 1), FracSec.from!"hnsecs"(507890)).toISOExtString(), "-10000-10-20T01:01:01.050789");
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, cast(TimeOfDay)cst));
//static assert(__traits(compiles, cast(TimeOfDay)ist));
//Verify Examples.
assert(SysTime(DateTime(2010, 7, 4, 7, 6, 12)).toISOExtString() ==
"2010-07-04T07:06:12");
assert(SysTime(DateTime(1998, 12, 25, 2, 15, 0),
FracSec.from!"msecs"(24)).toISOExtString() ==
"1998-12-25T02:15:00.024");
assert(SysTime(DateTime(0, 1, 5, 23, 9, 59)).toISOExtString() ==
"0000-01-05T23:09:59");
assert(SysTime(DateTime(-4, 1, 5, 0, 0, 2),
FracSec.from!"hnsecs"(520_920)).toISOExtString() ==
"-0004-01-05T00:00:02.052092");
}
}
/++
Converts this $(D SysTime) to a string with the format
YYYY-Mon-DD HH:MM:SS.FFFFFFFTZ (where F is fractional seconds and TZ
is the time zone).
Note that the number of digits in the fractional seconds varies with the
number of fractional seconds. It's a maximum of 7 (which would be
hnsecs), but only has as many as are necessary to hold the correct value
(so no trailing zeroes), and if there are no fractional seconds, then
there is no decimal point.
If this $(D SysTime)'s time zone is $(D LocalTime), then TZ is empty. If
its time zone is $(D UTC), then it is "Z". Otherwise, it is the offset
from UTC (e.g. +1:00 or -7:00). Note that the offset from UTC is
$(I not) enough to uniquely identify the time zone.
Time zone offsets will be in the form +HH:MM or -HH:MM.
Examples:
--------------------
assert(SysTime(DateTime(2010, 7, 4, 7, 6, 12)).toSimpleString() ==
"2010-Jul-04 07:06:12");
assert(SysTime(DateTime(1998, 12, 25, 2, 15, 0),
FracSec.from!"msecs"(24)).toSimpleString() ==
"1998-Dec-25 02:15:00.024");
assert(SysTime(DateTime(0, 1, 5, 23, 9, 59)).toSimpleString() ==
"0000-Jan-05 23:09:59");
assert(SysTime(DateTime(-4, 1, 5, 0, 0, 2),
FracSec.from!"hnsecs"(520_920)).toSimpleString() ==
"-0004-Jan-05 00:00:02.052092");
--------------------
+/
string toSimpleString() const nothrow
{
try
{
immutable adjustedTime = adjTime;
long hnsecs = adjustedTime;
auto days = splitUnitsFromHNSecs!"days"(hnsecs) + 1;
if(hnsecs < 0)
{
hnsecs += convert!("hours", "hnsecs")(24);
--days;
}
auto hour = splitUnitsFromHNSecs!"hours"(hnsecs);
auto minute = splitUnitsFromHNSecs!"minutes"(hnsecs);
auto second = splitUnitsFromHNSecs!"seconds"(hnsecs);
auto dateTime = DateTime(Date(cast(int)days), TimeOfDay(cast(int)hour, cast(int)minute, cast(int)second));
auto fracSecStr = fracSecToISOString(cast(int)hnsecs);
if(_timezone.get is LocalTime())
return dateTime.toSimpleString() ~ fracSecToISOString(cast(int)hnsecs);
if(_timezone.get is UTC())
return dateTime.toSimpleString() ~ fracSecToISOString(cast(int)hnsecs) ~ "Z";
immutable utcOffset = cast(int)convert!("hnsecs", "minutes")(adjustedTime - stdTime);
return dateTime.toSimpleString() ~ fracSecToISOString(cast(int)hnsecs) ~ SimpleTimeZone.toISOString(utcOffset);
}
catch(Exception e)
assert(0, "format() threw.");
}
unittest
{
version(testStdDateTime)
{
//Test A.D.
_assertPred!"=="(SysTime(DateTime.init, UTC()).toString(), "0001-Jan-01 00:00:00Z");
_assertPred!"=="(SysTime(DateTime(1, 1, 1, 0, 0, 0), FracSec.from!"hnsecs"(1), UTC()).toString(), "0001-Jan-01 00:00:00.0000001Z");
_assertPred!"=="(SysTime(DateTime(9, 12, 4, 0, 0, 0)).toSimpleString(), "0009-Dec-04 00:00:00");
_assertPred!"=="(SysTime(DateTime(99, 12, 4, 5, 6, 12)).toSimpleString(), "0099-Dec-04 05:06:12");
_assertPred!"=="(SysTime(DateTime(999, 12, 4, 13, 44, 59)).toSimpleString(), "0999-Dec-04 13:44:59");
_assertPred!"=="(SysTime(DateTime(9999, 7, 4, 23, 59, 59)).toSimpleString(), "9999-Jul-04 23:59:59");
_assertPred!"=="(SysTime(DateTime(10000, 10, 20, 1, 1, 1)).toSimpleString(), "+10000-Oct-20 01:01:01");
_assertPred!"=="(SysTime(DateTime(9, 12, 4, 0, 0, 0), FracSec.from!"msecs"(42)).toSimpleString(), "0009-Dec-04 00:00:00.042");
_assertPred!"=="(SysTime(DateTime(99, 12, 4, 5, 6, 12), FracSec.from!"msecs"(100)).toSimpleString(), "0099-Dec-04 05:06:12.1");
_assertPred!"=="(SysTime(DateTime(999, 12, 4, 13, 44, 59), FracSec.from!"usecs"(45020)).toSimpleString(), "0999-Dec-04 13:44:59.04502");
_assertPred!"=="(SysTime(DateTime(9999, 7, 4, 23, 59, 59), FracSec.from!"hnsecs"(12)).toSimpleString(), "9999-Jul-04 23:59:59.0000012");
_assertPred!"=="(SysTime(DateTime(10000, 10, 20, 1, 1, 1), FracSec.from!"hnsecs"(507890)).toSimpleString(), "+10000-Oct-20 01:01:01.050789");
_assertPred!"=="(SysTime(DateTime(2012, 12, 21, 12, 12, 12),
new SimpleTimeZone(-360)).toSimpleString(),
"2012-Dec-21 12:12:12-06:00");
_assertPred!"=="(SysTime(DateTime(2012, 12, 21, 12, 12, 12),
new SimpleTimeZone(420)).toSimpleString(),
"2012-Dec-21 12:12:12+07:00");
//Test B.C.
_assertPred!"=="(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(9_999_999), UTC()).toSimpleString(), "0000-Dec-31 23:59:59.9999999Z");
_assertPred!"=="(SysTime(DateTime(0, 12, 31, 23, 59, 59), FracSec.from!"hnsecs"(1), UTC()).toSimpleString(), "0000-Dec-31 23:59:59.0000001Z");
_assertPred!"=="(SysTime(DateTime(0, 12, 31, 23, 59, 59), UTC()).toSimpleString(), "0000-Dec-31 23:59:59Z");
_assertPred!"=="(SysTime(DateTime(0, 12, 4, 0, 12, 4)).toSimpleString(), "0000-Dec-04 00:12:04");
_assertPred!"=="(SysTime(DateTime(-9, 12, 4, 0, 0, 0)).toSimpleString(), "-0009-Dec-04 00:00:00");
_assertPred!"=="(SysTime(DateTime(-99, 12, 4, 5, 6, 12)).toSimpleString(), "-0099-Dec-04 05:06:12");
_assertPred!"=="(SysTime(DateTime(-999, 12, 4, 13, 44, 59)).toSimpleString(), "-0999-Dec-04 13:44:59");
_assertPred!"=="(SysTime(DateTime(-9999, 7, 4, 23, 59, 59)).toSimpleString(), "-9999-Jul-04 23:59:59");
_assertPred!"=="(SysTime(DateTime(-10000, 10, 20, 1, 1, 1)).toSimpleString(), "-10000-Oct-20 01:01:01");
_assertPred!"=="(SysTime(DateTime(0, 12, 4, 0, 0, 0), FracSec.from!"msecs"(7)).toSimpleString(), "0000-Dec-04 00:00:00.007");
_assertPred!"=="(SysTime(DateTime(-9, 12, 4, 0, 0, 0), FracSec.from!"msecs"(42)).toSimpleString(), "-0009-Dec-04 00:00:00.042");
_assertPred!"=="(SysTime(DateTime(-99, 12, 4, 5, 6, 12), FracSec.from!"msecs"(100)).toSimpleString(), "-0099-Dec-04 05:06:12.1");
_assertPred!"=="(SysTime(DateTime(-999, 12, 4, 13, 44, 59), FracSec.from!"usecs"(45020)).toSimpleString(), "-0999-Dec-04 13:44:59.04502");
_assertPred!"=="(SysTime(DateTime(-9999, 7, 4, 23, 59, 59), FracSec.from!"hnsecs"(12)).toSimpleString(), "-9999-Jul-04 23:59:59.0000012");
_assertPred!"=="(SysTime(DateTime(-10000, 10, 20, 1, 1, 1), FracSec.from!"hnsecs"(507890)).toSimpleString(), "-10000-Oct-20 01:01:01.050789");
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, cast(TimeOfDay)cst));
//static assert(__traits(compiles, cast(TimeOfDay)ist));
//Verify Examples.
assert(SysTime(DateTime(2010, 7, 4, 7, 6, 12)).toSimpleString() ==
"2010-Jul-04 07:06:12");
assert(SysTime(DateTime(1998, 12, 25, 2, 15, 0),
FracSec.from!"msecs"(24)).toSimpleString() ==
"1998-Dec-25 02:15:00.024");
assert(SysTime(DateTime(0, 1, 5, 23, 9, 59)).toSimpleString() ==
"0000-Jan-05 23:09:59");
assert(SysTime(DateTime(-4, 1, 5, 0, 0, 2),
FracSec.from!"hnsecs"(520_920)).toSimpleString() ==
"-0004-Jan-05 00:00:02.052092");
}
}
/+
Converts this $(D SysTime) to a string.
+/
//Due to bug http://d.puremagic.com/issues/show_bug.cgi?id=3715 , we can't
//have versions of toString() with extra modifiers, so we define one version
//with modifiers and one without.
string toString()
{
return toSimpleString();
}
/++
Converts this $(D SysTime) to a string.
+/
//Due to bug http://d.puremagic.com/issues/show_bug.cgi?id=3715 , we can't
//have versions of toString() with extra modifiers, so we define one version
//with modifiers and one without.
string toString() const nothrow
{
return toSimpleString();
}
unittest
{
version(testStdDateTime)
{
auto st = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
const cst = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
//immutable ist = SysTime(DateTime(1999, 7, 6, 12, 30, 33));
static assert(__traits(compiles, st.toString()));
static assert(__traits(compiles, cst.toString()));
//static assert(__traits(compiles, ist.toString()));
}
}
/++
Creates a $(D SysTime) from a string with the format
YYYYMMDDTHHMMSS.FFFFFFFTZ (where F is fractional seconds is the time
zone). Whitespace is stripped from the given string.
The exact format is exactly as described in $(D toISOString) except that
trailing zeroes are permitted - including having fractional seconds with
all zeroes. However, a decimal point with nothing following it is
invalid.
If there is no time zone in the string, then $(D LocalTime) is used. If
the time zone is "Z", then $(D UTC) is used. Otherwise, a
$(D SimpleTimeZone) which corresponds to the given offset from UTC is
used. If you wish the returned $(D SysTime) to be a particular time
zone, then pass in that time zone and the $(D SysTime) to be returned
will be converted to that time zone (though it will still be read in as
whatever time zone is in its string).
The accepted formats for time zone offsets
are +H, -H, +HH, -HH, +H:MM, -H:MM, +HH:MM, and -HH:MM.
Params:
isoString = A string formatted in the ISO format for dates and times.
tz = The time zone to convert the given time to (no
conversion occurs if null).
Throws:
$(D DateTimeException) if the given string is not in the ISO format
or if the resulting $(D SysTime) would not be valid.
Examples:
--------------------
assert(SysTime.fromISOString("20100704T070612") ==
SysTime(DateTime(2010, 7, 4, 7, 6, 12)));
assert(SysTime.fromISOString("19981225T021500.007") ==
SysTime(DateTime(1998, 12, 25, 2, 15, 0), FracSec.from!"msecs"(7)));
assert(SysTime.fromISOString("00000105T230959.00002") ==
SysTime(DateTime(0, 1, 5, 23, 9, 59), FracSec.from!"usecs"(20)));
assert(SysTime.fromISOString("-00040105T000002") ==
SysTime(DateTime(-4, 1, 5, 0, 0, 2)));
assert(SysTime.fromISOString(" 20100704T070612 ") ==
SysTime(DateTime(2010, 7, 4, 7, 6, 12)));
assert(SysTime.fromISOString("20100704T070612Z") ==
SysTime(DateTime(2010, 7, 4, 7, 6, 12), UTC()));
assert(SysTime.fromISOString("20100704T070612-8:00") ==
SysTime(DateTime(2010, 7, 4, 7, 6, 12), new SimpleTimeZone(-480)));
assert(SysTime.fromISOString("20100704T070612+8:00") ==
SysTime(DateTime(2010, 7, 3, 7, 6, 12), new SimpleTimeZone(480)));
--------------------
+/
static SysTime fromISOString(S)(in S isoString, immutable TimeZone tz = null)
if(isSomeString!S)
{
auto dstr = to!dstring(strip(isoString));
immutable skipFirst = dstr.startsWith("+", "-") != 0;
auto found = (skipFirst ? dstr[1..$] : dstr).find(".", "Z", "+", "-");
auto dateTimeStr = dstr[0 .. $ - found[0].length];
dstring fracSecStr;
dstring zoneStr;
if(found[1] != 0)
{
if(found[1] == 1)
{
auto foundTZ = found[0].find("Z", "+", "-");
if(foundTZ[1] != 0)
{
fracSecStr = found[0][0 .. $ - foundTZ[0].length];
zoneStr = foundTZ[0];
}
else
fracSecStr = found[0];
}
else
zoneStr = found[0];
}
try
{
auto dateTime = DateTime.fromISOString(dateTimeStr);
auto fracSec = fracSecFromISOString(fracSecStr);
DTRebindable!(immutable TimeZone) parsedZone;
if(zoneStr.empty)
parsedZone = LocalTime();
else if(zoneStr == "Z")
parsedZone = UTC();
else
parsedZone = SimpleTimeZone.fromISOString(zoneStr);
auto retval = SysTime(dateTime, fracSec, parsedZone.get);
if(tz !is null)
retval.timezone = tz;
return retval;
}
catch(DateTimeException dte)
throw new DateTimeException(format("Invalid ISO String: %s", isoString));
}
unittest
{
version(testStdDateTime)
{
assertThrown!DateTimeException(SysTime.fromISOString(""));
assertThrown!DateTimeException(SysTime.fromISOString("20100704000000"));
assertThrown!DateTimeException(SysTime.fromISOString("20100704 000000"));
assertThrown!DateTimeException(SysTime.fromISOString("20100704t000000"));
assertThrown!DateTimeException(SysTime.fromISOString("20100704T000000."));
assertThrown!DateTimeException(SysTime.fromISOString("20100704T000000.A"));
assertThrown!DateTimeException(SysTime.fromISOString("20100704T000000.Z"));
assertThrown!DateTimeException(SysTime.fromISOString("20100704T000000.00000000"));
assertThrown!DateTimeException(SysTime.fromISOString("20100704T000000.00000000"));
assertThrown!DateTimeException(SysTime.fromISOString("20100704T000000+"));
assertThrown!DateTimeException(SysTime.fromISOString("20100704T000000-"));
assertThrown!DateTimeException(SysTime.fromISOString("20100704T000000:"));
assertThrown!DateTimeException(SysTime.fromISOString("20100704T000000-:"));
assertThrown!DateTimeException(SysTime.fromISOString("20100704T000000+:"));
assertThrown!DateTimeException(SysTime.fromISOString("20100704T000000-1:"));
assertThrown!DateTimeException(SysTime.fromISOString("20100704T000000+1:"));
assertThrown!DateTimeException(SysTime.fromISOString("20100704T000000+1:0"));
assertThrown!DateTimeException(SysTime.fromISOString("20100704T000000-24.00"));
assertThrown!DateTimeException(SysTime.fromISOString("20100704T000000+24.00"));
assertThrown!DateTimeException(SysTime.fromISOString("2010-07-0400:00:00"));
assertThrown!DateTimeException(SysTime.fromISOString("2010-07-04 00:00:00"));
assertThrown!DateTimeException(SysTime.fromISOString("2010-07-04t00:00:00"));
assertThrown!DateTimeException(SysTime.fromISOString("2010-07-04T00:00:00."));
assertThrown!DateTimeException(SysTime.fromISOString("2010-Jul-0400:00:00"));
assertThrown!DateTimeException(SysTime.fromISOString("2010-Jul-04 00:00:00"));
assertThrown!DateTimeException(SysTime.fromISOString("2010-Jul-04t00:00:00"));
assertThrown!DateTimeException(SysTime.fromISOString("2010-Jul-04T00:00:00"));
assertThrown!DateTimeException(SysTime.fromISOString("2010-Jul-04 00:00:00."));
assertThrown!DateTimeException(SysTime.fromISOString("2010-12-22T172201"));
assertThrown!DateTimeException(SysTime.fromISOString("2010-Dec-22 17:22:01"));
_assertPred!"=="(SysTime.fromISOString("20101222T172201"), SysTime(DateTime(2010, 12, 22, 17, 22, 01)));
_assertPred!"=="(SysTime.fromISOString("19990706T123033"), SysTime(DateTime(1999, 7, 6, 12, 30, 33)));
_assertPred!"=="(SysTime.fromISOString("-19990706T123033"), SysTime(DateTime(-1999, 7, 6, 12, 30, 33)));
_assertPred!"=="(SysTime.fromISOString("+019990706T123033"), SysTime(DateTime(1999, 7, 6, 12, 30, 33)));
_assertPred!"=="(SysTime.fromISOString("19990706T123033 "), SysTime(DateTime(1999, 7, 6, 12, 30, 33)));
_assertPred!"=="(SysTime.fromISOString(" 19990706T123033"), SysTime(DateTime(1999, 7, 6, 12, 30, 33)));
_assertPred!"=="(SysTime.fromISOString(" 19990706T123033 "), SysTime(DateTime(1999, 7, 6, 12, 30, 33)));
_assertPred!"=="(SysTime.fromISOString("19070707T121212.0"), SysTime(DateTime(1907, 07, 07, 12, 12, 12)));
_assertPred!"=="(SysTime.fromISOString("19070707T121212.0000000"), SysTime(DateTime(1907, 07, 07, 12, 12, 12)));
_assertPred!"=="(SysTime.fromISOString("19070707T121212.0000001"), SysTime(DateTime(1907, 07, 07, 12, 12, 12), FracSec.from!"hnsecs"(1)));
_assertPred!"=="(SysTime.fromISOString("19070707T121212.000001"), SysTime(DateTime(1907, 07, 07, 12, 12, 12), FracSec.from!"usecs"(1)));
_assertPred!"=="(SysTime.fromISOString("19070707T121212.0000010"), SysTime(DateTime(1907, 07, 07, 12, 12, 12), FracSec.from!"usecs"(1)));
_assertPred!"=="(SysTime.fromISOString("19070707T121212.001"), SysTime(DateTime(1907, 07, 07, 12, 12, 12), FracSec.from!"msecs"(1)));
_assertPred!"=="(SysTime.fromISOString("19070707T121212.0010000"), SysTime(DateTime(1907, 07, 07, 12, 12, 12), FracSec.from!"msecs"(1)));
_assertPred!"=="(SysTime.fromISOString("20101222T172201Z"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), UTC()));
_assertPred!"=="(SysTime.fromISOString("20101222T172201-1:00"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), new SimpleTimeZone(-60)));
_assertPred!"=="(SysTime.fromISOString("20101222T172201-1"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), new SimpleTimeZone(-60)));
_assertPred!"=="(SysTime.fromISOString("20101222T172201-1:30"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), new SimpleTimeZone(-90)));
_assertPred!"=="(SysTime.fromISOString("20101222T172201-8:00"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), new SimpleTimeZone(-480)));
_assertPred!"=="(SysTime.fromISOString("20101222T172201+1:00"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), new SimpleTimeZone(60)));
_assertPred!"=="(SysTime.fromISOString("20101222T172201+1"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), new SimpleTimeZone(60)));
_assertPred!"=="(SysTime.fromISOString("20101222T172201+1:30"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), new SimpleTimeZone(90)));
_assertPred!"=="(SysTime.fromISOString("20101222T172201+8:00"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), new SimpleTimeZone(480)));
_assertPred!"=="(SysTime.fromISOString("20101103T065106.57159Z"), SysTime(DateTime(2010, 11, 3, 6, 51, 6), FracSec.from!"hnsecs"(5715900), UTC()));
_assertPred!"=="(SysTime.fromISOString("20101222T172201.23412Z"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(2_341_200), UTC()));
_assertPred!"=="(SysTime.fromISOString("20101222T172201.23112-1:00"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(2_311_200), new SimpleTimeZone(-60)));
_assertPred!"=="(SysTime.fromISOString("20101222T172201.45-1"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(4_500_000), new SimpleTimeZone(-60)));
_assertPred!"=="(SysTime.fromISOString("20101222T172201.1-1:30"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(1_000_000), new SimpleTimeZone(-90)));
_assertPred!"=="(SysTime.fromISOString("20101222T172201.55-8:00"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(5_500_000), new SimpleTimeZone(-480)));
_assertPred!"=="(SysTime.fromISOString("20101222T172201.1234567+1:00"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(1_234_567), new SimpleTimeZone(60)));
_assertPred!"=="(SysTime.fromISOString("20101222T172201.0+1"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(0), new SimpleTimeZone(60)));
_assertPred!"=="(SysTime.fromISOString("20101222T172201.0000000+1:30"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(0), new SimpleTimeZone(90)));
_assertPred!"=="(SysTime.fromISOString("20101222T172201.45+8:00"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(4_500_000), new SimpleTimeZone(480)));
//Verify Examples.
assert(SysTime.fromISOString("20100704T070612") == SysTime(DateTime(2010, 7, 4, 7, 6, 12)));
assert(SysTime.fromISOString("19981225T021500.007") == SysTime(DateTime(1998, 12, 25, 2, 15, 0), FracSec.from!"msecs"(7)));
assert(SysTime.fromISOString("00000105T230959.00002") == SysTime(DateTime(0, 1, 5, 23, 9, 59), FracSec.from!"usecs"(20)));
assert(SysTime.fromISOString("-00040105T000002") == SysTime(DateTime(-4, 1, 5, 0, 0, 2)));
assert(SysTime.fromISOString(" 20100704T070612 ") == SysTime(DateTime(2010, 7, 4, 7, 6, 12)));
assert(SysTime.fromISOString("20100704T070612Z") == SysTime(DateTime(2010, 7, 4, 7, 6, 12), UTC()));
assert(SysTime.fromISOString("20100704T070612-8:00") == SysTime(DateTime(2010, 7, 4, 7, 6, 12), new SimpleTimeZone(-480)));
assert(SysTime.fromISOString("20100704T070612+8:00") == SysTime(DateTime(2010, 7, 4, 7, 6, 12), new SimpleTimeZone(480)));
}
}
/++
Creates a $(D SysTime) from a string with the format
YYYY-MM-DDTHH:MM:SS.FFFFFFFTZ (where F is fractional seconds is the
time zone). Whitespace is stripped from the given string.
The exact format is exactly as described in $(D toISOExtString)
except that trailing zeroes are permitted - including having fractional
seconds with all zeroes. However, a decimal point with nothing following
it is invalid.
If there is no time zone in the string, then $(D LocalTime) is used. If
the time zone is "Z", then $(D UTC) is used. Otherwise, a
$(D SimpleTimeZone) which corresponds to the given offset from UTC is
used. If you wish the returned $(D SysTime) to be a particular time
zone, then pass in that time zone and the $(D SysTime) to be returned
will be converted to that time zone (though it will still be read in as
whatever time zone is in its string).
The accepted formats for time zone offsets
are +H, -H, +HH, -HH, +H:MM, -H:MM, +HH:MM, and -HH:MM.
Params:
isoString = A string formatted in the ISO Extended format for dates
and times.
tz = The time zone to convert the given time to (no
conversion occurs if null).
Throws:
$(D DateTimeException) if the given string is not in the ISO format
or if the resulting $(D SysTime) would not be valid.
Examples:
--------------------
assert(SysTime.fromISOExtString("2010-07-04T07:06:12") ==
SysTime(DateTime(2010, 7, 4, 7, 6, 12)));
assert(SysTime.fromISOExtString("1998-12-25T02:15:00.007") ==
SysTime(DateTime(1998, 12, 25, 2, 15, 0), FracSec.from!"msecs"(7)));
assert(SysTime.fromISOExtString("0000-01-05T23:09:59.00002") ==
SysTime(DateTime(0, 1, 5, 23, 9, 59), FracSec.from!"usecs"(20)));
assert(SysTime.fromISOExtString("-0004-01-05T00:00:02") ==
SysTime(DateTime(-4, 1, 5, 0, 0, 2)));
assert(SysTime.fromISOExtString(" 2010-07-04T07:06:12 ") ==
SysTime(DateTime(2010, 7, 4, 7, 6, 12)));
assert(SysTime.fromISOExtString("2010-07-04T07:06:12Z") ==
SysTime(DateTime(2010, 7, 4, 7, 6, 12), UTC()));
assert(SysTime.fromISOExtString("2010-07-04T07:06:12-8:00") ==
SysTime(DateTime(2010, 7, 4, 7, 6, 12), new SimpleTimeZone(-480)));
assert(SysTime.fromISOExtString("2010-07-04T07:06:12+8:00") ==
SysTime(DateTime(2010, 7, 4, 7, 6, 12), new SimpleTimeZone(480)));
--------------------
+/
static SysTime fromISOExtString(S)(in S isoExtString, immutable TimeZone tz = null)
if(isSomeString!(S))
{
auto dstr = to!dstring(strip(isoExtString));
auto tIndex = dstr.stds_indexOf("T");
enforce(tIndex != -1, new DateTimeException(format("Invalid ISO Extended String: %s", isoExtString)));
auto found = dstr[tIndex + 1 .. $].find(".", "Z", "+", "-");
auto dateTimeStr = dstr[0 .. $ - found[0].length];
dstring fracSecStr;
dstring zoneStr;
if(found[1] != 0)
{
if(found[1] == 1)
{
auto foundTZ = found[0].find("Z", "+", "-");
if(foundTZ[1] != 0)
{
fracSecStr = found[0][0 .. $ - foundTZ[0].length];
zoneStr = foundTZ[0];
}
else
fracSecStr = found[0];
}
else
zoneStr = found[0];
}
try
{
auto dateTime = DateTime.fromISOExtString(dateTimeStr);
auto fracSec = fracSecFromISOString(fracSecStr);
DTRebindable!(immutable TimeZone) parsedZone;
if(zoneStr.empty)
parsedZone = LocalTime();
else if(zoneStr == "Z")
parsedZone = UTC();
else
parsedZone = SimpleTimeZone.fromISOString(zoneStr);
auto retval = SysTime(dateTime, fracSec, parsedZone.get);
if(tz !is null)
retval.timezone = tz;
return retval;
}
catch(DateTimeException dte)
throw new DateTimeException(format("Invalid ISO Extended String: %s", isoExtString));
}
/++
$(RED Scheduled for deprecation. Use fromISOExtString instead.)
+/
static SysTime fromISOExtendedString(S)(in S isoExtString, immutable TimeZone tz = null)
if(isSomeString!(S))
{
pragma(msg, "fromISOExtendedString has been scheduled for deprecation. " ~
"Use fromISOExtString instead.");
return fromISOExtString!string(isoExtString, tz);
}
unittest
{
version(testStdDateTime)
{
assertThrown!DateTimeException(SysTime.fromISOExtString(""));
assertThrown!DateTimeException(SysTime.fromISOExtString("20100704000000"));
assertThrown!DateTimeException(SysTime.fromISOExtString("20100704 000000"));
assertThrown!DateTimeException(SysTime.fromISOExtString("20100704t000000"));
assertThrown!DateTimeException(SysTime.fromISOExtString("20100704T000000."));
assertThrown!DateTimeException(SysTime.fromISOExtString("20100704T000000.0"));
assertThrown!DateTimeException(SysTime.fromISOExtString("2010-07:0400:00:00"));
assertThrown!DateTimeException(SysTime.fromISOExtString("2010-07-04 00:00:00"));
assertThrown!DateTimeException(SysTime.fromISOExtString("2010-07-04 00:00:00"));
assertThrown!DateTimeException(SysTime.fromISOExtString("2010-07-04t00:00:00"));
assertThrown!DateTimeException(SysTime.fromISOExtString("2010-07-04T00:00:00."));
assertThrown!DateTimeException(SysTime.fromISOExtString("2010-07-04T00:00:00.A"));
assertThrown!DateTimeException(SysTime.fromISOExtString("2010-07-04T00:00:00.Z"));
assertThrown!DateTimeException(SysTime.fromISOExtString("2010-07-04T00:00:00.00000000"));
assertThrown!DateTimeException(SysTime.fromISOExtString("2010-07-04T00:00:00.00000000"));
assertThrown!DateTimeException(SysTime.fromISOExtString("2010-07-04T00:00:00+"));
assertThrown!DateTimeException(SysTime.fromISOExtString("2010-07-04T00:00:00-"));
assertThrown!DateTimeException(SysTime.fromISOExtString("2010-07-04T00:00:00:"));
assertThrown!DateTimeException(SysTime.fromISOExtString("2010-07-04T00:00:00-:"));
assertThrown!DateTimeException(SysTime.fromISOExtString("2010-07-04T00:00:00+:"));
assertThrown!DateTimeException(SysTime.fromISOExtString("2010-07-04T00:00:00-1:"));
assertThrown!DateTimeException(SysTime.fromISOExtString("2010-07-04T00:00:00+1:"));
assertThrown!DateTimeException(SysTime.fromISOExtString("2010-07-04T00:00:00+1:0"));
assertThrown!DateTimeException(SysTime.fromISOExtString("2010-07-04T00:00:00-24.00"));
assertThrown!DateTimeException(SysTime.fromISOExtString("2010-07-04T00:00:00+24.00"));
assertThrown!DateTimeException(SysTime.fromISOExtString("2010-Jul-0400:00:00"));
assertThrown!DateTimeException(SysTime.fromISOExtString("2010-Jul-04t00:00:00"));
assertThrown!DateTimeException(SysTime.fromISOExtString("2010-Jul-04 00:00:00."));
assertThrown!DateTimeException(SysTime.fromISOExtString("2010-Jul-04 00:00:00.0"));
assertThrown!DateTimeException(SysTime.fromISOExtString("20101222T172201"));
assertThrown!DateTimeException(SysTime.fromISOExtString("2010-Dec-22 17:22:01"));
_assertPred!"=="(SysTime.fromISOExtString("2010-12-22T17:22:01"), SysTime(DateTime(2010, 12, 22, 17, 22, 01)));
_assertPred!"=="(SysTime.fromISOExtString("1999-07-06T12:30:33"), SysTime(DateTime(1999, 7, 6, 12, 30, 33)));
_assertPred!"=="(SysTime.fromISOExtString("-1999-07-06T12:30:33"), SysTime(DateTime(-1999, 7, 6, 12, 30, 33)));
_assertPred!"=="(SysTime.fromISOExtString("+01999-07-06T12:30:33"), SysTime(DateTime(1999, 7, 6, 12, 30, 33)));
_assertPred!"=="(SysTime.fromISOExtString("1999-07-06T12:30:33 "), SysTime(DateTime(1999, 7, 6, 12, 30, 33)));
_assertPred!"=="(SysTime.fromISOExtString(" 1999-07-06T12:30:33"), SysTime(DateTime(1999, 7, 6, 12, 30, 33)));
_assertPred!"=="(SysTime.fromISOExtString(" 1999-07-06T12:30:33 "), SysTime(DateTime(1999, 7, 6, 12, 30, 33)));
_assertPred!"=="(SysTime.fromISOExtString("1907-07-07T12:12:12.0"), SysTime(DateTime(1907, 07, 07, 12, 12, 12)));
_assertPred!"=="(SysTime.fromISOExtString("1907-07-07T12:12:12.0000000"), SysTime(DateTime(1907, 07, 07, 12, 12, 12)));
_assertPred!"=="(SysTime.fromISOExtString("1907-07-07T12:12:12.0000001"), SysTime(DateTime(1907, 07, 07, 12, 12, 12), FracSec.from!"hnsecs"(1)));
_assertPred!"=="(SysTime.fromISOExtString("1907-07-07T12:12:12.000001"), SysTime(DateTime(1907, 07, 07, 12, 12, 12), FracSec.from!"usecs"(1)));
_assertPred!"=="(SysTime.fromISOExtString("1907-07-07T12:12:12.0000010"), SysTime(DateTime(1907, 07, 07, 12, 12, 12), FracSec.from!"usecs"(1)));
_assertPred!"=="(SysTime.fromISOExtString("1907-07-07T12:12:12.001"), SysTime(DateTime(1907, 07, 07, 12, 12, 12), FracSec.from!"msecs"(1)));
_assertPred!"=="(SysTime.fromISOExtString("1907-07-07T12:12:12.0010000"), SysTime(DateTime(1907, 07, 07, 12, 12, 12), FracSec.from!"msecs"(1)));
_assertPred!"=="(SysTime.fromISOExtString("2010-12-22T17:22:01Z"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), UTC()));
_assertPred!"=="(SysTime.fromISOExtString("2010-12-22T17:22:01-1:00"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), new SimpleTimeZone(-60)));
_assertPred!"=="(SysTime.fromISOExtString("2010-12-22T17:22:01-1"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), new SimpleTimeZone(-60)));
_assertPred!"=="(SysTime.fromISOExtString("2010-12-22T17:22:01-1:30"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), new SimpleTimeZone(-90)));
_assertPred!"=="(SysTime.fromISOExtString("2010-12-22T17:22:01-8:00"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), new SimpleTimeZone(-480)));
_assertPred!"=="(SysTime.fromISOExtString("2010-12-22T17:22:01+1:00"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), new SimpleTimeZone(60)));
_assertPred!"=="(SysTime.fromISOExtString("2010-12-22T17:22:01+1"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), new SimpleTimeZone(60)));
_assertPred!"=="(SysTime.fromISOExtString("2010-12-22T17:22:01+1:30"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), new SimpleTimeZone(90)));
_assertPred!"=="(SysTime.fromISOExtString("2010-12-22T17:22:01+8:00"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), new SimpleTimeZone(480)));
_assertPred!"=="(SysTime.fromISOExtString("2010-11-03T06:51:06.57159Z"), SysTime(DateTime(2010, 11, 3, 6, 51, 6), FracSec.from!"hnsecs"(5715900), UTC()));
_assertPred!"=="(SysTime.fromISOExtString("2010-12-22T17:22:01.23412Z"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(2_341_200), UTC()));
_assertPred!"=="(SysTime.fromISOExtString("2010-12-22T17:22:01.23112-1:00"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(2_311_200), new SimpleTimeZone(-60)));
_assertPred!"=="(SysTime.fromISOExtString("2010-12-22T17:22:01.45-1"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(4_500_000), new SimpleTimeZone(-60)));
_assertPred!"=="(SysTime.fromISOExtString("2010-12-22T17:22:01.1-1:30"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(1_000_000), new SimpleTimeZone(-90)));
_assertPred!"=="(SysTime.fromISOExtString("2010-12-22T17:22:01.55-8:00"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(5_500_000), new SimpleTimeZone(-480)));
_assertPred!"=="(SysTime.fromISOExtString("2010-12-22T17:22:01.1234567+1:00"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(1_234_567), new SimpleTimeZone(60)));
_assertPred!"=="(SysTime.fromISOExtString("2010-12-22T17:22:01.0+1"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(0), new SimpleTimeZone(60)));
_assertPred!"=="(SysTime.fromISOExtString("2010-12-22T17:22:01.0000000+1:30"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(0), new SimpleTimeZone(90)));
_assertPred!"=="(SysTime.fromISOExtString("2010-12-22T17:22:01.45+8:00"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(4_500_000), new SimpleTimeZone(480)));
//Verify Examples.
assert(SysTime.fromISOExtString("2010-07-04T07:06:12") == SysTime(DateTime(2010, 7, 4, 7, 6, 12)));
assert(SysTime.fromISOExtString("1998-12-25T02:15:00.007") == SysTime(DateTime(1998, 12, 25, 2, 15, 0), FracSec.from!"msecs"(7)));
assert(SysTime.fromISOExtString("0000-01-05T23:09:59.00002") == SysTime(DateTime(0, 1, 5, 23, 9, 59), FracSec.from!"usecs"(20)));
assert(SysTime.fromISOExtString("-0004-01-05T00:00:02") == SysTime(DateTime(-4, 1, 5, 0, 0, 2)));
assert(SysTime.fromISOExtString(" 2010-07-04T07:06:12 ") == SysTime(DateTime(2010, 7, 4, 7, 6, 12)));
assert(SysTime.fromISOExtString("2010-07-04T07:06:12Z") == SysTime(DateTime(2010, 7, 4, 7, 6, 12), UTC()));
assert(SysTime.fromISOExtString("2010-07-04T07:06:12-8:00") == SysTime(DateTime(2010, 7, 4, 7, 6, 12), new SimpleTimeZone(-480)));
assert(SysTime.fromISOExtString("2010-07-04T07:06:12+8:00") == SysTime(DateTime(2010, 7, 4, 7, 6, 12), new SimpleTimeZone(480)));
}
}
/++
Creates a $(D SysTime) from a string with the format
YYYY-MM-DD HH:MM:SS.FFFFFFFTZ (where F is fractional seconds is the
time zone). Whitespace is stripped from the given string.
The exact format is exactly as described in $(D toSimpleString) except
that trailing zeroes are permitted - including having fractional seconds
with all zeroes. However, a decimal point with nothing following it is
invalid.
If there is no time zone in the string, then $(D LocalTime) is used. If
the time zone is "Z", then $(D UTC) is used. Otherwise, a
$(D SimpleTimeZone) which corresponds to the given offset from UTC is
used. If you wish the returned $(D SysTime) to be a particular time
zone, then pass in that time zone and the $(D SysTime) to be returned
will be converted to that time zone (though it will still be read in as
whatever time zone is in its string).
The accepted formats for time zone offsets
are +H, -H, +HH, -HH, +H:MM, -H:MM, +HH:MM, and -HH:MM.
Params:
simpleString = A string formatted in the way that
$(D toSimpleString) formats dates and times.
tz = The time zone to convert the given time to (no
conversion occurs if null).
Throws:
$(D DateTimeException) if the given string is not in the ISO format
or if the resulting $(D SysTime) would not be valid.
Examples:
--------------------
assert(SysTime.fromSimpleString("2010-Jul-04 07:06:12") ==
SysTime(DateTime(2010, 7, 4, 7, 6, 12)));
assert(SysTime.fromSimpleString("1998-Dec-25 02:15:00.007") ==
SysTime(DateTime(1998, 12, 25, 2, 15, 0), FracSec.from!"msecs"(7)));
assert(SysTime.fromSimpleString("0000-Jan-05 23:09:59.00002") ==
SysTime(DateTime(0, 1, 5, 23, 9, 59), FracSec.from!"usecs"(20)));
assert(SysTime.fromSimpleString("-0004-Jan-05 00:00:02") ==
SysTime(DateTime(-4, 1, 5, 0, 0, 2)));
assert(SysTime.fromSimpleString(" 2010-Jul-04 07:06:12 ") ==
SysTime(DateTime(2010, 7, 4, 7, 6, 12)));
assert(SysTime.fromSimpleString("2010-Jul-04 07:06:12Z") ==
SysTime(DateTime(2010, 7, 4, 7, 6, 12), UTC()));
assert(SysTime.fromSimpleString("2010-Jul-04 07:06:12-8:00") ==
SysTime(DateTime(2010, 7, 4, 7, 6, 12), new SimpleTimeZone(-480)));
assert(SysTime.fromSimpleString("2010-Jul-04 07:06:12+8:00") ==
SysTime(DateTime(2010, 7, 4, 7, 6, 12), new SimpleTimeZone(480)));
--------------------
+/
static SysTime fromSimpleString(S)(in S simpleString, immutable TimeZone tz = null)
if(isSomeString!(S))
{
auto dstr = to!dstring(strip(simpleString));
auto spaceIndex = dstr.stds_indexOf(" ");
enforce(spaceIndex != -1, new DateTimeException(format("Invalid Simple String: %s", simpleString)));
auto found = dstr[spaceIndex + 1 .. $].find(".", "Z", "+", "-");
auto dateTimeStr = dstr[0 .. $ - found[0].length];
dstring fracSecStr;
dstring zoneStr;
if(found[1] != 0)
{
if(found[1] == 1)
{
auto foundTZ = found[0].find("Z", "+", "-");
if(foundTZ[1] != 0)
{
fracSecStr = found[0][0 .. $ - foundTZ[0].length];
zoneStr = foundTZ[0];
}
else
fracSecStr = found[0];
}
else
zoneStr = found[0];
}
try
{
auto dateTime = DateTime.fromSimpleString(dateTimeStr);
auto fracSec = fracSecFromISOString(fracSecStr);
DTRebindable!(immutable TimeZone) parsedZone;
if(zoneStr.empty)
parsedZone = LocalTime();
else if(zoneStr == "Z")
parsedZone = UTC();
else
parsedZone = SimpleTimeZone.fromISOString(zoneStr);
auto retval = SysTime(dateTime, fracSec, parsedZone.get);
if(tz !is null)
retval.timezone = tz;
return retval;
}
catch(DateTimeException dte)
throw new DateTimeException(format("Invalid Simple String: %s", simpleString));
}
unittest
{
version(testStdDateTime)
{
assertThrown!DateTimeException(SysTime.fromSimpleString(""));
assertThrown!DateTimeException(SysTime.fromSimpleString("20100704000000"));
assertThrown!DateTimeException(SysTime.fromSimpleString("20100704 000000"));
assertThrown!DateTimeException(SysTime.fromSimpleString("20100704t000000"));
assertThrown!DateTimeException(SysTime.fromSimpleString("20100704T000000."));
assertThrown!DateTimeException(SysTime.fromSimpleString("20100704T000000.0"));
assertThrown!DateTimeException(SysTime.fromSimpleString("2010-07-0400:00:00"));
assertThrown!DateTimeException(SysTime.fromSimpleString("2010-07-04 00:00:00"));
assertThrown!DateTimeException(SysTime.fromSimpleString("2010-07-04t00:00:00"));
assertThrown!DateTimeException(SysTime.fromSimpleString("2010-07-04T00:00:00."));
assertThrown!DateTimeException(SysTime.fromSimpleString("2010-07-04T00:00:00.0"));
assertThrown!DateTimeException(SysTime.fromSimpleString("2010-Jul-0400:00:00"));
assertThrown!DateTimeException(SysTime.fromSimpleString("2010-Jul-04t00:00:00"));
assertThrown!DateTimeException(SysTime.fromSimpleString("2010-Jul-04T00:00:00"));
assertThrown!DateTimeException(SysTime.fromSimpleString("2010-Jul-04 00:00:00."));
assertThrown!DateTimeException(SysTime.fromSimpleString("2010-Jul-04 00:00:00.A"));
assertThrown!DateTimeException(SysTime.fromSimpleString("2010-Jul-04 00:00:00.Z"));
assertThrown!DateTimeException(SysTime.fromSimpleString("2010-Jul-04 00:00:00.00000000"));
assertThrown!DateTimeException(SysTime.fromSimpleString("2010-Jul-04 00:00:00.00000000"));
assertThrown!DateTimeException(SysTime.fromSimpleString("2010-Jul-04 00:00:00+"));
assertThrown!DateTimeException(SysTime.fromSimpleString("2010-Jul-04 00:00:00-"));
assertThrown!DateTimeException(SysTime.fromSimpleString("2010-Jul-04 00:00:00:"));
assertThrown!DateTimeException(SysTime.fromSimpleString("2010-Jul-04 00:00:00-:"));
assertThrown!DateTimeException(SysTime.fromSimpleString("2010-Jul-04 00:00:00+:"));
assertThrown!DateTimeException(SysTime.fromSimpleString("2010-Jul-04 00:00:00-1:"));
assertThrown!DateTimeException(SysTime.fromSimpleString("2010-Jul-04 00:00:00+1:"));
assertThrown!DateTimeException(SysTime.fromSimpleString("2010-Jul-04 00:00:00+1:0"));
assertThrown!DateTimeException(SysTime.fromSimpleString("2010-Jul-04 00:00:00-24.00"));
assertThrown!DateTimeException(SysTime.fromSimpleString("2010-Jul-04 00:00:00+24.00"));
assertThrown!DateTimeException(SysTime.fromSimpleString("20101222T172201"));
assertThrown!DateTimeException(SysTime.fromSimpleString("2010-12-22T172201"));
_assertPred!"=="(SysTime.fromSimpleString("2010-Dec-22 17:22:01"), SysTime(DateTime(2010, 12, 22, 17, 22, 01)));
_assertPred!"=="(SysTime.fromSimpleString("1999-Jul-06 12:30:33"), SysTime(DateTime(1999, 7, 6, 12, 30, 33)));
_assertPred!"=="(SysTime.fromSimpleString("-1999-Jul-06 12:30:33"), SysTime(DateTime(-1999, 7, 6, 12, 30, 33)));
_assertPred!"=="(SysTime.fromSimpleString("+01999-Jul-06 12:30:33"), SysTime(DateTime(1999, 7, 6, 12, 30, 33)));
_assertPred!"=="(SysTime.fromSimpleString("1999-Jul-06 12:30:33 "), SysTime(DateTime(1999, 7, 6, 12, 30, 33)));
_assertPred!"=="(SysTime.fromSimpleString(" 1999-Jul-06 12:30:33"), SysTime(DateTime(1999, 7, 6, 12, 30, 33)));
_assertPred!"=="(SysTime.fromSimpleString(" 1999-Jul-06 12:30:33 "), SysTime(DateTime(1999, 7, 6, 12, 30, 33)));
_assertPred!"=="(SysTime.fromSimpleString("1907-Jul-07 12:12:12.0"), SysTime(DateTime(1907, 07, 07, 12, 12, 12)));
_assertPred!"=="(SysTime.fromSimpleString("1907-Jul-07 12:12:12.0000000"), SysTime(DateTime(1907, 07, 07, 12, 12, 12)));
_assertPred!"=="(SysTime.fromSimpleString("1907-Jul-07 12:12:12.0000001"), SysTime(DateTime(1907, 07, 07, 12, 12, 12), FracSec.from!"hnsecs"(1)));
_assertPred!"=="(SysTime.fromSimpleString("1907-Jul-07 12:12:12.000001"), SysTime(DateTime(1907, 07, 07, 12, 12, 12), FracSec.from!"usecs"(1)));
_assertPred!"=="(SysTime.fromSimpleString("1907-Jul-07 12:12:12.0000010"), SysTime(DateTime(1907, 07, 07, 12, 12, 12), FracSec.from!"usecs"(1)));
_assertPred!"=="(SysTime.fromSimpleString("1907-Jul-07 12:12:12.001"), SysTime(DateTime(1907, 07, 07, 12, 12, 12), FracSec.from!"msecs"(1)));
_assertPred!"=="(SysTime.fromSimpleString("1907-Jul-07 12:12:12.0010000"), SysTime(DateTime(1907, 07, 07, 12, 12, 12), FracSec.from!"msecs"(1)));
_assertPred!"=="(SysTime.fromSimpleString("2010-Dec-22 17:22:01Z"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), UTC()));
_assertPred!"=="(SysTime.fromSimpleString("2010-Dec-22 17:22:01-1:00"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), new SimpleTimeZone(-60)));
_assertPred!"=="(SysTime.fromSimpleString("2010-Dec-22 17:22:01-1"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), new SimpleTimeZone(-60)));
_assertPred!"=="(SysTime.fromSimpleString("2010-Dec-22 17:22:01-1:30"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), new SimpleTimeZone(-90)));
_assertPred!"=="(SysTime.fromSimpleString("2010-Dec-22 17:22:01-8:00"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), new SimpleTimeZone(-480)));
_assertPred!"=="(SysTime.fromSimpleString("2010-Dec-22 17:22:01+1:00"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), new SimpleTimeZone(60)));
_assertPred!"=="(SysTime.fromSimpleString("2010-Dec-22 17:22:01+1"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), new SimpleTimeZone(60)));
_assertPred!"=="(SysTime.fromSimpleString("2010-Dec-22 17:22:01+1:30"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), new SimpleTimeZone(90)));
_assertPred!"=="(SysTime.fromSimpleString("2010-Dec-22 17:22:01+8:00"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), new SimpleTimeZone(480)));
_assertPred!"=="(SysTime.fromSimpleString("2010-Nov-03 06:51:06.57159Z"), SysTime(DateTime(2010, 11, 3, 6, 51, 6), FracSec.from!"hnsecs"(5715900), UTC()));
_assertPred!"=="(SysTime.fromSimpleString("2010-Dec-22 17:22:01.23412Z"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(2_341_200), UTC()));
_assertPred!"=="(SysTime.fromSimpleString("2010-Dec-22 17:22:01.23112-1:00"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(2_311_200), new SimpleTimeZone(-60)));
_assertPred!"=="(SysTime.fromSimpleString("2010-Dec-22 17:22:01.45-1"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(4_500_000), new SimpleTimeZone(-60)));
_assertPred!"=="(SysTime.fromSimpleString("2010-Dec-22 17:22:01.1-1:30"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(1_000_000), new SimpleTimeZone(-90)));
_assertPred!"=="(SysTime.fromSimpleString("2010-Dec-22 17:22:01.55-8:00"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(5_500_000), new SimpleTimeZone(-480)));
_assertPred!"=="(SysTime.fromSimpleString("2010-Dec-22 17:22:01.1234567+1:00"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(1_234_567), new SimpleTimeZone(60)));
_assertPred!"=="(SysTime.fromSimpleString("2010-Dec-22 17:22:01.0+1"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(0), new SimpleTimeZone(60)));
_assertPred!"=="(SysTime.fromSimpleString("2010-Dec-22 17:22:01.0000000+1:30"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(0), new SimpleTimeZone(90)));
_assertPred!"=="(SysTime.fromSimpleString("2010-Dec-22 17:22:01.45+8:00"), SysTime(DateTime(2010, 12, 22, 17, 22, 01), FracSec.from!"hnsecs"(4_500_000), new SimpleTimeZone(480)));
//Verify Examples.
assert(SysTime.fromSimpleString("2010-Jul-04 07:06:12") == SysTime(DateTime(2010, 7, 4, 7, 6, 12)));
assert(SysTime.fromSimpleString("1998-Dec-25 02:15:00.007") == SysTime(DateTime(1998, 12, 25, 2, 15, 0), FracSec.from!"msecs"(7)));
assert(SysTime.fromSimpleString("0000-Jan-05 23:09:59.00002") == SysTime(DateTime(0, 1, 5, 23, 9, 59), FracSec.from!"usecs"(20)));
assert(SysTime.fromSimpleString("-0004-Jan-05 00:00:02") == SysTime(DateTime(-4, 1, 5, 0, 0, 2)));
assert(SysTime.fromSimpleString(" 2010-Jul-04 07:06:12 ") == SysTime(DateTime(2010, 7, 4, 7, 6, 12)));
assert(SysTime.fromSimpleString("2010-Jul-04 07:06:12Z") == SysTime(DateTime(2010, 7, 4, 7, 6, 12), UTC()));
assert(SysTime.fromSimpleString("2010-Jul-04 07:06:12-8:00") == SysTime(DateTime(2010, 7, 4, 7, 6, 12), new SimpleTimeZone(-480)));
assert(SysTime.fromSimpleString("2010-Jul-04 07:06:12+8:00") == SysTime(DateTime(2010, 7, 4, 7, 6, 12), new SimpleTimeZone(480)));
}
}
//TODO Add function which takes a user-specified time format and produces a SysTime
//TODO Add function which takes pretty much any time-string and produces a SysTime.
// Obviously, it will be less efficient, and it probably won't manage _every_
// possible date format, but a smart conversion function would be nice.
/++
Returns the $(D SysTime) farthest in the past which is representable
by $(D SysTime).
The $(D SysTime) which is returned is in UTC.
+/
@property static SysTime min() pure nothrow
{
return SysTime(long.min, UTC());
}
unittest
{
version(testStdDateTime)
{
assert(SysTime.min.year < 0);
assert(SysTime.min < SysTime.max);
}
}
/++
Returns the $(D SysTime) farthest in the future which is representable
by $(D SysTime).
The $(D SysTime) which is returned is in UTC.
+/
@property static SysTime max() pure nothrow
{
return SysTime(long.max, UTC());
}
unittest
{
version(testStdDateTime)
{
assert(SysTime.max.year > 0);
assert(SysTime.max > SysTime.min);
}
}
private:
/+
Returns $(D stdTime) converted to $(D SysTime)'s time zone.
+/
@property long adjTime() const nothrow
{
return _timezone.utcToTZ(_stdTime);
}
/+
Converts the given hnsecs from $(D SysTime)'s time zone to std time.
+/
@property void adjTime(long adjTime) nothrow
{
_stdTime = _timezone.tzToUTC(adjTime);
}
//Commented out due to bug http://d.puremagic.com/issues/show_bug.cgi?id=5058
/+
invariant()
{
assert(_timezone.get !is null, "Invariant Failure: timezone is null. Were you foolish enough to use SysTime.init? (since timezone for SysTime.init can't be set at compile time).");
}
+/
long _stdTime;
DTRebindable!(immutable TimeZone) _timezone;
}
/++
Represents a date in the Proleptic Gregorian Calendar ranging from
32,768 B.C. to 32,767 A.D. Positive years are A.D. Non-positive years are
B.C.
Year, month, and day are kept separately internally so that $(D Date) is
optimized for calendar-based operations.
$(D Date) uses the Proleptic Gregorian Calendar, so it assumes the Gregorian
leap year calculations for its entire length. And, as per
$(WEB en.wikipedia.org/wiki/ISO_8601, ISO 8601), it also treats 1 B.C. as
year 0. So, 1 B.C. is 0, 2 B.C. is -1, etc. Use $(D yearBC) if want B.C. as
a positive integer with 1 B.C. being the year prior to 1 A.D.
Year 0 is a leap year.
+/
struct Date
{
public:
/++
Throws:
$(D DateTimeException) if the resulting $(D Date) would not be valid.
Params:
year = Year of the Gregorian Calendar. Positive values are A.D.
Non-positive values are B.C. with year 0 being the year
prior to 1 A.D.
month = Month of the year.
day = Day of the month.
+/
this(int year, int month, int day) pure
{
enforceValid!"months"(cast(Month)month);
enforceValid!"days"(year, cast(Month)month, day);
_year = cast(short)year;
_month = cast(Month)month;
_day = cast(ubyte)day;
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(Date(1, 1, 1), Date.init);
static void testDate(in Date date, int year, int month, int day, size_t line = __LINE__)
{
_assertPred!"=="(date._year, year, "", __FILE__, line);
_assertPred!"=="(date._month, month, "", __FILE__, line);
_assertPred!"=="(date._day, day, "", __FILE__, line);
}
testDate(Date(1999, 1 , 1), 1999, Month.jan, 1);
testDate(Date(1999, 7 , 1), 1999, Month.jul, 1);
testDate(Date(1999, 7 , 6), 1999, Month.jul, 6);
//Test A.D.
assertThrown!DateTimeException(Date(1, 0, 1));
assertThrown!DateTimeException(Date(1, 1, 0));
assertThrown!DateTimeException(Date(1999, 13, 1));
assertThrown!DateTimeException(Date(1999, 1, 32));
assertThrown!DateTimeException(Date(1999, 2, 29));
assertThrown!DateTimeException(Date(2000, 2, 30));
assertThrown!DateTimeException(Date(1999, 3, 32));
assertThrown!DateTimeException(Date(1999, 4, 31));
assertThrown!DateTimeException(Date(1999, 5, 32));
assertThrown!DateTimeException(Date(1999, 6, 31));
assertThrown!DateTimeException(Date(1999, 7, 32));
assertThrown!DateTimeException(Date(1999, 8, 32));
assertThrown!DateTimeException(Date(1999, 9, 31));
assertThrown!DateTimeException(Date(1999, 10, 32));
assertThrown!DateTimeException(Date(1999, 11, 31));
assertThrown!DateTimeException(Date(1999, 12, 32));
assertNotThrown!DateTimeException(Date(1999, 1, 31));
assertNotThrown!DateTimeException(Date(1999, 2, 28));
assertNotThrown!DateTimeException(Date(2000, 2, 29));
assertNotThrown!DateTimeException(Date(1999, 3, 31));
assertNotThrown!DateTimeException(Date(1999, 4, 30));
assertNotThrown!DateTimeException(Date(1999, 5, 31));
assertNotThrown!DateTimeException(Date(1999, 6, 30));
assertNotThrown!DateTimeException(Date(1999, 7, 31));
assertNotThrown!DateTimeException(Date(1999, 8, 31));
assertNotThrown!DateTimeException(Date(1999, 9, 30));
assertNotThrown!DateTimeException(Date(1999, 10, 31));
assertNotThrown!DateTimeException(Date(1999, 11, 30));
assertNotThrown!DateTimeException(Date(1999, 12, 31));
//Test B.C.
assertNotThrown!DateTimeException(Date(0, 1, 1));
assertNotThrown!DateTimeException(Date(-1, 1, 1));
assertNotThrown!DateTimeException(Date(-1, 12, 31));
assertNotThrown!DateTimeException(Date(-1, 2, 28));
assertNotThrown!DateTimeException(Date(-4, 2, 29));
assertThrown!DateTimeException(Date(-1, 2, 29));
assertThrown!DateTimeException(Date(-2, 2, 29));
assertThrown!DateTimeException(Date(-3, 2, 29));
}
}
/++
Params:
day = The Xth day of the Gregorian Calendar that the constructed
$(D Date) will be for.
+/
this(int day) pure nothrow
{
if(day > 0)
{
int years = (day / daysIn400Years) * 400 + 1;
day %= daysIn400Years;
{
immutable tempYears = day / daysIn100Years;
if(tempYears == 4)
{
years += 300;
day -= daysIn100Years * 3;
}
else
{
years += tempYears * 100;
day %= daysIn100Years;
}
}
years += (day / daysIn4Years) * 4;
day %= daysIn4Years;
{
immutable tempYears = day / daysInYear;
if(tempYears == 4)
{
years += 3;
day -= daysInYear * 3;
}
else
{
years += tempYears;
day %= daysInYear;
}
}
if(day == 0)
{
_year = cast(short)(years - 1);
_month = Month.dec;
_day = 31;
}
else
{
_year = cast(short)years;
try
dayOfYear = day;
catch(Exception e)
assert(0, "dayOfYear assignment threw.");
}
}
else if(day <= 0 && -day < daysInLeapYear)
{
_year = 0;
try
dayOfYear = (daysInLeapYear + day);
catch(Exception e)
assert(0, "dayOfYear assignment threw.");
}
else
{
day += daysInLeapYear - 1;
int years = (day / daysIn400Years) * 400 - 1;
day %= daysIn400Years;
{
immutable tempYears = day / daysIn100Years;
if(tempYears == -4)
{
years -= 300;
day += daysIn100Years * 3;
}
else
{
years += tempYears * 100;
day %= daysIn100Years;
}
}
years += (day / daysIn4Years) * 4;
day %= daysIn4Years;
{
immutable tempYears = day / daysInYear;
if(tempYears == -4)
{
years -= 3;
day += daysInYear * 3;
}
else
{
years += tempYears;
day %= daysInYear;
}
}
if(day == 0)
{
_year = cast(short)(years + 1);
_month = Month.jan;
_day = 1;
}
else
{
_year = cast(short)years;
immutable newDoY = (yearIsLeapYear(_year) ? daysInLeapYear : daysInYear) + day + 1;
try
dayOfYear = newDoY;
catch(Exception e)
assert(0, "dayOfYear assignment threw.");
}
}
}
version(testStdDateTime) unittest
{
//Test A.D.
foreach(gd; chain(testGregDaysBC, testGregDaysAD))
_assertPred!"=="(Date(gd.day), gd.date);
}
/++
Compares this $(D Date) with the given $(D Date).
Returns:
$(TABLE
$(TR $(TD this &lt; rhs) $(TD &lt; 0))
$(TR $(TD this == rhs) $(TD 0))
$(TR $(TD this &gt; rhs) $(TD &gt; 0))
)
+/
int opCmp(in Date rhs) const pure nothrow
{
if(_year < rhs._year)
return -1;
if(_year > rhs._year)
return 1;
if(_month < rhs._month)
return -1;
if(_month > rhs._month)
return 1;
if(_day < rhs._day)
return -1;
if(_day > rhs._day)
return 1;
return 0;
}
unittest
{
version(testStdDateTime)
{
//Test A.D.
_assertPred!("opCmp", "==")(Date(1, 1, 1), Date.init);
_assertPred!("opCmp", "==")(Date(1999, 1, 1), Date(1999, 1, 1));
_assertPred!("opCmp", "==")(Date(1, 7, 1), Date(1, 7, 1));
_assertPred!("opCmp", "==")(Date(1, 1, 6), Date(1, 1, 6));
_assertPred!("opCmp", "==")(Date(1999, 7, 1), Date(1999, 7, 1));
_assertPred!("opCmp", "==")(Date(1999, 7, 6), Date(1999, 7, 6));
_assertPred!("opCmp", "==")(Date(1, 7, 6), Date(1, 7, 6));
_assertPred!("opCmp", "<")(Date(1999, 7, 6), Date(2000, 7, 6));
_assertPred!("opCmp", ">")(Date(2000, 7, 6), Date(1999, 7, 6));
_assertPred!("opCmp", "<")(Date(1999, 7, 6), Date(1999, 8, 6));
_assertPred!("opCmp", ">")(Date(1999, 8, 6), Date(1999, 7, 6));
_assertPred!("opCmp", "<")(Date(1999, 7, 6), Date(1999, 7, 7));
_assertPred!("opCmp", ">")(Date(1999, 7, 7), Date(1999, 7, 6));
_assertPred!("opCmp", "<")(Date(1999, 8, 7), Date(2000, 7, 6));
_assertPred!("opCmp", ">")(Date(2000, 8, 6), Date(1999, 7, 7));
_assertPred!("opCmp", "<")(Date(1999, 7, 7), Date(2000, 7, 6));
_assertPred!("opCmp", ">")(Date(2000, 7, 6), Date(1999, 7, 7));
_assertPred!("opCmp", "<")(Date(1999, 7, 7), Date(1999, 8, 6));
_assertPred!("opCmp", ">")(Date(1999, 8, 6), Date(1999, 7, 7));
//Test B.C.
_assertPred!("opCmp", "==")(Date(0, 1, 1), Date(0, 1, 1));
_assertPred!("opCmp", "==")(Date(-1, 1, 1), Date(-1, 1, 1));
_assertPred!("opCmp", "==")(Date(-1, 7, 1), Date(-1, 7, 1));
_assertPred!("opCmp", "==")(Date(-1, 1, 6), Date(-1, 1, 6));
_assertPred!("opCmp", "==")(Date(-1999, 7, 1), Date(-1999, 7, 1));
_assertPred!("opCmp", "==")(Date(-1999, 7, 6), Date(-1999, 7, 6));
_assertPred!("opCmp", "==")(Date(-1, 7, 6), Date(-1, 7, 6));
_assertPred!("opCmp", "<")(Date(-2000, 7, 6), Date(-1999, 7, 6));
_assertPred!("opCmp", ">")(Date(-1999, 7, 6), Date(-2000, 7, 6));
_assertPred!("opCmp", "<")(Date(-1999, 7, 6), Date(-1999, 8, 6));
_assertPred!("opCmp", ">")(Date(-1999, 8, 6), Date(-1999, 7, 6));
_assertPred!("opCmp", "<")(Date(-1999, 7, 6), Date(-1999, 7, 7));
_assertPred!("opCmp", ">")(Date(-1999, 7, 7), Date(-1999, 7, 6));
_assertPred!("opCmp", "<")(Date(-2000, 8, 6), Date(-1999, 7, 7));
_assertPred!("opCmp", ">")(Date(-1999, 8, 7), Date(-2000, 7, 6));
_assertPred!("opCmp", "<")(Date(-2000, 7, 6), Date(-1999, 7, 7));
_assertPred!("opCmp", ">")(Date(-1999, 7, 7), Date(-2000, 7, 6));
_assertPred!("opCmp", "<")(Date(-1999, 7, 7), Date(-1999, 8, 6));
_assertPred!("opCmp", ">")(Date(-1999, 8, 6), Date(-1999, 7, 7));
//Test Both
_assertPred!("opCmp", "<")(Date(-1999, 7, 6), Date(1999, 7, 6));
_assertPred!("opCmp", ">")(Date(1999, 7, 6), Date(-1999, 7, 6));
_assertPred!("opCmp", "<")(Date(-1999, 8, 6), Date(1999, 7, 6));
_assertPred!("opCmp", ">")(Date(1999, 7, 6), Date(-1999, 8, 6));
_assertPred!("opCmp", "<")(Date(-1999, 7, 7), Date(1999, 7, 6));
_assertPred!("opCmp", ">")(Date(1999, 7, 6), Date(-1999, 7, 7));
_assertPred!("opCmp", "<")(Date(-1999, 8, 7), Date(1999, 7, 6));
_assertPred!("opCmp", ">")(Date(1999, 7, 6), Date(-1999, 8, 7));
_assertPred!("opCmp", "<")(Date(-1999, 8, 6), Date(1999, 6, 6));
_assertPred!("opCmp", ">")(Date(1999, 6, 8), Date(-1999, 7, 6));
auto date = Date(1999, 7, 6);
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(__traits(compiles, date.opCmp(date)));
static assert(__traits(compiles, date.opCmp(cdate)));
static assert(__traits(compiles, date.opCmp(idate)));
static assert(__traits(compiles, cdate.opCmp(date)));
static assert(__traits(compiles, cdate.opCmp(cdate)));
static assert(__traits(compiles, cdate.opCmp(idate)));
static assert(__traits(compiles, idate.opCmp(date)));
static assert(__traits(compiles, idate.opCmp(cdate)));
static assert(__traits(compiles, idate.opCmp(idate)));
}
}
/++
Year of the Gregorian Calendar. Positive numbers are A.D. Non-positive
are B.C.
Examples:
--------------------
assert(Date(1999, 7, 6).year == 1999);
assert(Date(2010, 10, 4).year == 2010);
assert(Date(-7, 4, 5).year == -7);
--------------------
+/
@property short year() const pure nothrow
{
return _year;
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(Date.init.year, 1);
_assertPred!"=="(Date(1999, 7, 6).year, 1999);
_assertPred!"=="(Date(-1999, 7, 6).year, -1999);
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(__traits(compiles, cdate.year == 1999));
static assert(__traits(compiles, idate.year == 1999));
//Verify Examples.
assert(Date(1999, 7, 6).year == 1999);
assert(Date(2010, 10, 4).year == 2010);
assert(Date(-7, 4, 5).year == -7);
}
}
/++
Year of the Gregorian Calendar. Positive numbers are A.D. Non-positive
are B.C.
Params:
year = The year to set this Date's year to.
Throws:
$(D DateTimeException) if the new year is not a leap year and the
resulting date would be on February 29th.
+/
@property void year(int year) pure
{
enforceValid!"days"(year, _month, _day);
_year = cast(short)year;
}
unittest
{
version(testStdDateTime)
{
static void testDateInvalid(Date date, int year)
{
date.year = year;
}
static void testDate(Date date, int year, in Date expected, size_t line = __LINE__)
{
date.year = year;
_assertPred!"=="(date, expected, "", __FILE__, line);
}
assertThrown!DateTimeException(testDateInvalid(Date(4, 2, 29), 1));
testDate(Date(1, 1, 1), 1999, Date(1999, 1, 1));
testDate(Date(1, 1, 1), 0, Date(0, 1, 1));
testDate(Date(1, 1, 1), -1999, Date(-1999, 1, 1));
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(!__traits(compiles, cdate.year = 1999));
static assert(!__traits(compiles, idate.year = 1999));
//Verify Examples.
assert(Date(1999, 7, 6).year == 1999);
assert(Date(2010, 10, 4).year == 2010);
assert(Date(-7, 4, 5).year == -7);
}
}
/++
Year B.C. of the Gregorian Calendar counting year 0 as 1 B.C.
Throws:
$(D DateTimeException) if $(D isAD) is true.
Examples:
--------------------
assert(Date(0, 1, 1).yearBC == 1);
assert(Date(-1, 1, 1).yearBC == 2);
assert(Date(-100, 1, 1).yearBC == 101);
--------------------
+/
@property ushort yearBC() const pure
{
if(isAD)
throw new DateTimeException("Year " ~ numToString(_year) ~ " is A.D.");
//Once format is pure, this would be a better error message.
//throw new DateTimeException(format("%s is A.D.", this));
return cast(ushort)((_year * -1) + 1);
}
unittest
{
version(testStdDateTime)
{
assertThrown!DateTimeException((in Date date){date.yearBC;}(Date(1, 1, 1)));
auto date = Date(0, 7, 6);
const cdate = Date(0, 7, 6);
immutable idate = Date(0, 7, 6);
static assert(__traits(compiles, date.yearBC));
static assert(__traits(compiles, cdate.yearBC));
static assert(__traits(compiles, idate.yearBC));
//Verify Examples.
assert(Date(0, 1, 1).yearBC == 1);
assert(Date(-1, 1, 1).yearBC == 2);
assert(Date(-100, 1, 1).yearBC == 101);
}
}
/++
Year B.C. of the Gregorian Calendar counting year 0 as 1 B.C.
Params:
year = The year B.C. to set this $(D Date)'s year to.
Throws:
$(D DateTimeException) if a non-positive value is given.
Examples:
--------------------
auto date = Date(2010, 1, 1);
date.yearBC = 1;
assert(date == Date(0, 1, 1));
date.yearBC = 10;
assert(date == Date(-9, 1, 1));
--------------------
+/
@property void yearBC(int year) pure
{
if(year <= 0)
throw new DateTimeException("The given year is not a year B.C.");
_year = cast(short)((year - 1) * -1);
}
unittest
{
version(testStdDateTime)
{
assertThrown!DateTimeException((Date date){date.yearBC = -1;}(Date(1, 1, 1)));
{
auto date = Date(0, 7, 6);
const cdate = Date(0, 7, 6);
immutable idate = Date(0, 7, 6);
static assert(__traits(compiles, date.yearBC = 7));
static assert(!__traits(compiles, cdate.yearBC = 7));
static assert(!__traits(compiles, idate.yearBC = 7));
}
//Verify Examples.
{
auto date = Date(2010, 1, 1);
date.yearBC = 1;
assert(date == Date(0, 1, 1));
date.yearBC = 10;
assert(date == Date(-9, 1, 1));
}
}
}
/++
Month of a Gregorian Year.
Examples:
--------------------
assert(Date(1999, 7, 6).month == 7);
assert(Date(2010, 10, 4).month == 10);
assert(Date(-7, 4, 5).month == 4);
--------------------
+/
@property Month month() const pure nothrow
{
return _month;
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(Date.init.month, 1);
_assertPred!"=="(Date(1999, 7, 6).month, 7);
_assertPred!"=="(Date(-1999, 7, 6).month, 7);
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(__traits(compiles, cdate.month == 7));
static assert(__traits(compiles, idate.month == 7));
//Verify Examples.
assert(Date(1999, 7, 6).month == 7);
assert(Date(2010, 10, 4).month == 10);
assert(Date(-7, 4, 5).month == 4);
}
}
/++
Month of a Gregorian Year.
Params:
month = The month to set this $(D Date)'s month to.
Throws:
$(D DateTimeException) if the given month is not a valid month or if
the current day would not be valid in the given month.
+/
@property void month(Month month) pure
{
enforceValid!"months"(month);
enforceValid!"days"(_year, month, _day);
_month = cast(Month)month;
}
unittest
{
version(testStdDateTime)
{
static void testDate(Date date, Month month, in Date expected = Date.init, size_t line = __LINE__)
{
date.month = month;
assert(expected != Date.init);
_assertPred!"=="(date, expected, "", __FILE__, line);
}
assertThrown!DateTimeException(testDate(Date(1, 1, 1), cast(Month)0));
assertThrown!DateTimeException(testDate(Date(1, 1, 1), cast(Month)13));
assertThrown!DateTimeException(testDate(Date(1, 1, 29), cast(Month)2));
assertThrown!DateTimeException(testDate(Date(0, 1, 30), cast(Month)2));
testDate(Date(1, 1, 1), cast(Month)7, Date(1, 7, 1));
testDate(Date(-1, 1, 1), cast(Month)7, Date(-1, 7, 1));
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(!__traits(compiles, cdate.month = 7));
static assert(!__traits(compiles, idate.month = 7));
}
}
/++
Day of a Gregorian Month.
Examples:
--------------------
assert(Date(1999, 7, 6).day == 6);
assert(Date(2010, 10, 4).day == 4);
assert(Date(-7, 4, 5).day == 5);
--------------------
+/
@property ubyte day() const pure nothrow
{
return _day;
}
//Verify Examples.
version(testStdDateTime) unittest
{
assert(Date(1999, 7, 6).day == 6);
assert(Date(2010, 10, 4).day == 4);
assert(Date(-7, 4, 5).day == 5);
}
version(testStdDateTime) unittest
{
static void test(Date date, int expected, size_t line = __LINE__)
{
_assertPred!"=="(date.day, expected,
format("Value given: %s", date), __FILE__, line);
}
foreach(year; chain(testYearsBC, testYearsAD))
{
foreach(md; testMonthDays)
test(Date(year, md.month, md.day), md.day);
}
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(__traits(compiles, cdate.day == 6));
static assert(__traits(compiles, idate.day == 6));
}
/++
Day of a Gregorian Month.
Params:
day = The day of the month to set this $(D Date)'s day to.
Throws:
$(D DateTimeException) if the given day is not a valid day of the
current month.
+/
@property void day(int day) pure
{
enforceValid!"days"(_year, _month, day);
_day = cast(ubyte)day;
}
unittest
{
version(testStdDateTime)
{
static void testDate(Date date, int day)
{
date.day = day;
}
//Test A.D.
assertThrown!DateTimeException(testDate(Date(1, 1, 1), 0));
assertThrown!DateTimeException(testDate(Date(1, 1, 1), 32));
assertThrown!DateTimeException(testDate(Date(1, 2, 1), 29));
assertThrown!DateTimeException(testDate(Date(4, 2, 1), 30));
assertThrown!DateTimeException(testDate(Date(1, 3, 1), 32));
assertThrown!DateTimeException(testDate(Date(1, 4, 1), 31));
assertThrown!DateTimeException(testDate(Date(1, 5, 1), 32));
assertThrown!DateTimeException(testDate(Date(1, 6, 1), 31));
assertThrown!DateTimeException(testDate(Date(1, 7, 1), 32));
assertThrown!DateTimeException(testDate(Date(1, 8, 1), 32));
assertThrown!DateTimeException(testDate(Date(1, 9, 1), 31));
assertThrown!DateTimeException(testDate(Date(1, 10, 1), 32));
assertThrown!DateTimeException(testDate(Date(1, 11, 1), 31));
assertThrown!DateTimeException(testDate(Date(1, 12, 1), 32));
assertNotThrown!DateTimeException(testDate(Date(1, 1, 1), 31));
assertNotThrown!DateTimeException(testDate(Date(1, 2, 1), 28));
assertNotThrown!DateTimeException(testDate(Date(4, 2, 1), 29));
assertNotThrown!DateTimeException(testDate(Date(1, 3, 1), 31));
assertNotThrown!DateTimeException(testDate(Date(1, 4, 1), 30));
assertNotThrown!DateTimeException(testDate(Date(1, 5, 1), 31));
assertNotThrown!DateTimeException(testDate(Date(1, 6, 1), 30));
assertNotThrown!DateTimeException(testDate(Date(1, 7, 1), 31));
assertNotThrown!DateTimeException(testDate(Date(1, 8, 1), 31));
assertNotThrown!DateTimeException(testDate(Date(1, 9, 1), 30));
assertNotThrown!DateTimeException(testDate(Date(1, 10, 1), 31));
assertNotThrown!DateTimeException(testDate(Date(1, 11, 1), 30));
assertNotThrown!DateTimeException(testDate(Date(1, 12, 1), 31));
{
auto date = Date(1, 1, 1);
date.day = 6;
_assertPred!"=="(date, Date(1, 1, 6));
}
//Test B.C.
assertThrown!DateTimeException(testDate(Date(-1, 1, 1), 0));
assertThrown!DateTimeException(testDate(Date(-1, 1, 1), 32));
assertThrown!DateTimeException(testDate(Date(-1, 2, 1), 29));
assertThrown!DateTimeException(testDate(Date(0, 2, 1), 30));
assertThrown!DateTimeException(testDate(Date(-1, 3, 1), 32));
assertThrown!DateTimeException(testDate(Date(-1, 4, 1), 31));
assertThrown!DateTimeException(testDate(Date(-1, 5, 1), 32));
assertThrown!DateTimeException(testDate(Date(-1, 6, 1), 31));
assertThrown!DateTimeException(testDate(Date(-1, 7, 1), 32));
assertThrown!DateTimeException(testDate(Date(-1, 8, 1), 32));
assertThrown!DateTimeException(testDate(Date(-1, 9, 1), 31));
assertThrown!DateTimeException(testDate(Date(-1, 10, 1), 32));
assertThrown!DateTimeException(testDate(Date(-1, 11, 1), 31));
assertThrown!DateTimeException(testDate(Date(-1, 12, 1), 32));
assertNotThrown!DateTimeException(testDate(Date(-1, 1, 1), 31));
assertNotThrown!DateTimeException(testDate(Date(-1, 2, 1), 28));
assertNotThrown!DateTimeException(testDate(Date(0, 2, 1), 29));
assertNotThrown!DateTimeException(testDate(Date(-1, 3, 1), 31));
assertNotThrown!DateTimeException(testDate(Date(-1, 4, 1), 30));
assertNotThrown!DateTimeException(testDate(Date(-1, 5, 1), 31));
assertNotThrown!DateTimeException(testDate(Date(-1, 6, 1), 30));
assertNotThrown!DateTimeException(testDate(Date(-1, 7, 1), 31));
assertNotThrown!DateTimeException(testDate(Date(-1, 8, 1), 31));
assertNotThrown!DateTimeException(testDate(Date(-1, 9, 1), 30));
assertNotThrown!DateTimeException(testDate(Date(-1, 10, 1), 31));
assertNotThrown!DateTimeException(testDate(Date(-1, 11, 1), 30));
assertNotThrown!DateTimeException(testDate(Date(-1, 12, 1), 31));
{
auto date = Date(-1, 1, 1);
date.day = 6;
_assertPred!"=="(date, Date(-1, 1, 6));
}
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(!__traits(compiles, cdate.day = 6));
static assert(!__traits(compiles, idate.day = 6));
}
}
/++
Adds the given number of years or months to this $(D Date). A negative
number will subtract.
Note that if day overflow is allowed, and the date with the adjusted
year/month overflows the number of days in the new month, then the month
will be incremented by one, and the day set to the number of days
overflowed. (e.g. if the day were 31 and the new month were June, then
the month would be incremented to July, and the new day would be 1). If
day overflow is not allowed, then the day will be set to the last valid
day in the month (e.g. June 31st would become June 30th).
Params:
units = The type of units to add ("years" or "months").
value = The number of months or years to add to this
$(D Date).
allowOverflow = Whether the day should be allowed to overflow,
causing the month to increment.
Examples:
--------------------
auto d1 = Date(2010, 1, 1);
d1.add!"months"(11);
assert(d1 == Date(2010, 12, 1));
auto d2 = Date(2010, 1, 1);
d2.add!"months"(-11);
assert(d2 == Date(2009, 2, 1));
auto d3 = Date(2000, 2, 29);
d3.add!"years"(1);
assert(d3 == Date(2001, 3, 1));
auto d4 = Date(2000, 2, 29);
d4.add!"years"(1, AllowDayOverflow.no);
assert(d4 == Date(2001, 2, 28));
--------------------
+/
/+ref Date+/ void add(string units)(long value, AllowDayOverflow allowOverflow = AllowDayOverflow.yes) pure nothrow
if(units == "years")
{
immutable newYear = _year + value;
_year += value;
if(_month == Month.feb && _day == 29 && !yearIsLeapYear(_year))
{
if(allowOverflow == AllowDayOverflow.yes)
{
_month = Month.mar;
_day = 1;
}
else
_day = 28;
}
}
//Verify Examples.
unittest
{
version(stdStdDateTime)
{
auto d1 = Date(2010, 1, 1);
d1.add!"months"(11);
assert(d1 == Date(2010, 12, 1));
auto d2 = Date(2010, 1, 1);
d2.add!"months"(-11);
assert(d2 == Date(2009, 2, 1));
auto d3 = Date(2000, 2, 29);
d3.add!"years"(1);
assert(d3 == Date(2001, 3, 1));
auto d4 = Date(2000, 2, 29);
d4.add!"years"(1, AllowDayOverflow.no);
assert(d4 == Date(2001, 2, 28));
}
}
//Test add!"years"() with AllowDayOverlow.yes
unittest
{
version(testStdDateTime)
{
//Test A.D.
{
auto date = Date(1999, 7, 6);
date.add!"years"(7);
_assertPred!"=="(date, Date(2006, 7, 6));
date.add!"years"(-9);
_assertPred!"=="(date, Date(1997, 7, 6));
}
{
auto date = Date(1999, 2, 28);
date.add!"years"(1);
_assertPred!"=="(date, Date(2000, 2, 28));
}
{
auto date = Date(2000, 2, 29);
date.add!"years"(-1);
_assertPred!"=="(date, Date(1999, 3, 1));
}
//Test B.C.
{
auto date = Date(-1999, 7, 6);
date.add!"years"(-7);
_assertPred!"=="(date, Date(-2006, 7, 6));
date.add!"years"(9);
_assertPred!"=="(date, Date(-1997, 7, 6));
}
{
auto date = Date(-1999, 2, 28);
date.add!"years"(-1);
_assertPred!"=="(date, Date(-2000, 2, 28));
}
{
auto date = Date(-2000, 2, 29);
date.add!"years"(1);
_assertPred!"=="(date, Date(-1999, 3, 1));
}
//Test Both
{
auto date = Date(4, 7, 6);
date.add!"years"(-5);
_assertPred!"=="(date, Date(-1, 7, 6));
date.add!"years"(5);
_assertPred!"=="(date, Date(4, 7, 6));
}
{
auto date = Date(-4, 7, 6);
date.add!"years"(5);
_assertPred!"=="(date, Date(1, 7, 6));
date.add!"years"(-5);
_assertPred!"=="(date, Date(-4, 7, 6));
}
{
auto date = Date(4, 7, 6);
date.add!"years"(-8);
_assertPred!"=="(date, Date(-4, 7, 6));
date.add!"years"(8);
_assertPred!"=="(date, Date(4, 7, 6));
}
{
auto date = Date(-4, 7, 6);
date.add!"years"(8);
_assertPred!"=="(date, Date(4, 7, 6));
date.add!"years"(-8);
_assertPred!"=="(date, Date(-4, 7, 6));
}
{
auto date = Date(-4, 2, 29);
date.add!"years"(5);
_assertPred!"=="(date, Date(1, 3, 1));
}
{
auto date = Date(4, 2, 29);
date.add!"years"(-5);
_assertPred!"=="(date, Date(-1, 3, 1));
}
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(!__traits(compiles, cdate.add!"years"(7)));
static assert(!__traits(compiles, idate.add!"years"(7)));
}
}
//Test add!"years"() with AllowDayOverlow.no
unittest
{
version(testStdDateTime)
{
//Test A.D.
{
auto date = Date(1999, 7, 6);
date.add!"years"(7, AllowDayOverflow.no);
_assertPred!"=="(date, Date(2006, 7, 6));
date.add!"years"(-9, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1997, 7, 6));
}
{
auto date = Date(1999, 2, 28);
date.add!"years"(1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(2000, 2, 28));
}
{
auto date = Date(2000, 2, 29);
date.add!"years"(-1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 2, 28));
}
//Test B.C.
{
auto date = Date(-1999, 7, 6);
date.add!"years"(-7, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-2006, 7, 6));
date.add!"years"(9, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1997, 7, 6));
}
{
auto date = Date(-1999, 2, 28);
date.add!"years"(-1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-2000, 2, 28));
}
{
auto date = Date(-2000, 2, 29);
date.add!"years"(1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1999, 2, 28));
}
//Test Both
{
auto date = Date(4, 7, 6);
date.add!"years"(-5, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1, 7, 6));
date.add!"years"(5, AllowDayOverflow.no);
_assertPred!"=="(date, Date(4, 7, 6));
}
{
auto date = Date(-4, 7, 6);
date.add!"years"(5, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1, 7, 6));
date.add!"years"(-5, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-4, 7, 6));
}
{
auto date = Date(4, 7, 6);
date.add!"years"(-8, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-4, 7, 6));
date.add!"years"(8, AllowDayOverflow.no);
_assertPred!"=="(date, Date(4, 7, 6));
}
{
auto date = Date(-4, 7, 6);
date.add!"years"(8, AllowDayOverflow.no);
_assertPred!"=="(date, Date(4, 7, 6));
date.add!"years"(-8, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-4, 7, 6));
}
{
auto date = Date(-4, 2, 29);
date.add!"years"(5, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1, 2, 28));
}
{
auto date = Date(4, 2, 29);
date.add!"years"(-5, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1, 2, 28));
}
}
}
//Shares documentation with "years" version.
/+ref Date+/ void add(string units)(long months, AllowDayOverflow allowOverflow = AllowDayOverflow.yes) pure nothrow
if(units == "months")
{
auto years = months / 12;
months %= 12;
auto newMonth = _month + months;
if(months < 0)
{
if(newMonth < 1)
{
newMonth += 12;
--years;
}
}
else if(newMonth > 12)
{
newMonth -= 12;
++years;
}
_year += years;
_month = cast(Month)newMonth;
immutable currMaxDay = maxDay(_year, _month);
immutable overflow = _day - currMaxDay;
if(overflow > 0)
{
if(allowOverflow == AllowDayOverflow.yes)
{
++_month;
_day = cast(ubyte)overflow;
}
else
_day = cast(ubyte)currMaxDay;
}
}
//Test add!"months"() with AllowDayOverlow.yes
unittest
{
version(testStdDateTime)
{
//Test A.D.
{
auto date = Date(1999, 7, 6);
date.add!"months"(3);
_assertPred!"=="(date, Date(1999, 10, 6));
date.add!"months"(-4);
_assertPred!"=="(date, Date(1999, 6, 6));
}
{
auto date = Date(1999, 7, 6);
date.add!"months"(6);
_assertPred!"=="(date, Date(2000, 1, 6));
date.add!"months"(-6);
_assertPred!"=="(date, Date(1999, 7, 6));
}
{
auto date = Date(1999, 7, 6);
date.add!"months"(27);
_assertPred!"=="(date, Date(2001, 10, 6));
date.add!"months"(-28);
_assertPred!"=="(date, Date(1999, 6, 6));
}
{
auto date = Date(1999, 5, 31);
date.add!"months"(1);
_assertPred!"=="(date, Date(1999, 7, 1));
}
{
auto date = Date(1999, 5, 31);
date.add!"months"(-1);
_assertPred!"=="(date, Date(1999, 5, 1));
}
{
auto date = Date(1999, 2, 28);
date.add!"months"(12);
_assertPred!"=="(date, Date(2000, 2, 28));
}
{
auto date = Date(2000, 2, 29);
date.add!"months"(12);
_assertPred!"=="(date, Date(2001, 3, 1));
}
{
auto date = Date(1999, 7, 31);
date.add!"months"(1);
_assertPred!"=="(date, Date(1999, 8, 31));
date.add!"months"(1);
_assertPred!"=="(date, Date(1999, 10, 1));
}
{
auto date = Date(1998, 8, 31);
date.add!"months"(13);
_assertPred!"=="(date, Date(1999, 10, 1));
date.add!"months"(-13);
_assertPred!"=="(date, Date(1998, 9, 1));
}
{
auto date = Date(1997, 12, 31);
date.add!"months"(13);
_assertPred!"=="(date, Date(1999, 1, 31));
date.add!"months"(-13);
_assertPred!"=="(date, Date(1997, 12, 31));
}
{
auto date = Date(1997, 12, 31);
date.add!"months"(14);
_assertPred!"=="(date, Date(1999, 3, 3));
date.add!"months"(-14);
_assertPred!"=="(date, Date(1998, 1, 3));
}
{
auto date = Date(1998, 12, 31);
date.add!"months"(14);
_assertPred!"=="(date, Date(2000, 3, 2));
date.add!"months"(-14);
_assertPred!"=="(date, Date(1999, 1, 2));
}
{
auto date = Date(1999, 12, 31);
date.add!"months"(14);
_assertPred!"=="(date, Date(2001, 3, 3));
date.add!"months"(-14);
_assertPred!"=="(date, Date(2000, 1, 3));
}
//Test B.C.
{
auto date = Date(-1999, 7, 6);
date.add!"months"(3);
_assertPred!"=="(date, Date(-1999, 10, 6));
date.add!"months"(-4);
_assertPred!"=="(date, Date(-1999, 6, 6));
}
{
auto date = Date(-1999, 7, 6);
date.add!"months"(6);
_assertPred!"=="(date, Date(-1998, 1, 6));
date.add!"months"(-6);
_assertPred!"=="(date, Date(-1999, 7, 6));
}
{
auto date = Date(-1999, 7, 6);
date.add!"months"(-27);
_assertPred!"=="(date, Date(-2001, 4, 6));
date.add!"months"(28);
_assertPred!"=="(date, Date(-1999, 8, 6));
}
{
auto date = Date(-1999, 5, 31);
date.add!"months"(1);
_assertPred!"=="(date, Date(-1999, 7, 1));
}
{
auto date = Date(-1999, 5, 31);
date.add!"months"(-1);
_assertPred!"=="(date, Date(-1999, 5, 1));
}
{
auto date = Date(-1999, 2, 28);
date.add!"months"(-12);
_assertPred!"=="(date, Date(-2000, 2, 28));
}
{
auto date = Date(-2000, 2, 29);
date.add!"months"(-12);
_assertPred!"=="(date, Date(-2001, 3, 1));
}
{
auto date = Date(-1999, 7, 31);
date.add!"months"(1);
_assertPred!"=="(date, Date(-1999, 8, 31));
date.add!"months"(1);
_assertPred!"=="(date, Date(-1999, 10, 1));
}
{
auto date = Date(-1998, 8, 31);
date.add!"months"(13);
_assertPred!"=="(date, Date(-1997, 10, 1));
date.add!"months"(-13);
_assertPred!"=="(date, Date(-1998, 9, 1));
}
{
auto date = Date(-1997, 12, 31);
date.add!"months"(13);
_assertPred!"=="(date, Date(-1995, 1, 31));
date.add!"months"(-13);
_assertPred!"=="(date, Date(-1997, 12, 31));
}
{
auto date = Date(-1997, 12, 31);
date.add!"months"(14);
_assertPred!"=="(date, Date(-1995, 3, 3));
date.add!"months"(-14);
_assertPred!"=="(date, Date(-1996, 1, 3));
}
{
auto date = Date(-2002, 12, 31);
date.add!"months"(14);
_assertPred!"=="(date, Date(-2000, 3, 2));
date.add!"months"(-14);
_assertPred!"=="(date, Date(-2001, 1, 2));
}
{
auto date = Date(-2001, 12, 31);
date.add!"months"(14);
_assertPred!"=="(date, Date(-1999, 3, 3));
date.add!"months"(-14);
_assertPred!"=="(date, Date(-2000, 1, 3));
}
//Test Both
{
auto date = Date(1, 1, 1);
date.add!"months"(-1);
_assertPred!"=="(date, Date(0, 12, 1));
date.add!"months"(1);
_assertPred!"=="(date, Date(1, 1, 1));
}
{
auto date = Date(4, 1, 1);
date.add!"months"(-48);
_assertPred!"=="(date, Date(0, 1, 1));
date.add!"months"(48);
_assertPred!"=="(date, Date(4, 1, 1));
}
{
auto date = Date(4, 3, 31);
date.add!"months"(-49);
_assertPred!"=="(date, Date(0, 3, 2));
date.add!"months"(49);
_assertPred!"=="(date, Date(4, 4, 2));
}
{
auto date = Date(4, 3, 31);
date.add!"months"(-85);
_assertPred!"=="(date, Date(-3, 3, 3));
date.add!"months"(85);
_assertPred!"=="(date, Date(4, 4, 3));
}
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(!__traits(compiles, cdate.add!"months"(3)));
static assert(!__traits(compiles, idate.add!"months"(3)));
}
}
//Test add!"months"() with AllowDayOverlow.no
unittest
{
version(testStdDateTime)
{
//Test A.D.
{
auto date = Date(1999, 7, 6);
date.add!"months"(3, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 10, 6));
date.add!"months"(-4, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 6, 6));
}
{
auto date = Date(1999, 7, 6);
date.add!"months"(6, AllowDayOverflow.no);
_assertPred!"=="(date, Date(2000, 1, 6));
date.add!"months"(-6, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 7, 6));
}
{
auto date = Date(1999, 7, 6);
date.add!"months"(27, AllowDayOverflow.no);
_assertPred!"=="(date, Date(2001, 10, 6));
date.add!"months"(-28, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 6, 6));
}
{
auto date = Date(1999, 5, 31);
date.add!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 6, 30));
}
{
auto date = Date(1999, 5, 31);
date.add!"months"(-1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 4, 30));
}
{
auto date = Date(1999, 2, 28);
date.add!"months"(12, AllowDayOverflow.no);
_assertPred!"=="(date, Date(2000, 2, 28));
}
{
auto date = Date(2000, 2, 29);
date.add!"months"(12, AllowDayOverflow.no);
_assertPred!"=="(date, Date(2001, 2, 28));
}
{
auto date = Date(1999, 7, 31);
date.add!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 8, 31));
date.add!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 9, 30));
}
{
auto date = Date(1998, 8, 31);
date.add!"months"(13, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 9, 30));
date.add!"months"(-13, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1998, 8, 30));
}
{
auto date = Date(1997, 12, 31);
date.add!"months"(13, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 1, 31));
date.add!"months"(-13, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1997, 12, 31));
}
{
auto date = Date(1997, 12, 31);
date.add!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 2, 28));
date.add!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1997, 12, 28));
}
{
auto date = Date(1998, 12, 31);
date.add!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(date, Date(2000, 2, 29));
date.add!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1998, 12, 29));
}
{
auto date = Date(1999, 12, 31);
date.add!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(date, Date(2001, 2, 28));
date.add!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 12, 28));
}
//Test B.C.
{
auto date = Date(-1999, 7, 6);
date.add!"months"(3, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1999, 10, 6));
date.add!"months"(-4, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1999, 6, 6));
}
{
auto date = Date(-1999, 7, 6);
date.add!"months"(6, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1998, 1, 6));
date.add!"months"(-6, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1999, 7, 6));
}
{
auto date = Date(-1999, 7, 6);
date.add!"months"(-27, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-2001, 4, 6));
date.add!"months"(28, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1999, 8, 6));
}
{
auto date = Date(-1999, 5, 31);
date.add!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1999, 6, 30));
}
{
auto date = Date(-1999, 5, 31);
date.add!"months"(-1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1999, 4, 30));
}
{
auto date = Date(-1999, 2, 28);
date.add!"months"(-12, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-2000, 2, 28));
}
{
auto date = Date(-2000, 2, 29);
date.add!"months"(-12, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-2001, 2, 28));
}
{
auto date = Date(-1999, 7, 31);
date.add!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1999, 8, 31));
date.add!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1999, 9, 30));
}
{
auto date = Date(-1998, 8, 31);
date.add!"months"(13, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1997, 9, 30));
date.add!"months"(-13, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1998, 8, 30));
}
{
auto date = Date(-1997, 12, 31);
date.add!"months"(13, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1995, 1, 31));
date.add!"months"(-13, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1997, 12, 31));
}
{
auto date = Date(-1997, 12, 31);
date.add!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1995, 2, 28));
date.add!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1997, 12, 28));
}
{
auto date = Date(-2002, 12, 31);
date.add!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-2000, 2, 29));
date.add!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-2002, 12, 29));
}
{
auto date = Date(-2001, 12, 31);
date.add!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1999, 2, 28));
date.add!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-2001, 12, 28));
}
//Test Both
{
auto date = Date(1, 1, 1);
date.add!"months"(-1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(0, 12, 1));
date.add!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1, 1, 1));
}
{
auto date = Date(4, 1, 1);
date.add!"months"(-48, AllowDayOverflow.no);
_assertPred!"=="(date, Date(0, 1, 1));
date.add!"months"(48, AllowDayOverflow.no);
_assertPred!"=="(date, Date(4, 1, 1));
}
{
auto date = Date(4, 3, 31);
date.add!"months"(-49, AllowDayOverflow.no);
_assertPred!"=="(date, Date(0, 2, 29));
date.add!"months"(49, AllowDayOverflow.no);
_assertPred!"=="(date, Date(4, 3, 29));
}
{
auto date = Date(4, 3, 31);
date.add!"months"(-85, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-3, 2, 28));
date.add!"months"(85, AllowDayOverflow.no);
_assertPred!"=="(date, Date(4, 3, 28));
}
}
}
/++
Adds the given number of years or months to this $(D Date). A negative
number will subtract.
The difference between rolling and adding is that rolling does not
affect larger units. So, if you roll a $(D Date) 12 months, you get
the exact same $(D Date). However, the days can still be affected due to
the differing number of days in each month.
Because there are no units larger than years, there is no difference
between adding and rolling years.
Params:
units = The type of units to add ("years" or "months").
value = The number of months or years to add to this
$(D Date).
Examples:
--------------------
auto d1 = Date(2010, 1, 1);
d1.roll!"months"(1);
assert(d1 == Date(2010, 2, 1));
auto d2 = Date(2010, 1, 1);
d2.roll!"months"(-1);
assert(d2 == Date(2010, 12, 1));
auto d3 = Date(1999, 1, 29);
d3.roll!"months"(1);
assert(d3 == Date(1999, 3, 1));
auto d4 = Date(1999, 1, 29);
d4.roll!"months"(1, AllowDayOverflow.no);
assert(d4 == Date(1999, 2, 28));
auto d5 = Date(2000, 2, 29);
d5.roll!"years"(1);
assert(d5 == Date(2001, 3, 1));
auto d6 = Date(2000, 2, 29);
d6.roll!"years"(1, AllowDayOverflow.no);
assert(d6 == Date(2001, 2, 28));
--------------------
+/
/+ref Date+/ void roll(string units)(long value, AllowDayOverflow allowOverflow = AllowDayOverflow.yes) pure nothrow
if(units == "years")
{
add!"years"(value, allowOverflow);
}
//Verify Examples.
unittest
{
version(testStdDateTime)
{
auto d1 = Date(2010, 1, 1);
d1.roll!"months"(1);
assert(d1 == Date(2010, 2, 1));
auto d2 = Date(2010, 1, 1);
d2.roll!"months"(-1);
assert(d2 == Date(2010, 12, 1));
auto d3 = Date(1999, 1, 29);
d3.roll!"months"(1);
assert(d3 == Date(1999, 3, 1));
auto d4 = Date(1999, 1, 29);
d4.roll!"months"(1, AllowDayOverflow.no);
assert(d4 == Date(1999, 2, 28));
auto d5 = Date(2000, 2, 29);
d5.roll!"years"(1);
assert(d5 == Date(2001, 3, 1));
auto d6 = Date(2000, 2, 29);
d6.roll!"years"(1, AllowDayOverflow.no);
assert(d6 == Date(2001, 2, 28));
}
}
unittest
{
version(testStdDateTime)
{
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(!__traits(compiles, cdate.roll!"years"(3)));
static assert(!__traits(compiles, idate.rolYears(3)));
}
}
//Shares documentation with "years" version.
/+ref Date+/ void roll(string units)(long months, AllowDayOverflow allowOverflow = AllowDayOverflow.yes) pure nothrow
if(units == "months")
{
months %= 12;
auto newMonth = _month + months;
if(months < 0)
{
if(newMonth < 1)
newMonth += 12;
}
else
{
if(newMonth > 12)
newMonth -= 12;
}
_month = cast(Month)newMonth;
immutable currMaxDay = maxDay(_year, _month);
immutable overflow = _day - currMaxDay;
if(overflow > 0)
{
if(allowOverflow == AllowDayOverflow.yes)
{
++_month;
_day = cast(ubyte)overflow;
}
else
_day = cast(ubyte)currMaxDay;
}
}
//Test roll!"months"() with AllowDayOverlow.yes
unittest
{
version(testStdDateTime)
{
//Test A.D.
{
auto date = Date(1999, 7, 6);
date.roll!"months"(3);
_assertPred!"=="(date, Date(1999, 10, 6));
date.roll!"months"(-4);
_assertPred!"=="(date, Date(1999, 6, 6));
}
{
auto date = Date(1999, 7, 6);
date.roll!"months"(6);
_assertPred!"=="(date, Date(1999, 1, 6));
date.roll!"months"(-6);
_assertPred!"=="(date, Date(1999, 7, 6));
}
{
auto date = Date(1999, 7, 6);
date.roll!"months"(27);
_assertPred!"=="(date, Date(1999, 10, 6));
date.roll!"months"(-28);
_assertPred!"=="(date, Date(1999, 6, 6));
}
{
auto date = Date(1999, 5, 31);
date.roll!"months"(1);
_assertPred!"=="(date, Date(1999, 7, 1));
}
{
auto date = Date(1999, 5, 31);
date.roll!"months"(-1);
_assertPred!"=="(date, Date(1999, 5, 1));
}
{
auto date = Date(1999, 2, 28);
date.roll!"months"(12);
_assertPred!"=="(date, Date(1999, 2, 28));
}
{
auto date = Date(2000, 2, 29);
date.roll!"months"(12);
_assertPred!"=="(date, Date(2000, 2, 29));
}
{
auto date = Date(1999, 7, 31);
date.roll!"months"(1);
_assertPred!"=="(date, Date(1999, 8, 31));
date.roll!"months"(1);
_assertPred!"=="(date, Date(1999, 10, 1));
}
{
auto date = Date(1998, 8, 31);
date.roll!"months"(13);
_assertPred!"=="(date, Date(1998, 10, 1));
date.roll!"months"(-13);
_assertPred!"=="(date, Date(1998, 9, 1));
}
{
auto date = Date(1997, 12, 31);
date.roll!"months"(13);
_assertPred!"=="(date, Date(1997, 1, 31));
date.roll!"months"(-13);
_assertPred!"=="(date, Date(1997, 12, 31));
}
{
auto date = Date(1997, 12, 31);
date.roll!"months"(14);
_assertPred!"=="(date, Date(1997, 3, 3));
date.roll!"months"(-14);
_assertPred!"=="(date, Date(1997, 1, 3));
}
{
auto date = Date(1998, 12, 31);
date.roll!"months"(14);
_assertPred!"=="(date, Date(1998, 3, 3));
date.roll!"months"(-14);
_assertPred!"=="(date, Date(1998, 1, 3));
}
{
auto date = Date(1999, 12, 31);
date.roll!"months"(14);
_assertPred!"=="(date, Date(1999, 3, 3));
date.roll!"months"(-14);
_assertPred!"=="(date, Date(1999, 1, 3));
}
//Test B.C.
{
auto date = Date(-1999, 7, 6);
date.roll!"months"(3);
_assertPred!"=="(date, Date(-1999, 10, 6));
date.roll!"months"(-4);
_assertPred!"=="(date, Date(-1999, 6, 6));
}
{
auto date = Date(-1999, 7, 6);
date.roll!"months"(6);
_assertPred!"=="(date, Date(-1999, 1, 6));
date.roll!"months"(-6);
_assertPred!"=="(date, Date(-1999, 7, 6));
}
{
auto date = Date(-1999, 7, 6);
date.roll!"months"(-27);
_assertPred!"=="(date, Date(-1999, 4, 6));
date.roll!"months"(28);
_assertPred!"=="(date, Date(-1999, 8, 6));
}
{
auto date = Date(-1999, 5, 31);
date.roll!"months"(1);
_assertPred!"=="(date, Date(-1999, 7, 1));
}
{
auto date = Date(-1999, 5, 31);
date.roll!"months"(-1);
_assertPred!"=="(date, Date(-1999, 5, 1));
}
{
auto date = Date(-1999, 2, 28);
date.roll!"months"(-12);
_assertPred!"=="(date, Date(-1999, 2, 28));
}
{
auto date = Date(-2000, 2, 29);
date.roll!"months"(-12);
_assertPred!"=="(date, Date(-2000, 2, 29));
}
{
auto date = Date(-1999, 7, 31);
date.roll!"months"(1);
_assertPred!"=="(date, Date(-1999, 8, 31));
date.roll!"months"(1);
_assertPred!"=="(date, Date(-1999, 10, 1));
}
{
auto date = Date(-1998, 8, 31);
date.roll!"months"(13);
_assertPred!"=="(date, Date(-1998, 10, 1));
date.roll!"months"(-13);
_assertPred!"=="(date, Date(-1998, 9, 1));
}
{
auto date = Date(-1997, 12, 31);
date.roll!"months"(13);
_assertPred!"=="(date, Date(-1997, 1, 31));
date.roll!"months"(-13);
_assertPred!"=="(date, Date(-1997, 12, 31));
}
{
auto date = Date(-1997, 12, 31);
date.roll!"months"(14);
_assertPred!"=="(date, Date(-1997, 3, 3));
date.roll!"months"(-14);
_assertPred!"=="(date, Date(-1997, 1, 3));
}
{
auto date = Date(-2002, 12, 31);
date.roll!"months"(14);
_assertPred!"=="(date, Date(-2002, 3, 3));
date.roll!"months"(-14);
_assertPred!"=="(date, Date(-2002, 1, 3));
}
{
auto date = Date(-2001, 12, 31);
date.roll!"months"(14);
_assertPred!"=="(date, Date(-2001, 3, 3));
date.roll!"months"(-14);
_assertPred!"=="(date, Date(-2001, 1, 3));
}
//Test Both
{
auto date = Date(1, 1, 1);
date.roll!"months"(-1);
_assertPred!"=="(date, Date(1, 12, 1));
date.roll!"months"(1);
_assertPred!"=="(date, Date(1, 1, 1));
}
{
auto date = Date(4, 1, 1);
date.roll!"months"(-48);
_assertPred!"=="(date, Date(4, 1, 1));
date.roll!"months"(48);
_assertPred!"=="(date, Date(4, 1, 1));
}
{
auto date = Date(4, 3, 31);
date.roll!"months"(-49);
_assertPred!"=="(date, Date(4, 3, 2));
date.roll!"months"(49);
_assertPred!"=="(date, Date(4, 4, 2));
}
{
auto date = Date(4, 3, 31);
date.roll!"months"(-85);
_assertPred!"=="(date, Date(4, 3, 2));
date.roll!"months"(85);
_assertPred!"=="(date, Date(4, 4, 2));
}
{
auto date = Date(-1, 1, 1);
date.roll!"months"(-1);
_assertPred!"=="(date, Date(-1, 12, 1));
date.roll!"months"(1);
_assertPred!"=="(date, Date(-1, 1, 1));
}
{
auto date = Date(-4, 1, 1);
date.roll!"months"(-48);
_assertPred!"=="(date, Date(-4, 1, 1));
date.roll!"months"(48);
_assertPred!"=="(date, Date(-4, 1, 1));
}
{
auto date = Date(-4, 3, 31);
date.roll!"months"(-49);
_assertPred!"=="(date, Date(-4, 3, 2));
date.roll!"months"(49);
_assertPred!"=="(date, Date(-4, 4, 2));
}
{
auto date = Date(-4, 3, 31);
date.roll!"months"(-85);
_assertPred!"=="(date, Date(-4, 3, 2));
date.roll!"months"(85);
_assertPred!"=="(date, Date(-4, 4, 2));
}
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(!__traits(compiles, cdate.roll!"months"(3)));
static assert(!__traits(compiles, idate.roll!"months"(3)));
//Verify Examples.
auto date1 = Date(2010, 1, 1);
date1.roll!"months"(1);
assert(date1 == Date(2010, 2, 1));
auto date2 = Date(2010, 1, 1);
date2.roll!"months"(-1);
assert(date2 == Date(2010, 12, 1));
auto date3 = Date(1999, 1, 29);
date3.roll!"months"(1);
assert(date3 == Date(1999, 3, 1));
auto date4 = Date(1999, 1, 29);
date4.roll!"months"(1, AllowDayOverflow.no);
assert(date4 == Date(1999, 2, 28));
}
}
//Test roll!"months"() with AllowDayOverlow.no
unittest
{
version(testStdDateTime)
{
//Test A.D.
{
auto date = Date(1999, 7, 6);
date.roll!"months"(3, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 10, 6));
date.roll!"months"(-4, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 6, 6));
}
{
auto date = Date(1999, 7, 6);
date.roll!"months"(6, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 1, 6));
date.roll!"months"(-6, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 7, 6));
}
{
auto date = Date(1999, 7, 6);
date.roll!"months"(27, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 10, 6));
date.roll!"months"(-28, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 6, 6));
}
{
auto date = Date(1999, 5, 31);
date.roll!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 6, 30));
}
{
auto date = Date(1999, 5, 31);
date.roll!"months"(-1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 4, 30));
}
{
auto date = Date(1999, 2, 28);
date.roll!"months"(12, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 2, 28));
}
{
auto date = Date(2000, 2, 29);
date.roll!"months"(12, AllowDayOverflow.no);
_assertPred!"=="(date, Date(2000, 2, 29));
}
{
auto date = Date(1999, 7, 31);
date.roll!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 8, 31));
date.roll!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 9, 30));
}
{
auto date = Date(1998, 8, 31);
date.roll!"months"(13, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1998, 9, 30));
date.roll!"months"(-13, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1998, 8, 30));
}
{
auto date = Date(1997, 12, 31);
date.roll!"months"(13, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1997, 1, 31));
date.roll!"months"(-13, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1997, 12, 31));
}
{
auto date = Date(1997, 12, 31);
date.roll!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1997, 2, 28));
date.roll!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1997, 12, 28));
}
{
auto date = Date(1998, 12, 31);
date.roll!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1998, 2, 28));
date.roll!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1998, 12, 28));
}
{
auto date = Date(1999, 12, 31);
date.roll!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 2, 28));
date.roll!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1999, 12, 28));
}
//Test B.C.
{
auto date = Date(-1999, 7, 6);
date.roll!"months"(3, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1999, 10, 6));
date.roll!"months"(-4, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1999, 6, 6));
}
{
auto date = Date(-1999, 7, 6);
date.roll!"months"(6, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1999, 1, 6));
date.roll!"months"(-6, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1999, 7, 6));
}
{
auto date = Date(-1999, 7, 6);
date.roll!"months"(-27, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1999, 4, 6));
date.roll!"months"(28, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1999, 8, 6));
}
{
auto date = Date(-1999, 5, 31);
date.roll!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1999, 6, 30));
}
{
auto date = Date(-1999, 5, 31);
date.roll!"months"(-1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1999, 4, 30));
}
{
auto date = Date(-1999, 2, 28);
date.roll!"months"(-12, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1999, 2, 28));
}
{
auto date = Date(-2000, 2, 29);
date.roll!"months"(-12, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-2000, 2, 29));
}
{
auto date = Date(-1999, 7, 31);
date.roll!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1999, 8, 31));
date.roll!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1999, 9, 30));
}
{
auto date = Date(-1998, 8, 31);
date.roll!"months"(13, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1998, 9, 30));
date.roll!"months"(-13, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1998, 8, 30));
}
{
auto date = Date(-1997, 12, 31);
date.roll!"months"(13, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1997, 1, 31));
date.roll!"months"(-13, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1997, 12, 31));
}
{
auto date = Date(-1997, 12, 31);
date.roll!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1997, 2, 28));
date.roll!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1997, 12, 28));
}
{
auto date = Date(-2002, 12, 31);
date.roll!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-2002, 2, 28));
date.roll!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-2002, 12, 28));
}
{
auto date = Date(-2001, 12, 31);
date.roll!"months"(14, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-2001, 2, 28));
date.roll!"months"(-14, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-2001, 12, 28));
}
//Test Both
{
auto date = Date(1, 1, 1);
date.roll!"months"(-1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1, 12, 1));
date.roll!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(1, 1, 1));
}
{
auto date = Date(4, 1, 1);
date.roll!"months"(-48, AllowDayOverflow.no);
_assertPred!"=="(date, Date(4, 1, 1));
date.roll!"months"(48, AllowDayOverflow.no);
_assertPred!"=="(date, Date(4, 1, 1));
}
{
auto date = Date(4, 3, 31);
date.roll!"months"(-49, AllowDayOverflow.no);
_assertPred!"=="(date, Date(4, 2, 29));
date.roll!"months"(49, AllowDayOverflow.no);
_assertPred!"=="(date, Date(4, 3, 29));
}
{
auto date = Date(4, 3, 31);
date.roll!"months"(-85, AllowDayOverflow.no);
_assertPred!"=="(date, Date(4, 2, 29));
date.roll!"months"(85, AllowDayOverflow.no);
_assertPred!"=="(date, Date(4, 3, 29));
}
{
auto date = Date(-1, 1, 1);
date.roll!"months"(-1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1, 12, 1));
date.roll!"months"(1, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-1, 1, 1));
}
{
auto date = Date(-4, 1, 1);
date.roll!"months"(-48, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-4, 1, 1));
date.roll!"months"(48, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-4, 1, 1));
}
{
auto date = Date(-4, 3, 31);
date.roll!"months"(-49, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-4, 2, 29));
date.roll!"months"(49, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-4, 3, 29));
}
{
auto date = Date(-4, 3, 31);
date.roll!"months"(-85, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-4, 2, 29));
date.roll!"months"(85, AllowDayOverflow.no);
_assertPred!"=="(date, Date(-4, 3, 29));
}
}
}
/++
Adds the given number of units to this $(D Date). A negative number will
subtract.
The difference between rolling and adding is that rolling does not
affect larger units. So, for instance, if you roll a $(D Date) one
year's worth of days, then you get the exact same $(D Date).
The only accepted units are $(D "days").
Params:
units = The units to add. Must be $(D "days").
value = The number of days to add to this $(D Date).
Examples:
--------------------
auto d = Date(2010, 1, 1);
d.roll!"days"(1);
assert(d == Date(2010, 1, 2));
d.roll!"days"(365);
assert(d == Date(2010, 1, 26));
d.roll!"days"(-32);
assert(d == Date(2010, 1, 25));
--------------------
+/
/+ref Date+/ void roll(string units)(long days) pure nothrow
if(units == "days")
{
immutable limit = maxDay(_year, _month);
days %= limit;
auto newDay = _day + days;
if(days < 0)
{
if(newDay < 1)
newDay += limit;
}
else if(newDay > limit)
newDay -= limit;
_day = cast(ubyte)newDay;
}
//Verify Examples.
unittest
{
version(testStdDateTime)
{
auto d = Date(2010, 1, 1);
d.roll!"days"(1);
assert(d == Date(2010, 1, 2));
d.roll!"days"(365);
assert(d == Date(2010, 1, 26));
d.roll!"days"(-32);
assert(d == Date(2010, 1, 25));
}
}
unittest
{
version(testStdDateTime)
{
//Test A.D.
{
auto date = Date(1999, 2, 28);
date.roll!"days"(1);
_assertPred!"=="(date, Date(1999, 2, 1));
date.roll!"days"(-1);
_assertPred!"=="(date, Date(1999, 2, 28));
}
{
auto date = Date(2000, 2, 28);
date.roll!"days"(1);
_assertPred!"=="(date, Date(2000, 2, 29));
date.roll!"days"(1);
_assertPred!"=="(date, Date(2000, 2, 1));
date.roll!"days"(-1);
_assertPred!"=="(date, Date(2000, 2, 29));
}
{
auto date = Date(1999, 6, 30);
date.roll!"days"(1);
_assertPred!"=="(date, Date(1999, 6, 1));
date.roll!"days"(-1);
_assertPred!"=="(date, Date(1999, 6, 30));
}
{
auto date = Date(1999, 7, 31);
date.roll!"days"(1);
_assertPred!"=="(date, Date(1999, 7, 1));
date.roll!"days"(-1);
_assertPred!"=="(date, Date(1999, 7, 31));
}
{
auto date = Date(1999, 1, 1);
date.roll!"days"(-1);
_assertPred!"=="(date, Date(1999, 1, 31));
date.roll!"days"(1);
_assertPred!"=="(date, Date(1999, 1, 1));
}
{
auto date = Date(1999, 7, 6);
date.roll!"days"(9);
_assertPred!"=="(date, Date(1999, 7, 15));
date.roll!"days"(-11);
_assertPred!"=="(date, Date(1999, 7, 4));
date.roll!"days"(30);
_assertPred!"=="(date, Date(1999, 7, 3));
date.roll!"days"(-3);
_assertPred!"=="(date, Date(1999, 7, 31));
}
{
auto date = Date(1999, 7, 6);
date.roll!"days"(365);
_assertPred!"=="(date, Date(1999, 7, 30));
date.roll!"days"(-365);
_assertPred!"=="(date, Date(1999, 7, 6));
date.roll!"days"(366);
_assertPred!"=="(date, Date(1999, 7, 31));
date.roll!"days"(730);
_assertPred!"=="(date, Date(1999, 7, 17));
date.roll!"days"(-1096);
_assertPred!"=="(date, Date(1999, 7, 6));
}
{
auto date = Date(1999, 2, 6);
date.roll!"days"(365);
_assertPred!"=="(date, Date(1999, 2, 7));
date.roll!"days"(-365);
_assertPred!"=="(date, Date(1999, 2, 6));
date.roll!"days"(366);
_assertPred!"=="(date, Date(1999, 2, 8));
date.roll!"days"(730);
_assertPred!"=="(date, Date(1999, 2, 10));
date.roll!"days"(-1096);
_assertPred!"=="(date, Date(1999, 2, 6));
}
//Test B.C.
{
auto date = Date(-1999, 2, 28);
date.roll!"days"(1);
_assertPred!"=="(date, Date(-1999, 2, 1));
date.roll!"days"(-1);
_assertPred!"=="(date, Date(-1999, 2, 28));
}
{
auto date = Date(-2000, 2, 28);
date.roll!"days"(1);
_assertPred!"=="(date, Date(-2000, 2, 29));
date.roll!"days"(1);
_assertPred!"=="(date, Date(-2000, 2, 1));
date.roll!"days"(-1);
_assertPred!"=="(date, Date(-2000, 2, 29));
}
{
auto date = Date(-1999, 6, 30);
date.roll!"days"(1);
_assertPred!"=="(date, Date(-1999, 6, 1));
date.roll!"days"(-1);
_assertPred!"=="(date, Date(-1999, 6, 30));
}
{
auto date = Date(-1999, 7, 31);
date.roll!"days"(1);
_assertPred!"=="(date, Date(-1999, 7, 1));
date.roll!"days"(-1);
_assertPred!"=="(date, Date(-1999, 7, 31));
}
{
auto date = Date(-1999, 1, 1);
date.roll!"days"(-1);
_assertPred!"=="(date, Date(-1999, 1, 31));
date.roll!"days"(1);
_assertPred!"=="(date, Date(-1999, 1, 1));
}
{
auto date = Date(-1999, 7, 6);
date.roll!"days"(9);
_assertPred!"=="(date, Date(-1999, 7, 15));
date.roll!"days"(-11);
_assertPred!"=="(date, Date(-1999, 7, 4));
date.roll!"days"(30);
_assertPred!"=="(date, Date(-1999, 7, 3));
date.roll!"days"(-3);
_assertPred!"=="(date, Date(-1999, 7, 31));
}
{
auto date = Date(-1999, 7, 6);
date.roll!"days"(365);
_assertPred!"=="(date, Date(-1999, 7, 30));
date.roll!"days"(-365);
_assertPred!"=="(date, Date(-1999, 7, 6));
date.roll!"days"(366);
_assertPred!"=="(date, Date(-1999, 7, 31));
date.roll!"days"(730);
_assertPred!"=="(date, Date(-1999, 7, 17));
date.roll!"days"(-1096);
_assertPred!"=="(date, Date(-1999, 7, 6));
}
//Test Both
{
auto date = Date(1, 7, 6);
date.roll!"days"(-365);
_assertPred!"=="(date, Date(1, 7, 13));
date.roll!"days"(365);
_assertPred!"=="(date, Date(1, 7, 6));
date.roll!"days"(-731);
_assertPred!"=="(date, Date(1, 7, 19));
date.roll!"days"(730);
_assertPred!"=="(date, Date(1, 7, 5));
}
{
auto date = Date(0, 7, 6);
date.roll!"days"(-365);
_assertPred!"=="(date, Date(0, 7, 13));
date.roll!"days"(365);
_assertPred!"=="(date, Date(0, 7, 6));
date.roll!"days"(-731);
_assertPred!"=="(date, Date(0, 7, 19));
date.roll!"days"(730);
_assertPred!"=="(date, Date(0, 7, 5));
}
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(!__traits(compiles, cdate.roll!"days"(12)));
static assert(!__traits(compiles, idate.roll!"days"(12)));
//Verify Examples.
auto date = Date(2010, 1, 1);
date.roll!"days"(1);
assert(date == Date(2010, 1, 2));
date.roll!"days"(365);
assert(date == Date(2010, 1, 26));
date.roll!"days"(-32);
assert(date == Date(2010, 1, 25));
}
}
/++
Gives the result of adding or subtracting a duration from this
$(D Date).
The legal types of arithmetic for Date using this operator are
$(TABLE
$(TR $(TD Date) $(TD +) $(TD duration) $(TD -->) $(TD Date))
$(TR $(TD Date) $(TD -) $(TD duration) $(TD -->) $(TD Date))
)
Params:
duration = The duration to add to or subtract from this $(D Date).
+/
Date opBinary(string op, D)(in D duration) const pure nothrow
if((op == "+" || op == "-") &&
(is(Unqual!D == Duration) ||
is(Unqual!D == TickDuration)))
{
Date retval = this;
static if(is(Unqual!D == Duration))
immutable days = duration.total!"days";
else static if(is(Unqual!D == TickDuration))
immutable days = convert!("hnsecs", "days")(duration.hnsecs);
//Ideally, this would just be
//return retval.addDays(unaryFun!(op ~ "a")(days));
//But there isn't currently a pure version of unaryFun!().
static if(op == "+")
immutable signedDays = days;
else static if(op == "-")
immutable signedDays = -days;
else
static assert(0);
return retval.addDays(signedDays);
}
unittest
{
version(testStdDateTime)
{
auto date = Date(1999, 7, 6);
_assertPred!"=="(date + dur!"weeks"(7), Date(1999, 8, 24));
_assertPred!"=="(date + dur!"weeks"(-7), Date(1999, 5, 18));
_assertPred!"=="(date + dur!"days"(7), Date(1999, 7, 13));
_assertPred!"=="(date + dur!"days"(-7), Date(1999, 6, 29));
_assertPred!"=="(date + dur!"hours"(24), Date(1999, 7, 7));
_assertPred!"=="(date + dur!"hours"(-24), Date(1999, 7, 5));
_assertPred!"=="(date + dur!"minutes"(1440), Date(1999, 7, 7));
_assertPred!"=="(date + dur!"minutes"(-1440), Date(1999, 7, 5));
_assertPred!"=="(date + dur!"seconds"(86_400), Date(1999, 7, 7));
_assertPred!"=="(date + dur!"seconds"(-86_400), Date(1999, 7, 5));
_assertPred!"=="(date + dur!"msecs"(86_400_000), Date(1999, 7, 7));
_assertPred!"=="(date + dur!"msecs"(-86_400_000), Date(1999, 7, 5));
_assertPred!"=="(date + dur!"usecs"(86_400_000_000), Date(1999, 7, 7));
_assertPred!"=="(date + dur!"usecs"(-86_400_000_000), Date(1999, 7, 5));
_assertPred!"=="(date + dur!"hnsecs"(864_000_000_000), Date(1999, 7, 7));
_assertPred!"=="(date + dur!"hnsecs"(-864_000_000_000), Date(1999, 7, 5));
//This probably only runs in cases where gettimeofday() is used, but it's
//hard to do this test correctly with variable ticksPerSec.
if(TickDuration.ticksPerSec == 1_000_000)
{
_assertPred!"=="(date + TickDuration.from!"usecs"(86_400_000_000), Date(1999, 7, 7));
_assertPred!"=="(date + TickDuration.from!"usecs"(-86_400_000_000), Date(1999, 7, 5));
}
_assertPred!"=="(date - dur!"weeks"(-7), Date(1999, 8, 24));
_assertPred!"=="(date - dur!"weeks"(7), Date(1999, 5, 18));
_assertPred!"=="(date - dur!"days"(-7), Date(1999, 7, 13));
_assertPred!"=="(date - dur!"days"(7), Date(1999, 6, 29));
_assertPred!"=="(date - dur!"hours"(-24), Date(1999, 7, 7));
_assertPred!"=="(date - dur!"hours"(24), Date(1999, 7, 5));
_assertPred!"=="(date - dur!"minutes"(-1440), Date(1999, 7, 7));
_assertPred!"=="(date - dur!"minutes"(1440), Date(1999, 7, 5));
_assertPred!"=="(date - dur!"seconds"(-86_400), Date(1999, 7, 7));
_assertPred!"=="(date - dur!"seconds"(86_400), Date(1999, 7, 5));
_assertPred!"=="(date - dur!"msecs"(-86_400_000), Date(1999, 7, 7));
_assertPred!"=="(date - dur!"msecs"(86_400_000), Date(1999, 7, 5));
_assertPred!"=="(date - dur!"usecs"(-86_400_000_000), Date(1999, 7, 7));
_assertPred!"=="(date - dur!"usecs"(86_400_000_000), Date(1999, 7, 5));
_assertPred!"=="(date - dur!"hnsecs"(-864_000_000_000), Date(1999, 7, 7));
_assertPred!"=="(date - dur!"hnsecs"(864_000_000_000), Date(1999, 7, 5));
//This probably only runs in cases where gettimeofday() is used, but it's
//hard to do this test correctly with variable ticksPerSec.
if(TickDuration.ticksPerSec == 1_000_000)
{
_assertPred!"=="(date - TickDuration.from!"usecs"(-86_400_000_000), Date(1999, 7, 7));
_assertPred!"=="(date - TickDuration.from!"usecs"(86_400_000_000), Date(1999, 7, 5));
}
auto duration = dur!"days"(12);
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(__traits(compiles, date + duration));
static assert(__traits(compiles, cdate + duration));
static assert(__traits(compiles, idate + duration));
static assert(__traits(compiles, date - duration));
static assert(__traits(compiles, cdate - duration));
static assert(__traits(compiles, idate - duration));
}
}
/++
Gives the result of adding or subtracting a duration from this
$(D Date), as well as assigning the result to this $(D Date).
The legal types of arithmetic for $(D Date) using this operator are
$(TABLE
$(TR $(TD Date) $(TD +) $(TD duration) $(TD -->) $(TD Date))
$(TR $(TD Date) $(TD -) $(TD duration) $(TD -->) $(TD Date))
)
Params:
duration = The duration to add to or subtract from this $(D Date).
+/
/+ref+/ Date opOpAssign(string op, D)(in D duration) pure nothrow
if((op == "+" || op == "-") &&
(is(Unqual!D == Duration) ||
is(Unqual!D == TickDuration)))
{
static if(is(Unqual!D == Duration))
immutable days = duration.total!"days";
else static if(is(Unqual!D == TickDuration))
immutable days = convert!("hnsecs", "days")(duration.hnsecs);
//Ideally, this would just be
//return addDays(unaryFun!(op ~ "a")(days));
//But there isn't currently a pure version of unaryFun!().
static if(op == "+")
immutable signedDays = days;
else static if(op == "-")
immutable signedDays = -days;
else
static assert(0);
return addDays(signedDays);
}
unittest
{
version(testStdDateTime)
{
_assertPred!"+="(Date(1999, 7, 6), dur!"weeks"(7), Date(1999, 8, 24));
_assertPred!"+="(Date(1999, 7, 6), dur!"weeks"(-7), Date(1999, 5, 18));
_assertPred!"+="(Date(1999, 7, 6), dur!"days"(7), Date(1999, 7, 13));
_assertPred!"+="(Date(1999, 7, 6), dur!"days"(-7), Date(1999, 6, 29));
_assertPred!"+="(Date(1999, 7, 6), dur!"hours"(24), Date(1999, 7, 7));
_assertPred!"+="(Date(1999, 7, 6), dur!"hours"(-24), Date(1999, 7, 5));
_assertPred!"+="(Date(1999, 7, 6), dur!"minutes"(1440), Date(1999, 7, 7));
_assertPred!"+="(Date(1999, 7, 6), dur!"minutes"(-1440), Date(1999, 7, 5));
_assertPred!"+="(Date(1999, 7, 6), dur!"seconds"(86_400), Date(1999, 7, 7));
_assertPred!"+="(Date(1999, 7, 6), dur!"seconds"(-86_400), Date(1999, 7, 5));
_assertPred!"+="(Date(1999, 7, 6), dur!"msecs"(86_400_000), Date(1999, 7, 7));
_assertPred!"+="(Date(1999, 7, 6), dur!"msecs"(-86_400_000), Date(1999, 7, 5));
_assertPred!"+="(Date(1999, 7, 6), dur!"usecs"(86_400_000_000), Date(1999, 7, 7));
_assertPred!"+="(Date(1999, 7, 6), dur!"usecs"(-86_400_000_000), Date(1999, 7, 5));
_assertPred!"+="(Date(1999, 7, 6), dur!"hnsecs"(864_000_000_000), Date(1999, 7, 7));
_assertPred!"+="(Date(1999, 7, 6), dur!"hnsecs"(-864_000_000_000), Date(1999, 7, 5));
_assertPred!"-="(Date(1999, 7, 6), dur!"weeks"(-7), Date(1999, 8, 24));
_assertPred!"-="(Date(1999, 7, 6), dur!"weeks"(7), Date(1999, 5, 18));
_assertPred!"-="(Date(1999, 7, 6), dur!"days"(-7), Date(1999, 7, 13));
_assertPred!"-="(Date(1999, 7, 6), dur!"days"(7), Date(1999, 6, 29));
_assertPred!"-="(Date(1999, 7, 6), dur!"hours"(-24), Date(1999, 7, 7));
_assertPred!"-="(Date(1999, 7, 6), dur!"hours"(24), Date(1999, 7, 5));
_assertPred!"-="(Date(1999, 7, 6), dur!"minutes"(-1440), Date(1999, 7, 7));
_assertPred!"-="(Date(1999, 7, 6), dur!"minutes"(1440), Date(1999, 7, 5));
_assertPred!"-="(Date(1999, 7, 6), dur!"seconds"(-86_400), Date(1999, 7, 7));
_assertPred!"-="(Date(1999, 7, 6), dur!"seconds"(86_400), Date(1999, 7, 5));
_assertPred!"-="(Date(1999, 7, 6), dur!"msecs"(-86_400_000), Date(1999, 7, 7));
_assertPred!"-="(Date(1999, 7, 6), dur!"msecs"(86_400_000), Date(1999, 7, 5));
_assertPred!"-="(Date(1999, 7, 6), dur!"usecs"(-86_400_000_000), Date(1999, 7, 7));
_assertPred!"-="(Date(1999, 7, 6), dur!"usecs"(86_400_000_000), Date(1999, 7, 5));
_assertPred!"-="(Date(1999, 7, 6), dur!"hnsecs"(-864_000_000_000), Date(1999, 7, 7));
_assertPred!"-="(Date(1999, 7, 6), dur!"hnsecs"(864_000_000_000), Date(1999, 7, 5));
auto duration = dur!"days"(12);
auto date = Date(1999, 7, 6);
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(__traits(compiles, date += duration));
static assert(!__traits(compiles, cdate += duration));
static assert(!__traits(compiles, idate += duration));
static assert(__traits(compiles, date -= duration));
static assert(!__traits(compiles, cdate -= duration));
static assert(!__traits(compiles, idate -= duration));
}
}
/++
Gives the difference between two $(D Date)s.
The legal types of arithmetic for Date using this operator are
$(TABLE
$(TR $(TD Date) $(TD -) $(TD Date) $(TD -->) $(TD duration))
)
+/
Duration opBinary(string op)(in Date rhs) const pure nothrow
if(op == "-")
{
return dur!"days"(this.dayOfGregorianCal - rhs.dayOfGregorianCal);
}
unittest
{
version(testStdDateTime)
{
auto date = Date(1999, 7, 6);
_assertPred!"=="(Date(1999, 7, 6) - Date(1998, 7, 6), dur!"days"(365));
_assertPred!"=="(Date(1998, 7, 6) - Date(1999, 7, 6), dur!"days"(-365));
_assertPred!"=="(Date(1999, 6, 6) - Date(1999, 5, 6), dur!"days"(31));
_assertPred!"=="(Date(1999, 5, 6) - Date(1999, 6, 6), dur!"days"(-31));
_assertPred!"=="(Date(1999, 1, 1) - Date(1998, 12, 31), dur!"days"(1));
_assertPred!"=="(Date(1998, 12, 31) - Date(1999, 1, 1), dur!"days"(-1));
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(__traits(compiles, date - date));
static assert(__traits(compiles, cdate - date));
static assert(__traits(compiles, idate - date));
static assert(__traits(compiles, date - cdate));
static assert(__traits(compiles, cdate - cdate));
static assert(__traits(compiles, idate - cdate));
static assert(__traits(compiles, date - idate));
static assert(__traits(compiles, cdate - idate));
static assert(__traits(compiles, idate - idate));
}
}
/++
Returns the difference between the two $(D Date)s in months.
You can get the difference in years by subtracting the year property
of two $(D Date)s, and you can get the difference in days or weeks by
subtracting the $(D Date)s themselves and using the $(D Duration) that
results, but because you cannot convert between months and smaller units
without a specific date (which $(D Duration)s don't have), you cannot
get the difference in months without doing some math using both the year
and month properties, so this is a convenience function for getting the
difference in months.
Note that the number of days in the months or how far into the month
either $(D Date) is is irrelevant. It is the difference in the month
property combined with the difference in years * 12. So, for instance,
December 31st and January 1st are one month apart just as December 1st
and January 31st are one month apart.
Params:
rhs = The $(D Date) to subtract from this one.
Examples:
--------------------
assert(Date(1999, 2, 1).diffMonths(Date(1999, 1, 31)) == 1);
assert(Date(1999, 1, 31).diffMonths(Date(1999, 2, 1)) == -1);
assert(Date(1999, 3, 1).diffMonths(Date(1999, 1, 1)) == 2);
assert(Date(1999, 1, 1).diffMonths(Date(1999, 3, 31)) == -2);
--------------------
+/
int diffMonths(in Date rhs) const pure nothrow
{
immutable yearDiff = _year - rhs._year;
immutable monthDiff = _month - rhs._month;
return yearDiff * 12 + monthDiff;
}
unittest
{
version(testStdDateTime)
{
auto date = Date(1999, 7, 6);
//Test A.D.
_assertPred!"=="(date.diffMonths(Date(1998, 6, 5)), 13);
_assertPred!"=="(date.diffMonths(Date(1998, 7, 5)), 12);
_assertPred!"=="(date.diffMonths(Date(1998, 8, 5)), 11);
_assertPred!"=="(date.diffMonths(Date(1998, 9, 5)), 10);
_assertPred!"=="(date.diffMonths(Date(1998, 10, 5)), 9);
_assertPred!"=="(date.diffMonths(Date(1998, 11, 5)), 8);
_assertPred!"=="(date.diffMonths(Date(1998, 12, 5)), 7);
_assertPred!"=="(date.diffMonths(Date(1999, 1, 5)), 6);
_assertPred!"=="(date.diffMonths(Date(1999, 2, 6)), 5);
_assertPred!"=="(date.diffMonths(Date(1999, 3, 6)), 4);
_assertPred!"=="(date.diffMonths(Date(1999, 4, 6)), 3);
_assertPred!"=="(date.diffMonths(Date(1999, 5, 6)), 2);
_assertPred!"=="(date.diffMonths(Date(1999, 6, 6)), 1);
_assertPred!"=="(date.diffMonths(date), 0);
_assertPred!"=="(date.diffMonths(Date(1999, 8, 6)), -1);
_assertPred!"=="(date.diffMonths(Date(1999, 9, 6)), -2);
_assertPred!"=="(date.diffMonths(Date(1999, 10, 6)), -3);
_assertPred!"=="(date.diffMonths(Date(1999, 11, 6)), -4);
_assertPred!"=="(date.diffMonths(Date(1999, 12, 6)), -5);
_assertPred!"=="(date.diffMonths(Date(2000, 1, 6)), -6);
_assertPred!"=="(date.diffMonths(Date(2000, 2, 6)), -7);
_assertPred!"=="(date.diffMonths(Date(2000, 3, 6)), -8);
_assertPred!"=="(date.diffMonths(Date(2000, 4, 6)), -9);
_assertPred!"=="(date.diffMonths(Date(2000, 5, 6)), -10);
_assertPred!"=="(date.diffMonths(Date(2000, 6, 6)), -11);
_assertPred!"=="(date.diffMonths(Date(2000, 7, 6)), -12);
_assertPred!"=="(date.diffMonths(Date(2000, 8, 6)), -13);
_assertPred!"=="(Date(1998, 6, 5).diffMonths(date), -13);
_assertPred!"=="(Date(1998, 7, 5).diffMonths(date), -12);
_assertPred!"=="(Date(1998, 8, 5).diffMonths(date), -11);
_assertPred!"=="(Date(1998, 9, 5).diffMonths(date), -10);
_assertPred!"=="(Date(1998, 10, 5).diffMonths(date), -9);
_assertPred!"=="(Date(1998, 11, 5).diffMonths(date), -8);
_assertPred!"=="(Date(1998, 12, 5).diffMonths(date), -7);
_assertPred!"=="(Date(1999, 1, 5).diffMonths(date), -6);
_assertPred!"=="(Date(1999, 2, 6).diffMonths(date), -5);
_assertPred!"=="(Date(1999, 3, 6).diffMonths(date), -4);
_assertPred!"=="(Date(1999, 4, 6).diffMonths(date), -3);
_assertPred!"=="(Date(1999, 5, 6).diffMonths(date), -2);
_assertPred!"=="(Date(1999, 6, 6).diffMonths(date), -1);
_assertPred!"=="(Date(1999, 8, 6).diffMonths(date), 1);
_assertPred!"=="(Date(1999, 9, 6).diffMonths(date), 2);
_assertPred!"=="(Date(1999, 10, 6).diffMonths(date), 3);
_assertPred!"=="(Date(1999, 11, 6).diffMonths(date), 4);
_assertPred!"=="(Date(1999, 12, 6).diffMonths(date), 5);
_assertPred!"=="(Date(2000, 1, 6).diffMonths(date), 6);
_assertPred!"=="(Date(2000, 2, 6).diffMonths(date), 7);
_assertPred!"=="(Date(2000, 3, 6).diffMonths(date), 8);
_assertPred!"=="(Date(2000, 4, 6).diffMonths(date), 9);
_assertPred!"=="(Date(2000, 5, 6).diffMonths(date), 10);
_assertPred!"=="(Date(2000, 6, 6).diffMonths(date), 11);
_assertPred!"=="(Date(2000, 7, 6).diffMonths(date), 12);
_assertPred!"=="(Date(2000, 8, 6).diffMonths(date), 13);
_assertPred!"=="(date.diffMonths(Date(1999, 6, 30)), 1);
_assertPred!"=="(date.diffMonths(Date(1999, 7, 1)), 0);
_assertPred!"=="(date.diffMonths(Date(1999, 7, 6)), 0);
_assertPred!"=="(date.diffMonths(Date(1999, 7, 11)), 0);
_assertPred!"=="(date.diffMonths(Date(1999, 7, 16)), 0);
_assertPred!"=="(date.diffMonths(Date(1999, 7, 21)), 0);
_assertPred!"=="(date.diffMonths(Date(1999, 7, 26)), 0);
_assertPred!"=="(date.diffMonths(Date(1999, 7, 31)), 0);
_assertPred!"=="(date.diffMonths(Date(1999, 8, 1)), -1);
_assertPred!"=="(date.diffMonths(Date(1990, 6, 30)), 109);
_assertPred!"=="(date.diffMonths(Date(1990, 7, 1)), 108);
_assertPred!"=="(date.diffMonths(Date(1990, 7, 6)), 108);
_assertPred!"=="(date.diffMonths(Date(1990, 7, 11)), 108);
_assertPred!"=="(date.diffMonths(Date(1990, 7, 16)), 108);
_assertPred!"=="(date.diffMonths(Date(1990, 7, 21)), 108);
_assertPred!"=="(date.diffMonths(Date(1990, 7, 26)), 108);
_assertPred!"=="(date.diffMonths(Date(1990, 7, 31)), 108);
_assertPred!"=="(date.diffMonths(Date(1990, 8, 1)), 107);
_assertPred!"=="(Date(1999, 6, 30).diffMonths(date), -1);
_assertPred!"=="(Date(1999, 7, 1).diffMonths(date), 0);
_assertPred!"=="(Date(1999, 7, 6).diffMonths(date), 0);
_assertPred!"=="(Date(1999, 7, 11).diffMonths(date), 0);
_assertPred!"=="(Date(1999, 7, 16).diffMonths(date), 0);
_assertPred!"=="(Date(1999, 7, 21).diffMonths(date), 0);
_assertPred!"=="(Date(1999, 7, 26).diffMonths(date), 0);
_assertPred!"=="(Date(1999, 7, 31).diffMonths(date), 0);
_assertPred!"=="(Date(1999, 8, 1).diffMonths(date), 1);
_assertPred!"=="(Date(1990, 6, 30).diffMonths(date), -109);
_assertPred!"=="(Date(1990, 7, 1).diffMonths(date), -108);
_assertPred!"=="(Date(1990, 7, 6).diffMonths(date), -108);
_assertPred!"=="(Date(1990, 7, 11).diffMonths(date), -108);
_assertPred!"=="(Date(1990, 7, 16).diffMonths(date), -108);
_assertPred!"=="(Date(1990, 7, 21).diffMonths(date), -108);
_assertPred!"=="(Date(1990, 7, 26).diffMonths(date), -108);
_assertPred!"=="(Date(1990, 7, 31).diffMonths(date), -108);
_assertPred!"=="(Date(1990, 8, 1).diffMonths(date), -107);
//Test B.C.
auto dateBC = Date(-1999, 7, 6);
_assertPred!"=="(dateBC.diffMonths(Date(-2000, 6, 5)), 13);
_assertPred!"=="(dateBC.diffMonths(Date(-2000, 7, 5)), 12);
_assertPred!"=="(dateBC.diffMonths(Date(-2000, 8, 5)), 11);
_assertPred!"=="(dateBC.diffMonths(Date(-2000, 9, 5)), 10);
_assertPred!"=="(dateBC.diffMonths(Date(-2000, 10, 5)), 9);
_assertPred!"=="(dateBC.diffMonths(Date(-2000, 11, 5)), 8);
_assertPred!"=="(dateBC.diffMonths(Date(-2000, 12, 5)), 7);
_assertPred!"=="(dateBC.diffMonths(Date(-1999, 1, 5)), 6);
_assertPred!"=="(dateBC.diffMonths(Date(-1999, 2, 6)), 5);
_assertPred!"=="(dateBC.diffMonths(Date(-1999, 3, 6)), 4);
_assertPred!"=="(dateBC.diffMonths(Date(-1999, 4, 6)), 3);
_assertPred!"=="(dateBC.diffMonths(Date(-1999, 5, 6)), 2);
_assertPred!"=="(dateBC.diffMonths(Date(-1999, 6, 6)), 1);
_assertPred!"=="(dateBC.diffMonths(dateBC), 0);
_assertPred!"=="(dateBC.diffMonths(Date(-1999, 8, 6)), -1);
_assertPred!"=="(dateBC.diffMonths(Date(-1999, 9, 6)), -2);
_assertPred!"=="(dateBC.diffMonths(Date(-1999, 10, 6)), -3);
_assertPred!"=="(dateBC.diffMonths(Date(-1999, 11, 6)), -4);
_assertPred!"=="(dateBC.diffMonths(Date(-1999, 12, 6)), -5);
_assertPred!"=="(dateBC.diffMonths(Date(-1998, 1, 6)), -6);
_assertPred!"=="(dateBC.diffMonths(Date(-1998, 2, 6)), -7);
_assertPred!"=="(dateBC.diffMonths(Date(-1998, 3, 6)), -8);
_assertPred!"=="(dateBC.diffMonths(Date(-1998, 4, 6)), -9);
_assertPred!"=="(dateBC.diffMonths(Date(-1998, 5, 6)), -10);
_assertPred!"=="(dateBC.diffMonths(Date(-1998, 6, 6)), -11);
_assertPred!"=="(dateBC.diffMonths(Date(-1998, 7, 6)), -12);
_assertPred!"=="(dateBC.diffMonths(Date(-1998, 8, 6)), -13);
_assertPred!"=="(Date(-2000, 6, 5).diffMonths(dateBC), -13);
_assertPred!"=="(Date(-2000, 7, 5).diffMonths(dateBC), -12);
_assertPred!"=="(Date(-2000, 8, 5).diffMonths(dateBC), -11);
_assertPred!"=="(Date(-2000, 9, 5).diffMonths(dateBC), -10);
_assertPred!"=="(Date(-2000, 10, 5).diffMonths(dateBC), -9);
_assertPred!"=="(Date(-2000, 11, 5).diffMonths(dateBC), -8);
_assertPred!"=="(Date(-2000, 12, 5).diffMonths(dateBC), -7);
_assertPred!"=="(Date(-1999, 1, 5).diffMonths(dateBC), -6);
_assertPred!"=="(Date(-1999, 2, 6).diffMonths(dateBC), -5);
_assertPred!"=="(Date(-1999, 3, 6).diffMonths(dateBC), -4);
_assertPred!"=="(Date(-1999, 4, 6).diffMonths(dateBC), -3);
_assertPred!"=="(Date(-1999, 5, 6).diffMonths(dateBC), -2);
_assertPred!"=="(Date(-1999, 6, 6).diffMonths(dateBC), -1);
_assertPred!"=="(Date(-1999, 8, 6).diffMonths(dateBC), 1);
_assertPred!"=="(Date(-1999, 9, 6).diffMonths(dateBC), 2);
_assertPred!"=="(Date(-1999, 10, 6).diffMonths(dateBC), 3);
_assertPred!"=="(Date(-1999, 11, 6).diffMonths(dateBC), 4);
_assertPred!"=="(Date(-1999, 12, 6).diffMonths(dateBC), 5);
_assertPred!"=="(Date(-1998, 1, 6).diffMonths(dateBC), 6);
_assertPred!"=="(Date(-1998, 2, 6).diffMonths(dateBC), 7);
_assertPred!"=="(Date(-1998, 3, 6).diffMonths(dateBC), 8);
_assertPred!"=="(Date(-1998, 4, 6).diffMonths(dateBC), 9);
_assertPred!"=="(Date(-1998, 5, 6).diffMonths(dateBC), 10);
_assertPred!"=="(Date(-1998, 6, 6).diffMonths(dateBC), 11);
_assertPred!"=="(Date(-1998, 7, 6).diffMonths(dateBC), 12);
_assertPred!"=="(Date(-1998, 8, 6).diffMonths(dateBC), 13);
_assertPred!"=="(dateBC.diffMonths(Date(-1999, 6, 30)), 1);
_assertPred!"=="(dateBC.diffMonths(Date(-1999, 7, 1)), 0);
_assertPred!"=="(dateBC.diffMonths(Date(-1999, 7, 6)), 0);
_assertPred!"=="(dateBC.diffMonths(Date(-1999, 7, 11)), 0);
_assertPred!"=="(dateBC.diffMonths(Date(-1999, 7, 16)), 0);
_assertPred!"=="(dateBC.diffMonths(Date(-1999, 7, 21)), 0);
_assertPred!"=="(dateBC.diffMonths(Date(-1999, 7, 26)), 0);
_assertPred!"=="(dateBC.diffMonths(Date(-1999, 7, 31)), 0);
_assertPred!"=="(dateBC.diffMonths(Date(-1999, 8, 1)), -1);
_assertPred!"=="(dateBC.diffMonths(Date(-2008, 6, 30)), 109);
_assertPred!"=="(dateBC.diffMonths(Date(-2008, 7, 1)), 108);
_assertPred!"=="(dateBC.diffMonths(Date(-2008, 7, 6)), 108);
_assertPred!"=="(dateBC.diffMonths(Date(-2008, 7, 11)), 108);
_assertPred!"=="(dateBC.diffMonths(Date(-2008, 7, 16)), 108);
_assertPred!"=="(dateBC.diffMonths(Date(-2008, 7, 21)), 108);
_assertPred!"=="(dateBC.diffMonths(Date(-2008, 7, 26)), 108);
_assertPred!"=="(dateBC.diffMonths(Date(-2008, 7, 31)), 108);
_assertPred!"=="(dateBC.diffMonths(Date(-2008, 8, 1)), 107);
_assertPred!"=="(Date(-1999, 6, 30).diffMonths(dateBC), -1);
_assertPred!"=="(Date(-1999, 7, 1).diffMonths(dateBC), 0);
_assertPred!"=="(Date(-1999, 7, 6).diffMonths(dateBC), 0);
_assertPred!"=="(Date(-1999, 7, 11).diffMonths(dateBC), 0);
_assertPred!"=="(Date(-1999, 7, 16).diffMonths(dateBC), 0);
_assertPred!"=="(Date(-1999, 7, 21).diffMonths(dateBC), 0);
_assertPred!"=="(Date(-1999, 7, 26).diffMonths(dateBC), 0);
_assertPred!"=="(Date(-1999, 7, 31).diffMonths(dateBC), 0);
_assertPred!"=="(Date(-1999, 8, 1).diffMonths(dateBC), 1);
_assertPred!"=="(Date(-2008, 6, 30).diffMonths(dateBC), -109);
_assertPred!"=="(Date(-2008, 7, 1).diffMonths(dateBC), -108);
_assertPred!"=="(Date(-2008, 7, 6).diffMonths(dateBC), -108);
_assertPred!"=="(Date(-2008, 7, 11).diffMonths(dateBC), -108);
_assertPred!"=="(Date(-2008, 7, 16).diffMonths(dateBC), -108);
_assertPred!"=="(Date(-2008, 7, 21).diffMonths(dateBC), -108);
_assertPred!"=="(Date(-2008, 7, 26).diffMonths(dateBC), -108);
_assertPred!"=="(Date(-2008, 7, 31).diffMonths(dateBC), -108);
_assertPred!"=="(Date(-2008, 8, 1).diffMonths(dateBC), -107);
//Test Both
_assertPred!"=="(Date(3, 3, 3).diffMonths(Date(-5, 5, 5)), 94);
_assertPred!"=="(Date(-5, 5, 5).diffMonths(Date(3, 3, 3)), -94);
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(__traits(compiles, date.diffMonths(date)));
static assert(__traits(compiles, cdate.diffMonths(date)));
static assert(__traits(compiles, idate.diffMonths(date)));
static assert(__traits(compiles, date.diffMonths(cdate)));
static assert(__traits(compiles, cdate.diffMonths(cdate)));
static assert(__traits(compiles, idate.diffMonths(cdate)));
static assert(__traits(compiles, date.diffMonths(idate)));
static assert(__traits(compiles, cdate.diffMonths(idate)));
static assert(__traits(compiles, idate.diffMonths(idate)));
//Verify Examples.
assert(Date(1999, 2, 1).diffMonths(Date(1999, 1, 31)) == 1);
assert(Date(1999, 1, 31).diffMonths(Date(1999, 2, 1)) == -1);
assert(Date(1999, 3, 1).diffMonths(Date(1999, 1, 1)) == 2);
assert(Date(1999, 1, 1).diffMonths(Date(1999, 3, 31)) == -2);
}
}
/++
Whether this $(D Date) is in a leap year.
+/
@property bool isLeapYear() const pure nothrow
{
return yearIsLeapYear(_year);
}
unittest
{
version(testStdDateTime)
{
auto date = Date(1999, 7, 6);
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(!__traits(compiles, date.isLeapYear = true));
static assert(!__traits(compiles, cdate.isLeapYear = true));
static assert(!__traits(compiles, idate.isLeapYear = true));
}
}
/++
Day of the week this $(D Date) is on.
+/
@property DayOfWeek dayOfWeek() const pure nothrow
{
return getDayOfWeek(dayOfGregorianCal);
}
unittest
{
version(testStdDateTime)
{
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(__traits(compiles, cdate.dayOfWeek == DayOfWeek.sun));
static assert(!__traits(compiles, cdate.dayOfWeek = DayOfWeek.sun));
static assert(__traits(compiles, idate.dayOfWeek == DayOfWeek.sun));
static assert(!__traits(compiles, idate.dayOfWeek = DayOfWeek.sun));
}
}
/++
Day of the year this $(D Date) is on.
Examples:
--------------------
assert(Date(1999, 1, 1).dayOfYear == 1);
assert(Date(1999, 12, 31).dayOfYear == 365);
assert(Date(2000, 12, 31).dayOfYear == 366);
--------------------
+/
@property ushort dayOfYear() const pure nothrow
{
switch(_month)
{
case Month.jan:
return _day;
case Month.feb:
return cast(ushort)(31 + _day);
case Month.mar:
return cast(ushort)((isLeapYear ? 60 : 59) + _day);
case Month.apr:
return cast(ushort)((isLeapYear ? 91 : 90) + _day);
case Month.may:
return cast(ushort)((isLeapYear ? 121 : 120) + _day);
case Month.jun:
return cast(ushort)((isLeapYear ? 152 : 151) + _day);
case Month.jul:
return cast(ushort)((isLeapYear ? 182 : 181) + _day);
case Month.aug:
return cast(ushort)((isLeapYear ? 213 : 212) + _day);
case Month.sep:
return cast(ushort)((isLeapYear ? 244 : 243) + _day);
case Month.oct:
return cast(ushort)((isLeapYear ? 274 : 273) + _day);
case Month.nov:
return cast(ushort)((isLeapYear ? 305 : 304) + _day);
case Month.dec:
return cast(ushort)((isLeapYear ? 335 : 334) + _day);
default:
assert(0, "Invalid month.");
}
}
//Verify Examples.
version(testStdDateTime) unittest
{
assert(Date(1999, 1, 1).dayOfYear == 1);
assert(Date(1999, 12, 31).dayOfYear == 365);
assert(Date(2000, 12, 31).dayOfYear == 366);
}
version(testStdDateTime) unittest
{
foreach(year; filter!((a){return !yearIsLeapYear(a);})
(chain(testYearsBC, testYearsAD)))
{
foreach(doy; testDaysOfYear)
{
_assertPred!"=="(Date(year, doy.md.month, doy.md.day).dayOfYear,
doy.day);
}
}
foreach(year; filter!((a){return yearIsLeapYear(a);})
(chain(testYearsBC, testYearsAD)))
{
foreach(doy; testDaysOfLeapYear)
{
_assertPred!"=="(Date(year, doy.md.month, doy.md.day).dayOfYear,
doy.day);
}
}
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(__traits(compiles, cdate.dayOfYear == 187));
static assert(__traits(compiles, idate.dayOfYear == 187));
}
/++
Day of the year.
Params:
day = The day of the year to set which day of the year this
$(D Date) is on.
Throws:
$(D DateTimeException) if the given day is an invalid day of the
year.
+/
@property void dayOfYear(int day) pure
{
if(isLeapYear)
{
if(day <= 0 || day > daysInLeapYear)
throw new DateTimeException("Invalid day of the year.");
switch(day)
{
case 1: .. case 31:
{
_month = Month.jan;
_day = cast(ubyte)day;
break;
}
case 32: .. case 60:
{
_month = Month.feb;
_day = cast(ubyte)(day - 31);
break;
}
case 61: .. case 91:
{
_month = Month.mar;
_day = cast(ubyte)(day - 60);
break;
}
case 92: .. case 121:
{
_month = Month.apr;
_day = cast(ubyte)(day - 91);
break;
}
case 122: .. case 152:
{
_month = Month.may;
_day = cast(ubyte)(day - 121);
break;
}
case 153: .. case 182:
{
_month = Month.jun;
_day = cast(ubyte)(day - 152);
break;
}
case 183: .. case 213:
{
_month = Month.jul;
_day = cast(ubyte)(day - 182);
break;
}
case 214: .. case 244:
{
_month = Month.aug;
_day = cast(ubyte)(day - 213);
break;
}
case 245: .. case 274:
{
_month = Month.sep;
_day = cast(ubyte)(day - 244);
break;
}
case 275: .. case 305:
{
_month = Month.oct;
_day = cast(ubyte)(day - 274);
break;
}
case 306: .. case 335:
{
_month = Month.nov;
_day = cast(ubyte)(day - 305);
break;
}
case 336: .. case 366:
{
_month = Month.dec;
_day = cast(ubyte)(day - 335);
break;
}
default:
assert(0, "Invalid day of the year.");
}
}
else
{
if(day <= 0 || day > daysInYear)
throw new DateTimeException("Invalid day of the year.");
switch(day)
{
case 1: .. case 31:
{
_month = Month.jan;
_day = cast(ubyte)day;
break;
}
case 32: .. case 59:
{
_month = Month.feb;
_day = cast(ubyte)(day - 31);
break;
}
case 60: .. case 90:
{
_month = Month.mar;
_day = cast(ubyte)(day - 59);
break;
}
case 91: .. case 120:
{
_month = Month.apr;
_day = cast(ubyte)(day - 90);
break;
}
case 121: .. case 151:
{
_month = Month.may;
_day = cast(ubyte)(day - 120);
break;
}
case 152: .. case 181:
{
_month = Month.jun;
_day = cast(ubyte)(day - 151);
break;
}
case 182: .. case 212:
{
_month = Month.jul;
_day = cast(ubyte)(day - 181);
break;
}
case 213: .. case 243:
{
_month = Month.aug;
_day = cast(ubyte)(day - 212);
break;
}
case 244: .. case 273:
{
_month = Month.sep;
_day = cast(ubyte)(day - 243);
break;
}
case 274: .. case 304:
{
_month = Month.oct;
_day = cast(ubyte)(day - 273);
break;
}
case 305: .. case 334:
{
_month = Month.nov;
_day = cast(ubyte)(day - 304);
break;
}
case 335: .. case 365:
{
_month = Month.dec;
_day = cast(ubyte)(day - 334);
break;
}
default:
assert(0, "Invalid day of the year.");
}
}
}
version(testStdDateTime) unittest
{
static void test(Date date, int day, MonthDay expected, size_t line = __LINE__)
{
date.dayOfYear = day;
_assertPred!"=="(date.month, expected.month, "", __FILE__, line);
_assertPred!"=="(date.day, expected.day, "", __FILE__, line);
}
foreach(doy; testDaysOfYear)
{
test(Date(1999, 1, 1), doy.day, doy.md);
test(Date(-1, 1, 1), doy.day, doy.md);
}
foreach(doy; testDaysOfLeapYear)
{
test(Date(2000, 1, 1), doy.day, doy.md);
test(Date(-4, 1, 1), doy.day, doy.md);
}
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(!__traits(compiles, cdate.dayOfYear = 187));
static assert(!__traits(compiles, idate.dayOfYear = 187));
}
/++
The Xth day of the Gregorian Calendar that this $(D Date) is on.
Examples:
--------------------
assert(Date(1, 1, 1).dayOfGregorianCal == 1);
assert(Date(1, 12, 31).dayOfGregorianCal == 365);
assert(Date(2, 1, 1).dayOfGregorianCal == 366);
assert(Date(0, 12, 31).dayOfGregorianCal == 0);
assert(Date(0, 1, 1).dayOfGregorianCal == -365);
assert(Date(-1, 12, 31).dayOfGregorianCal == -366);
assert(Date(2000, 1, 1).dayOfGregorianCal == 730_120);
assert(Date(2010, 12, 31).dayOfGregorianCal == 734_137);
--------------------
+/
@property int dayOfGregorianCal() const pure nothrow
{
if(isAD)
{
if(_year == 1)
return dayOfYear;
int years = _year - 1;
auto days = (years / 400) * daysIn400Years;
years %= 400;
days += (years / 100) * daysIn100Years;
years %= 100;
days += (years / 4) * daysIn4Years;
years %= 4;
days += years * daysInYear;
days += dayOfYear;
return days;
}
else if(_year == 0)
return dayOfYear - daysInLeapYear;
else
{
int years = _year;
auto days = (years / 400) * daysIn400Years;
years %= 400;
days += (years / 100) * daysIn100Years;
years %= 100;
days += (years / 4) * daysIn4Years;
years %= 4;
if(years < 0)
{
days -= daysInLeapYear;
++years;
days += years * daysInYear;
days -= daysInYear - dayOfYear;
}
else
days -= daysInLeapYear - dayOfYear;
return days;
}
}
//Verify Examples.
version(testStdDateTime) unittest
{
assert(Date(1, 1, 1).dayOfGregorianCal == 1);
assert(Date(1, 12, 31).dayOfGregorianCal == 365);
assert(Date(2, 1, 1).dayOfGregorianCal == 366);
assert(Date(0, 12, 31).dayOfGregorianCal == 0);
assert(Date(0, 1, 1).dayOfGregorianCal == -365);
assert(Date(-1, 12, 31).dayOfGregorianCal == -366);
assert(Date(2000, 1, 1).dayOfGregorianCal == 730_120);
assert(Date(2010, 12, 31).dayOfGregorianCal == 734_137);
}
version(testStdDateTime) unittest
{
foreach(gd; chain(testGregDaysBC, testGregDaysAD))
_assertPred!"=="(gd.date.dayOfGregorianCal, gd.day);
auto date = Date(1999, 7, 6);
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(__traits(compiles, date.dayOfGregorianCal));
static assert(__traits(compiles, cdate.dayOfGregorianCal));
static assert(__traits(compiles, idate.dayOfGregorianCal));
}
/++
The Xth day of the Gregorian Calendar that this $(D Date) is on.
Params:
day = The day of the Gregorian Calendar to set this $(D Date) to.
Examples:
--------------------
auto date = Date.init;
date.dayOfGregorianCal = 1;
assert(date == Date(1, 1, 1));
date.dayOfGregorianCal = 365;
assert(date == Date(1, 12, 31));
date.dayOfGregorianCal = 366;
assert(date == Date(2, 1, 1));
date.dayOfGregorianCal = 0;
assert(date == Date(0, 12, 31));
date.dayOfGregorianCal = -365;
assert(date == Date(-0, 1, 1));
date.dayOfGregorianCal = -366;
assert(date == Date(-1, 12, 31));
date.dayOfGregorianCal = 730_120;
assert(date == Date(2000, 1, 1));
date.dayOfGregorianCal = 734_137;
assert(date == Date(2010, 12, 31));
--------------------
+/
@property void dayOfGregorianCal(int day) pure nothrow
{
this = Date(day);
}
unittest
{
version(testStdDateTime)
{
{
auto date = Date(1999, 7, 6);
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(__traits(compiles, date.dayOfGregorianCal = 187));
static assert(!__traits(compiles, cdate.dayOfGregorianCal = 187));
static assert(!__traits(compiles, idate.dayOfGregorianCal = 187));
}
//Verify Examples.
{
auto date = Date.init;
date.dayOfGregorianCal = 1;
assert(date == Date(1, 1, 1));
date.dayOfGregorianCal = 365;
assert(date == Date(1, 12, 31));
date.dayOfGregorianCal = 366;
assert(date == Date(2, 1, 1));
date.dayOfGregorianCal = 0;
assert(date == Date(0, 12, 31));
date.dayOfGregorianCal = -365;
assert(date == Date(-0, 1, 1));
date.dayOfGregorianCal = -366;
assert(date == Date(-1, 12, 31));
date.dayOfGregorianCal = 730_120;
assert(date == Date(2000, 1, 1));
date.dayOfGregorianCal = 734_137;
assert(date == Date(2010, 12, 31));
}
}
}
/++
The ISO 8601 week of the year that this $(D Date) is in.
See_Also:
$(WEB en.wikipedia.org/wiki/ISO_week_date, ISO Week Date)
+/
@property ubyte isoWeek() const pure nothrow
{
immutable weekday = dayOfWeek;
immutable adjustedWeekday = weekday == DayOfWeek.sun ? 7 : weekday;
immutable week = (dayOfYear - adjustedWeekday + 10) / 7;
try
{
if(week == 53)
{
switch(Date(_year + 1, 1, 1).dayOfWeek)
{
case DayOfWeek.mon:
case DayOfWeek.tue:
case DayOfWeek.wed:
case DayOfWeek.thu:
return 1;
case DayOfWeek.fri:
case DayOfWeek.sat:
case DayOfWeek.sun:
return 53;
default:
assert(0, "Invalid ISO Week");
}
}
else if(week > 0)
return cast(ubyte)week;
else
return Date(_year - 1, 12, 31).isoWeek;
}
catch(Exception e)
assert(0, "Date's constructor threw.");
}
unittest
{
version(testStdDateTime)
{
//Test A.D.
_assertPred!"=="(Date(2009, 12, 28).isoWeek, 53);
_assertPred!"=="(Date(2009, 12, 29).isoWeek, 53);
_assertPred!"=="(Date(2009, 12, 30).isoWeek, 53);
_assertPred!"=="(Date(2009, 12, 31).isoWeek, 53);
_assertPred!"=="(Date(2010, 1, 1).isoWeek, 53);
_assertPred!"=="(Date(2010, 1, 2).isoWeek, 53);
_assertPred!"=="(Date(2010, 1, 3).isoWeek, 53);
_assertPred!"=="(Date(2010, 1, 4).isoWeek, 1);
_assertPred!"=="(Date(2010, 1, 5).isoWeek, 1);
_assertPred!"=="(Date(2010, 1, 6).isoWeek, 1);
_assertPred!"=="(Date(2010, 1, 7).isoWeek, 1);
_assertPred!"=="(Date(2010, 1, 8).isoWeek, 1);
_assertPred!"=="(Date(2010, 1, 9).isoWeek, 1);
_assertPred!"=="(Date(2010, 1, 10).isoWeek, 1);
_assertPred!"=="(Date(2010, 1, 11).isoWeek, 2);
_assertPred!"=="(Date(2010, 12, 31).isoWeek, 52);
_assertPred!"=="(Date(2004, 12, 26).isoWeek, 52);
_assertPred!"=="(Date(2004, 12, 27).isoWeek, 53);
_assertPred!"=="(Date(2004, 12, 28).isoWeek, 53);
_assertPred!"=="(Date(2004, 12, 29).isoWeek, 53);
_assertPred!"=="(Date(2004, 12, 30).isoWeek, 53);
_assertPred!"=="(Date(2004, 12, 31).isoWeek, 53);
_assertPred!"=="(Date(2005, 1, 1).isoWeek, 53);
_assertPred!"=="(Date(2005, 1, 2).isoWeek, 53);
_assertPred!"=="(Date(2005, 12, 31).isoWeek, 52);
_assertPred!"=="(Date(2007, 1, 1).isoWeek, 1);
_assertPred!"=="(Date(2007, 12, 30).isoWeek, 52);
_assertPred!"=="(Date(2007, 12, 31).isoWeek, 1);
_assertPred!"=="(Date(2008, 1, 1).isoWeek, 1);
_assertPred!"=="(Date(2008, 12, 28).isoWeek, 52);
_assertPred!"=="(Date(2008, 12, 29).isoWeek, 1);
_assertPred!"=="(Date(2008, 12, 30).isoWeek, 1);
_assertPred!"=="(Date(2008, 12, 31).isoWeek, 1);
_assertPred!"=="(Date(2009, 1, 1).isoWeek, 1);
_assertPred!"=="(Date(2009, 1, 2).isoWeek, 1);
_assertPred!"=="(Date(2009, 1, 3).isoWeek, 1);
_assertPred!"=="(Date(2009, 1, 4).isoWeek, 1);
//Test B.C.
//The algorithm should work identically for both A.D. and B.C. since
//it doesn't really take the year into account, so B.C. testing
//probably isn't really needed.
_assertPred!"=="(Date(0, 12, 31).isoWeek, 52);
_assertPred!"=="(Date(0, 1, 4).isoWeek, 1);
_assertPred!"=="(Date(0, 1, 1).isoWeek, 52);
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(__traits(compiles, cdate.isoWeek == 3));
static assert(!__traits(compiles, cdate.isoWeek = 3));
static assert(__traits(compiles, idate.isoWeek == 3));
static assert(!__traits(compiles, idate.isoWeek = 3));
}
}
/++
$(D Date) for the last day in the month that this $(D Date) is in.
Examples:
--------------------
assert(Date(1999, 1, 6).endOfMonth == Date(1999, 1, 31));
assert(Date(1999, 2, 7).endOfMonth == Date(1999, 2, 28));
assert(Date(2000, 2, 7).endOfMonth == Date(1999, 2, 29));
assert(Date(2000, 6, 4).endOfMonth == Date(1999, 6, 30));
--------------------
+/
@property Date endOfMonth() const pure nothrow
{
try
return Date(_year, _month, maxDay(_year, _month));
catch(Exception e)
assert(0, "Date's constructor threw.");
}
unittest
{
version(testStdDateTime)
{
//Test A.D.
_assertPred!"=="(Date(1999, 1, 1).endOfMonth, Date(1999, 1, 31));
_assertPred!"=="(Date(1999, 2, 1).endOfMonth, Date(1999, 2, 28));
_assertPred!"=="(Date(2000, 2, 1).endOfMonth, Date(2000, 2, 29));
_assertPred!"=="(Date(1999, 3, 1).endOfMonth, Date(1999, 3, 31));
_assertPred!"=="(Date(1999, 4, 1).endOfMonth, Date(1999, 4, 30));
_assertPred!"=="(Date(1999, 5, 1).endOfMonth, Date(1999, 5, 31));
_assertPred!"=="(Date(1999, 6, 1).endOfMonth, Date(1999, 6, 30));
_assertPred!"=="(Date(1999, 7, 1).endOfMonth, Date(1999, 7, 31));
_assertPred!"=="(Date(1999, 8, 1).endOfMonth, Date(1999, 8, 31));
_assertPred!"=="(Date(1999, 9, 1).endOfMonth, Date(1999, 9, 30));
_assertPred!"=="(Date(1999, 10, 1).endOfMonth, Date(1999, 10, 31));
_assertPred!"=="(Date(1999, 11, 1).endOfMonth, Date(1999, 11, 30));
_assertPred!"=="(Date(1999, 12, 1).endOfMonth, Date(1999, 12, 31));
//Test B.C.
_assertPred!"=="(Date(-1999, 1, 1).endOfMonth, Date(-1999, 1, 31));
_assertPred!"=="(Date(-1999, 2, 1).endOfMonth, Date(-1999, 2, 28));
_assertPred!"=="(Date(-2000, 2, 1).endOfMonth, Date(-2000, 2, 29));
_assertPred!"=="(Date(-1999, 3, 1).endOfMonth, Date(-1999, 3, 31));
_assertPred!"=="(Date(-1999, 4, 1).endOfMonth, Date(-1999, 4, 30));
_assertPred!"=="(Date(-1999, 5, 1).endOfMonth, Date(-1999, 5, 31));
_assertPred!"=="(Date(-1999, 6, 1).endOfMonth, Date(-1999, 6, 30));
_assertPred!"=="(Date(-1999, 7, 1).endOfMonth, Date(-1999, 7, 31));
_assertPred!"=="(Date(-1999, 8, 1).endOfMonth, Date(-1999, 8, 31));
_assertPred!"=="(Date(-1999, 9, 1).endOfMonth, Date(-1999, 9, 30));
_assertPred!"=="(Date(-1999, 10, 1).endOfMonth, Date(-1999, 10, 31));
_assertPred!"=="(Date(-1999, 11, 1).endOfMonth, Date(-1999, 11, 30));
_assertPred!"=="(Date(-1999, 12, 1).endOfMonth, Date(-1999, 12, 31));
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(!__traits(compiles, cdate.endOfMonth = Date(1999, 7, 30)));
static assert(!__traits(compiles, idate.endOfMonth = Date(1999, 7, 30)));
//Verify Examples.
assert(Date(1999, 1, 6).endOfMonth == Date(1999, 1, 31));
assert(Date(1999, 2, 7).endOfMonth == Date(1999, 2, 28));
assert(Date(2000, 2, 7).endOfMonth == Date(2000, 2, 29));
assert(Date(2000, 6, 4).endOfMonth == Date(2000, 6, 30));
}
}
/++
The last day in the month that this $(D Date) is in.
Examples:
--------------------
assert(Date(1999, 1, 6).endOfMonthDay == 31);
assert(Date(1999, 2, 7).endOfMonthDay == 28);
assert(Date(2000, 2, 7).endOfMonthDay == 29);
assert(Date(2000, 6, 4).endOfMonthDay == 30);
--------------------
+/
@property ubyte endOfMonthDay() const pure nothrow
{
return maxDay(_year, _month);
}
unittest
{
version(testStdDateTime)
{
//Test A.D.
_assertPred!"=="(Date(1999, 1, 1).endOfMonthDay, 31);
_assertPred!"=="(Date(1999, 2, 1).endOfMonthDay, 28);
_assertPred!"=="(Date(2000, 2, 1).endOfMonthDay, 29);
_assertPred!"=="(Date(1999, 3, 1).endOfMonthDay, 31);
_assertPred!"=="(Date(1999, 4, 1).endOfMonthDay, 30);
_assertPred!"=="(Date(1999, 5, 1).endOfMonthDay, 31);
_assertPred!"=="(Date(1999, 6, 1).endOfMonthDay, 30);
_assertPred!"=="(Date(1999, 7, 1).endOfMonthDay, 31);
_assertPred!"=="(Date(1999, 8, 1).endOfMonthDay, 31);
_assertPred!"=="(Date(1999, 9, 1).endOfMonthDay, 30);
_assertPred!"=="(Date(1999, 10, 1).endOfMonthDay, 31);
_assertPred!"=="(Date(1999, 11, 1).endOfMonthDay, 30);
_assertPred!"=="(Date(1999, 12, 1).endOfMonthDay, 31);
//Test B.C.
_assertPred!"=="(Date(-1999, 1, 1).endOfMonthDay, 31);
_assertPred!"=="(Date(-1999, 2, 1).endOfMonthDay, 28);
_assertPred!"=="(Date(-2000, 2, 1).endOfMonthDay, 29);
_assertPred!"=="(Date(-1999, 3, 1).endOfMonthDay, 31);
_assertPred!"=="(Date(-1999, 4, 1).endOfMonthDay, 30);
_assertPred!"=="(Date(-1999, 5, 1).endOfMonthDay, 31);
_assertPred!"=="(Date(-1999, 6, 1).endOfMonthDay, 30);
_assertPred!"=="(Date(-1999, 7, 1).endOfMonthDay, 31);
_assertPred!"=="(Date(-1999, 8, 1).endOfMonthDay, 31);
_assertPred!"=="(Date(-1999, 9, 1).endOfMonthDay, 30);
_assertPred!"=="(Date(-1999, 10, 1).endOfMonthDay, 31);
_assertPred!"=="(Date(-1999, 11, 1).endOfMonthDay, 30);
_assertPred!"=="(Date(-1999, 12, 1).endOfMonthDay, 31);
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(!__traits(compiles, cdate.endOfMonthDay = 30));
static assert(!__traits(compiles, idate.endOfMonthDay = 30));
//Verify Examples.
assert(Date(1999, 1, 6).endOfMonthDay == 31);
assert(Date(1999, 2, 7).endOfMonthDay == 28);
assert(Date(2000, 2, 7).endOfMonthDay == 29);
assert(Date(2000, 6, 4).endOfMonthDay == 30);
}
}
/++
Whether the current year is a date in A.D.
Examples:
--------------------
assert(Date(1, 1, 1).isAD);
assert(Date(2010, 12, 31).isAD);
assert(!Date(0, 12, 31).isAD);
assert(!Date(-2010, 1, 1).isAD);
--------------------
+/
@property bool isAD() const pure nothrow
{
return _year > 0;
}
unittest
{
version(testStdDateTime)
{
assert(Date(2010, 7, 4).isAD);
assert(Date(1, 1, 1).isAD);
assert(!Date(0, 1, 1).isAD);
assert(!Date(-1, 1, 1).isAD);
assert(!Date(-2010, 7, 4).isAD);
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(__traits(compiles, cdate.isAD));
static assert(__traits(compiles, idate.isAD));
//Verify Examples.
assert(Date(1, 1, 1).isAD);
assert(Date(2010, 12, 31).isAD);
assert(!Date(0, 12, 31).isAD);
assert(!Date(-2010, 1, 1).isAD);
}
}
/++
The julian day for this $(D Date) at noon (since the julian day changes
at noon).
+/
@property long julianDay() const pure nothrow
{
return dayOfGregorianCal + 1_721_425;
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(Date(-4713, 11, 24).julianDay, 0);
_assertPred!"=="(Date(0, 12, 31).julianDay, 1_721_425);
_assertPred!"=="(Date(1, 1, 1).julianDay, 1_721_426);
_assertPred!"=="(Date(1582, 10, 15).julianDay, 2_299_161);
_assertPred!"=="(Date(1858, 11, 17).julianDay, 2_400_001);
_assertPred!"=="(Date(1982, 1, 4).julianDay, 2_444_974);
_assertPred!"=="(Date(1996, 3, 31).julianDay, 2_450_174);
_assertPred!"=="(Date(2010, 8, 24).julianDay, 2_455_433);
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(__traits(compiles, cdate.julianDay));
static assert(__traits(compiles, idate.julianDay));
}
}
/++
The modified julian day for any time on this date (since, the modified
julian day changes at midnight).
+/
@property long modJulianDay() const pure nothrow
{
return julianDay - 2_400_001;
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(Date(1858, 11, 17).modJulianDay, 0);
_assertPred!"=="(Date(2010, 8, 24).modJulianDay, 55_432);
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(__traits(compiles, cdate.modJulianDay));
static assert(__traits(compiles, idate.modJulianDay));
}
}
/++
Converts this $(D Date) to a string with the format YYYYMMDD.
Examples:
--------------------
assert(Date(2010, 7, 4).toISOString() == "20100704");
assert(Date(1998, 12, 25).toISOString() == "19981225");
assert(Date(0, 1, 5).toISOString() == "00000105");
assert(Date(-4, 1, 5).toISOString() == "-00040105");
--------------------
+/
string toISOString() const nothrow
{
try
{
if(_year >= 0)
{
if(_year < 10_000)
return format("%04d%02d%02d", _year, _month, _day);
else
return format("+%05d%02d%02d", _year, _month, _day);
}
else if(_year > -10_000)
return format("%05d%02d%02d", _year, _month, _day);
else
return format("%06d%02d%02d", _year, _month, _day);
}
catch(Exception e)
assert(0, "format() threw.");
}
unittest
{
version(testStdDateTime)
{
//Test A.D.
_assertPred!"=="(Date(9, 12, 4).toISOString(), "00091204");
_assertPred!"=="(Date(99, 12, 4).toISOString(), "00991204");
_assertPred!"=="(Date(999, 12, 4).toISOString(), "09991204");
_assertPred!"=="(Date(9999, 7, 4).toISOString(), "99990704");
_assertPred!"=="(Date(10000, 10, 20).toISOString(), "+100001020");
//Test B.C.
_assertPred!"=="(Date(0, 12, 4).toISOString(), "00001204");
_assertPred!"=="(Date(-9, 12, 4).toISOString(), "-00091204");
_assertPred!"=="(Date(-99, 12, 4).toISOString(), "-00991204");
_assertPred!"=="(Date(-999, 12, 4).toISOString(), "-09991204");
_assertPred!"=="(Date(-9999, 7, 4).toISOString(), "-99990704");
_assertPred!"=="(Date(-10000, 10, 20).toISOString(), "-100001020");
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(__traits(compiles, cdate.toISOString()));
static assert(__traits(compiles, idate.toISOString()));
//Verify Examples.
assert(Date(2010, 7, 4).toISOString() == "20100704");
assert(Date(1998, 12, 25).toISOString() == "19981225");
assert(Date(0, 1, 5).toISOString() == "00000105");
assert(Date(-4, 1, 5).toISOString() == "-00040105");
}
}
/++
Converts this $(D Date) to a string with the format YYYY-MM-DD.
Examples:
--------------------
assert(Date(2010, 7, 4).toISOExtString() == "2010-07-04");
assert(Date(1998, 12, 25).toISOExtString() == "1998-12-25");
assert(Date(0, 1, 5).toISOExtString() == "0000-01-05");
assert(Date(-4, 1, 5).toISOExtString() == "-0004-01-05");
--------------------
+/
string toISOExtString() const nothrow
{
try
{
if(_year >= 0)
{
if(_year < 10_000)
return format("%04d-%02d-%02d", _year, _month, _day);
else
return format("+%05d-%02d-%02d", _year, _month, _day);
}
else if(_year > -10_000)
return format("%05d-%02d-%02d", _year, _month, _day);
else
return format("%06d-%02d-%02d", _year, _month, _day);
}
catch(Exception e)
assert(0, "format() threw.");
}
/++
$(RED Scheduled for deprecation. Use toISOExtString instead.)
+/
alias toISOExtString toISOExtendedString;
unittest
{
version(testStdDateTime)
{
//Test A.D.
_assertPred!"=="(Date(9, 12, 4).toISOExtString(), "0009-12-04");
_assertPred!"=="(Date(99, 12, 4).toISOExtString(), "0099-12-04");
_assertPred!"=="(Date(999, 12, 4).toISOExtString(), "0999-12-04");
_assertPred!"=="(Date(9999, 7, 4).toISOExtString(), "9999-07-04");
_assertPred!"=="(Date(10000, 10, 20).toISOExtString(), "+10000-10-20");
//Test B.C.
_assertPred!"=="(Date(0, 12, 4).toISOExtString(), "0000-12-04");
_assertPred!"=="(Date(-9, 12, 4).toISOExtString(), "-0009-12-04");
_assertPred!"=="(Date(-99, 12, 4).toISOExtString(), "-0099-12-04");
_assertPred!"=="(Date(-999, 12, 4).toISOExtString(), "-0999-12-04");
_assertPred!"=="(Date(-9999, 7, 4).toISOExtString(), "-9999-07-04");
_assertPred!"=="(Date(-10000, 10, 20).toISOExtString(), "-10000-10-20");
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(__traits(compiles, cdate.toISOExtString()));
static assert(__traits(compiles, idate.toISOExtString()));
//Verify Examples.
assert(Date(2010, 7, 4).toISOExtString() == "2010-07-04");
assert(Date(1998, 12, 25).toISOExtString() == "1998-12-25");
assert(Date(0, 1, 5).toISOExtString() == "0000-01-05");
assert(Date(-4, 1, 5).toISOExtString() == "-0004-01-05");
}
}
/++
Converts this $(D Date) to a string with the format YYYY-Mon-DD.
Examples:
--------------------
assert(Date(2010, 7, 4).toSimpleString() == "2010-Jul-04");
assert(Date(1998, 12, 25).toSimpleString() == "1998-Dec-25");
assert(Date(0, 1, 5).toSimpleString() == "0000-Jan-05");
assert(Date(-4, 1, 5).toSimpleString() == "-0004-Jan-05");
--------------------
+/
string toSimpleString() const nothrow
{
try
{
if(_year >= 0)
{
if(_year < 10_000)
return format("%04d-%s-%02d", _year, monthToString(_month, false), _day);
else
return format("+%05d-%s-%02d", _year, monthToString(_month, false), _day);
}
else if(_year > -10_000)
return format("%05d-%s-%02d", _year, monthToString(_month, false), _day);
else
return format("%06d-%s-%02d", _year, monthToString(_month, false), _day);
}
catch(Exception e)
assert(0, "format() threw.");
}
unittest
{
version(testStdDateTime)
{
//Test A.D.
_assertPred!"=="(Date(9, 12, 4).toSimpleString(), "0009-Dec-04");
_assertPred!"=="(Date(99, 12, 4).toSimpleString(), "0099-Dec-04");
_assertPred!"=="(Date(999, 12, 4).toSimpleString(), "0999-Dec-04");
_assertPred!"=="(Date(9999, 7, 4).toSimpleString(), "9999-Jul-04");
_assertPred!"=="(Date(10000, 10, 20).toSimpleString(), "+10000-Oct-20");
//Test B.C.
_assertPred!"=="(Date(0, 12, 4).toSimpleString(), "0000-Dec-04");
_assertPred!"=="(Date(-9, 12, 4).toSimpleString(), "-0009-Dec-04");
_assertPred!"=="(Date(-99, 12, 4).toSimpleString(), "-0099-Dec-04");
_assertPred!"=="(Date(-999, 12, 4).toSimpleString(), "-0999-Dec-04");
_assertPred!"=="(Date(-9999, 7, 4).toSimpleString(), "-9999-Jul-04");
_assertPred!"=="(Date(-10000, 10, 20).toSimpleString(), "-10000-Oct-20");
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(__traits(compiles, cdate.toSimpleString()));
static assert(__traits(compiles, idate.toSimpleString()));
//Verify Examples.
assert(Date(2010, 7, 4).toSimpleString() == "2010-Jul-04");
assert(Date(1998, 12, 25).toSimpleString() == "1998-Dec-25");
assert(Date(0, 1, 5).toSimpleString() == "0000-Jan-05");
assert(Date(-4, 1, 5).toSimpleString() == "-0004-Jan-05");
}
}
//TODO Add a function which returns a string in a user-specified format.
/+
Converts this $(D Date) to a string.
+/
//Due to bug http://d.puremagic.com/issues/show_bug.cgi?id=3715 , we can't
//have versions of toString() with extra modifiers, so we define one version
//with modifiers and one without.
string toString()
{
return toSimpleString();
}
/++
Converts this $(D Date) to a string.
+/
//Due to bug http://d.puremagic.com/issues/show_bug.cgi?id=3715 , we can't
//have versions of toString() with extra modifiers, so we define one version
//with modifiers and one without.
string toString() const nothrow
{
return toSimpleString();
}
unittest
{
version(testStdDateTime)
{
auto date = Date(1999, 7, 6);
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(__traits(compiles, date.toString()));
static assert(__traits(compiles, cdate.toString()));
static assert(__traits(compiles, idate.toString()));
}
}
/++
Creates a $(D Date) from a string with the format YYYYMMDD. Whitespace
is stripped from the given string.
Params:
isoString = A string formatted in the ISO format for dates.
Throws:
$(D DateTimeException) if the given string is not in the ISO format
or if the resulting $(D Date) would not be valid.
Examples:
--------------------
assert(Date.fromISOString("20100704") == Date(2010, 7, 4));
assert(Date.fromISOString("19981225") == Date(1998, 12, 25));
assert(Date.fromISOString("00000105") == Date(0, 1, 5));
assert(Date.fromISOString("-00040105") == Date(-4, 1, 5));
assert(Date.fromISOString(" 20100704 ") == Date(2010, 7, 4));
--------------------
+/
static Date fromISOString(S)(in S isoString)
if(isSomeString!S)
{
auto dstr = to!dstring(strip(isoString));
enforce(dstr.length >= 8, new DateTimeException(format("Invalid ISO String: %s", isoString)));
auto day = dstr[$-2 .. $];
auto month = dstr[$-4 .. $-2];
auto year = dstr[0 .. $-4];
enforce(!canFind!(not!isDigit)(day), new DateTimeException(format("Invalid ISO String: %s", isoString)));
enforce(!canFind!(not!isDigit)(month), new DateTimeException(format("Invalid ISO String: %s", isoString)));
if(year.length > 4)
{
enforce(year.startsWith("-") || year.startsWith("+"),
new DateTimeException(format("Invalid ISO String: %s", isoString)));
enforce(!canFind!(not!isDigit)(year[1..$]),
new DateTimeException(format("Invalid ISO String: %s", isoString)));
}
else
enforce(!canFind!(not!isDigit)(year), new DateTimeException(format("Invalid ISO String: %s", isoString)));
return Date(to!short(year), to!ubyte(month), to!ubyte(day));
}
unittest
{
version(testStdDateTime)
{
assertThrown!DateTimeException(Date.fromISOString(""));
assertThrown!DateTimeException(Date.fromISOString("990704"));
assertThrown!DateTimeException(Date.fromISOString("0100704"));
assertThrown!DateTimeException(Date.fromISOString("2010070"));
assertThrown!DateTimeException(Date.fromISOString("2010070 "));
assertThrown!DateTimeException(Date.fromISOString("120100704"));
assertThrown!DateTimeException(Date.fromISOString("-0100704"));
assertThrown!DateTimeException(Date.fromISOString("+0100704"));
assertThrown!DateTimeException(Date.fromISOString("2010070a"));
assertThrown!DateTimeException(Date.fromISOString("20100a04"));
assertThrown!DateTimeException(Date.fromISOString("2010a704"));
assertThrown!DateTimeException(Date.fromISOString("99-07-04"));
assertThrown!DateTimeException(Date.fromISOString("010-07-04"));
assertThrown!DateTimeException(Date.fromISOString("2010-07-0"));
assertThrown!DateTimeException(Date.fromISOString("2010-07-0 "));
assertThrown!DateTimeException(Date.fromISOString("12010-07-04"));
assertThrown!DateTimeException(Date.fromISOString("-010-07-04"));
assertThrown!DateTimeException(Date.fromISOString("+010-07-04"));
assertThrown!DateTimeException(Date.fromISOString("2010-07-0a"));
assertThrown!DateTimeException(Date.fromISOString("2010-0a-04"));
assertThrown!DateTimeException(Date.fromISOString("2010-a7-04"));
assertThrown!DateTimeException(Date.fromISOString("2010/07/04"));
assertThrown!DateTimeException(Date.fromISOString("2010/7/04"));
assertThrown!DateTimeException(Date.fromISOString("2010/7/4"));
assertThrown!DateTimeException(Date.fromISOString("2010/07/4"));
assertThrown!DateTimeException(Date.fromISOString("2010-7-04"));
assertThrown!DateTimeException(Date.fromISOString("2010-7-4"));
assertThrown!DateTimeException(Date.fromISOString("2010-07-4"));
assertThrown!DateTimeException(Date.fromISOString("99Jul04"));
assertThrown!DateTimeException(Date.fromISOString("010Jul04"));
assertThrown!DateTimeException(Date.fromISOString("2010Jul0"));
assertThrown!DateTimeException(Date.fromISOString("2010Jul0 "));
assertThrown!DateTimeException(Date.fromISOString("12010Jul04"));
assertThrown!DateTimeException(Date.fromISOString("-010Jul04"));
assertThrown!DateTimeException(Date.fromISOString("+010Jul04"));
assertThrown!DateTimeException(Date.fromISOString("2010Jul0a"));
assertThrown!DateTimeException(Date.fromISOString("2010Jua04"));
assertThrown!DateTimeException(Date.fromISOString("2010aul04"));
assertThrown!DateTimeException(Date.fromISOString("99-Jul-04"));
assertThrown!DateTimeException(Date.fromISOString("010-Jul-04"));
assertThrown!DateTimeException(Date.fromISOString("2010-Jul-0"));
assertThrown!DateTimeException(Date.fromISOString("2010-Jul-0 "));
assertThrown!DateTimeException(Date.fromISOString("12010-Jul-04"));
assertThrown!DateTimeException(Date.fromISOString("-010-Jul-04"));
assertThrown!DateTimeException(Date.fromISOString("+010-Jul-04"));
assertThrown!DateTimeException(Date.fromISOString("2010-Jul-0a"));
assertThrown!DateTimeException(Date.fromISOString("2010-Jua-04"));
assertThrown!DateTimeException(Date.fromISOString("2010-Jal-04"));
assertThrown!DateTimeException(Date.fromISOString("2010-aul-04"));
assertThrown!DateTimeException(Date.fromISOString("2010-07-04"));
assertThrown!DateTimeException(Date.fromISOString("2010-Jul-04"));
_assertPred!"=="(Date.fromISOString("19990706"), Date(1999, 7, 6));
_assertPred!"=="(Date.fromISOString("-19990706"), Date(-1999, 7, 6));
_assertPred!"=="(Date.fromISOString("+019990706"), Date(1999, 7, 6));
_assertPred!"=="(Date.fromISOString("19990706 "), Date(1999, 7, 6));
_assertPred!"=="(Date.fromISOString(" 19990706"), Date(1999, 7, 6));
_assertPred!"=="(Date.fromISOString(" 19990706 "), Date(1999, 7, 6));
//Verify Examples.
assert(Date.fromISOString("20100704") == Date(2010, 7, 4));
assert(Date.fromISOString("19981225") == Date(1998, 12, 25));
assert(Date.fromISOString("00000105") == Date(0, 1, 5));
assert(Date.fromISOString("-00040105") == Date(-4, 1, 5));
assert(Date.fromISOString(" 20100704 ") == Date(2010, 7, 4));
}
}
/++
Creates a $(D Date) from a string with the format YYYY-MM-DD. Whitespace
is stripped from the given string.
Params:
isoExtString = A string formatted in the ISO Extended format for
dates.
Throws:
$(D DateTimeException) if the given string is not in the ISO
Extended format or if the resulting $(D Date) would not be valid.
Examples:
--------------------
assert(Date.fromISOExtString("2010-07-04") == Date(2010, 7, 4));
assert(Date.fromISOExtString("1998-12-25") == Date(1998, 12, 25));
assert(Date.fromISOExtString("0000-01-05") == Date(0, 1, 5));
assert(Date.fromISOExtString("-0004-01-05") == Date(-4, 1, 5));
assert(Date.fromISOExtString(" 2010-07-04 ") == Date(2010, 7, 4));
--------------------
+/
static Date fromISOExtString(S)(in S isoExtString)
if(isSomeString!(S))
{
auto dstr = to!dstring(strip(isoExtString));
enforce(dstr.length >= 10, new DateTimeException(format("Invalid ISO Extended String: %s", isoExtString)));
auto day = dstr[$-2 .. $];
auto month = dstr[$-5 .. $-3];
auto year = dstr[0 .. $-6];
enforce(dstr[$-3] == '-', new DateTimeException(format("Invalid ISO Extended String: %s", isoExtString)));
enforce(dstr[$-6] == '-', new DateTimeException(format("Invalid ISO Extended String: %s", isoExtString)));
enforce(!canFind!(not!isDigit)(day),
new DateTimeException(format("Invalid ISO Extended String: %s", isoExtString)));
enforce(!canFind!(not!isDigit)(month),
new DateTimeException(format("Invalid ISO Extended String: %s", isoExtString)));
if(year.length > 4)
{
enforce(year.startsWith("-") || year.startsWith("+"),
new DateTimeException(format("Invalid ISO Extended String: %s", isoExtString)));
enforce(!canFind!(not!isDigit)(year[1..$]),
new DateTimeException(format("Invalid ISO Extended String: %s", isoExtString)));
}
else
enforce(!canFind!(not!isDigit)(year),
new DateTimeException(format("Invalid ISO Extended String: %s", isoExtString)));
return Date(to!short(year), to!ubyte(month), to!ubyte(day));
}
/++
$(RED Scheduled for deprecation. Use fromISOExtString instead.)
+/
static Date fromISOExtendedString(S)(in S isoExtString)
if(isSomeString!(S))
{
pragma(msg, "fromISOExtendedString has been scheduled for deprecation. " ~
"Use fromISOExtString instead.");
return fromISOExtString!string(isoExtString);
}
unittest
{
version(testStdDateTime)
{
assertThrown!DateTimeException(Date.fromISOExtString(""));
assertThrown!DateTimeException(Date.fromISOExtString("990704"));
assertThrown!DateTimeException(Date.fromISOExtString("0100704"));
assertThrown!DateTimeException(Date.fromISOExtString("2010070"));
assertThrown!DateTimeException(Date.fromISOExtString("2010070 "));
assertThrown!DateTimeException(Date.fromISOExtString("120100704"));
assertThrown!DateTimeException(Date.fromISOExtString("-0100704"));
assertThrown!DateTimeException(Date.fromISOExtString("+0100704"));
assertThrown!DateTimeException(Date.fromISOExtString("2010070a"));
assertThrown!DateTimeException(Date.fromISOExtString("20100a04"));
assertThrown!DateTimeException(Date.fromISOExtString("2010a704"));
assertThrown!DateTimeException(Date.fromISOExtString("99-07-04"));
assertThrown!DateTimeException(Date.fromISOExtString("010-07-04"));
assertThrown!DateTimeException(Date.fromISOExtString("2010-07-0"));
assertThrown!DateTimeException(Date.fromISOExtString("2010-07-0 "));
assertThrown!DateTimeException(Date.fromISOExtString("12010-07-04"));
assertThrown!DateTimeException(Date.fromISOExtString("-010-07-04"));
assertThrown!DateTimeException(Date.fromISOExtString("+010-07-04"));
assertThrown!DateTimeException(Date.fromISOExtString("2010-07-0a"));
assertThrown!DateTimeException(Date.fromISOExtString("2010-0a-04"));
assertThrown!DateTimeException(Date.fromISOExtString("2010-a7-04"));
assertThrown!DateTimeException(Date.fromISOExtString("2010/07/04"));
assertThrown!DateTimeException(Date.fromISOExtString("2010/7/04"));
assertThrown!DateTimeException(Date.fromISOExtString("2010/7/4"));
assertThrown!DateTimeException(Date.fromISOExtString("2010/07/4"));
assertThrown!DateTimeException(Date.fromISOExtString("2010-7-04"));
assertThrown!DateTimeException(Date.fromISOExtString("2010-7-4"));
assertThrown!DateTimeException(Date.fromISOExtString("2010-07-4"));
assertThrown!DateTimeException(Date.fromISOExtString("99Jul04"));
assertThrown!DateTimeException(Date.fromISOExtString("010Jul04"));
assertThrown!DateTimeException(Date.fromISOExtString("2010Jul0"));
assertThrown!DateTimeException(Date.fromISOExtString("2010-Jul-0 "));
assertThrown!DateTimeException(Date.fromISOExtString("12010Jul04"));
assertThrown!DateTimeException(Date.fromISOExtString("-010Jul04"));
assertThrown!DateTimeException(Date.fromISOExtString("+010Jul04"));
assertThrown!DateTimeException(Date.fromISOExtString("2010Jul0a"));
assertThrown!DateTimeException(Date.fromISOExtString("2010Jua04"));
assertThrown!DateTimeException(Date.fromISOExtString("2010aul04"));
assertThrown!DateTimeException(Date.fromISOExtString("99-Jul-04"));
assertThrown!DateTimeException(Date.fromISOExtString("010-Jul-04"));
assertThrown!DateTimeException(Date.fromISOExtString("2010-Jul-0"));
assertThrown!DateTimeException(Date.fromISOExtString("2010Jul0 "));
assertThrown!DateTimeException(Date.fromISOExtString("12010-Jul-04"));
assertThrown!DateTimeException(Date.fromISOExtString("-010-Jul-04"));
assertThrown!DateTimeException(Date.fromISOExtString("+010-Jul-04"));
assertThrown!DateTimeException(Date.fromISOExtString("2010-Jul-0a"));
assertThrown!DateTimeException(Date.fromISOExtString("2010-Jua-04"));
assertThrown!DateTimeException(Date.fromISOExtString("2010-Jal-04"));
assertThrown!DateTimeException(Date.fromISOExtString("2010-aul-04"));
assertThrown!DateTimeException(Date.fromISOExtString("20100704"));
assertThrown!DateTimeException(Date.fromISOExtString("2010-Jul-04"));
_assertPred!"=="(Date.fromISOExtString("1999-07-06"), Date(1999, 7, 6));
_assertPred!"=="(Date.fromISOExtString("-1999-07-06"), Date(-1999, 7, 6));
_assertPred!"=="(Date.fromISOExtString("+01999-07-06"), Date(1999, 7, 6));
_assertPred!"=="(Date.fromISOExtString("1999-07-06 "), Date(1999, 7, 6));
_assertPred!"=="(Date.fromISOExtString(" 1999-07-06"), Date(1999, 7, 6));
_assertPred!"=="(Date.fromISOExtString(" 1999-07-06 "), Date(1999, 7, 6));
//Verify Examples.
assert(Date.fromISOExtString("2010-07-04") == Date(2010, 7, 4));
assert(Date.fromISOExtString("1998-12-25") == Date(1998, 12, 25));
assert(Date.fromISOExtString("0000-01-05") == Date(0, 1, 5));
assert(Date.fromISOExtString("-0004-01-05") == Date(-4, 1, 5));
assert(Date.fromISOExtString(" 2010-07-04 ") == Date(2010, 7, 4));
}
}
/++
Creates a $(D Date) from a string with the format YYYY-Mon-DD.
Whitespace is stripped from the given string.
Params:
simpleString = A string formatted in the way that toSimpleString
formats dates.
Throws:
$(D DateTimeException) if the given string is not in the correct
format or if the resulting $(D Date) would not be valid.
Examples:
--------------------
assert(Date.fromSimpleString("2010-Jul-04") == Date(2010, 7, 4));
assert(Date.fromSimpleString("1998-Dec-25") == Date(1998, 12, 25));
assert(Date.fromSimpleString("0000-Jan-05") == Date(0, 1, 5));
assert(Date.fromSimpleString("-0004-Jan-05") == Date(-4, 1, 5));
assert(Date.fromSimpleString(" 2010-Jul-04 ") == Date(2010, 7, 4));
--------------------
+/
static Date fromSimpleString(S)(in S simpleString)
if(isSomeString!(S))
{
auto dstr = to!dstring(strip(simpleString));
enforce(dstr.length >= 11, new DateTimeException(format("Invalid string format: %s", simpleString)));
auto day = dstr[$-2 .. $];
auto month = monthFromString(to!string(dstr[$-6 .. $-3]));
auto year = dstr[0 .. $-7];
enforce(dstr[$-3] == '-', new DateTimeException(format("Invalid string format: %s", simpleString)));
enforce(dstr[$-7] == '-', new DateTimeException(format("Invalid string format: %s", simpleString)));
enforce(!canFind!(not!isDigit)(day), new DateTimeException(format("Invalid string format: %s", simpleString)));
if(year.length > 4)
{
enforce(year.startsWith("-") || year.startsWith("+"),
new DateTimeException(format("Invalid string format: %s", simpleString)));
enforce(!canFind!(not!isDigit)(year[1..$]),
new DateTimeException(format("Invalid string format: %s", simpleString)));
}
else
enforce(!canFind!(not!isDigit)(year),
new DateTimeException(format("Invalid string format: %s", simpleString)));
return Date(to!short(year), month, to!ubyte(day));
}
unittest
{
version(testStdDateTime)
{
assertThrown!DateTimeException(Date.fromSimpleString(""));
assertThrown!DateTimeException(Date.fromSimpleString("990704"));
assertThrown!DateTimeException(Date.fromSimpleString("0100704"));
assertThrown!DateTimeException(Date.fromSimpleString("2010070"));
assertThrown!DateTimeException(Date.fromSimpleString("2010070 "));
assertThrown!DateTimeException(Date.fromSimpleString("120100704"));
assertThrown!DateTimeException(Date.fromSimpleString("-0100704"));
assertThrown!DateTimeException(Date.fromSimpleString("+0100704"));
assertThrown!DateTimeException(Date.fromSimpleString("2010070a"));
assertThrown!DateTimeException(Date.fromSimpleString("20100a04"));
assertThrown!DateTimeException(Date.fromSimpleString("2010a704"));
assertThrown!DateTimeException(Date.fromSimpleString("99-07-04"));
assertThrown!DateTimeException(Date.fromSimpleString("010-07-04"));
assertThrown!DateTimeException(Date.fromSimpleString("2010-07-0"));
assertThrown!DateTimeException(Date.fromSimpleString("2010-07-0 "));
assertThrown!DateTimeException(Date.fromSimpleString("12010-07-04"));
assertThrown!DateTimeException(Date.fromSimpleString("-010-07-04"));
assertThrown!DateTimeException(Date.fromSimpleString("+010-07-04"));
assertThrown!DateTimeException(Date.fromSimpleString("2010-07-0a"));
assertThrown!DateTimeException(Date.fromSimpleString("2010-0a-04"));
assertThrown!DateTimeException(Date.fromSimpleString("2010-a7-04"));
assertThrown!DateTimeException(Date.fromSimpleString("2010/07/04"));
assertThrown!DateTimeException(Date.fromSimpleString("2010/7/04"));
assertThrown!DateTimeException(Date.fromSimpleString("2010/7/4"));
assertThrown!DateTimeException(Date.fromSimpleString("2010/07/4"));
assertThrown!DateTimeException(Date.fromSimpleString("2010-7-04"));
assertThrown!DateTimeException(Date.fromSimpleString("2010-7-4"));
assertThrown!DateTimeException(Date.fromSimpleString("2010-07-4"));
assertThrown!DateTimeException(Date.fromSimpleString("99Jul04"));
assertThrown!DateTimeException(Date.fromSimpleString("010Jul04"));
assertThrown!DateTimeException(Date.fromSimpleString("2010Jul0"));
assertThrown!DateTimeException(Date.fromSimpleString("2010Jul0 "));
assertThrown!DateTimeException(Date.fromSimpleString("12010Jul04"));
assertThrown!DateTimeException(Date.fromSimpleString("-010Jul04"));
assertThrown!DateTimeException(Date.fromSimpleString("+010Jul04"));
assertThrown!DateTimeException(Date.fromSimpleString("2010Jul0a"));
assertThrown!DateTimeException(Date.fromSimpleString("2010Jua04"));
assertThrown!DateTimeException(Date.fromSimpleString("2010aul04"));
assertThrown!DateTimeException(Date.fromSimpleString("99-Jul-04"));
assertThrown!DateTimeException(Date.fromSimpleString("010-Jul-04"));
assertThrown!DateTimeException(Date.fromSimpleString("2010-Jul-0"));
assertThrown!DateTimeException(Date.fromSimpleString("2010-Jul-0 "));
assertThrown!DateTimeException(Date.fromSimpleString("12010-Jul-04"));
assertThrown!DateTimeException(Date.fromSimpleString("-010-Jul-04"));
assertThrown!DateTimeException(Date.fromSimpleString("+010-Jul-04"));
assertThrown!DateTimeException(Date.fromSimpleString("2010-Jul-0a"));
assertThrown!DateTimeException(Date.fromSimpleString("2010-Jua-04"));
assertThrown!DateTimeException(Date.fromSimpleString("2010-Jal-04"));
assertThrown!DateTimeException(Date.fromSimpleString("2010-aul-04"));
assertThrown!DateTimeException(Date.fromSimpleString("20100704"));
assertThrown!DateTimeException(Date.fromSimpleString("2010-07-04"));
_assertPred!"=="(Date.fromSimpleString("1999-Jul-06"), Date(1999, 7, 6));
_assertPred!"=="(Date.fromSimpleString("-1999-Jul-06"), Date(-1999, 7, 6));
_assertPred!"=="(Date.fromSimpleString("+01999-Jul-06"), Date(1999, 7, 6));
_assertPred!"=="(Date.fromSimpleString("1999-Jul-06 "), Date(1999, 7, 6));
_assertPred!"=="(Date.fromSimpleString(" 1999-Jul-06"), Date(1999, 7, 6));
_assertPred!"=="(Date.fromSimpleString(" 1999-Jul-06 "), Date(1999, 7, 6));
//Verify Examples.
assert(Date.fromSimpleString("2010-Jul-04") == Date(2010, 7, 4));
assert(Date.fromSimpleString("1998-Dec-25") == Date(1998, 12, 25));
assert(Date.fromSimpleString("0000-Jan-05") == Date(0, 1, 5));
assert(Date.fromSimpleString("-0004-Jan-05") == Date(-4, 1, 5));
assert(Date.fromSimpleString(" 2010-Jul-04 ") == Date(2010, 7, 4));
}
}
//TODO Add function which takes a user-specified time format and produces a Date
//TODO Add function which takes pretty much any time-string and produces a Date
// Obviously, it will be less efficient, and it probably won't manage _every_
// possible date format, but a smart conversion function would be nice.
/++
Returns the $(D Date) farthest in the past which is representable by
$(D Date).
+/
@property static Date min() pure nothrow
{
auto date = Date.init;
date._year = short.min;
date._month = Month.jan;
date._day = 1;
return date;
}
unittest
{
version(testStdDateTime)
{
assert(Date.min.year < 0);
assert(Date.min < Date.max);
}
}
/++
Returns the $(D Date) farthest in the future which is representable by
$(D Date).
+/
@property static Date max() pure nothrow
{
auto date = Date.init;
date._year = short.max;
date._month = Month.dec;
date._day = 31;
return date;
}
unittest
{
version(testStdDateTime)
{
assert(Date.max.year > 0);
assert(Date.max > Date.min);
}
}
private:
/+
Whether the given values form a valid date.
Params:
year = The year to test.
month = The month of the Gregorian Calendar to test.
day = The day of the month to test.
+/
static bool _valid(int year, int month, int day) pure nothrow
{
if(!valid!"months"(month))
return false;
return valid!"days"(year, month, day);
}
/+
Adds the given number of days to this $(D Date). A negative number will
subtract.
The month will be adjusted along with the day if the number of days
added (or subtracted) would overflow (or underflow) the current month.
The year will be adjusted along with the month if the increase (or
decrease) to the month would cause it to overflow (or underflow) the
current year.
$(D addDays(numDays)) is effectively equivalent to
$(D date.dayOfGregorianCal = date.dayOfGregorianCal + days).
Params:
days = The number of days to add to this Date.
+/
ref Date addDays(long days) pure nothrow
{
dayOfGregorianCal = cast(int)(dayOfGregorianCal + days);
return this;
}
unittest
{
version(testStdDateTime)
{
//Test A.D.
{
auto date = Date(1999, 2, 28);
date.addDays(1);
_assertPred!"=="(date, Date(1999, 3, 1));
date.addDays(-1);
_assertPred!"=="(date, Date(1999, 2, 28));
}
{
auto date = Date(2000, 2, 28);
date.addDays(1);
_assertPred!"=="(date, Date(2000, 2, 29));
date.addDays(1);
_assertPred!"=="(date, Date(2000, 3, 1));
date.addDays(-1);
_assertPred!"=="(date, Date(2000, 2, 29));
}
{
auto date = Date(1999, 6, 30);
date.addDays(1);
_assertPred!"=="(date, Date(1999, 7, 1));
date.addDays(-1);
_assertPred!"=="(date, Date(1999, 6, 30));
}
{
auto date = Date(1999, 7, 31);
date.addDays(1);
_assertPred!"=="(date, Date(1999, 8, 1));
date.addDays(-1);
_assertPred!"=="(date, Date(1999, 7, 31));
}
{
auto date = Date(1999, 1, 1);
date.addDays(-1);
_assertPred!"=="(date, Date(1998, 12, 31));
date.addDays(1);
_assertPred!"=="(date, Date(1999, 1, 1));
}
{
auto date = Date(1999, 7, 6);
date.addDays(9);
_assertPred!"=="(date, Date(1999, 7, 15));
date.addDays(-11);
_assertPred!"=="(date, Date(1999, 7, 4));
date.addDays(30);
_assertPred!"=="(date, Date(1999, 8, 3));
date.addDays(-3);
_assertPred!"=="(date, Date(1999, 7, 31));
}
{
auto date = Date(1999, 7, 6);
date.addDays(365);
_assertPred!"=="(date, Date(2000, 7, 5));
date.addDays(-365);
_assertPred!"=="(date, Date(1999, 7, 6));
date.addDays(366);
_assertPred!"=="(date, Date(2000, 7, 6));
date.addDays(730);
_assertPred!"=="(date, Date(2002, 7, 6));
date.addDays(-1096);
_assertPred!"=="(date, Date(1999, 7, 6));
}
//Test B.C.
{
auto date = Date(-1999, 2, 28);
date.addDays(1);
_assertPred!"=="(date, Date(-1999, 3, 1));
date.addDays(-1);
_assertPred!"=="(date, Date(-1999, 2, 28));
}
{
auto date = Date(-2000, 2, 28);
date.addDays(1);
_assertPred!"=="(date, Date(-2000, 2, 29));
date.addDays(1);
_assertPred!"=="(date, Date(-2000, 3, 1));
date.addDays(-1);
_assertPred!"=="(date, Date(-2000, 2, 29));
}
{
auto date = Date(-1999, 6, 30);
date.addDays(1);
_assertPred!"=="(date, Date(-1999, 7, 1));
date.addDays(-1);
_assertPred!"=="(date, Date(-1999, 6, 30));
}
{
auto date = Date(-1999, 7, 31);
date.addDays(1);
_assertPred!"=="(date, Date(-1999, 8, 1));
date.addDays(-1);
_assertPred!"=="(date, Date(-1999, 7, 31));
}
{
auto date = Date(-1999, 1, 1);
date.addDays(-1);
_assertPred!"=="(date, Date(-2000, 12, 31));
date.addDays(1);
_assertPred!"=="(date, Date(-1999, 1, 1));
}
{
auto date = Date(-1999, 7, 6);
date.addDays(9);
_assertPred!"=="(date, Date(-1999, 7, 15));
date.addDays(-11);
_assertPred!"=="(date, Date(-1999, 7, 4));
date.addDays(30);
_assertPred!"=="(date, Date(-1999, 8, 3));
date.addDays(-3);
}
{
auto date = Date(-1999, 7, 6);
date.addDays(365);
_assertPred!"=="(date, Date(-1998, 7, 6));
date.addDays(-365);
_assertPred!"=="(date, Date(-1999, 7, 6));
date.addDays(366);
_assertPred!"=="(date, Date(-1998, 7, 7));
date.addDays(730);
_assertPred!"=="(date, Date(-1996, 7, 6));
date.addDays(-1096);
_assertPred!"=="(date, Date(-1999, 7, 6));
}
//Test Both
{
auto date = Date(1, 7, 6);
date.addDays(-365);
_assertPred!"=="(date, Date(0, 7, 6));
date.addDays(365);
_assertPred!"=="(date, Date(1, 7, 6));
date.addDays(-731);
_assertPred!"=="(date, Date(-1, 7, 6));
date.addDays(730);
_assertPred!"=="(date, Date(1, 7, 5));
}
const cdate = Date(1999, 7, 6);
immutable idate = Date(1999, 7, 6);
static assert(!__traits(compiles, cdate.addDays(12)));
static assert(!__traits(compiles, idate.addDays(12)));
}
}
pure invariant()
{
assert(valid!"months"(_month), "Invariant Failure: year [" ~
numToString(_year) ~
"] month [" ~
numToString(_month) ~
"] day [" ~
numToString(_day) ~
"]");
assert(valid!"days"(_year, _month, _day), "Invariant Failure: year [" ~
numToString(_year) ~
"] month [" ~
numToString(_month) ~
"] day [" ~
numToString(_day) ~
"]");
}
short _year = 1;
Month _month = Month.jan;
ubyte _day = 1;
}
/++
Represents a time of day with hours, minutes, and seconds. It uses 24 hour
time.
+/
struct TimeOfDay
{
public:
/++
Params:
hour = Hour of the day [0 - 24$(RPAREN).
minute = Minute of the hour [0 - 60$(RPAREN).
second = Second of the minute [0 - 60$(RPAREN).
Throws:
$(D DateTimeException) if the resulting $(D TimeOfDay) would be not
be valid.
+/
this(int hour, int minute, int second = 0) pure
{
enforceValid!"hours"(hour);
enforceValid!"minutes"(minute);
enforceValid!"seconds"(second);
_hour = cast(ubyte)hour;
_minute = cast(ubyte)minute;
_second = cast(ubyte)second;
}
unittest
{
version(testStdDateTime)
{
assert(TimeOfDay(0, 0) == TimeOfDay.init);
{
auto tod = TimeOfDay(0, 0);
_assertPred!"=="(tod._hour, 0);
_assertPred!"=="(tod._minute, 0);
_assertPred!"=="(tod._second, 0);
}
{
auto tod = TimeOfDay(12, 30, 33);
_assertPred!"=="(tod._hour, 12);
_assertPred!"=="(tod._minute, 30);
_assertPred!"=="(tod._second, 33);
}
{
auto tod = TimeOfDay(23, 59, 59);
_assertPred!"=="(tod._hour, 23);
_assertPred!"=="(tod._minute, 59);
_assertPred!"=="(tod._second, 59);
}
assertThrown!DateTimeException(TimeOfDay(24, 0, 0));
assertThrown!DateTimeException(TimeOfDay(0, 60, 0));
assertThrown!DateTimeException(TimeOfDay(0, 0, 60));
}
}
/++
Compares this $(D TimeOfDay) with the given $(D TimeOfDay).
Returns:
$(TABLE
$(TR $(TD this &lt; rhs) $(TD &lt; 0))
$(TR $(TD this == rhs) $(TD 0))
$(TR $(TD this &gt; rhs) $(TD &gt; 0))
)
+/
int opCmp(in TimeOfDay rhs) const pure nothrow
{
if(_hour < rhs._hour)
return -1;
if(_hour > rhs._hour)
return 1;
if(_minute < rhs._minute)
return -1;
if(_minute > rhs._minute)
return 1;
if(_second < rhs._second)
return -1;
if(_second > rhs._second)
return 1;
return 0;
}
unittest
{
version(testStdDateTime)
{
_assertPred!("opCmp", "==")(TimeOfDay(0, 0, 0), TimeOfDay.init);
_assertPred!("opCmp", "==")(TimeOfDay(0, 0, 0), TimeOfDay(0, 0, 0));
_assertPred!("opCmp", "==")(TimeOfDay(12, 0, 0), TimeOfDay(12, 0, 0));
_assertPred!("opCmp", "==")(TimeOfDay(0, 30, 0), TimeOfDay(0, 30, 0));
_assertPred!("opCmp", "==")(TimeOfDay(0, 0, 33), TimeOfDay(0, 0, 33));
_assertPred!("opCmp", "==")(TimeOfDay(12, 30, 0), TimeOfDay(12, 30, 0));
_assertPred!("opCmp", "==")(TimeOfDay(12, 30, 33), TimeOfDay(12, 30, 33));
_assertPred!("opCmp", "==")(TimeOfDay(0, 30, 33), TimeOfDay(0, 30, 33));
_assertPred!("opCmp", "==")(TimeOfDay(0, 0, 33), TimeOfDay(0, 0, 33));
_assertPred!("opCmp", "<")(TimeOfDay(12, 30, 33), TimeOfDay(13, 30, 33));
_assertPred!("opCmp", ">")(TimeOfDay(13, 30, 33), TimeOfDay(12, 30, 33));
_assertPred!("opCmp", "<")(TimeOfDay(12, 30, 33), TimeOfDay(12, 31, 33));
_assertPred!("opCmp", ">")(TimeOfDay(12, 31, 33), TimeOfDay(12, 30, 33));
_assertPred!("opCmp", "<")(TimeOfDay(12, 30, 33), TimeOfDay(12, 30, 34));
_assertPred!("opCmp", ">")(TimeOfDay(12, 30, 34), TimeOfDay(12, 30, 33));
_assertPred!("opCmp", ">")(TimeOfDay(13, 30, 33), TimeOfDay(12, 30, 34));
_assertPred!("opCmp", "<")(TimeOfDay(12, 30, 34), TimeOfDay(13, 30, 33));
_assertPred!("opCmp", ">")(TimeOfDay(13, 30, 33), TimeOfDay(12, 31, 33));
_assertPred!("opCmp", "<")(TimeOfDay(12, 31, 33), TimeOfDay(13, 30, 33));
_assertPred!("opCmp", ">")(TimeOfDay(12, 31, 33), TimeOfDay(12, 30, 34));
_assertPred!("opCmp", "<")(TimeOfDay(12, 30, 34), TimeOfDay(12, 31, 33));
const ctod = TimeOfDay(12, 30, 33);
immutable itod = TimeOfDay(12, 30, 33);
static assert(__traits(compiles, ctod.opCmp(itod)));
static assert(__traits(compiles, itod.opCmp(ctod)));
}
}
/++
Hours passed midnight.
+/
@property ubyte hour() const pure nothrow
{
return _hour;
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(TimeOfDay.init.hour, 0);
_assertPred!"=="(TimeOfDay(12, 0, 0).hour, 12);
const ctod = TimeOfDay(12, 0, 0);
immutable itod = TimeOfDay(12, 0, 0);
static assert(__traits(compiles, ctod.hour == 12));
static assert(__traits(compiles, itod.hour == 12));
}
}
/++
Hours passed midnight.
Params:
hour = The hour of the day to set this $(D TimeOfDay)'s hour to.
Throws:
$(D DateTimeException) if the given hour would result in an invalid
$(D TimeOfDay).
+/
@property void hour(int hour) pure
{
enforceValid!"hours"(hour);
_hour = cast(ubyte)hour;
}
unittest
{
version(testStdDateTime)
{
assertThrown!DateTimeException((){TimeOfDay(0, 0, 0).hour = 24;}());
auto tod = TimeOfDay(0, 0, 0);
tod.hour = 12;
_assertPred!"=="(tod, TimeOfDay(12, 0, 0));
const ctod = TimeOfDay(0, 0, 0);
immutable itod = TimeOfDay(0, 0, 0);
static assert(!__traits(compiles, ctod.hour = 12));
static assert(!__traits(compiles, itod.hour = 12));
}
}
/++
Minutes passed the hour.
+/
@property ubyte minute() const pure nothrow
{
return _minute;
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(TimeOfDay.init.minute, 0);
_assertPred!"=="(TimeOfDay(0, 30, 0).minute, 30);
const ctod = TimeOfDay(0, 30, 0);
immutable itod = TimeOfDay(0, 30, 0);
static assert(__traits(compiles, ctod.minute == 30));
static assert(__traits(compiles, itod.minute == 30));
}
}
/++
Minutes passed the hour.
Params:
minute = The minute to set this $(D TimeOfDay)'s minute to.
Throws:
$(D DateTimeException) if the given minute would result in an
invalid $(D TimeOfDay).
+/
@property void minute(int minute) pure
{
enforceValid!"minutes"(minute);
_minute = cast(ubyte)minute;
}
unittest
{
version(testStdDateTime)
{
assertThrown!DateTimeException((){TimeOfDay(0, 0, 0).minute = 60;}());
auto tod = TimeOfDay(0, 0, 0);
tod.minute = 30;
_assertPred!"=="(tod, TimeOfDay(0, 30, 0));
const ctod = TimeOfDay(0, 0, 0);
immutable itod = TimeOfDay(0, 0, 0);
static assert(!__traits(compiles, ctod.minute = 30));
static assert(!__traits(compiles, itod.minute = 30));
}
}
/++
Seconds passed the minute.
+/
@property ubyte second() const pure nothrow
{
return _second;
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(TimeOfDay.init.second, 0);
_assertPred!"=="(TimeOfDay(0, 0, 33).second, 33);
const ctod = TimeOfDay(0, 0, 33);
immutable itod = TimeOfDay(0, 0, 33);
static assert(__traits(compiles, ctod.second == 33));
static assert(__traits(compiles, itod.second == 33));
}
}
/++
Seconds passed the minute.
Params:
second = The second to set this $(D TimeOfDay)'s second to.
Throws:
$(D DateTimeException) if the given second would result in an
invalid $(D TimeOfDay).
+/
@property void second(int second) pure
{
enforceValid!"seconds"(second);
_second = cast(ubyte)second;
}
unittest
{
version(testStdDateTime)
{
assertThrown!DateTimeException((){TimeOfDay(0, 0, 0).second = 60;}());
auto tod = TimeOfDay(0, 0, 0);
tod.second = 33;
_assertPred!"=="(tod, TimeOfDay(0, 0, 33));
const ctod = TimeOfDay(0, 0, 0);
immutable itod = TimeOfDay(0, 0, 0);
static assert(!__traits(compiles, ctod.second = 33));
static assert(!__traits(compiles, itod.second = 33));
}
}
/++
Adds the given number of units to this $(D TimeOfDay). A negative number
will subtract.
The difference between rolling and adding is that rolling does not
affect larger units. So, for instance, if you roll a $(D TimeOfDay)
one hours's worth of minutes, then you get the exact same
$(D TimeOfDay).
Accepted units are $(D "hours"), $(D "minutes"), and $(D "seconds").
Params:
units = The units to add.
value = The number of $(D_PARAM units) to add to this
$(D TimeOfDay).
Examples:
--------------------
auto tod1 = TimeOfDay(7, 12, 0);
tod1.roll!"hours"(1);
assert(tod1 == TimeOfDay(8, 12, 0));
auto tod2 = TimeOfDay(7, 12, 0);
tod2.roll!"hours"(-1);
assert(tod2 == TimeOfDay(6, 12, 0));
auto tod3 = TimeOfDay(23, 59, 0);
tod3.roll!"minutes"(1);
assert(tod3 == TimeOfDay(23, 0, 0));
auto tod4 = TimeOfDay(0, 0, 0);
tod4.roll!"minutes"(-1);
assert(tod4 == TimeOfDay(0, 59, 0));
auto tod5 = TimeOfDay(23, 59, 59);
tod5.roll!"seconds"(1);
assert(tod5 == TimeOfDay(23, 59, 0));
auto tod6 = TimeOfDay(0, 0, 0);
tod6.roll!"seconds"(-1);
assert(tod6 == TimeOfDay(0, 0, 59));
--------------------
+/
/+ref TimeOfDay+/ void roll(string units)(long value) pure nothrow
if(units == "hours")
{
this += dur!"hours"(value);
}
//Verify Examples.
unittest
{
version(testStdDateTime)
{
auto tod1 = TimeOfDay(7, 12, 0);
tod1.roll!"hours"(1);
assert(tod1 == TimeOfDay(8, 12, 0));
auto tod2 = TimeOfDay(7, 12, 0);
tod2.roll!"hours"(-1);
assert(tod2 == TimeOfDay(6, 12, 0));
auto tod3 = TimeOfDay(23, 59, 0);
tod3.roll!"minutes"(1);
assert(tod3 == TimeOfDay(23, 0, 0));
auto tod4 = TimeOfDay(0, 0, 0);
tod4.roll!"minutes"(-1);
assert(tod4 == TimeOfDay(0, 59, 0));
auto tod5 = TimeOfDay(23, 59, 59);
tod5.roll!"seconds"(1);
assert(tod5 == TimeOfDay(23, 59, 0));
auto tod6 = TimeOfDay(0, 0, 0);
tod6.roll!"seconds"(-1);
assert(tod6 == TimeOfDay(0, 0, 59));
}
}
unittest
{
version(testStdDateTime)
{
const ctod = TimeOfDay(0, 0, 0);
immutable itod = TimeOfDay(0, 0, 0);
static assert(!__traits(compiles, ctod.roll!"hours"(53)));
static assert(!__traits(compiles, itod.roll!"hours"(53)));
}
}
//Shares documentation with "hours" version.
/+ref TimeOfDay+/ void roll(string units)(long value) pure nothrow
if(units == "minutes" ||
units == "seconds")
{
static if(units == "minutes")
enum memberVarStr = "minute";
else static if(units == "seconds")
enum memberVarStr = "second";
else
static assert(0);
value %= 60;
mixin("auto newVal = cast(ubyte)(_" ~ memberVarStr ~ ") + value;");
if(value < 0)
{
if(newVal < 0)
newVal += 60;
}
else if(newVal >= 60)
newVal -= 60;
mixin("_" ~ memberVarStr ~ " = cast(ubyte)newVal;");
}
//Test roll!"minutes"().
unittest
{
version(testStdDateTime)
{
static void testTOD(TimeOfDay orig, int minutes, in TimeOfDay expected, size_t line = __LINE__)
{
orig.roll!"minutes"(minutes);
_assertPred!"=="(orig, expected, "", __FILE__, line);
}
testTOD(TimeOfDay(12, 30, 33), 0, TimeOfDay(12, 30, 33));
testTOD(TimeOfDay(12, 30, 33), 1, TimeOfDay(12, 31, 33));
testTOD(TimeOfDay(12, 30, 33), 2, TimeOfDay(12, 32, 33));
testTOD(TimeOfDay(12, 30, 33), 3, TimeOfDay(12, 33, 33));
testTOD(TimeOfDay(12, 30, 33), 4, TimeOfDay(12, 34, 33));
testTOD(TimeOfDay(12, 30, 33), 5, TimeOfDay(12, 35, 33));
testTOD(TimeOfDay(12, 30, 33), 10, TimeOfDay(12, 40, 33));
testTOD(TimeOfDay(12, 30, 33), 15, TimeOfDay(12, 45, 33));
testTOD(TimeOfDay(12, 30, 33), 29, TimeOfDay(12, 59, 33));
testTOD(TimeOfDay(12, 30, 33), 30, TimeOfDay(12, 0, 33));
testTOD(TimeOfDay(12, 30, 33), 45, TimeOfDay(12, 15, 33));
testTOD(TimeOfDay(12, 30, 33), 60, TimeOfDay(12, 30, 33));
testTOD(TimeOfDay(12, 30, 33), 75, TimeOfDay(12, 45, 33));
testTOD(TimeOfDay(12, 30, 33), 90, TimeOfDay(12, 0, 33));
testTOD(TimeOfDay(12, 30, 33), 100, TimeOfDay(12, 10, 33));
testTOD(TimeOfDay(12, 30, 33), 689, TimeOfDay(12, 59, 33));
testTOD(TimeOfDay(12, 30, 33), 690, TimeOfDay(12, 0, 33));
testTOD(TimeOfDay(12, 30, 33), 691, TimeOfDay(12, 1, 33));
testTOD(TimeOfDay(12, 30, 33), 960, TimeOfDay(12, 30, 33));
testTOD(TimeOfDay(12, 30, 33), 1439, TimeOfDay(12, 29, 33));
testTOD(TimeOfDay(12, 30, 33), 1440, TimeOfDay(12, 30, 33));
testTOD(TimeOfDay(12, 30, 33), 1441, TimeOfDay(12, 31, 33));
testTOD(TimeOfDay(12, 30, 33), 2880, TimeOfDay(12, 30, 33));
testTOD(TimeOfDay(12, 30, 33), -1, TimeOfDay(12, 29, 33));
testTOD(TimeOfDay(12, 30, 33), -2, TimeOfDay(12, 28, 33));
testTOD(TimeOfDay(12, 30, 33), -3, TimeOfDay(12, 27, 33));
testTOD(TimeOfDay(12, 30, 33), -4, TimeOfDay(12, 26, 33));
testTOD(TimeOfDay(12, 30, 33), -5, TimeOfDay(12, 25, 33));
testTOD(TimeOfDay(12, 30, 33), -10, TimeOfDay(12, 20, 33));
testTOD(TimeOfDay(12, 30, 33), -15, TimeOfDay(12, 15, 33));
testTOD(TimeOfDay(12, 30, 33), -29, TimeOfDay(12, 1, 33));
testTOD(TimeOfDay(12, 30, 33), -30, TimeOfDay(12, 0, 33));
testTOD(TimeOfDay(12, 30, 33), -45, TimeOfDay(12, 45, 33));
testTOD(TimeOfDay(12, 30, 33), -60, TimeOfDay(12, 30, 33));
testTOD(TimeOfDay(12, 30, 33), -75, TimeOfDay(12, 15, 33));
testTOD(TimeOfDay(12, 30, 33), -90, TimeOfDay(12, 0, 33));
testTOD(TimeOfDay(12, 30, 33), -100, TimeOfDay(12, 50, 33));
testTOD(TimeOfDay(12, 30, 33), -749, TimeOfDay(12, 1, 33));
testTOD(TimeOfDay(12, 30, 33), -750, TimeOfDay(12, 0, 33));
testTOD(TimeOfDay(12, 30, 33), -751, TimeOfDay(12, 59, 33));
testTOD(TimeOfDay(12, 30, 33), -960, TimeOfDay(12, 30, 33));
testTOD(TimeOfDay(12, 30, 33), -1439, TimeOfDay(12, 31, 33));
testTOD(TimeOfDay(12, 30, 33), -1440, TimeOfDay(12, 30, 33));
testTOD(TimeOfDay(12, 30, 33), -1441, TimeOfDay(12, 29, 33));
testTOD(TimeOfDay(12, 30, 33), -2880, TimeOfDay(12, 30, 33));
testTOD(TimeOfDay(12, 0, 33), 1, TimeOfDay(12, 1, 33));
testTOD(TimeOfDay(12, 0, 33), 0, TimeOfDay(12, 0, 33));
testTOD(TimeOfDay(12, 0, 33), -1, TimeOfDay(12, 59, 33));
testTOD(TimeOfDay(11, 59, 33), 1, TimeOfDay(11, 0, 33));
testTOD(TimeOfDay(11, 59, 33), 0, TimeOfDay(11, 59, 33));
testTOD(TimeOfDay(11, 59, 33), -1, TimeOfDay(11, 58, 33));
testTOD(TimeOfDay(0, 0, 33), 1, TimeOfDay(0, 1, 33));
testTOD(TimeOfDay(0, 0, 33), 0, TimeOfDay(0, 0, 33));
testTOD(TimeOfDay(0, 0, 33), -1, TimeOfDay(0, 59, 33));
testTOD(TimeOfDay(23, 59, 33), 1, TimeOfDay(23, 0, 33));
testTOD(TimeOfDay(23, 59, 33), 0, TimeOfDay(23, 59, 33));
testTOD(TimeOfDay(23, 59, 33), -1, TimeOfDay(23, 58, 33));
const ctod = TimeOfDay(0, 0, 0);
immutable itod = TimeOfDay(0, 0, 0);
static assert(!__traits(compiles, ctod.roll!"minutes"(7)));
static assert(!__traits(compiles, itod.roll!"minutes"(7)));
//Verify Examples.
auto tod1 = TimeOfDay(7, 12, 0);
tod1.roll!"minutes"(1);
assert(tod1 == TimeOfDay(7, 13, 0));
auto tod2 = TimeOfDay(7, 12, 0);
tod2.roll!"minutes"(-1);
assert(tod2 == TimeOfDay(7, 11, 0));
auto tod3 = TimeOfDay(23, 59, 0);
tod3.roll!"minutes"(1);
assert(tod3 == TimeOfDay(23, 0, 0));
auto tod4 = TimeOfDay(0, 0, 0);
tod4.roll!"minutes"(-1);
assert(tod4 == TimeOfDay(0, 59, 0));
auto tod5 = TimeOfDay(7, 32, 12);
tod5.roll!"seconds"(1);
assert(tod5 == TimeOfDay(7, 32, 13));
auto tod6 = TimeOfDay(7, 32, 12);
tod6.roll!"seconds"(-1);
assert(tod6 == TimeOfDay(7, 32, 11));
auto tod7 = TimeOfDay(23, 59, 59);
tod7.roll!"seconds"(1);
assert(tod7 == TimeOfDay(23, 59, 0));
auto tod8 = TimeOfDay(0, 0, 0);
tod8.roll!"seconds"(-1);
assert(tod8 == TimeOfDay(0, 0, 59));
}
}
//Test roll!"seconds"().
unittest
{
version(testStdDateTime)
{
static void testTOD(TimeOfDay orig, int seconds, in TimeOfDay expected, size_t line = __LINE__)
{
orig.roll!"seconds"(seconds);
_assertPred!"=="(orig, expected, "", __FILE__, line);
}
testTOD(TimeOfDay(12, 30, 33), 0, TimeOfDay(12, 30, 33));
testTOD(TimeOfDay(12, 30, 33), 1, TimeOfDay(12, 30, 34));
testTOD(TimeOfDay(12, 30, 33), 2, TimeOfDay(12, 30, 35));
testTOD(TimeOfDay(12, 30, 33), 3, TimeOfDay(12, 30, 36));
testTOD(TimeOfDay(12, 30, 33), 4, TimeOfDay(12, 30, 37));
testTOD(TimeOfDay(12, 30, 33), 5, TimeOfDay(12, 30, 38));
testTOD(TimeOfDay(12, 30, 33), 10, TimeOfDay(12, 30, 43));
testTOD(TimeOfDay(12, 30, 33), 15, TimeOfDay(12, 30, 48));
testTOD(TimeOfDay(12, 30, 33), 26, TimeOfDay(12, 30, 59));
testTOD(TimeOfDay(12, 30, 33), 27, TimeOfDay(12, 30, 0));
testTOD(TimeOfDay(12, 30, 33), 30, TimeOfDay(12, 30, 3));
testTOD(TimeOfDay(12, 30, 33), 59, TimeOfDay(12, 30, 32));
testTOD(TimeOfDay(12, 30, 33), 60, TimeOfDay(12, 30, 33));
testTOD(TimeOfDay(12, 30, 33), 61, TimeOfDay(12, 30, 34));
testTOD(TimeOfDay(12, 30, 33), 1766, TimeOfDay(12, 30, 59));
testTOD(TimeOfDay(12, 30, 33), 1767, TimeOfDay(12, 30, 0));
testTOD(TimeOfDay(12, 30, 33), 1768, TimeOfDay(12, 30, 1));
testTOD(TimeOfDay(12, 30, 33), 2007, TimeOfDay(12, 30, 0));
testTOD(TimeOfDay(12, 30, 33), 3599, TimeOfDay(12, 30, 32));
testTOD(TimeOfDay(12, 30, 33), 3600, TimeOfDay(12, 30, 33));
testTOD(TimeOfDay(12, 30, 33), 3601, TimeOfDay(12, 30, 34));
testTOD(TimeOfDay(12, 30, 33), 7200, TimeOfDay(12, 30, 33));
testTOD(TimeOfDay(12, 30, 33), -1, TimeOfDay(12, 30, 32));
testTOD(TimeOfDay(12, 30, 33), -2, TimeOfDay(12, 30, 31));
testTOD(TimeOfDay(12, 30, 33), -3, TimeOfDay(12, 30, 30));
testTOD(TimeOfDay(12, 30, 33), -4, TimeOfDay(12, 30, 29));
testTOD(TimeOfDay(12, 30, 33), -5, TimeOfDay(12, 30, 28));
testTOD(TimeOfDay(12, 30, 33), -10, TimeOfDay(12, 30, 23));
testTOD(TimeOfDay(12, 30, 33), -15, TimeOfDay(12, 30, 18));
testTOD(TimeOfDay(12, 30, 33), -33, TimeOfDay(12, 30, 0));
testTOD(TimeOfDay(12, 30, 33), -34, TimeOfDay(12, 30, 59));
testTOD(TimeOfDay(12, 30, 33), -35, TimeOfDay(12, 30, 58));
testTOD(TimeOfDay(12, 30, 33), -59, TimeOfDay(12, 30, 34));
testTOD(TimeOfDay(12, 30, 33), -60, TimeOfDay(12, 30, 33));
testTOD(TimeOfDay(12, 30, 33), -61, TimeOfDay(12, 30, 32));
testTOD(TimeOfDay(12, 30, 0), 1, TimeOfDay(12, 30, 1));
testTOD(TimeOfDay(12, 30, 0), 0, TimeOfDay(12, 30, 0));
testTOD(TimeOfDay(12, 30, 0), -1, TimeOfDay(12, 30, 59));
testTOD(TimeOfDay(12, 0, 0), 1, TimeOfDay(12, 0, 1));
testTOD(TimeOfDay(12, 0, 0), 0, TimeOfDay(12, 0, 0));
testTOD(TimeOfDay(12, 0, 0), -1, TimeOfDay(12, 0, 59));
testTOD(TimeOfDay(0, 0, 0), 1, TimeOfDay(0, 0, 1));
testTOD(TimeOfDay(0, 0, 0), 0, TimeOfDay(0, 0, 0));
testTOD(TimeOfDay(0, 0, 0), -1, TimeOfDay(0, 0, 59));
testTOD(TimeOfDay(23, 59, 59), 1, TimeOfDay(23, 59, 0));
testTOD(TimeOfDay(23, 59, 59), 0, TimeOfDay(23, 59, 59));
testTOD(TimeOfDay(23, 59, 59), -1, TimeOfDay(23, 59, 58));
const ctod = TimeOfDay(0, 0, 0);
immutable itod = TimeOfDay(0, 0, 0);
static assert(!__traits(compiles, ctod.roll!"seconds"(7)));
static assert(!__traits(compiles, itod.roll!"seconds"(7)));
}
}
/++
Gives the result of adding or subtracting a duration from this
$(D TimeOfDay).
The legal types of arithmetic for $(D TimeOfDay) using this operator are
$(TABLE
$(TR $(TD TimeOfDay) $(TD +) $(TD duration) $(TD -->) $(TD TimeOfDay))
$(TR $(TD TimeOfDay) $(TD -) $(TD duration) $(TD -->) $(TD TimeOfDay))
)
Params:
duration = The duration to add to or subtract from this
$(D TimeOfDay).
+/
TimeOfDay opBinary(string op, D)(in D duration) const pure nothrow
if((op == "+" || op == "-") &&
(is(Unqual!D == Duration) ||
is(Unqual!D == TickDuration)))
{
TimeOfDay retval = this;
static if(is(Unqual!D == Duration))
immutable hnsecs = duration.total!"hnsecs";
else static if(is(Unqual!D == TickDuration))
immutable hnsecs = duration.hnsecs;
//Ideally, this would just be
//return retval.addSeconds(convert!("hnsecs", "seconds")(unaryFun!(op ~ "a")(hnsecs)));
//But there isn't currently a pure version of unaryFun!().
static if(op == "+")
immutable signedHNSecs = hnsecs;
else static if(op == "-")
immutable signedHNSecs = -hnsecs;
else
static assert(0);
return retval.addSeconds(convert!("hnsecs", "seconds")(signedHNSecs));
}
unittest
{
version(testStdDateTime)
{
auto tod = TimeOfDay(12, 30, 33);
_assertPred!"=="(tod + dur!"hours"(7), TimeOfDay(19, 30, 33));
_assertPred!"=="(tod + dur!"hours"(-7), TimeOfDay(5, 30, 33));
_assertPred!"=="(tod + dur!"minutes"(7), TimeOfDay(12, 37, 33));
_assertPred!"=="(tod + dur!"minutes"(-7), TimeOfDay(12, 23, 33));
_assertPred!"=="(tod + dur!"seconds"(7), TimeOfDay(12, 30, 40));
_assertPred!"=="(tod + dur!"seconds"(-7), TimeOfDay(12, 30, 26));
_assertPred!"=="(tod + dur!"msecs"(7000), TimeOfDay(12, 30, 40));
_assertPred!"=="(tod + dur!"msecs"(-7000), TimeOfDay(12, 30, 26));
_assertPred!"=="(tod + dur!"usecs"(7_000_000), TimeOfDay(12, 30, 40));
_assertPred!"=="(tod + dur!"usecs"(-7_000_000), TimeOfDay(12, 30, 26));
_assertPred!"=="(tod + dur!"hnsecs"(70_000_000), TimeOfDay(12, 30, 40));
_assertPred!"=="(tod + dur!"hnsecs"(-70_000_000), TimeOfDay(12, 30, 26));
//This probably only runs in cases where gettimeofday() is used, but it's
//hard to do this test correctly with variable ticksPerSec.
if(TickDuration.ticksPerSec == 1_000_000)
{
_assertPred!"=="(tod + TickDuration.from!"usecs"(7_000_000), TimeOfDay(12, 30, 40));
_assertPred!"=="(tod + TickDuration.from!"usecs"(-7_000_000), TimeOfDay(12, 30, 26));
}
_assertPred!"=="(tod - dur!"hours"(-7), TimeOfDay(19, 30, 33));
_assertPred!"=="(tod - dur!"hours"(7), TimeOfDay(5, 30, 33));
_assertPred!"=="(tod - dur!"minutes"(-7), TimeOfDay(12, 37, 33));
_assertPred!"=="(tod - dur!"minutes"(7), TimeOfDay(12, 23, 33));
_assertPred!"=="(tod - dur!"seconds"(-7), TimeOfDay(12, 30, 40));
_assertPred!"=="(tod - dur!"seconds"(7), TimeOfDay(12, 30, 26));
_assertPred!"=="(tod - dur!"msecs"(-7000), TimeOfDay(12, 30, 40));
_assertPred!"=="(tod - dur!"msecs"(7000), TimeOfDay(12, 30, 26));
_assertPred!"=="(tod - dur!"usecs"(-7_000_000), TimeOfDay(12, 30, 40));
_assertPred!"=="(tod - dur!"usecs"(7_000_000), TimeOfDay(12, 30, 26));
_assertPred!"=="(tod - dur!"hnsecs"(-70_000_000), TimeOfDay(12, 30, 40));
_assertPred!"=="(tod - dur!"hnsecs"(70_000_000), TimeOfDay(12, 30, 26));
//This probably only runs in cases where gettimeofday() is used, but it's
//hard to do this test correctly with variable ticksPerSec.
if(TickDuration.ticksPerSec == 1_000_000)
{
_assertPred!"=="(tod - TickDuration.from!"usecs"(-7_000_000), TimeOfDay(12, 30, 40));
_assertPred!"=="(tod - TickDuration.from!"usecs"(7_000_000), TimeOfDay(12, 30, 26));
}
auto duration = dur!"hours"(11);
const ctod = TimeOfDay(12, 33, 30);
immutable itod = TimeOfDay(12, 33, 30);
static assert(__traits(compiles, tod + duration));
static assert(__traits(compiles, ctod + duration));
static assert(__traits(compiles, itod + duration));
static assert(__traits(compiles, tod - duration));
static assert(__traits(compiles, ctod - duration));
static assert(__traits(compiles, itod - duration));
}
}
/++
Gives the result of adding or subtracting a duration from this
$(D TimeOfDay), as well as assigning the result to this
$(D TimeOfDay).
The legal types of arithmetic for $(D TimeOfDay) using this operator are
$(TABLE
$(TR $(TD TimeOfDay) $(TD +) $(TD duration) $(TD -->) $(TD TimeOfDay))
$(TR $(TD TimeOfDay) $(TD -) $(TD duration) $(TD -->) $(TD TimeOfDay))
)
Params:
duration = The duration to add to or subtract from this
$(D TimeOfDay).
+/
/+ref+/ TimeOfDay opOpAssign(string op, D)(in D duration) pure nothrow
if((op == "+" || op == "-") &&
(is(Unqual!D == Duration) ||
is(Unqual!D == TickDuration)))
{
static if(is(Unqual!D == Duration))
immutable hnsecs = duration.total!"hnsecs";
else static if(is(Unqual!D == TickDuration))
immutable hnsecs = duration.hnsecs;
//Ideally, this would just be
//return addSeconds(convert!("hnsecs", "seconds")(unaryFun!(op ~ "a")(hnsecs)));
//But there isn't currently a pure version of unaryFun!().
static if(op == "+")
immutable signedHNSecs = hnsecs;
else static if(op == "-")
immutable signedHNSecs = -hnsecs;
else
static assert(0);
return addSeconds(convert!("hnsecs", "seconds")(signedHNSecs));
}
unittest
{
version(testStdDateTime)
{
auto duration = dur!"hours"(12);
_assertPred!"+="(TimeOfDay(12, 30, 33), dur!"hours"(7), TimeOfDay(19, 30, 33));
_assertPred!"+="(TimeOfDay(12, 30, 33), dur!"hours"(-7), TimeOfDay(5, 30, 33));
_assertPred!"+="(TimeOfDay(12, 30, 33), dur!"minutes"(7), TimeOfDay(12, 37, 33));
_assertPred!"+="(TimeOfDay(12, 30, 33), dur!"minutes"(-7), TimeOfDay(12, 23, 33));
_assertPred!"+="(TimeOfDay(12, 30, 33), dur!"seconds"(7), TimeOfDay(12, 30, 40));
_assertPred!"+="(TimeOfDay(12, 30, 33), dur!"seconds"(-7), TimeOfDay(12, 30, 26));
_assertPred!"+="(TimeOfDay(12, 30, 33), dur!"msecs"(7000), TimeOfDay(12, 30, 40));
_assertPred!"+="(TimeOfDay(12, 30, 33), dur!"msecs"(-7000), TimeOfDay(12, 30, 26));
_assertPred!"+="(TimeOfDay(12, 30, 33), dur!"usecs"(7_000_000), TimeOfDay(12, 30, 40));
_assertPred!"+="(TimeOfDay(12, 30, 33), dur!"usecs"(-7_000_000), TimeOfDay(12, 30, 26));
_assertPred!"+="(TimeOfDay(12, 30, 33), dur!"hnsecs"(70_000_000), TimeOfDay(12, 30, 40));
_assertPred!"+="(TimeOfDay(12, 30, 33), dur!"hnsecs"(-70_000_000), TimeOfDay(12, 30, 26));
_assertPred!"-="(TimeOfDay(12, 30, 33), dur!"hours"(-7), TimeOfDay(19, 30, 33));
_assertPred!"-="(TimeOfDay(12, 30, 33), dur!"hours"(7), TimeOfDay(5, 30, 33));
_assertPred!"-="(TimeOfDay(12, 30, 33), dur!"minutes"(-7), TimeOfDay(12, 37, 33));
_assertPred!"-="(TimeOfDay(12, 30, 33), dur!"minutes"(7), TimeOfDay(12, 23, 33));
_assertPred!"-="(TimeOfDay(12, 30, 33), dur!"seconds"(-7), TimeOfDay(12, 30, 40));
_assertPred!"-="(TimeOfDay(12, 30, 33), dur!"seconds"(7), TimeOfDay(12, 30, 26));
_assertPred!"-="(TimeOfDay(12, 30, 33), dur!"msecs"(-7000), TimeOfDay(12, 30, 40));
_assertPred!"-="(TimeOfDay(12, 30, 33), dur!"msecs"(7000), TimeOfDay(12, 30, 26));
_assertPred!"-="(TimeOfDay(12, 30, 33), dur!"usecs"(-7_000_000), TimeOfDay(12, 30, 40));
_assertPred!"-="(TimeOfDay(12, 30, 33), dur!"usecs"(7_000_000), TimeOfDay(12, 30, 26));
_assertPred!"-="(TimeOfDay(12, 30, 33), dur!"hnsecs"(-70_000_000), TimeOfDay(12, 30, 40));
_assertPred!"-="(TimeOfDay(12, 30, 33), dur!"hnsecs"(70_000_000), TimeOfDay(12, 30, 26));
const ctod = TimeOfDay(12, 33, 30);
immutable itod = TimeOfDay(12, 33, 30);
static assert(!__traits(compiles, ctod += duration));
static assert(!__traits(compiles, itod += duration));
static assert(!__traits(compiles, ctod -= duration));
static assert(!__traits(compiles, itod -= duration));
}
}
/++
Gives the difference between two $(D TimeOfDay)s.
The legal types of arithmetic for $(D TimeOfDay) using this operator are
$(TABLE
$(TR $(TD TimeOfDay) $(TD -) $(TD TimeOfDay) $(TD -->) $(TD duration))
)
Params:
rhs = The $(D TimeOfDay) to subtract from this one.
+/
Duration opBinary(string op)(in TimeOfDay rhs) const pure nothrow
if(op == "-")
{
immutable lhsSec = _hour * 3600 + _minute * 60 + _second;
immutable rhsSec = rhs._hour * 3600 + rhs._minute * 60 + rhs._second;
return dur!"seconds"(lhsSec - rhsSec);
}
unittest
{
version(testStdDateTime)
{
auto tod = TimeOfDay(12, 30, 33);
_assertPred!"=="(TimeOfDay(7, 12, 52) - TimeOfDay(12, 30, 33), dur!"seconds"(-19_061));
_assertPred!"=="(TimeOfDay(12, 30, 33) - TimeOfDay(7, 12, 52), dur!"seconds"(19_061));
_assertPred!"=="(TimeOfDay(12, 30, 33) - TimeOfDay(14, 30, 33), dur!"seconds"(-7200));
_assertPred!"=="(TimeOfDay(14, 30, 33) - TimeOfDay(12, 30, 33), dur!"seconds"(7200));
_assertPred!"=="(TimeOfDay(12, 30, 33) - TimeOfDay(12, 34, 33), dur!"seconds"(-240));
_assertPred!"=="(TimeOfDay(12, 34, 33) - TimeOfDay(12, 30, 33), dur!"seconds"(240));
_assertPred!"=="(TimeOfDay(12, 30, 33) - TimeOfDay(12, 30, 34), dur!"seconds"(-1));
_assertPred!"=="(TimeOfDay(12, 30, 34) - TimeOfDay(12, 30, 33), dur!"seconds"(1));
const ctod = TimeOfDay(12, 30, 33);
immutable itod = TimeOfDay(12, 30, 33);
static assert(__traits(compiles, tod - tod));
static assert(__traits(compiles, ctod - tod));
static assert(__traits(compiles, itod - tod));
static assert(__traits(compiles, tod - ctod));
static assert(__traits(compiles, ctod - ctod));
static assert(__traits(compiles, itod - ctod));
static assert(__traits(compiles, tod - itod));
static assert(__traits(compiles, ctod - itod));
static assert(__traits(compiles, itod - itod));
}
}
/++
Converts this $(D TimeOfDay) to a string with the format HHMMSS.
Examples:
--------------------
assert(TimeOfDay(0, 0, 0).toISOString() == "000000");
assert(TimeOfDay(12, 30, 33).toISOString() == "123033");
--------------------
+/
string toISOString() const nothrow
{
try
return format("%02d%02d%02d", _hour, _minute, _second);
catch(Exception e)
assert(0, "format() threw.");
}
unittest
{
version(testStdDateTime)
{
auto tod = TimeOfDay(12, 30, 33);
const ctod = TimeOfDay(12, 30, 33);
immutable itod = TimeOfDay(12, 30, 33);
static assert(__traits(compiles, tod.toISOString()));
static assert(__traits(compiles, ctod.toISOString()));
static assert(__traits(compiles, itod.toISOString()));
//Verify Examples.
assert(TimeOfDay(0, 0, 0).toISOString() == "000000");
assert(TimeOfDay(12, 30, 33).toISOString() == "123033");
}
}
/++
Converts this $(D TimeOfDay) to a string with the format HH:MM:SS.
Examples:
--------------------
assert(TimeOfDay(0, 0, 0).toISOExtString() == "000000");
assert(TimeOfDay(12, 30, 33).toISOExtString() == "123033");
--------------------
+/
string toISOExtString() const nothrow
{
try
return format("%02d:%02d:%02d", _hour, _minute, _second);
catch(Exception e)
assert(0, "format() threw.");
}
/++
$(RED Scheduled for deprecation. Use toISOExtString instead.)
+/
alias toISOExtString toISOExtendedString;
unittest
{
version(testStdDateTime)
{
auto tod = TimeOfDay(12, 30, 33);
const ctod = TimeOfDay(12, 30, 33);
immutable itod = TimeOfDay(12, 30, 33);
static assert(__traits(compiles, tod.toISOExtString()));
static assert(__traits(compiles, ctod.toISOExtString()));
static assert(__traits(compiles, itod.toISOExtString()));
//Verify Examples.
assert(TimeOfDay(0, 0, 0).toISOExtString() == "00:00:00");
assert(TimeOfDay(12, 30, 33).toISOExtString() == "12:30:33");
}
}
/+
Converts this $(D TimeOfDay) to a string.
+/
//Due to bug http://d.puremagic.com/issues/show_bug.cgi?id=3715 , we can't
//have versions of toString() with extra modifiers, so we define one version
//with modifiers and one without.
string toString()
{
return toISOExtString();
}
/++
Converts this TimeOfDay to a string.
+/
//Due to bug http://d.puremagic.com/issues/show_bug.cgi?id=3715 , we can't
//have versions of toString() with extra modifiers, so we define one version
//with modifiers and one without.
string toString() const nothrow
{
return toISOExtString();
}
unittest
{
version(testStdDateTime)
{
auto tod = TimeOfDay(12, 30, 33);
const ctod = TimeOfDay(12, 30, 33);
immutable itod = TimeOfDay(12, 30, 33);
static assert(__traits(compiles, tod.toString()));
static assert(__traits(compiles, ctod.toString()));
static assert(__traits(compiles, itod.toString()));
}
}
//TODO Add a function which returns a string in a user-specified format.
/++
Creates a $(D TimeOfDay) from a string with the format HHMMSS.
Whitespace is stripped from the given string.
Params:
isoString = A string formatted in the ISO format for times.
Throws:
$(D DateTimeException) if the given string is not in the ISO format
or if the resulting $(D TimeOfDay) would not be valid.
Examples:
--------------------
assert(TimeOfDay.fromISOString("000000") == TimeOfDay(0, 0, 0));
assert(TimeOfDay.fromISOString("123033") == TimeOfDay(12, 30, 33));
assert(TimeOfDay.fromISOString(" 123033 ") == TimeOfDay(12, 30, 33));
--------------------
+/
static TimeOfDay fromISOString(S)(in S isoString)
if(isSomeString!S)
{
auto dstr = to!dstring(strip(isoString));
enforce(dstr.length == 6, new DateTimeException(format("Invalid ISO String: %s", isoString)));
auto hours = dstr[0 .. 2];
auto minutes = dstr[2 .. 4];
auto seconds = dstr[4 .. $];
enforce(!canFind!(not!isDigit)(hours), new DateTimeException(format("Invalid ISO String: %s", isoString)));
enforce(!canFind!(not!isDigit)(minutes), new DateTimeException(format("Invalid ISO String: %s", isoString)));
enforce(!canFind!(not!isDigit)(seconds), new DateTimeException(format("Invalid ISO String: %s", isoString)));
return TimeOfDay(to!int(hours), to!int(minutes), to!int(seconds));
}
unittest
{
version(testStdDateTime)
{
assertThrown!DateTimeException(TimeOfDay.fromISOString(""));
assertThrown!DateTimeException(TimeOfDay.fromISOString("0"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("00"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("000"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("0000"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("00000"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("13033"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("1277"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("12707"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("12070"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("12303a"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("1230a3"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("123a33"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("12a033"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("1a0033"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("a20033"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("1200330"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("0120033"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("-120033"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("+120033"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("120033am"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("120033pm"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("0::"));
assertThrown!DateTimeException(TimeOfDay.fromISOString(":0:"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("::0"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("0:0:0"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("0:0:00"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("0:00:0"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("00:0:0"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("00:00:0"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("00:0:00"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("13:0:33"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("12:7:7"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("12:7:07"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("12:07:0"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("12:30:3a"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("12:30:a3"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("12:3a:33"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("12:a0:33"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("1a:00:33"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("a2:00:33"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("12:003:30"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("120:03:30"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("012:00:33"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("01:200:33"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("-12:00:33"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("+12:00:33"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("12:00:33am"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("12:00:33pm"));
assertThrown!DateTimeException(TimeOfDay.fromISOString("12:00:33"));
_assertPred!"=="(TimeOfDay.fromISOString("011217"), TimeOfDay(1, 12, 17));
_assertPred!"=="(TimeOfDay.fromISOString("001412"), TimeOfDay(0, 14, 12));
_assertPred!"=="(TimeOfDay.fromISOString("000007"), TimeOfDay(0, 0, 7));
_assertPred!"=="(TimeOfDay.fromISOString("011217 "), TimeOfDay(1, 12, 17));
_assertPred!"=="(TimeOfDay.fromISOString(" 011217"), TimeOfDay(1, 12, 17));
_assertPred!"=="(TimeOfDay.fromISOString(" 011217 "), TimeOfDay(1, 12, 17));
//Verify Examples.
assert(TimeOfDay.fromISOString("000000") == TimeOfDay(0, 0, 0));
assert(TimeOfDay.fromISOString("123033") == TimeOfDay(12, 30, 33));
assert(TimeOfDay.fromISOString(" 123033 ") == TimeOfDay(12, 30, 33));
}
}
/++
Creates a $(D TimeOfDay) from a string with the format HH:MM:SS.
Whitespace is stripped from the given string.
Params:
isoString = A string formatted in the ISO Extended format for times.
Throws:
$(D DateTimeException) if the given string is not in the ISO
Extended format or if the resulting $(D TimeOfDay) would not be
valid.
Examples:
--------------------
assert(TimeOfDay.fromISOExtString("00:00:00") == TimeOfDay(0, 0, 0));
assert(TimeOfDay.fromISOExtString("12:30:33") == TimeOfDay(12, 30, 33));
assert(TimeOfDay.fromISOExtString(" 12:30:33 ") == TimeOfDay(12, 30, 33));
--------------------
+/
static TimeOfDay fromISOExtString(S)(in S isoExtString)
if(isSomeString!S)
{
auto dstr = to!dstring(strip(isoExtString));
enforce(dstr.length == 8, new DateTimeException(format("Invalid ISO Extended String: %s", isoExtString)));
auto hours = dstr[0 .. 2];
auto minutes = dstr[3 .. 5];
auto seconds = dstr[6 .. $];
enforce(dstr[2] == ':', new DateTimeException(format("Invalid ISO Extended String: %s", isoExtString)));
enforce(dstr[5] == ':', new DateTimeException(format("Invalid ISO Extended String: %s", isoExtString)));
enforce(!canFind!(not!isDigit)(hours),
new DateTimeException(format("Invalid ISO Extended String: %s", isoExtString)));
enforce(!canFind!(not!isDigit)(minutes),
new DateTimeException(format("Invalid ISO Extended String: %s", isoExtString)));
enforce(!canFind!(not!isDigit)(seconds),
new DateTimeException(format("Invalid ISO Extended String: %s", isoExtString)));
return TimeOfDay(to!int(hours), to!int(minutes), to!int(seconds));
}
/++
$(RED Scheduled for deprecation. Use fromISOExtString instead.)
+/
static TimeOfDay fromISOExtendedString(S)(in S isoExtString)
if(isSomeString!(S))
{
pragma(msg, "fromISOExtendedString has been scheduled for deprecation. " ~
"Use fromISOExtString instead.");
return fromISOExtString!string(isoExtString);
}
unittest
{
version(testStdDateTime)
{
assertThrown!DateTimeException(TimeOfDay.fromISOExtString(""));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("0"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("00"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("000"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("0000"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("00000"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("13033"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("1277"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("12707"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("12070"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("12303a"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("1230a3"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("123a33"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("12a033"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("1a0033"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("a20033"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("1200330"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("0120033"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("-120033"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("+120033"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("120033am"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("120033pm"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("0::"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString(":0:"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("::0"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("0:0:0"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("0:0:00"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("0:00:0"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("00:0:0"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("00:00:0"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("00:0:00"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("13:0:33"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("12:7:7"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("12:7:07"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("12:07:0"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("12:30:3a"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("12:30:a3"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("12:3a:33"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("12:a0:33"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("1a:00:33"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("a2:00:33"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("12:003:30"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("120:03:30"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("012:00:33"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("01:200:33"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("-12:00:33"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("+12:00:33"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("12:00:33am"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("12:00:33pm"));
assertThrown!DateTimeException(TimeOfDay.fromISOExtString("120033"));
_assertPred!"=="(TimeOfDay.fromISOExtString("01:12:17"), TimeOfDay(1, 12, 17));
_assertPred!"=="(TimeOfDay.fromISOExtString("00:14:12"), TimeOfDay(0, 14, 12));
_assertPred!"=="(TimeOfDay.fromISOExtString("00:00:07"), TimeOfDay(0, 0, 7));
_assertPred!"=="(TimeOfDay.fromISOExtString("01:12:17 "), TimeOfDay(1, 12, 17));
_assertPred!"=="(TimeOfDay.fromISOExtString(" 01:12:17"), TimeOfDay(1, 12, 17));
_assertPred!"=="(TimeOfDay.fromISOExtString(" 01:12:17 "), TimeOfDay(1, 12, 17));
//Verify Examples.
assert(TimeOfDay.fromISOExtString("00:00:00") == TimeOfDay(0, 0, 0));
assert(TimeOfDay.fromISOExtString("12:30:33") == TimeOfDay(12, 30, 33));
assert(TimeOfDay.fromISOExtString(" 12:30:33 ") == TimeOfDay(12, 30, 33));
}
}
//TODO Add function which takes a user-specified time format and produces a TimeOfDay
//TODO Add function which takes pretty much any time-string and produces a TimeOfDay
// Obviously, it will be less efficient, and it probably won't manage _every_
// possible date format, but a smart conversion function would be nice.
/++
Returns midnight.
+/
@property static TimeOfDay min() pure nothrow
{
return TimeOfDay.init;
}
unittest
{
version(testStdDateTime)
{
assert(TimeOfDay.min.hour == 0);
assert(TimeOfDay.min.minute == 0);
assert(TimeOfDay.min.second == 0);
assert(TimeOfDay.min < TimeOfDay.max);
}
}
/++
Returns one second short of midnight.
+/
@property static TimeOfDay max() pure nothrow
{
auto tod = TimeOfDay.init;
tod._hour = maxHour;
tod._minute = maxMinute;
tod._second = maxSecond;
return tod;
}
unittest
{
version(testStdDateTime)
{
assert(TimeOfDay.max.hour == 23);
assert(TimeOfDay.max.minute == 59);
assert(TimeOfDay.max.second == 59);
assert(TimeOfDay.max > TimeOfDay.min);
}
}
private:
/+
Add seconds to the time of day. Negative values will subtract. If the
number of seconds overflows (or underflows), then the seconds will wrap,
increasing (or decreasing) the number of minutes accordingly. If the
number of minutes overflows (or underflows), then the minutes will wrap.
If the number of minutes overflows(or underflows), then the hour will
wrap. (e.g. adding 90 seconds to 23:59:00 would result in 00:00:30).
Params:
seconds = The number of seconds to add to this TimeOfDay.
+/
ref TimeOfDay addSeconds(long seconds) pure nothrow
{
long hnsecs = convert!("seconds", "hnsecs")(seconds);
hnsecs += convert!("hours", "hnsecs")(_hour);
hnsecs += convert!("minutes", "hnsecs")(_minute);
hnsecs += convert!("seconds", "hnsecs")(_second);
hnsecs %= convert!("days", "hnsecs")(1);
if(hnsecs < 0)
hnsecs += convert!("days", "hnsecs")(1);
immutable newHours = splitUnitsFromHNSecs!"hours"(hnsecs);
immutable newMinutes = splitUnitsFromHNSecs!"minutes"(hnsecs);
immutable newSeconds = splitUnitsFromHNSecs!"seconds"(hnsecs);
_hour = cast(ubyte)newHours;
_minute = cast(ubyte)newMinutes;
_second = cast(ubyte)newSeconds;
return this;
}
unittest
{
version(testStdDateTime)
{
static void testTOD(TimeOfDay orig, int seconds, in TimeOfDay expected, size_t line = __LINE__)
{
orig.addSeconds(seconds);
_assertPred!"=="(orig, expected, "", __FILE__, line);
}
testTOD(TimeOfDay(12, 30, 33), 0, TimeOfDay(12, 30, 33));
testTOD(TimeOfDay(12, 30, 33), 1, TimeOfDay(12, 30, 34));
testTOD(TimeOfDay(12, 30, 33), 2, TimeOfDay(12, 30, 35));
testTOD(TimeOfDay(12, 30, 33), 3, TimeOfDay(12, 30, 36));
testTOD(TimeOfDay(12, 30, 33), 4, TimeOfDay(12, 30, 37));
testTOD(TimeOfDay(12, 30, 33), 5, TimeOfDay(12, 30, 38));
testTOD(TimeOfDay(12, 30, 33), 10, TimeOfDay(12, 30, 43));
testTOD(TimeOfDay(12, 30, 33), 15, TimeOfDay(12, 30, 48));
testTOD(TimeOfDay(12, 30, 33), 26, TimeOfDay(12, 30, 59));
testTOD(TimeOfDay(12, 30, 33), 27, TimeOfDay(12, 31, 0));
testTOD(TimeOfDay(12, 30, 33), 30, TimeOfDay(12, 31, 3));
testTOD(TimeOfDay(12, 30, 33), 59, TimeOfDay(12, 31, 32));
testTOD(TimeOfDay(12, 30, 33), 60, TimeOfDay(12, 31, 33));
testTOD(TimeOfDay(12, 30, 33), 61, TimeOfDay(12, 31, 34));
testTOD(TimeOfDay(12, 30, 33), 1766, TimeOfDay(12, 59, 59));
testTOD(TimeOfDay(12, 30, 33), 1767, TimeOfDay(13, 0, 0));
testTOD(TimeOfDay(12, 30, 33), 1768, TimeOfDay(13, 0, 1));
testTOD(TimeOfDay(12, 30, 33), 2007, TimeOfDay(13, 4, 0));
testTOD(TimeOfDay(12, 30, 33), 3599, TimeOfDay(13, 30, 32));
testTOD(TimeOfDay(12, 30, 33), 3600, TimeOfDay(13, 30, 33));
testTOD(TimeOfDay(12, 30, 33), 3601, TimeOfDay(13, 30, 34));
testTOD(TimeOfDay(12, 30, 33), 7200, TimeOfDay(14, 30, 33));
testTOD(TimeOfDay(12, 30, 33), -1, TimeOfDay(12, 30, 32));
testTOD(TimeOfDay(12, 30, 33), -2, TimeOfDay(12, 30, 31));
testTOD(TimeOfDay(12, 30, 33), -3, TimeOfDay(12, 30, 30));
testTOD(TimeOfDay(12, 30, 33), -4, TimeOfDay(12, 30, 29));
testTOD(TimeOfDay(12, 30, 33), -5, TimeOfDay(12, 30, 28));
testTOD(TimeOfDay(12, 30, 33), -10, TimeOfDay(12, 30, 23));
testTOD(TimeOfDay(12, 30, 33), -15, TimeOfDay(12, 30, 18));
testTOD(TimeOfDay(12, 30, 33), -33, TimeOfDay(12, 30, 0));
testTOD(TimeOfDay(12, 30, 33), -34, TimeOfDay(12, 29, 59));
testTOD(TimeOfDay(12, 30, 33), -35, TimeOfDay(12, 29, 58));
testTOD(TimeOfDay(12, 30, 33), -59, TimeOfDay(12, 29, 34));
testTOD(TimeOfDay(12, 30, 33), -60, TimeOfDay(12, 29, 33));
testTOD(TimeOfDay(12, 30, 33), -61, TimeOfDay(12, 29, 32));
testTOD(TimeOfDay(12, 30, 33), -1833, TimeOfDay(12, 0, 0));
testTOD(TimeOfDay(12, 30, 33), -1834, TimeOfDay(11, 59, 59));
testTOD(TimeOfDay(12, 30, 33), -3600, TimeOfDay(11, 30, 33));
testTOD(TimeOfDay(12, 30, 33), -3601, TimeOfDay(11, 30, 32));
testTOD(TimeOfDay(12, 30, 33), -5134, TimeOfDay(11, 4, 59));
testTOD(TimeOfDay(12, 30, 33), -7200, TimeOfDay(10, 30, 33));
testTOD(TimeOfDay(12, 30, 0), 1, TimeOfDay(12, 30, 1));
testTOD(TimeOfDay(12, 30, 0), 0, TimeOfDay(12, 30, 0));
testTOD(TimeOfDay(12, 30, 0), -1, TimeOfDay(12, 29, 59));
testTOD(TimeOfDay(12, 0, 0), 1, TimeOfDay(12, 0, 1));
testTOD(TimeOfDay(12, 0, 0), 0, TimeOfDay(12, 0, 0));
testTOD(TimeOfDay(12, 0, 0), -1, TimeOfDay(11, 59, 59));
testTOD(TimeOfDay(0, 0, 0), 1, TimeOfDay(0, 0, 1));
testTOD(TimeOfDay(0, 0, 0), 0, TimeOfDay(0, 0, 0));
testTOD(TimeOfDay(0, 0, 0), -1, TimeOfDay(23, 59, 59));
testTOD(TimeOfDay(23, 59, 59), 1, TimeOfDay(0, 0, 0));
testTOD(TimeOfDay(23, 59, 59), 0, TimeOfDay(23, 59, 59));
testTOD(TimeOfDay(23, 59, 59), -1, TimeOfDay(23, 59, 58));
const ctod = TimeOfDay(0, 0, 0);
immutable itod = TimeOfDay(0, 0, 0);
static assert(!__traits(compiles, ctod.addSeconds(7)));
static assert(!__traits(compiles, itod.addSeconds(7)));
}
}
/+
Whether the given values form a valid $(D TimeOfDay).
+/
static bool _valid(int hour, int minute, int second) pure nothrow
{
return valid!"hours"(hour) && valid!"minutes"(minute) && valid!"seconds"(second);
}
pure invariant()
{
assert(_valid(_hour, _minute, _second),
"Invariant Failure: hour [" ~
numToString(_hour) ~
"] minute [" ~
numToString(_minute) ~
"] second [" ~
numToString(_second) ~
"]");
}
ubyte _hour;
ubyte _minute;
ubyte _second;
enum ubyte maxHour = 24 - 1;
enum ubyte maxMinute = 60 - 1;
enum ubyte maxSecond = 60 - 1;
}
/++
Combines the $(D Date) and $(D TimeOfDay) structs to give you an object
which holds both the date and the time. It is optimized for calendar-based
operations and has no concept of time zone. If you want an object which is
optimized for time operations based on the system time, then use
$(D SysTime). $(D SysTime) has a concept of time zone and has much higher
precision (hnsecs). $(D DateTime) is intended primarily for calendar-based
uses rather than precise time operations.
+/
struct DateTime
{
public:
/++
Params:
date = The date portion of $(D DateTime).
tod = The time portion of $(D DateTime).
+/
this(in Date date, in TimeOfDay tod = TimeOfDay.init) pure nothrow
{
_date = date;
_tod = tod;
}
unittest
{
version(testStdDateTime)
{
{
auto dt = DateTime.init;
_assertPred!"=="(dt._date, Date.init);
_assertPred!"=="(dt._tod, TimeOfDay.init);
}
{
auto dt = DateTime(Date(1999, 7 ,6));
_assertPred!"=="(dt._date, Date(1999, 7, 6));
_assertPred!"=="(dt._tod, TimeOfDay.init);
}
{
auto dt = DateTime(Date(1999, 7 ,6), TimeOfDay(12, 30, 33));
_assertPred!"=="(dt._date, Date(1999, 7, 6));
_assertPred!"=="(dt._tod, TimeOfDay(12, 30, 33));
}
}
}
/++
Params:
year = The year portion of the date.
month = The month portion of the date.
day = The day portion of the date.
hour = The hour portion of the time;
minute = The minute portion of the time;
second = The second portion of the time;
+/
this(int year, int month, int day,
int hour = 0, int minute = 0, int second = 0) pure
{
_date = Date(year, month, day);
_tod = TimeOfDay(hour, minute, second);
}
unittest
{
version(testStdDateTime)
{
{
auto dt = DateTime(1999, 7 ,6);
_assertPred!"=="(dt._date, Date(1999, 7, 6));
_assertPred!"=="(dt._tod, TimeOfDay.init);
}
{
auto dt = DateTime(1999, 7 ,6, 12, 30, 33);
_assertPred!"=="(dt._date, Date(1999, 7, 6));
_assertPred!"=="(dt._tod, TimeOfDay(12, 30, 33));
}
}
}
/++
Compares this $(D DateTime) with the given $(D DateTime.).
Returns:
$(TABLE
$(TR $(TD this &lt; rhs) $(TD &lt; 0))
$(TR $(TD this == rhs) $(TD 0))
$(TR $(TD this &gt; rhs) $(TD &gt; 0))
)
+/
int opCmp(in DateTime rhs) const pure nothrow
{
immutable dateResult = _date.opCmp(rhs._date);
if(dateResult != 0)
return dateResult;
return _tod.opCmp(rhs._tod);
}
unittest
{
version(testStdDateTime)
{
//Test A.D.
_assertPred!("opCmp", "==")(DateTime(Date.init, TimeOfDay.init), DateTime.init);
_assertPred!("opCmp", "==")(DateTime(Date(1999, 1, 1)), DateTime(Date(1999, 1, 1)));
_assertPred!("opCmp", "==")(DateTime(Date(1, 7, 1)), DateTime(Date(1, 7, 1)));
_assertPred!("opCmp", "==")(DateTime(Date(1, 1, 6)), DateTime(Date(1, 1, 6)));
_assertPred!("opCmp", "==")(DateTime(Date(1999, 7, 1)), DateTime(Date(1999, 7, 1)));
_assertPred!("opCmp", "==")(DateTime(Date(1999, 7, 6)), DateTime(Date(1999, 7, 6)));
_assertPred!("opCmp", "==")(DateTime(Date(1, 7, 6)), DateTime(Date(1, 7, 6)));
_assertPred!("opCmp", "<")(DateTime(Date(1999, 7, 6)), DateTime(Date(2000, 7, 6)));
_assertPred!("opCmp", ">")(DateTime(Date(2000, 7, 6)), DateTime(Date(1999, 7, 6)));
_assertPred!("opCmp", "<")(DateTime(Date(1999, 7, 6)), DateTime(Date(1999, 8, 6)));
_assertPred!("opCmp", ">")(DateTime(Date(1999, 8, 6)), DateTime(Date(1999, 7, 6)));
_assertPred!("opCmp", "<")(DateTime(Date(1999, 7, 6)), DateTime(Date(1999, 7, 7)));
_assertPred!("opCmp", ">")(DateTime(Date(1999, 7, 7)), DateTime(Date(1999, 7, 6)));
_assertPred!("opCmp", "<")(DateTime(Date(1999, 8, 7)), DateTime(Date(2000, 7, 6)));
_assertPred!("opCmp", ">")(DateTime(Date(2000, 8, 6)), DateTime(Date(1999, 7, 7)));
_assertPred!("opCmp", "<")(DateTime(Date(1999, 7, 7)), DateTime(Date(2000, 7, 6)));
_assertPred!("opCmp", ">")(DateTime(Date(2000, 7, 6)), DateTime(Date(1999, 7, 7)));
_assertPred!("opCmp", "<")(DateTime(Date(1999, 7, 7)), DateTime(Date(1999, 8, 6)));
_assertPred!("opCmp", ">")(DateTime(Date(1999, 8, 6)), DateTime(Date(1999, 7, 7)));
_assertPred!("opCmp", "==")(DateTime(Date(1999, 7, 6), TimeOfDay(0, 0, 0)),
DateTime(Date(1999, 7, 6), TimeOfDay(0, 0, 0)));
_assertPred!("opCmp", "==")(DateTime(Date(1999, 7, 6), TimeOfDay(12, 0, 0)),
DateTime(Date(1999, 7, 6), TimeOfDay(12, 0, 0)));
_assertPred!("opCmp", "==")(DateTime(Date(1999, 7, 6), TimeOfDay(0, 30, 0)),
DateTime(Date(1999, 7, 6), TimeOfDay(0, 30, 0)));
_assertPred!("opCmp", "==")(DateTime(Date(1999, 7, 6), TimeOfDay(0, 0, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(0, 0, 33)));
_assertPred!("opCmp", "==")(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 0)),
DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 0)));
_assertPred!("opCmp", "==")(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", "==")(DateTime(Date(1999, 7, 6), TimeOfDay(0, 30, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(0, 30, 33)));
_assertPred!("opCmp", "==")(DateTime(Date(1999, 7, 6), TimeOfDay(0, 0, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(0, 0, 33)));
_assertPred!("opCmp", "<")(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(13, 30, 33)));
_assertPred!("opCmp", ">")(DateTime(Date(1999, 7, 6), TimeOfDay(13, 30, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", "<")(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(12, 31, 33)));
_assertPred!("opCmp", ">")(DateTime(Date(1999, 7, 6), TimeOfDay(12, 31, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", "<")(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 34)));
_assertPred!("opCmp", ">")(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 34)),
DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", ">")(DateTime(Date(1999, 7, 6), TimeOfDay(13, 30, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 34)));
_assertPred!("opCmp", "<")(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 34)),
DateTime(Date(1999, 7, 6), TimeOfDay(13, 30, 33)));
_assertPred!("opCmp", ">")(DateTime(Date(1999, 7, 6), TimeOfDay(13, 30, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(12, 31, 33)));
_assertPred!("opCmp", "<")(DateTime(Date(1999, 7, 6), TimeOfDay(12, 31, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(13, 30, 33)));
_assertPred!("opCmp", ">")(DateTime(Date(1999, 7, 6), TimeOfDay(12, 31, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 34)));
_assertPred!("opCmp", "<")(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 34)),
DateTime(Date(1999, 7, 6), TimeOfDay(12, 31, 33)));
_assertPred!("opCmp", "<")(DateTime(Date(1999, 7, 6), TimeOfDay(13, 30, 33)),
DateTime(Date(2000, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", ">")(DateTime(Date(2000, 7, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(13, 30, 33)));
_assertPred!("opCmp", "<")(DateTime(Date(1999, 7, 6), TimeOfDay(12, 31, 33)),
DateTime(Date(2000, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", ">")(DateTime(Date(2000, 7, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(12, 31, 33)));
_assertPred!("opCmp", "<")(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 34)),
DateTime(Date(2000, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", ">")(DateTime(Date(2000, 7, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 34)));
_assertPred!("opCmp", "<")(DateTime(Date(1999, 7, 6), TimeOfDay(13, 30, 33)),
DateTime(Date(1999, 8, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", ">")(DateTime(Date(1999, 8, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(13, 30, 33)));
_assertPred!("opCmp", "<")(DateTime(Date(1999, 7, 6), TimeOfDay(12, 31, 33)),
DateTime(Date(1999, 8, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", ">")(DateTime(Date(1999, 8, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(12, 31, 33)));
_assertPred!("opCmp", "<")(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 34)),
DateTime(Date(1999, 8, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", ">")(DateTime(Date(1999, 8, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 34)));
_assertPred!("opCmp", "<")(DateTime(Date(1999, 7, 6), TimeOfDay(13, 30, 33)),
DateTime(Date(1999, 7, 7), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", ">")(DateTime(Date(1999, 7, 7), TimeOfDay(12, 30, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(13, 30, 33)));
_assertPred!("opCmp", "<")(DateTime(Date(1999, 7, 6), TimeOfDay(12, 31, 33)),
DateTime(Date(1999, 7, 7), TimeOfDay(12, 31, 33)));
_assertPred!("opCmp", ">")(DateTime(Date(1999, 7, 7), TimeOfDay(12, 30, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", "<")(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 34)),
DateTime(Date(1999, 7, 7), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", ">")(DateTime(Date(1999, 7, 7), TimeOfDay(12, 30, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 34)));
//Test B.C.
_assertPred!("opCmp", "==")(DateTime(Date(-1, 1, 1), TimeOfDay(12, 30, 33)),
DateTime(Date(-1, 1, 1), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", "==")(DateTime(Date(-1, 7, 1), TimeOfDay(12, 30, 33)),
DateTime(Date(-1, 7, 1), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", "==")(DateTime(Date(-1, 1, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(-1, 1, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", "==")(DateTime(Date(-1999, 7, 1), TimeOfDay(12, 30, 33)),
DateTime(Date(-1999, 7, 1), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", "==")(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", "==")(DateTime(Date(-1, 7, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(-1, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", "<")(DateTime(Date(-2000, 7, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", ">")(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(-2000, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", "<")(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(-1999, 8, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", ">")(DateTime(Date(-1999, 8, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", "<")(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(-1999, 7, 7), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", ">")(DateTime(Date(-1999, 7, 7), TimeOfDay(12, 30, 33)),
DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", "<")(DateTime(Date(-2000, 8, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(-1999, 7, 7), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", ">")(DateTime(Date(-1999, 8, 7), TimeOfDay(12, 30, 33)),
DateTime(Date(-2000, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", "<")(DateTime(Date(-2000, 7, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(-1999, 7, 7), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", ">")(DateTime(Date(-1999, 7, 7), TimeOfDay(12, 30, 33)),
DateTime(Date(-2000, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", "<")(DateTime(Date(-1999, 7, 7), TimeOfDay(12, 30, 33)),
DateTime(Date(-1999, 8, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", ">")(DateTime(Date(-1999, 8, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(-1999, 7, 7), TimeOfDay(12, 30, 33)));
//Test Both
_assertPred!("opCmp", "<")(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", ">")(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", "<")(DateTime(Date(-1999, 8, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", ">")(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(-1999, 8, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", "<")(DateTime(Date(-1999, 7, 7), TimeOfDay(12, 30, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", ">")(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(-1999, 7, 7), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", "<")(DateTime(Date(-1999, 8, 7), TimeOfDay(12, 30, 33)),
DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", ">")(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(-1999, 8, 7), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", "<")(DateTime(Date(-1999, 8, 6), TimeOfDay(12, 30, 33)),
DateTime(Date(1999, 6, 6), TimeOfDay(12, 30, 33)));
_assertPred!("opCmp", ">")(DateTime(Date(1999, 6, 8), TimeOfDay(12, 30, 33)),
DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
auto dt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 33, 30));
const cdt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 33, 30));
immutable idt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 33, 30));
static assert(__traits(compiles, dt.opCmp(dt)));
static assert(__traits(compiles, dt.opCmp(cdt)));
static assert(__traits(compiles, dt.opCmp(idt)));
static assert(__traits(compiles, cdt.opCmp(dt)));
static assert(__traits(compiles, cdt.opCmp(cdt)));
static assert(__traits(compiles, cdt.opCmp(idt)));
static assert(__traits(compiles, idt.opCmp(dt)));
static assert(__traits(compiles, idt.opCmp(cdt)));
static assert(__traits(compiles, idt.opCmp(idt)));
}
}
/++
The date portion of $(D DateTime).
+/
@property Date date() const pure nothrow
{
return _date;
}
unittest
{
version(testStdDateTime)
{
{
auto dt = DateTime.init;
_assertPred!"=="(dt.date, Date.init);
}
{
auto dt = DateTime(Date(1999, 7, 6));
_assertPred!"=="(dt.date, Date(1999, 7, 6));
}
const cdt = DateTime(1999, 7, 6);
immutable idt = DateTime(1999, 7, 6);
static assert(__traits(compiles, cdt.date == Date(2010, 1, 1)));
static assert(__traits(compiles, idt.date == Date(2010, 1, 1)));
}
}
/++
The date portion of $(D DateTime).
Params:
date = The Date to set this $(D DateTime)'s date portion to.
+/
@property void date(in Date date) pure nothrow
{
_date = date;
}
unittest
{
version(testStdDateTime)
{
auto dt = DateTime.init;
dt.date = Date(1999, 7, 6);
_assertPred!"=="(dt._date, Date(1999, 7, 6));
_assertPred!"=="(dt._tod, TimeOfDay.init);
const cdt = DateTime(1999, 7, 6);
immutable idt = DateTime(1999, 7, 6);
static assert(!__traits(compiles, cdt.date = Date(2010, 1, 1)));
static assert(!__traits(compiles, idt.date = Date(2010, 1, 1)));
}
}
/++
The time portion of $(D DateTime).
+/
@property TimeOfDay timeOfDay() const pure nothrow
{
return _tod;
}
unittest
{
version(testStdDateTime)
{
{
auto dt = DateTime.init;
_assertPred!"=="(dt.timeOfDay, TimeOfDay.init);
}
{
auto dt = DateTime(Date.init, TimeOfDay(12, 30, 33));
_assertPred!"=="(dt.timeOfDay, TimeOfDay(12, 30, 33));
}
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(__traits(compiles, cdt.timeOfDay == TimeOfDay(12, 30, 33)));
static assert(__traits(compiles, idt.timeOfDay == TimeOfDay(12, 30, 33)));
}
}
/++
The time portion of $(D DateTime).
Params:
tod = The $(D TimeOfDay) to set this $(D DateTime)'s time portion
to.
+/
@property void timeOfDay(in TimeOfDay tod) pure nothrow
{
_tod = tod;
}
unittest
{
version(testStdDateTime)
{
auto dt = DateTime.init;
dt.timeOfDay = TimeOfDay(12, 30, 33);
_assertPred!"=="(dt._date, date.init);
_assertPred!"=="(dt._tod, TimeOfDay(12, 30, 33));
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(!__traits(compiles, cdt.timeOfDay = TimeOfDay(12, 30, 33)));
static assert(!__traits(compiles, idt.timeOfDay = TimeOfDay(12, 30, 33)));
}
}
/++
Year of the Gregorian Calendar. Positive numbers are A.D. Non-positive
are B.C.
+/
@property short year() const pure nothrow
{
return _date.year;
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(Date.init.year, 1);
_assertPred!"=="(Date(1999, 7, 6).year, 1999);
_assertPred!"=="(Date(-1999, 7, 6).year, -1999);
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(__traits(compiles, idt.year));
static assert(__traits(compiles, idt.year));
}
}
/++
Year of the Gregorian Calendar. Positive numbers are A.D. Non-positive
are B.C.
Params:
year = The year to set this $(D DateTime)'s year to.
Throws:
$(D DateTimeException) if the new year is not a leap year and if the
resulting date would be on February 29th.
Examples:
--------------------
assert(DateTime(Date(1999, 7, 6), TimeOfDay(9, 7, 5)).year == 1999);
assert(DateTime(Date(2010, 10, 4), TimeOfDay(0, 0, 30)).year == 2010);
assert(DateTime(Date(-7, 4, 5), TimeOfDay(7, 45, 2)).year == -7);
--------------------
+/
@property void year(int year) pure
{
_date.year = year;
}
unittest
{
version(testStdDateTime)
{
static void testDT(DateTime dt, int year, in DateTime expected, size_t line = __LINE__)
{
dt.year = year;
_assertPred!"=="(dt, expected, "", __FILE__, line);
}
testDT(DateTime(Date(1, 1, 1), TimeOfDay(12, 30, 33)), 1999, DateTime(Date(1999, 1, 1), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(1, 1, 1), TimeOfDay(12, 30, 33)), 0, DateTime(Date(0, 1, 1), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(1, 1, 1), TimeOfDay(12, 30, 33)), -1999, DateTime(Date(-1999, 1, 1), TimeOfDay(12, 30, 33)));
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(!__traits(compiles, cdt.year = 7));
static assert(!__traits(compiles, idt.year = 7));
//Verify Examples.
assert(DateTime(Date(1999, 7, 6), TimeOfDay(9, 7, 5)).year == 1999);
assert(DateTime(Date(2010, 10, 4), TimeOfDay(0, 0, 30)).year == 2010);
assert(DateTime(Date(-7, 4, 5), TimeOfDay(7, 45, 2)).year == -7);
}
}
/++
Year B.C. of the Gregorian Calendar counting year 0 as 1 B.C.
Throws:
$(D DateTimeException) if $(D isAD) is true.
Examples:
--------------------
assert(DateTime(Date(0, 1, 1), TimeOfDay(12, 30, 33)).yearBC == 1);
assert(DateTime(Date(-1, 1, 1), TimeOfDay(10, 7, 2)).yearBC == 2);
assert(DateTime(Date(-100, 1, 1), TimeOfDay(4, 59, 0)).yearBC == 101);
--------------------
+/
@property short yearBC() const pure
{
return _date.yearBC;
}
unittest
{
version(testStdDateTime)
{
assertThrown!DateTimeException((in DateTime dt){dt.yearBC;}(DateTime(Date(1, 1, 1))));
auto dt = DateTime(1999, 7, 6, 12, 30, 33);
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(__traits(compiles, dt.yearBC = 12));
static assert(!__traits(compiles, cdt.yearBC = 12));
static assert(!__traits(compiles, idt.yearBC = 12));
//Verify Examples.
assert(DateTime(Date(0, 1, 1), TimeOfDay(12, 30, 33)).yearBC == 1);
assert(DateTime(Date(-1, 1, 1), TimeOfDay(10, 7, 2)).yearBC == 2);
assert(DateTime(Date(-100, 1, 1), TimeOfDay(4, 59, 0)).yearBC == 101);
}
}
/++
Year B.C. of the Gregorian Calendar counting year 0 as 1 B.C.
Params:
year = The year B.C. to set this $(D DateTime)'s year to.
Throws:
$(D DateTimeException) if a non-positive value is given.
Examples:
--------------------
auto dt = DateTime(Date(2010, 1, 1), TimeOfDay(7, 30, 0));
dt.yearBC = 1;
assert(dt == DateTime(Date(0, 1, 1), TimeOfDay(7, 30, 0)));
dt.yearBC = 10;
assert(dt == DateTime(Date(-9, 1, 1), TimeOfDay(7, 30, 0)));
--------------------
+/
@property void yearBC(int year) pure
{
_date.yearBC = year;
}
unittest
{
version(testStdDateTime)
{
assertThrown!DateTimeException((DateTime dt){dt.yearBC = -1;}(DateTime(Date(1, 1, 1))));
{
auto dt = DateTime(1999, 7, 6, 12, 30, 33);
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(__traits(compiles, dt.yearBC = 12));
static assert(!__traits(compiles, cdt.yearBC = 12));
static assert(!__traits(compiles, idt.yearBC = 12));
}
//Verify Examples.
{
auto dt = DateTime(Date(2010, 1, 1), TimeOfDay(7, 30, 0));
dt.yearBC = 1;
assert(dt == DateTime(Date(0, 1, 1), TimeOfDay(7, 30, 0)));
dt.yearBC = 10;
assert(dt == DateTime(Date(-9, 1, 1), TimeOfDay(7, 30, 0)));
}
}
}
/++
Month of a Gregorian Year.
Examples:
--------------------
assert(DateTime(Date(1999, 7, 6), TimeOfDay(9, 7, 5)).month == 7);
assert(DateTime(Date(2010, 10, 4), TimeOfDay(0, 0, 30)).month == 10);
assert(DateTime(Date(-7, 4, 5), TimeOfDay(7, 45, 2)).month == 4);
--------------------
+/
@property Month month() const pure nothrow
{
return _date.month;
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(DateTime.init.month, 1);
_assertPred!"=="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)).month, 7);
_assertPred!"=="(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)).month, 7);
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(__traits(compiles, cdt.month));
static assert(__traits(compiles, idt.month));
//Verify Examples.
assert(DateTime(Date(1999, 7, 6), TimeOfDay(9, 7, 5)).month == 7);
assert(DateTime(Date(2010, 10, 4), TimeOfDay(0, 0, 30)).month == 10);
assert(DateTime(Date(-7, 4, 5), TimeOfDay(7, 45, 2)).month == 4);
}
}
/++
Month of a Gregorian Year.
Params:
month = The month to set this $(D DateTime)'s month to.
Throws:
$(D DateTimeException) if the given month is not a valid month.
+/
@property void month(Month month) pure
{
_date.month = month;
}
unittest
{
version(testStdDateTime)
{
static void testDT(DateTime dt, Month month, in DateTime expected = DateTime.init, size_t line = __LINE__)
{
dt.month = month;
assert(expected != DateTime.init);
_assertPred!"=="(dt, expected, "", __FILE__, line);
}
assertThrown!DateTimeException(testDT(DateTime(Date(1, 1, 1), TimeOfDay(12, 30, 33)), cast(Month)0));
assertThrown!DateTimeException(testDT(DateTime(Date(1, 1, 1), TimeOfDay(12, 30, 33)), cast(Month)13));
testDT(DateTime(Date(1, 1, 1), TimeOfDay(12, 30, 33)), cast(Month)7, DateTime(Date(1, 7, 1), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(-1, 1, 1), TimeOfDay(12, 30, 33)), cast(Month)7, DateTime(Date(-1, 7, 1), TimeOfDay(12, 30, 33)));
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(!__traits(compiles, cdt.month = 12));
static assert(!__traits(compiles, idt.month = 12));
}
}
/++
Day of a Gregorian Month.
Examples:
--------------------
assert(DateTime(Date(1999, 7, 6), TimeOfDay(9, 7, 5)).day == 6);
assert(DateTime(Date(2010, 10, 4), TimeOfDay(0, 0, 30)).day == 4);
assert(DateTime(Date(-7, 4, 5), TimeOfDay(7, 45, 2)).day == 5);
--------------------
+/
@property ubyte day() const pure nothrow
{
return _date.day;
}
//Verify Examples.
version(testStdDateTime) unittest
{
assert(DateTime(Date(1999, 7, 6), TimeOfDay(9, 7, 5)).day == 6);
assert(DateTime(Date(2010, 10, 4), TimeOfDay(0, 0, 30)).day == 4);
assert(DateTime(Date(-7, 4, 5), TimeOfDay(7, 45, 2)).day == 5);
}
version(testStdDateTime) unittest
{
static void test(DateTime dateTime, int expected, size_t line = __LINE__)
{
_assertPred!"=="(dateTime.day, expected,
format("Value given: %s", dateTime), __FILE__, line);
}
foreach(year; chain(testYearsBC, testYearsAD))
{
foreach(md; testMonthDays)
{
foreach(tod; testTODs)
test(DateTime(Date(year, md.month, md.day), tod), md.day);
}
}
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(__traits(compiles, cdt.day));
static assert(__traits(compiles, idt.day));
}
/++
Day of a Gregorian Month.
Params:
day = The day of the month to set this $(D DateTime)'s day to.
Throws:
$(D DateTimeException) if the given day is not a valid day of the
current month.
+/
@property void day(int day) pure
{
_date.day = day;
}
unittest
{
version(testStdDateTime)
{
static void testDT(DateTime dt, int day)
{
dt.day = day;
}
//Test A.D.
assertThrown!DateTimeException(testDT(DateTime(Date(1, 1, 1)), 0));
assertThrown!DateTimeException(testDT(DateTime(Date(1, 1, 1)), 32));
assertThrown!DateTimeException(testDT(DateTime(Date(1, 2, 1)), 29));
assertThrown!DateTimeException(testDT(DateTime(Date(4, 2, 1)), 30));
assertThrown!DateTimeException(testDT(DateTime(Date(1, 3, 1)), 32));
assertThrown!DateTimeException(testDT(DateTime(Date(1, 4, 1)), 31));
assertThrown!DateTimeException(testDT(DateTime(Date(1, 5, 1)), 32));
assertThrown!DateTimeException(testDT(DateTime(Date(1, 6, 1)), 31));
assertThrown!DateTimeException(testDT(DateTime(Date(1, 7, 1)), 32));
assertThrown!DateTimeException(testDT(DateTime(Date(1, 8, 1)), 32));
assertThrown!DateTimeException(testDT(DateTime(Date(1, 9, 1)), 31));
assertThrown!DateTimeException(testDT(DateTime(Date(1, 10, 1)), 32));
assertThrown!DateTimeException(testDT(DateTime(Date(1, 11, 1)), 31));
assertThrown!DateTimeException(testDT(DateTime(Date(1, 12, 1)), 32));
assertNotThrown!DateTimeException(testDT(DateTime(Date(1, 1, 1)), 31));
assertNotThrown!DateTimeException(testDT(DateTime(Date(1, 2, 1)), 28));
assertNotThrown!DateTimeException(testDT(DateTime(Date(4, 2, 1)), 29));
assertNotThrown!DateTimeException(testDT(DateTime(Date(1, 3, 1)), 31));
assertNotThrown!DateTimeException(testDT(DateTime(Date(1, 4, 1)), 30));
assertNotThrown!DateTimeException(testDT(DateTime(Date(1, 5, 1)), 31));
assertNotThrown!DateTimeException(testDT(DateTime(Date(1, 6, 1)), 30));
assertNotThrown!DateTimeException(testDT(DateTime(Date(1, 7, 1)), 31));
assertNotThrown!DateTimeException(testDT(DateTime(Date(1, 8, 1)), 31));
assertNotThrown!DateTimeException(testDT(DateTime(Date(1, 9, 1)), 30));
assertNotThrown!DateTimeException(testDT(DateTime(Date(1, 10, 1)), 31));
assertNotThrown!DateTimeException(testDT(DateTime(Date(1, 11, 1)), 30));
assertNotThrown!DateTimeException(testDT(DateTime(Date(1, 12, 1)), 31));
{
auto dt = DateTime(Date(1, 1, 1), TimeOfDay(7, 12, 22));
dt.day = 6;
_assertPred!"=="(dt, DateTime(Date(1, 1, 6), TimeOfDay(7, 12, 22)));
}
//Test B.C.
assertThrown!DateTimeException(testDT(DateTime(Date(-1, 1, 1)), 0));
assertThrown!DateTimeException(testDT(DateTime(Date(-1, 1, 1)), 32));
assertThrown!DateTimeException(testDT(DateTime(Date(-1, 2, 1)), 29));
assertThrown!DateTimeException(testDT(DateTime(Date(0, 2, 1)), 30));
assertThrown!DateTimeException(testDT(DateTime(Date(-1, 3, 1)), 32));
assertThrown!DateTimeException(testDT(DateTime(Date(-1, 4, 1)), 31));
assertThrown!DateTimeException(testDT(DateTime(Date(-1, 5, 1)), 32));
assertThrown!DateTimeException(testDT(DateTime(Date(-1, 6, 1)), 31));
assertThrown!DateTimeException(testDT(DateTime(Date(-1, 7, 1)), 32));
assertThrown!DateTimeException(testDT(DateTime(Date(-1, 8, 1)), 32));
assertThrown!DateTimeException(testDT(DateTime(Date(-1, 9, 1)), 31));
assertThrown!DateTimeException(testDT(DateTime(Date(-1, 10, 1)), 32));
assertThrown!DateTimeException(testDT(DateTime(Date(-1, 11, 1)), 31));
assertThrown!DateTimeException(testDT(DateTime(Date(-1, 12, 1)), 32));
assertNotThrown!DateTimeException(testDT(DateTime(Date(-1, 1, 1)), 31));
assertNotThrown!DateTimeException(testDT(DateTime(Date(-1, 2, 1)), 28));
assertNotThrown!DateTimeException(testDT(DateTime(Date(0, 2, 1)), 29));
assertNotThrown!DateTimeException(testDT(DateTime(Date(-1, 3, 1)), 31));
assertNotThrown!DateTimeException(testDT(DateTime(Date(-1, 4, 1)), 30));
assertNotThrown!DateTimeException(testDT(DateTime(Date(-1, 5, 1)), 31));
assertNotThrown!DateTimeException(testDT(DateTime(Date(-1, 6, 1)), 30));
assertNotThrown!DateTimeException(testDT(DateTime(Date(-1, 7, 1)), 31));
assertNotThrown!DateTimeException(testDT(DateTime(Date(-1, 8, 1)), 31));
assertNotThrown!DateTimeException(testDT(DateTime(Date(-1, 9, 1)), 30));
assertNotThrown!DateTimeException(testDT(DateTime(Date(-1, 10, 1)), 31));
assertNotThrown!DateTimeException(testDT(DateTime(Date(-1, 11, 1)), 30));
assertNotThrown!DateTimeException(testDT(DateTime(Date(-1, 12, 1)), 31));
auto dt = DateTime(Date(-1, 1, 1), TimeOfDay(7, 12, 22));
dt.day = 6;
_assertPred!"=="(dt, DateTime(Date(-1, 1, 6), TimeOfDay(7, 12, 22)));
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(!__traits(compiles, cdt.day = 27));
static assert(!__traits(compiles, idt.day = 27));
}
}
/++
Hours passed midnight.
+/
@property ubyte hour() const pure nothrow
{
return _tod.hour;
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(DateTime.init.hour, 0);
_assertPred!"=="(DateTime(Date.init, TimeOfDay(12, 0, 0)).hour, 12);
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(__traits(compiles, cdt.hour));
static assert(__traits(compiles, idt.hour));
}
}
/++
Hours passed midnight.
Params:
hour = The hour of the day to set this $(D DateTime)'s hour to.
Throws:
$(D DateTimeException) if the given hour would result in an invalid
$(D DateTime).
+/
@property void hour(int hour) pure
{
_tod.hour = hour;
}
unittest
{
version(testStdDateTime)
{
assertThrown!DateTimeException((){DateTime(Date(1999, 7, 6), TimeOfDay(0, 0, 0)).hour = 24;}());
auto dt = DateTime.init;
dt.hour = 12;
_assertPred!"=="(dt, DateTime(1, 1, 1, 12, 0, 0));
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(!__traits(compiles, cdt.hour = 27));
static assert(!__traits(compiles, idt.hour = 27));
}
}
/++
Minutes passed the hour.
+/
@property ubyte minute() const pure nothrow
{
return _tod.minute;
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(DateTime.init.minute, 0);
_assertPred!"=="(DateTime(1, 1, 1, 0, 30, 0).minute, 30);
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(__traits(compiles, cdt.minute));
static assert(__traits(compiles, idt.minute));
}
}
/++
Minutes passed the hour.
Params:
minute = The minute to set this $(D DateTime)'s minute to.
Throws:
$(D DateTimeException) if the given minute would result in an
invalid $(D DateTime).
+/
@property void minute(int minute) pure
{
_tod.minute = minute;
}
unittest
{
version(testStdDateTime)
{
assertThrown!DateTimeException((){DateTime.init.minute = 60;}());
auto dt = DateTime.init;
dt.minute = 30;
_assertPred!"=="(dt, DateTime(1, 1, 1, 0, 30, 0));
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(!__traits(compiles, cdt.minute = 27));
static assert(!__traits(compiles, idt.minute = 27));
}
}
/++
Seconds passed the minute.
+/
@property ubyte second() const pure nothrow
{
return _tod.second;
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(DateTime.init.second, 0);
_assertPred!"=="(DateTime(1, 1, 1, 0, 0, 33).second, 33);
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(__traits(compiles, cdt.second));
static assert(__traits(compiles, idt.second));
}
}
/++
Seconds passed the minute.
Params:
second = The second to set this $(D DateTime)'s second to.
Throws:
$(D DateTimeException) if the given seconds would result in an
invalid $(D DateTime).
+/
@property void second(int second) pure
{
_tod.second = second;
}
unittest
{
version(testStdDateTime)
{
assertThrown!DateTimeException((){DateTime.init.second = 60;}());
auto dt = DateTime.init;
dt.second = 33;
_assertPred!"=="(dt, DateTime(1, 1, 1, 0, 0, 33));
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(!__traits(compiles, cdt.second = 27));
static assert(!__traits(compiles, idt.second = 27));
}
}
/++
Adds the given number of years or months to this $(D DateTime). A
negative number will subtract.
Note that if day overflow is allowed, and the date with the adjusted
year/month overflows the number of days in the new month, then the month
will be incremented by one, and the day set to the number of days
overflowed. (e.g. if the day were 31 and the new month were June, then
the month would be incremented to July, and the new day would be 1). If
day overflow is not allowed, then the day will be set to the last valid
day in the month (e.g. June 31st would become June 30th).
Params:
units = The type of units to add ("years" or "months").
value = The number of months or years to add to this
$(D DateTime).
allowOverflow = Whether the days should be allowed to overflow,
causing the month to increment.
Examples:
--------------------
auto dt1 = DateTime(2010, 1, 1, 12, 30, 33);
dt1.add!"months"(11);
assert(dt1 == DateTime(2010, 12, 1, 12, 30, 33));
auto dt2 = DateTime(2010, 1, 1, 12, 30, 33);
dt2.add!"months"(-11);
assert(dt2 == DateTime(2009, 2, 1, 12, 30, 33));
auto dt3 = DateTime(2000, 2, 29, 12, 30, 33);
dt3.add!"years"(1);
assert(dt3 == DateTime(2001, 3, 1, 12, 30, 33));
auto dt4 = DateTime(2000, 2, 29, 12, 30, 33);
dt4.add!"years"(1, AllowDayOverflow.no);
assert(dt4 == DateTime(2001, 2, 28, 12, 30, 33));
--------------------
+/
/+ref DateTime+/ void add(string units)(long value, AllowDayOverflow allowOverflow = AllowDayOverflow.yes) pure nothrow
if(units == "years" ||
units == "months")
{
_date.add!units(value, allowOverflow);
}
//Verify Examples.
unittest
{
version(testStdDateTime)
{
auto dt1 = DateTime(2010, 1, 1, 12, 30, 33);
dt1.add!"months"(11);
assert(dt1 == DateTime(2010, 12, 1, 12, 30, 33));
auto dt2 = DateTime(2010, 1, 1, 12, 30, 33);
dt2.add!"months"(-11);
assert(dt2 == DateTime(2009, 2, 1, 12, 30, 33));
auto dt3 = DateTime(2000, 2, 29, 12, 30, 33);
dt3.add!"years"(1);
assert(dt3 == DateTime(2001, 3, 1, 12, 30, 33));
auto dt4 = DateTime(2000, 2, 29, 12, 30, 33);
dt4.add!"years"(1, AllowDayOverflow.no);
assert(dt4 == DateTime(2001, 2, 28, 12, 30, 33));
}
}
unittest
{
version(testStdDateTime)
{
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(!__traits(compiles, cdt.add!"years"(4)));
static assert(!__traits(compiles, idt.add!"years"(4)));
static assert(!__traits(compiles, cdt.add!"months"(4)));
static assert(!__traits(compiles, idt.add!"months"(4)));
}
}
/++
Adds the given number of years or months to this $(D DateTime). A
negative number will subtract.
The difference between rolling and adding is that rolling does not
affect larger units. So, if you roll a $(D DateTime) 12 months, you
get the exact same $(D DateTime). However, the days can still be
affected due to the differing number of days in each month.
Because there are no units larger than years, there is no difference
between adding and rolling years.
Params:
units = The type of units to add ("years" or "months").
value = The number of months or years to add to this
$(D DateTime).
allowOverflow = Whether the days should be allowed to overflow,
causing the month to increment.
Examples:
--------------------
auto dt1 = DateTime(2010, 1, 1, 12, 33, 33);
dt1.roll!"months"(1);
assert(dt1 == DateTime(2010, 2, 1, 12, 33, 33));
auto dt2 = DateTime(2010, 1, 1, 12, 33, 33);
dt2.roll!"months"(-1);
assert(dt2 == DateTime(2010, 12, 1, 12, 33, 33));
auto dt3 = DateTime(1999, 1, 29, 12, 33, 33);
dt3.roll!"months"(1);
assert(dt3 == DateTime(1999, 3, 1, 12, 33, 33));
auto dt4 = DateTime(1999, 1, 29, 12, 33, 33);
dt4.roll!"months"(1, AllowDayOverflow.no);
assert(dt4 == DateTime(1999, 2, 28, 12, 33, 33));
auto dt5 = DateTime(2000, 2, 29, 12, 30, 33);
dt5.roll!"years"(1);
assert(dt5 == DateTime(2001, 3, 1, 12, 30, 33));
auto dt6 = DateTime(2000, 2, 29, 12, 30, 33);
dt6.roll!"years"(1, AllowDayOverflow.no);
assert(dt6 == DateTime(2001, 2, 28, 12, 30, 33));
--------------------
+/
/+ref DateTime+/ void roll(string units)(long value, AllowDayOverflow allowOverflow = AllowDayOverflow.yes) pure nothrow
if(units == "years" ||
units == "months")
{
_date.roll!units(value, allowOverflow);
}
//Verify Examples.
unittest
{
version(testdStdDateTime)
{
auto dt1 = DateTime(2010, 1, 1, 12, 33, 33);
dt1.roll!"months"(1);
assert(dt1 == DateTime(2010, 2, 1, 12, 33, 33));
auto dt2 = DateTime(2010, 1, 1, 12, 33, 33);
dt2.roll!"months"(-1);
assert(dt2 == DateTime(2010, 12, 1, 12, 33, 33));
auto dt3 = DateTime(1999, 1, 29, 12, 33, 33);
dt3.roll!"months"(1);
assert(dt3 == DateTime(1999, 3, 1, 12, 33, 33));
auto dt4 = DateTime(1999, 1, 29, 12, 33, 33);
dt4.roll!"months"(1, AllowDayOverflow.no);
assert(dt4 == DateTime(1999, 2, 28, 12, 33, 33));
auto dt5 = DateTime(2000, 2, 29, 12, 30, 33);
dt5.roll!"years"(1);
assert(dt5 == DateTime(2001, 3, 1, 12, 30, 33));
auto dt6 = DateTime(2000, 2, 29, 12, 30, 33);
dt6.roll!"years"(1, AllowDayOverflow.no);
assert(dt6 == DateTime(2001, 2, 28, 12, 30, 33));
}
}
unittest
{
version(testStdDateTime)
{
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(!__traits(compiles, cdt.roll!"years"(4)));
static assert(!__traits(compiles, idt.roll!"years"(4)));
static assert(!__traits(compiles, cdt.roll!"months"(4)));
static assert(!__traits(compiles, idt.roll!"months"(4)));
static assert(!__traits(compiles, cdt.roll!"days"(4)));
static assert(!__traits(compiles, idt.roll!"days"(4)));
}
}
/++
Adds the given number of units to this $(D DateTime). A negative number
will subtract.
The difference between rolling and adding is that rolling does not
affect larger units. So, for instance, if you roll a $(D DateTime) one
year's worth of days, then you get the exact same $(D DateTime).
Accepted units are $(D "days"), $(D "minutes"), $(D "hours"),
$(D "minutes"), and $(D "seconds").
Params:
units = The units to add.
value = The number of $(D_PARAM units) to add to this $(D DateTime).
Examples:
--------------------
auto dt1 = DateTime(2010, 1, 1, 11, 23, 12);
dt1.roll!"days"(1);
assert(dt1 == DateTime(2010, 1, 2, 11, 23, 12));
dt1.roll!"days"(365);
assert(dt1 == DateTime(2010, 1, 26, 11, 23, 12));
dt1.roll!"days"(-32);
assert(dt1 == DateTime(2010, 1, 25, 11, 23, 12));
auto dt2 = DateTime(2010, 7, 4, 12, 0, 0);
dt2.roll!"hours"(1);
assert(dt2 == DateTime(2010, 7, 4, 13, 0, 0));
auto dt3 = DateTime(2010, 1, 1, 0, 0, 0);
dt3.roll!"seconds"(-1);
assert(dt3 == DateTime(2010, 1, 1, 0, 0, 59));
--------------------
+/
/+ref DateTime+/ void roll(string units)(long days) pure nothrow
if(units == "days")
{
_date.roll!"days"(days);
}
//Verify Examples.
unittest
{
version(testStdDateTime)
{
auto dt1 = DateTime(2010, 1, 1, 11, 23, 12);
dt1.roll!"days"(1);
assert(dt1 == DateTime(2010, 1, 2, 11, 23, 12));
dt1.roll!"days"(365);
assert(dt1 == DateTime(2010, 1, 26, 11, 23, 12));
dt1.roll!"days"(-32);
assert(dt1 == DateTime(2010, 1, 25, 11, 23, 12));
auto dt2 = DateTime(2010, 7, 4, 12, 0, 0);
dt2.roll!"hours"(1);
assert(dt2 == DateTime(2010, 7, 4, 13, 0, 0));
auto dt3 = DateTime(2010, 1, 1, 0, 0, 0);
dt3.roll!"seconds"(-1);
assert(dt3 == DateTime(2010, 1, 1, 0, 0, 59));
}
}
unittest
{
version(testStdDateTime)
{
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(!__traits(compiles, cdt.roll!"days"(4)));
static assert(!__traits(compiles, idt.roll!"days"(4)));
}
}
//Shares documentation with "days" version.
/+ref DateTime+/ void roll(string units)(long value) pure nothrow
if(units == "hours" ||
units == "minutes" ||
units == "seconds")
{
_tod.roll!units(value);
}
//Test roll!"hours"().
unittest
{
version(testStdDateTime)
{
static void testDT(DateTime orig, int hours, in DateTime expected, size_t line = __LINE__)
{
orig.roll!"hours"(hours);
_assertPred!"=="(orig, expected, "", __FILE__, line);
}
//Test A.D.
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 0, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 1, DateTime(Date(1999, 7, 6), TimeOfDay(13, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 2, DateTime(Date(1999, 7, 6), TimeOfDay(14, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 3, DateTime(Date(1999, 7, 6), TimeOfDay(15, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 4, DateTime(Date(1999, 7, 6), TimeOfDay(16, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 5, DateTime(Date(1999, 7, 6), TimeOfDay(17, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 6, DateTime(Date(1999, 7, 6), TimeOfDay(18, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 7, DateTime(Date(1999, 7, 6), TimeOfDay(19, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 8, DateTime(Date(1999, 7, 6), TimeOfDay(20, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 9, DateTime(Date(1999, 7, 6), TimeOfDay(21, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 10, DateTime(Date(1999, 7, 6), TimeOfDay(22, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 11, DateTime(Date(1999, 7, 6), TimeOfDay(23, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 12, DateTime(Date(1999, 7, 6), TimeOfDay(0, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 13, DateTime(Date(1999, 7, 6), TimeOfDay(1, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 14, DateTime(Date(1999, 7, 6), TimeOfDay(2, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 15, DateTime(Date(1999, 7, 6), TimeOfDay(3, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 16, DateTime(Date(1999, 7, 6), TimeOfDay(4, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 17, DateTime(Date(1999, 7, 6), TimeOfDay(5, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 18, DateTime(Date(1999, 7, 6), TimeOfDay(6, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 19, DateTime(Date(1999, 7, 6), TimeOfDay(7, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 20, DateTime(Date(1999, 7, 6), TimeOfDay(8, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 21, DateTime(Date(1999, 7, 6), TimeOfDay(9, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 22, DateTime(Date(1999, 7, 6), TimeOfDay(10, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 23, DateTime(Date(1999, 7, 6), TimeOfDay(11, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 24, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 25, DateTime(Date(1999, 7, 6), TimeOfDay(13, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -1, DateTime(Date(1999, 7, 6), TimeOfDay(11, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -2, DateTime(Date(1999, 7, 6), TimeOfDay(10, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -3, DateTime(Date(1999, 7, 6), TimeOfDay(9, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -4, DateTime(Date(1999, 7, 6), TimeOfDay(8, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -5, DateTime(Date(1999, 7, 6), TimeOfDay(7, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -6, DateTime(Date(1999, 7, 6), TimeOfDay(6, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -7, DateTime(Date(1999, 7, 6), TimeOfDay(5, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -8, DateTime(Date(1999, 7, 6), TimeOfDay(4, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -9, DateTime(Date(1999, 7, 6), TimeOfDay(3, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -10, DateTime(Date(1999, 7, 6), TimeOfDay(2, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -11, DateTime(Date(1999, 7, 6), TimeOfDay(1, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -12, DateTime(Date(1999, 7, 6), TimeOfDay(0, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -13, DateTime(Date(1999, 7, 6), TimeOfDay(23, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -14, DateTime(Date(1999, 7, 6), TimeOfDay(22, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -15, DateTime(Date(1999, 7, 6), TimeOfDay(21, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -16, DateTime(Date(1999, 7, 6), TimeOfDay(20, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -17, DateTime(Date(1999, 7, 6), TimeOfDay(19, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -18, DateTime(Date(1999, 7, 6), TimeOfDay(18, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -19, DateTime(Date(1999, 7, 6), TimeOfDay(17, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -20, DateTime(Date(1999, 7, 6), TimeOfDay(16, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -21, DateTime(Date(1999, 7, 6), TimeOfDay(15, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -22, DateTime(Date(1999, 7, 6), TimeOfDay(14, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -23, DateTime(Date(1999, 7, 6), TimeOfDay(13, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -24, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -25, DateTime(Date(1999, 7, 6), TimeOfDay(11, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(0, 30, 33)), 1, DateTime(Date(1999, 7, 6), TimeOfDay(1, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(0, 30, 33)), 0, DateTime(Date(1999, 7, 6), TimeOfDay(0, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(0, 30, 33)), -1, DateTime(Date(1999, 7, 6), TimeOfDay(23, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(23, 30, 33)), 1, DateTime(Date(1999, 7, 6), TimeOfDay(0, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(23, 30, 33)), 0, DateTime(Date(1999, 7, 6), TimeOfDay(23, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(23, 30, 33)), -1, DateTime(Date(1999, 7, 6), TimeOfDay(22, 30, 33)));
testDT(DateTime(Date(1999, 7, 31), TimeOfDay(23, 30, 33)), 1, DateTime(Date(1999, 7, 31), TimeOfDay(0, 30, 33)));
testDT(DateTime(Date(1999, 8, 1), TimeOfDay(0, 30, 33)), -1, DateTime(Date(1999, 8, 1), TimeOfDay(23, 30, 33)));
testDT(DateTime(Date(1999, 12, 31), TimeOfDay(23, 30, 33)), 1, DateTime(Date(1999, 12, 31), TimeOfDay(0, 30, 33)));
testDT(DateTime(Date(2000, 1, 1), TimeOfDay(0, 30, 33)), -1, DateTime(Date(2000, 1, 1), TimeOfDay(23, 30, 33)));
testDT(DateTime(Date(1999, 2, 28), TimeOfDay(23, 30, 33)), 25, DateTime(Date(1999, 2, 28), TimeOfDay(0, 30, 33)));
testDT(DateTime(Date(1999, 3, 2), TimeOfDay(0, 30, 33)), -25, DateTime(Date(1999, 3, 2), TimeOfDay(23, 30, 33)));
testDT(DateTime(Date(2000, 2, 28), TimeOfDay(23, 30, 33)), 25, DateTime(Date(2000, 2, 28), TimeOfDay(0, 30, 33)));
testDT(DateTime(Date(2000, 3, 1), TimeOfDay(0, 30, 33)), -25, DateTime(Date(2000, 3, 1), TimeOfDay(23, 30, 33)));
//Test B.C.
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 0, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 1, DateTime(Date(-1999, 7, 6), TimeOfDay(13, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 2, DateTime(Date(-1999, 7, 6), TimeOfDay(14, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 3, DateTime(Date(-1999, 7, 6), TimeOfDay(15, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 4, DateTime(Date(-1999, 7, 6), TimeOfDay(16, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 5, DateTime(Date(-1999, 7, 6), TimeOfDay(17, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 6, DateTime(Date(-1999, 7, 6), TimeOfDay(18, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 7, DateTime(Date(-1999, 7, 6), TimeOfDay(19, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 8, DateTime(Date(-1999, 7, 6), TimeOfDay(20, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 9, DateTime(Date(-1999, 7, 6), TimeOfDay(21, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 10, DateTime(Date(-1999, 7, 6), TimeOfDay(22, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 11, DateTime(Date(-1999, 7, 6), TimeOfDay(23, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 12, DateTime(Date(-1999, 7, 6), TimeOfDay(0, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 13, DateTime(Date(-1999, 7, 6), TimeOfDay(1, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 14, DateTime(Date(-1999, 7, 6), TimeOfDay(2, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 15, DateTime(Date(-1999, 7, 6), TimeOfDay(3, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 16, DateTime(Date(-1999, 7, 6), TimeOfDay(4, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 17, DateTime(Date(-1999, 7, 6), TimeOfDay(5, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 18, DateTime(Date(-1999, 7, 6), TimeOfDay(6, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 19, DateTime(Date(-1999, 7, 6), TimeOfDay(7, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 20, DateTime(Date(-1999, 7, 6), TimeOfDay(8, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 21, DateTime(Date(-1999, 7, 6), TimeOfDay(9, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 22, DateTime(Date(-1999, 7, 6), TimeOfDay(10, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 23, DateTime(Date(-1999, 7, 6), TimeOfDay(11, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 24, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 25, DateTime(Date(-1999, 7, 6), TimeOfDay(13, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -1, DateTime(Date(-1999, 7, 6), TimeOfDay(11, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -2, DateTime(Date(-1999, 7, 6), TimeOfDay(10, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -3, DateTime(Date(-1999, 7, 6), TimeOfDay(9, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -4, DateTime(Date(-1999, 7, 6), TimeOfDay(8, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -5, DateTime(Date(-1999, 7, 6), TimeOfDay(7, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -6, DateTime(Date(-1999, 7, 6), TimeOfDay(6, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -7, DateTime(Date(-1999, 7, 6), TimeOfDay(5, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -8, DateTime(Date(-1999, 7, 6), TimeOfDay(4, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -9, DateTime(Date(-1999, 7, 6), TimeOfDay(3, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -10, DateTime(Date(-1999, 7, 6), TimeOfDay(2, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -11, DateTime(Date(-1999, 7, 6), TimeOfDay(1, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -12, DateTime(Date(-1999, 7, 6), TimeOfDay(0, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -13, DateTime(Date(-1999, 7, 6), TimeOfDay(23, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -14, DateTime(Date(-1999, 7, 6), TimeOfDay(22, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -15, DateTime(Date(-1999, 7, 6), TimeOfDay(21, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -16, DateTime(Date(-1999, 7, 6), TimeOfDay(20, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -17, DateTime(Date(-1999, 7, 6), TimeOfDay(19, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -18, DateTime(Date(-1999, 7, 6), TimeOfDay(18, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -19, DateTime(Date(-1999, 7, 6), TimeOfDay(17, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -20, DateTime(Date(-1999, 7, 6), TimeOfDay(16, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -21, DateTime(Date(-1999, 7, 6), TimeOfDay(15, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -22, DateTime(Date(-1999, 7, 6), TimeOfDay(14, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -23, DateTime(Date(-1999, 7, 6), TimeOfDay(13, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -24, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -25, DateTime(Date(-1999, 7, 6), TimeOfDay(11, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(0, 30, 33)), 1, DateTime(Date(-1999, 7, 6), TimeOfDay(1, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(0, 30, 33)), 0, DateTime(Date(-1999, 7, 6), TimeOfDay(0, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(0, 30, 33)), -1, DateTime(Date(-1999, 7, 6), TimeOfDay(23, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(23, 30, 33)), 1, DateTime(Date(-1999, 7, 6), TimeOfDay(0, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(23, 30, 33)), 0, DateTime(Date(-1999, 7, 6), TimeOfDay(23, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(23, 30, 33)), -1, DateTime(Date(-1999, 7, 6), TimeOfDay(22, 30, 33)));
testDT(DateTime(Date(-1999, 7, 31), TimeOfDay(23, 30, 33)), 1, DateTime(Date(-1999, 7, 31), TimeOfDay(0, 30, 33)));
testDT(DateTime(Date(-1999, 8, 1), TimeOfDay(0, 30, 33)), -1, DateTime(Date(-1999, 8, 1), TimeOfDay(23, 30, 33)));
testDT(DateTime(Date(-2001, 12, 31), TimeOfDay(23, 30, 33)), 1, DateTime(Date(-2001, 12, 31), TimeOfDay(0, 30, 33)));
testDT(DateTime(Date(-2000, 1, 1), TimeOfDay(0, 30, 33)), -1, DateTime(Date(-2000, 1, 1), TimeOfDay(23, 30, 33)));
testDT(DateTime(Date(-2001, 2, 28), TimeOfDay(23, 30, 33)), 25, DateTime(Date(-2001, 2, 28), TimeOfDay(0, 30, 33)));
testDT(DateTime(Date(-2001, 3, 2), TimeOfDay(0, 30, 33)), -25, DateTime(Date(-2001, 3, 2), TimeOfDay(23, 30, 33)));
testDT(DateTime(Date(-2000, 2, 28), TimeOfDay(23, 30, 33)), 25, DateTime(Date(-2000, 2, 28), TimeOfDay(0, 30, 33)));
testDT(DateTime(Date(-2000, 3, 1), TimeOfDay(0, 30, 33)), -25, DateTime(Date(-2000, 3, 1), TimeOfDay(23, 30, 33)));
//Test Both
testDT(DateTime(Date(-1, 1, 1), TimeOfDay(11, 30, 33)), 17_546, DateTime(Date(-1, 1, 1), TimeOfDay(13, 30, 33)));
testDT(DateTime(Date(1, 1, 1), TimeOfDay(13, 30, 33)), -17_546, DateTime(Date(1, 1, 1), TimeOfDay(11, 30, 33)));
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(!__traits(compiles, cdt.roll!"hours"(4)));
static assert(!__traits(compiles, idt.roll!"hours"(4)));
//Verify Examples.
auto dt1 = DateTime(Date(2010, 7, 4), TimeOfDay(12, 0, 0));
dt1.roll!"hours"(1);
assert(dt1 == DateTime(Date(2010, 7, 4), TimeOfDay(13, 0, 0)));
auto dt2 = DateTime(Date(2010, 2, 12), TimeOfDay(12, 0, 0));
dt2.roll!"hours"(-1);
assert(dt2 == DateTime(Date(2010, 2, 12), TimeOfDay(11, 0, 0)));
auto dt3 = DateTime(Date(2009, 12, 31), TimeOfDay(23, 0, 0));
dt3.roll!"hours"(1);
assert(dt3 == DateTime(Date(2009, 12, 31), TimeOfDay(0, 0, 0)));
auto dt4 = DateTime(Date(2010, 1, 1), TimeOfDay(0, 0, 0));
dt4.roll!"hours"(-1);
assert(dt4 == DateTime(Date(2010, 1, 1), TimeOfDay(23, 0, 0)));
}
}
//Test roll!"minutes"().
unittest
{
version(testStdDateTime)
{
static void testDT(DateTime orig, int minutes, in DateTime expected, size_t line = __LINE__)
{
orig.roll!"minutes"(minutes);
_assertPred!"=="(orig, expected, "", __FILE__, line);
}
//Test A.D.
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 0, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 1, DateTime(Date(1999, 7, 6), TimeOfDay(12, 31, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 2, DateTime(Date(1999, 7, 6), TimeOfDay(12, 32, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 3, DateTime(Date(1999, 7, 6), TimeOfDay(12, 33, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 4, DateTime(Date(1999, 7, 6), TimeOfDay(12, 34, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 5, DateTime(Date(1999, 7, 6), TimeOfDay(12, 35, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 10, DateTime(Date(1999, 7, 6), TimeOfDay(12, 40, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 15, DateTime(Date(1999, 7, 6), TimeOfDay(12, 45, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 29, DateTime(Date(1999, 7, 6), TimeOfDay(12, 59, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 30, DateTime(Date(1999, 7, 6), TimeOfDay(12, 0, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 45, DateTime(Date(1999, 7, 6), TimeOfDay(12, 15, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 60, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 75, DateTime(Date(1999, 7, 6), TimeOfDay(12, 45, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 90, DateTime(Date(1999, 7, 6), TimeOfDay(12, 0, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 100, DateTime(Date(1999, 7, 6), TimeOfDay(12, 10, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 689, DateTime(Date(1999, 7, 6), TimeOfDay(12, 59, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 690, DateTime(Date(1999, 7, 6), TimeOfDay(12, 0, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 691, DateTime(Date(1999, 7, 6), TimeOfDay(12, 1, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 960, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 1439, DateTime(Date(1999, 7, 6), TimeOfDay(12, 29, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 1440, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 1441, DateTime(Date(1999, 7, 6), TimeOfDay(12, 31, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 2880, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -1, DateTime(Date(1999, 7, 6), TimeOfDay(12, 29, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -2, DateTime(Date(1999, 7, 6), TimeOfDay(12, 28, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -3, DateTime(Date(1999, 7, 6), TimeOfDay(12, 27, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -4, DateTime(Date(1999, 7, 6), TimeOfDay(12, 26, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -5, DateTime(Date(1999, 7, 6), TimeOfDay(12, 25, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -10, DateTime(Date(1999, 7, 6), TimeOfDay(12, 20, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -15, DateTime(Date(1999, 7, 6), TimeOfDay(12, 15, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -29, DateTime(Date(1999, 7, 6), TimeOfDay(12, 1, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -30, DateTime(Date(1999, 7, 6), TimeOfDay(12, 0, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -45, DateTime(Date(1999, 7, 6), TimeOfDay(12, 45, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -60, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -75, DateTime(Date(1999, 7, 6), TimeOfDay(12, 15, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -90, DateTime(Date(1999, 7, 6), TimeOfDay(12, 0, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -100, DateTime(Date(1999, 7, 6), TimeOfDay(12, 50, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -749, DateTime(Date(1999, 7, 6), TimeOfDay(12, 1, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -750, DateTime(Date(1999, 7, 6), TimeOfDay(12, 0, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -751, DateTime(Date(1999, 7, 6), TimeOfDay(12, 59, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -960, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -1439, DateTime(Date(1999, 7, 6), TimeOfDay(12, 31, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -1440, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -1441, DateTime(Date(1999, 7, 6), TimeOfDay(12, 29, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -2880, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 0, 33)), 1, DateTime(Date(1999, 7, 6), TimeOfDay(12, 1, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 0, 33)), 0, DateTime(Date(1999, 7, 6), TimeOfDay(12, 0, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 0, 33)), -1, DateTime(Date(1999, 7, 6), TimeOfDay(12, 59, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(11, 59, 33)), 1, DateTime(Date(1999, 7, 6), TimeOfDay(11, 0, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(11, 59, 33)), 0, DateTime(Date(1999, 7, 6), TimeOfDay(11, 59, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(11, 59, 33)), -1, DateTime(Date(1999, 7, 6), TimeOfDay(11, 58, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(0, 0, 33)), 1, DateTime(Date(1999, 7, 6), TimeOfDay(0, 1, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(0, 0, 33)), 0, DateTime(Date(1999, 7, 6), TimeOfDay(0, 0, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(0, 0, 33)), -1, DateTime(Date(1999, 7, 6), TimeOfDay(0, 59, 33)));
testDT(DateTime(Date(1999, 7, 5), TimeOfDay(23, 59, 33)), 1, DateTime(Date(1999, 7, 5), TimeOfDay(23, 0, 33)));
testDT(DateTime(Date(1999, 7, 5), TimeOfDay(23, 59, 33)), 0, DateTime(Date(1999, 7, 5), TimeOfDay(23, 59, 33)));
testDT(DateTime(Date(1999, 7, 5), TimeOfDay(23, 59, 33)), -1, DateTime(Date(1999, 7, 5), TimeOfDay(23, 58, 33)));
testDT(DateTime(Date(1998, 12, 31), TimeOfDay(23, 59, 33)), 1, DateTime(Date(1998, 12, 31), TimeOfDay(23, 0, 33)));
testDT(DateTime(Date(1998, 12, 31), TimeOfDay(23, 59, 33)), 0, DateTime(Date(1998, 12, 31), TimeOfDay(23, 59, 33)));
testDT(DateTime(Date(1998, 12, 31), TimeOfDay(23, 59, 33)), -1, DateTime(Date(1998, 12, 31), TimeOfDay(23, 58, 33)));
//Test B.C.
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 0, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 1, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 31, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 2, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 32, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 3, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 33, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 4, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 34, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 5, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 35, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 10, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 40, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 15, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 45, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 29, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 59, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 30, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 0, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 45, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 15, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 60, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 75, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 45, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 90, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 0, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 100, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 10, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 689, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 59, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 690, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 0, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 691, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 1, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 960, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 1439, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 29, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 1440, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 1441, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 31, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 2880, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -1, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 29, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -2, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 28, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -3, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 27, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -4, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 26, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -5, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 25, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -10, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 20, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -15, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 15, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -29, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 1, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -30, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 0, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -45, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 45, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -60, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -75, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 15, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -90, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 0, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -100, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 50, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -749, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 1, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -750, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 0, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -751, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 59, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -960, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -1439, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 31, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -1440, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -1441, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 29, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -2880, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 0, 33)), 1, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 1, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 0, 33)), 0, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 0, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 0, 33)), -1, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 59, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(11, 59, 33)), 1, DateTime(Date(-1999, 7, 6), TimeOfDay(11, 0, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(11, 59, 33)), 0, DateTime(Date(-1999, 7, 6), TimeOfDay(11, 59, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(11, 59, 33)), -1, DateTime(Date(-1999, 7, 6), TimeOfDay(11, 58, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(0, 0, 33)), 1, DateTime(Date(-1999, 7, 6), TimeOfDay(0, 1, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(0, 0, 33)), 0, DateTime(Date(-1999, 7, 6), TimeOfDay(0, 0, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(0, 0, 33)), -1, DateTime(Date(-1999, 7, 6), TimeOfDay(0, 59, 33)));
testDT(DateTime(Date(-1999, 7, 5), TimeOfDay(23, 59, 33)), 1, DateTime(Date(-1999, 7, 5), TimeOfDay(23, 0, 33)));
testDT(DateTime(Date(-1999, 7, 5), TimeOfDay(23, 59, 33)), 0, DateTime(Date(-1999, 7, 5), TimeOfDay(23, 59, 33)));
testDT(DateTime(Date(-1999, 7, 5), TimeOfDay(23, 59, 33)), -1, DateTime(Date(-1999, 7, 5), TimeOfDay(23, 58, 33)));
testDT(DateTime(Date(-2000, 12, 31), TimeOfDay(23, 59, 33)), 1, DateTime(Date(-2000, 12, 31), TimeOfDay(23, 0, 33)));
testDT(DateTime(Date(-2000, 12, 31), TimeOfDay(23, 59, 33)), 0, DateTime(Date(-2000, 12, 31), TimeOfDay(23, 59, 33)));
testDT(DateTime(Date(-2000, 12, 31), TimeOfDay(23, 59, 33)), -1, DateTime(Date(-2000, 12, 31), TimeOfDay(23, 58, 33)));
//Test Both
testDT(DateTime(Date(1, 1, 1), TimeOfDay(0, 0, 0)), -1, DateTime(Date(1, 1, 1), TimeOfDay(0, 59, 0)));
testDT(DateTime(Date(0, 12, 31), TimeOfDay(23, 59, 0)), 1, DateTime(Date(0, 12, 31), TimeOfDay(23, 0, 0)));
testDT(DateTime(Date(0, 1, 1), TimeOfDay(0, 0, 0)), -1, DateTime(Date(0, 1, 1), TimeOfDay(0, 59, 0)));
testDT(DateTime(Date(-1, 12, 31), TimeOfDay(23, 59, 0)), 1, DateTime(Date(-1, 12, 31), TimeOfDay(23, 0, 0)));
testDT(DateTime(Date(-1, 1, 1), TimeOfDay(11, 30, 33)), 1_052_760, DateTime(Date(-1, 1, 1), TimeOfDay(11, 30, 33)));
testDT(DateTime(Date(1, 1, 1), TimeOfDay(13, 30, 33)), -1_052_760, DateTime(Date(1, 1, 1), TimeOfDay(13, 30, 33)));
testDT(DateTime(Date(-1, 1, 1), TimeOfDay(11, 30, 33)), 1_052_782, DateTime(Date(-1, 1, 1), TimeOfDay(11, 52, 33)));
testDT(DateTime(Date(1, 1, 1), TimeOfDay(13, 52, 33)), -1_052_782, DateTime(Date(1, 1, 1), TimeOfDay(13, 30, 33)));
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(!__traits(compiles, cdt.roll!"minutes"(4)));
static assert(!__traits(compiles, idt.roll!"minutes"(4)));
}
}
//Test roll!"seconds"().
unittest
{
version(testStdDateTime)
{
static void testDT(DateTime orig, int seconds, in DateTime expected, size_t line = __LINE__)
{
orig.roll!"seconds"(seconds);
_assertPred!"=="(orig, expected, "", __FILE__, line);
}
//Test A.D.
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 0, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 1, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 34)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 2, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 35)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 3, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 36)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 4, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 37)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 5, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 38)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 10, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 43)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 15, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 48)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 26, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 59)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 27, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 0)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 30, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 3)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 59, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 32)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 60, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 61, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 34)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 1766, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 59)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 1767, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 0)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 1768, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 1)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 2007, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 0)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 3599, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 32)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 3600, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 3601, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 34)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), 7200, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -1, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 32)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -2, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 31)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -3, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 30)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -4, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 29)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -5, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 28)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -10, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 23)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -15, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 18)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -33, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 0)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -34, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 59)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -35, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 58)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -59, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 34)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -60, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), -61, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 32)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 0)), 1, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 1)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 0)), 0, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 0)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 0)), -1, DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 59)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 0, 0)), 1, DateTime(Date(1999, 7, 6), TimeOfDay(12, 0, 1)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 0, 0)), 0, DateTime(Date(1999, 7, 6), TimeOfDay(12, 0, 0)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(12, 0, 0)), -1, DateTime(Date(1999, 7, 6), TimeOfDay(12, 0, 59)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(0, 0, 0)), 1, DateTime(Date(1999, 7, 6), TimeOfDay(0, 0, 1)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(0, 0, 0)), 0, DateTime(Date(1999, 7, 6), TimeOfDay(0, 0, 0)));
testDT(DateTime(Date(1999, 7, 6), TimeOfDay(0, 0, 0)), -1, DateTime(Date(1999, 7, 6), TimeOfDay(0, 0, 59)));
testDT(DateTime(Date(1999, 7, 5), TimeOfDay(23, 59, 59)), 1, DateTime(Date(1999, 7, 5), TimeOfDay(23, 59, 0)));
testDT(DateTime(Date(1999, 7, 5), TimeOfDay(23, 59, 59)), 0, DateTime(Date(1999, 7, 5), TimeOfDay(23, 59, 59)));
testDT(DateTime(Date(1999, 7, 5), TimeOfDay(23, 59, 59)), -1, DateTime(Date(1999, 7, 5), TimeOfDay(23, 59, 58)));
testDT(DateTime(Date(1998, 12, 31), TimeOfDay(23, 59, 59)), 1, DateTime(Date(1998, 12, 31), TimeOfDay(23, 59, 0)));
testDT(DateTime(Date(1998, 12, 31), TimeOfDay(23, 59, 59)), 0, DateTime(Date(1998, 12, 31), TimeOfDay(23, 59, 59)));
testDT(DateTime(Date(1998, 12, 31), TimeOfDay(23, 59, 59)), -1, DateTime(Date(1998, 12, 31), TimeOfDay(23, 59, 58)));
//Test B.C.
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 0, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 1, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 34)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 2, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 35)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 3, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 36)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 4, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 37)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 5, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 38)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 10, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 43)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 15, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 48)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 26, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 59)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 27, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 0)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 30, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 3)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 59, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 32)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 60, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 61, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 34)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 1766, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 59)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 1767, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 0)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 1768, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 1)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 2007, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 0)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 3599, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 32)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 3600, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 3601, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 34)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), 7200, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -1, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 32)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -2, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 31)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -3, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 30)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -4, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 29)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -5, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 28)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -10, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 23)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -15, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 18)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -33, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 0)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -34, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 59)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -35, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 58)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -59, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 34)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -60, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)), -61, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 32)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 0)), 1, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 1)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 0)), 0, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 0)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 0)), -1, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 59)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 0, 0)), 1, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 0, 1)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 0, 0)), 0, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 0, 0)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(12, 0, 0)), -1, DateTime(Date(-1999, 7, 6), TimeOfDay(12, 0, 59)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(0, 0, 0)), 1, DateTime(Date(-1999, 7, 6), TimeOfDay(0, 0, 1)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(0, 0, 0)), 0, DateTime(Date(-1999, 7, 6), TimeOfDay(0, 0, 0)));
testDT(DateTime(Date(-1999, 7, 6), TimeOfDay(0, 0, 0)), -1, DateTime(Date(-1999, 7, 6), TimeOfDay(0, 0, 59)));
testDT(DateTime(Date(-1999, 7, 5), TimeOfDay(23, 59, 59)), 1, DateTime(Date(-1999, 7, 5), TimeOfDay(23, 59, 0)));
testDT(DateTime(Date(-1999, 7, 5), TimeOfDay(23, 59, 59)), 0, DateTime(Date(-1999, 7, 5), TimeOfDay(23, 59, 59)));
testDT(DateTime(Date(-1999, 7, 5), TimeOfDay(23, 59, 59)), -1, DateTime(Date(-1999, 7, 5), TimeOfDay(23, 59, 58)));
testDT(DateTime(Date(-2000, 12, 31), TimeOfDay(23, 59, 59)), 1, DateTime(Date(-2000, 12, 31), TimeOfDay(23, 59, 0)));
testDT(DateTime(Date(-2000, 12, 31), TimeOfDay(23, 59, 59)), 0, DateTime(Date(-2000, 12, 31), TimeOfDay(23, 59, 59)));
testDT(DateTime(Date(-2000, 12, 31), TimeOfDay(23, 59, 59)), -1, DateTime(Date(-2000, 12, 31), TimeOfDay(23, 59, 58)));
//Test Both
testDT(DateTime(Date(1, 1, 1), TimeOfDay(0, 0, 0)), -1, DateTime(Date(1, 1, 1), TimeOfDay(0, 0, 59)));
testDT(DateTime(Date(0, 12, 31), TimeOfDay(23, 59, 59)), 1, DateTime(Date(0, 12, 31), TimeOfDay(23, 59, 0)));
testDT(DateTime(Date(0, 1, 1), TimeOfDay(0, 0, 0)), -1, DateTime(Date(0, 1, 1), TimeOfDay(0, 0, 59)));
testDT(DateTime(Date(-1, 12, 31), TimeOfDay(23, 59, 59)), 1, DateTime(Date(-1, 12, 31), TimeOfDay(23, 59, 0)));
testDT(DateTime(Date(-1, 1, 1), TimeOfDay(11, 30, 33)), 63_165_600L, DateTime(Date(-1, 1, 1), TimeOfDay(11, 30, 33)));
testDT(DateTime(Date(1, 1, 1), TimeOfDay(13, 30, 33)), -63_165_600L, DateTime(Date(1, 1, 1), TimeOfDay(13, 30, 33)));
testDT(DateTime(Date(-1, 1, 1), TimeOfDay(11, 30, 33)), 63_165_617L, DateTime(Date(-1, 1, 1), TimeOfDay(11, 30, 50)));
testDT(DateTime(Date(1, 1, 1), TimeOfDay(13, 30, 50)), -63_165_617L, DateTime(Date(1, 1, 1), TimeOfDay(13, 30, 33)));
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(!__traits(compiles, cdt.roll!"seconds"(4)));
static assert(!__traits(compiles, idt.roll!"seconds"(4)));
}
}
/++
Gives the result of adding or subtracting a duration from this
$(D DateTime).
The legal types of arithmetic for $(D DateTime) using this operator are
$(TABLE
$(TR $(TD DateTime) $(TD +) $(TD duration) $(TD -->) $(TD DateTime))
$(TR $(TD DateTime) $(TD -) $(TD duration) $(TD -->) $(TD DateTime))
)
Params:
duration = The duration to add to or subtract from this
$(D DateTime).
+/
DateTime opBinary(string op, D)(in D duration) const pure nothrow
if((op == "+" || op == "-") &&
(is(Unqual!D == Duration) ||
is(Unqual!D == TickDuration)))
{
DateTime retval = this;
static if(is(Unqual!D == Duration))
immutable hnsecs = duration.total!"hnsecs";
else static if(is(Unqual!D == TickDuration))
immutable hnsecs = duration.hnsecs;
//Ideally, this would just be
//return retval.addSeconds(convert!("hnsecs", "seconds")(unaryFun!(op ~ "a")(hnsecs)));
//But there isn't currently a pure version of unaryFun!().
static if(op == "+")
immutable signedHNSecs = hnsecs;
else static if(op == "-")
immutable signedHNSecs = -hnsecs;
else
static assert(0);
return retval.addSeconds(convert!("hnsecs", "seconds")(signedHNSecs));
}
unittest
{
version(testStdDateTime)
{
auto dt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
_assertPred!"=="(dt + dur!"weeks"(7), DateTime(Date(1999, 8, 24), TimeOfDay(12, 30, 33)));
_assertPred!"=="(dt + dur!"weeks"(-7), DateTime(Date(1999, 5, 18), TimeOfDay(12, 30, 33)));
_assertPred!"=="(dt + dur!"days"(7), DateTime(Date(1999, 7, 13), TimeOfDay(12, 30, 33)));
_assertPred!"=="(dt + dur!"days"(-7), DateTime(Date(1999, 6, 29), TimeOfDay(12, 30, 33)));
_assertPred!"=="(dt + dur!"hours"(7), DateTime(Date(1999, 7, 6), TimeOfDay(19, 30, 33)));
_assertPred!"=="(dt + dur!"hours"(-7), DateTime(Date(1999, 7, 6), TimeOfDay(5, 30, 33)));
_assertPred!"=="(dt + dur!"minutes"(7), DateTime(Date(1999, 7, 6), TimeOfDay(12, 37, 33)));
_assertPred!"=="(dt + dur!"minutes"(-7), DateTime(Date(1999, 7, 6), TimeOfDay(12, 23, 33)));
_assertPred!"=="(dt + dur!"seconds"(7), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 40)));
_assertPred!"=="(dt + dur!"seconds"(-7), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 26)));
_assertPred!"=="(dt + dur!"msecs"(7_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 40)));
_assertPred!"=="(dt + dur!"msecs"(-7_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 26)));
_assertPred!"=="(dt + dur!"usecs"(7_000_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 40)));
_assertPred!"=="(dt + dur!"usecs"(-7_000_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 26)));
_assertPred!"=="(dt + dur!"hnsecs"(70_000_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 40)));
_assertPred!"=="(dt + dur!"hnsecs"(-70_000_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 26)));
//This probably only runs in cases where gettimeofday() is used, but it's
//hard to do this test correctly with variable ticksPerSec.
if(TickDuration.ticksPerSec == 1_000_000)
{
_assertPred!"=="(dt + TickDuration.from!"usecs"(7_000_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 40)));
_assertPred!"=="(dt + TickDuration.from!"usecs"(-7_000_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 26)));
}
_assertPred!"=="(dt - dur!"weeks"(-7), DateTime(Date(1999, 8, 24), TimeOfDay(12, 30, 33)));
_assertPred!"=="(dt - dur!"weeks"(7), DateTime(Date(1999, 5, 18), TimeOfDay(12, 30, 33)));
_assertPred!"=="(dt - dur!"days"(-7), DateTime(Date(1999, 7, 13), TimeOfDay(12, 30, 33)));
_assertPred!"=="(dt - dur!"days"(7), DateTime(Date(1999, 6, 29), TimeOfDay(12, 30, 33)));
_assertPred!"=="(dt - dur!"hours"(-7), DateTime(Date(1999, 7, 6), TimeOfDay(19, 30, 33)));
_assertPred!"=="(dt - dur!"hours"(7), DateTime(Date(1999, 7, 6), TimeOfDay(5, 30, 33)));
_assertPred!"=="(dt - dur!"minutes"(-7), DateTime(Date(1999, 7, 6), TimeOfDay(12, 37, 33)));
_assertPred!"=="(dt - dur!"minutes"(7), DateTime(Date(1999, 7, 6), TimeOfDay(12, 23, 33)));
_assertPred!"=="(dt - dur!"seconds"(-7), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 40)));
_assertPred!"=="(dt - dur!"seconds"(7), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 26)));
_assertPred!"=="(dt - dur!"msecs"(-7_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 40)));
_assertPred!"=="(dt - dur!"msecs"(7_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 26)));
_assertPred!"=="(dt - dur!"usecs"(-7_000_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 40)));
_assertPred!"=="(dt - dur!"usecs"(7_000_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 26)));
_assertPred!"=="(dt - dur!"hnsecs"(-70_000_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 40)));
_assertPred!"=="(dt - dur!"hnsecs"(70_000_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 26)));
//This probably only runs in cases where gettimeofday() is used, but it's
//hard to do this test correctly with variable ticksPerSec.
if(TickDuration.ticksPerSec == 1_000_000)
{
_assertPred!"=="(dt - TickDuration.from!"usecs"(-7_000_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 40)));
_assertPred!"=="(dt - TickDuration.from!"usecs"(7_000_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 26)));
}
auto duration = dur!"seconds"(12);
const cdt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
immutable idt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
static assert(__traits(compiles, cdt + duration));
static assert(__traits(compiles, idt + duration));
static assert(__traits(compiles, cdt - duration));
static assert(__traits(compiles, idt - duration));
}
}
/++
Gives the result of adding or subtracting a duration from this
$(D DateTime), as well as assigning the result to this $(D DateTime).
The legal types of arithmetic for $(D DateTime) using this operator are
$(TABLE
$(TR $(TD DateTime) $(TD +) $(TD duration) $(TD -->) $(TD DateTime))
$(TR $(TD DateTime) $(TD -) $(TD duration) $(TD -->) $(TD DateTime))
)
Params:
duration = The duration to add to or subtract from this
$(D DateTime).
+/
/+ref+/ DateTime opOpAssign(string op, D)(in D duration) pure nothrow
if((op == "+" || op == "-") &&
(is(Unqual!D == Duration) ||
is(Unqual!D == TickDuration)))
{
DateTime retval = this;
static if(is(Unqual!D == Duration))
immutable hnsecs = duration.total!"hnsecs";
else static if(is(Unqual!D == TickDuration))
immutable hnsecs = duration.hnsecs;
//Ideally, this would just be
//return addSeconds(convert!("hnsecs", "seconds")(unaryFun!(op ~ "a")(hnsecs)));
//But there isn't currently a pure version of unaryFun!().
static if(op == "+")
immutable signedHNSecs = hnsecs;
else static if(op == "-")
immutable signedHNSecs = -hnsecs;
else
static assert(0);
return addSeconds(convert!("hnsecs", "seconds")(signedHNSecs));
}
unittest
{
version(testStdDateTime)
{
_assertPred!"+="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"weeks"(7), DateTime(Date(1999, 8, 24), TimeOfDay(12, 30, 33)));
_assertPred!"+="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"weeks"(-7), DateTime(Date(1999, 5, 18), TimeOfDay(12, 30, 33)));
_assertPred!"+="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"days"(7), DateTime(Date(1999, 7, 13), TimeOfDay(12, 30, 33)));
_assertPred!"+="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"days"(-7), DateTime(Date(1999, 6, 29), TimeOfDay(12, 30, 33)));
_assertPred!"+="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"hours"(7), DateTime(Date(1999, 7, 6), TimeOfDay(19, 30, 33)));
_assertPred!"+="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"hours"(-7), DateTime(Date(1999, 7, 6), TimeOfDay(5, 30, 33)));
_assertPred!"+="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"minutes"(7), DateTime(Date(1999, 7, 6), TimeOfDay(12, 37, 33)));
_assertPred!"+="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"minutes"(-7), DateTime(Date(1999, 7, 6), TimeOfDay(12, 23, 33)));
_assertPred!"+="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"seconds"(7), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 40)));
_assertPred!"+="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"seconds"(-7), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 26)));
_assertPred!"+="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"msecs"(7_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 40)));
_assertPred!"+="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"msecs"(-7_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 26)));
_assertPred!"+="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"usecs"(7_000_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 40)));
_assertPred!"+="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"usecs"(-7_000_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 26)));
_assertPred!"+="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"hnsecs"(70_000_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 40)));
_assertPred!"+="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"hnsecs"(-70_000_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 26)));
_assertPred!"-="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"weeks"(-7), DateTime(Date(1999, 8, 24), TimeOfDay(12, 30, 33)));
_assertPred!"-="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"weeks"(7), DateTime(Date(1999, 5, 18), TimeOfDay(12, 30, 33)));
_assertPred!"-="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"days"(-7), DateTime(Date(1999, 7, 13), TimeOfDay(12, 30, 33)));
_assertPred!"-="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"days"(7), DateTime(Date(1999, 6, 29), TimeOfDay(12, 30, 33)));
_assertPred!"-="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"hours"(-7), DateTime(Date(1999, 7, 6), TimeOfDay(19, 30, 33)));
_assertPred!"-="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"hours"(7), DateTime(Date(1999, 7, 6), TimeOfDay(5, 30, 33)));
_assertPred!"-="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"minutes"(-7), DateTime(Date(1999, 7, 6), TimeOfDay(12, 37, 33)));
_assertPred!"-="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"minutes"(7), DateTime(Date(1999, 7, 6), TimeOfDay(12, 23, 33)));
_assertPred!"-="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"seconds"(-7), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 40)));
_assertPred!"-="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"seconds"(7), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 26)));
_assertPred!"-="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"msecs"(-7_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 40)));
_assertPred!"-="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"msecs"(7_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 26)));
_assertPred!"-="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"usecs"(-7_000_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 40)));
_assertPred!"-="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"usecs"(7_000_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 26)));
_assertPred!"-="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"hnsecs"(-70_000_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 40)));
_assertPred!"-="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)), dur!"hnsecs"(70_000_000), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 26)));
auto duration = dur!"seconds"(12);
const cdt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
immutable idt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
static assert(!__traits(compiles, cdt += duration));
static assert(!__traits(compiles, idt += duration));
static assert(!__traits(compiles, cdt -= duration));
static assert(!__traits(compiles, idt -= duration));
}
}
/++
Gives the difference between two $(D DateTime)s.
The legal types of arithmetic for $(D DateTime) using this operator are
$(TABLE
$(TR $(TD DateTime) $(TD -) $(TD DateTime) $(TD -->) $(TD duration))
)
+/
Duration opBinary(string op)(in DateTime rhs) const pure nothrow
if(op == "-")
{
immutable dateResult = _date - rhs.date;
immutable todResult = _tod - rhs._tod;
return dur!"hnsecs"(dateResult.total!"hnsecs" + todResult.total!"hnsecs");
}
unittest
{
version(testStdDateTime)
{
auto dt = DateTime(1999, 7, 6, 12, 30, 33);
_assertPred!"=="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)) -
DateTime(Date(1998, 7, 6), TimeOfDay(12, 30, 33)),
dur!"seconds"(31_536_000));
_assertPred!"=="(DateTime(Date(1998, 7, 6), TimeOfDay(12, 30, 33)) -
DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)),
dur!"seconds"(-31_536_000));
_assertPred!"=="(DateTime(Date(1999, 8, 6), TimeOfDay(12, 30, 33)) -
DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)),
dur!"seconds"(26_78_400));
_assertPred!"=="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)) -
DateTime(Date(1999, 8, 6), TimeOfDay(12, 30, 33)),
dur!"seconds"(-26_78_400));
_assertPred!"=="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)) -
DateTime(Date(1999, 7, 5), TimeOfDay(12, 30, 33)),
dur!"seconds"(86_400));
_assertPred!"=="(DateTime(Date(1999, 7, 5), TimeOfDay(12, 30, 33)) -
DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)),
dur!"seconds"(-86_400));
_assertPred!"=="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)) -
DateTime(Date(1999, 7, 6), TimeOfDay(11, 30, 33)),
dur!"seconds"(3600));
_assertPred!"=="(DateTime(Date(1999, 7, 6), TimeOfDay(11, 30, 33)) -
DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)),
dur!"seconds"(-3600));
_assertPred!"=="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 31, 33)) -
DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)),
dur!"seconds"(60));
_assertPred!"=="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)) -
DateTime(Date(1999, 7, 6), TimeOfDay(12, 31, 33)),
dur!"seconds"(-60));
_assertPred!"=="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 34)) -
DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)),
dur!"seconds"(1));
_assertPred!"=="(DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)) -
DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 34)),
dur!"seconds"(-1));
_assertPred!"=="(DateTime(1, 1, 1, 12, 30, 33) - DateTime(1, 1, 1, 0, 0, 0), dur!"seconds"(45033));
_assertPred!"=="(DateTime(1, 1, 1, 0, 0, 0) - DateTime(1, 1, 1, 12, 30, 33), dur!"seconds"(-45033));
_assertPred!"=="(DateTime(0, 12, 31, 12, 30, 33) - DateTime(1, 1, 1, 0, 0, 0), dur!"seconds"(-41367));
_assertPred!"=="(DateTime(1, 1, 1, 0, 0, 0) - DateTime(0, 12, 31, 12, 30, 33), dur!"seconds"(41367));
const cdt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
immutable idt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
static assert(__traits(compiles, dt - dt));
static assert(__traits(compiles, cdt - dt));
static assert(__traits(compiles, idt - dt));
static assert(__traits(compiles, dt - cdt));
static assert(__traits(compiles, cdt - cdt));
static assert(__traits(compiles, idt - cdt));
static assert(__traits(compiles, dt - idt));
static assert(__traits(compiles, cdt - idt));
static assert(__traits(compiles, idt - idt));
}
}
/++
Returns the difference between the two $(D DateTime)s in months.
You can get the difference in years by subtracting the year property
of two $(D DateTime)s, and you can get the difference in days or weeks
by subtracting the $(D DateTime)s themselves and using the Duration that
results, but because you cannot convert between months and smaller units
without a specific date (which $(D Duration)s don't have), you cannot
get the difference in months without doing some math using both the year
and month properties, so this is a convenience function for getting the
difference in months.
Note that the number of days in the months or how far into the month
either date is is irrelevant. It is the difference in the month property
combined with the difference in years * 12. So, for instance,
December 31st and January 1st are one month apart just as December 1st
and January 31st are one month apart.
Params:
rhs = The $(D DateTime) to subtract from this one.
Examples:
--------------------
assert(DateTime(1999, 2, 1, 12, 2, 3).diffMonths(
DateTime(1999, 1, 31, 23, 59, 59)) == 1);
assert(DateTime(1999, 1, 31, 0, 0, 0).diffMonths(
DateTime(1999, 2, 1, 12, 3, 42)) == -1);
assert(DateTime(1999, 3, 1, 5, 30, 0).diffMonths(
DateTime(1999, 1, 1, 2, 4, 7)) == 2);
assert(DateTime(1999, 1, 1, 7, 2, 4).diffMonths(
DateTime(1999, 3, 31, 0, 30, 58)) == -2);
--------------------
+/
int diffMonths(in DateTime rhs) const pure nothrow
{
return _date.diffMonths(rhs._date);
}
unittest
{
version(testStdDateTime)
{
auto dt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
const cdt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
immutable idt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
static assert(__traits(compiles, dt.diffMonths(dt)));
static assert(__traits(compiles, cdt.diffMonths(dt)));
static assert(__traits(compiles, idt.diffMonths(dt)));
static assert(__traits(compiles, dt.diffMonths(cdt)));
static assert(__traits(compiles, cdt.diffMonths(cdt)));
static assert(__traits(compiles, idt.diffMonths(cdt)));
static assert(__traits(compiles, dt.diffMonths(idt)));
static assert(__traits(compiles, cdt.diffMonths(idt)));
static assert(__traits(compiles, idt.diffMonths(idt)));
//Verify Examples.
assert(DateTime(1999, 2, 1, 12, 2, 3).diffMonths(DateTime(1999, 1, 31, 23, 59, 59)) == 1);
assert(DateTime(1999, 1, 31, 0, 0, 0).diffMonths(DateTime(1999, 2, 1, 12, 3, 42)) == -1);
assert(DateTime(1999, 3, 1, 5, 30, 0).diffMonths(DateTime(1999, 1, 1, 2, 4, 7)) == 2);
assert(DateTime(1999, 1, 1, 7, 2, 4).diffMonths(DateTime(1999, 3, 31, 0, 30, 58)) == -2);
}
}
/++
Whether this $(D DateTime) is in a leap year.
+/
@property bool isLeapYear() const pure nothrow
{
return _date.isLeapYear;
}
unittest
{
version(testStdDateTime)
{
auto dt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
const cdt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
immutable idt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
static assert(__traits(compiles, dt.isLeapYear));
static assert(__traits(compiles, cdt.isLeapYear));
static assert(__traits(compiles, idt.isLeapYear));
}
}
/++
Day of the week this $(D DateTime) is on.
+/
@property DayOfWeek dayOfWeek() const pure nothrow
{
return _date.dayOfWeek;
}
unittest
{
version(testStdDateTime)
{
auto dt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
const cdt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
immutable idt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
static assert(__traits(compiles, dt.dayOfWeek));
static assert(__traits(compiles, cdt.dayOfWeek));
static assert(__traits(compiles, idt.dayOfWeek));
}
}
/++
Day of the year this $(D DateTime) is on.
Examples:
--------------------
assert(DateTime(Date(1999, 1, 1), TimeOfDay(12, 22, 7)).dayOfYear == 1);
assert(DateTime(Date(1999, 12, 31), TimeOfDay(7, 2, 59)).dayOfYear == 365);
assert(DateTime(Date(2000, 12, 31), TimeOfDay(21, 20, 0)).dayOfYear == 366);
--------------------
+/
@property ushort dayOfYear() const pure nothrow
{
return _date.dayOfYear;
}
unittest
{
version(testStdDateTime)
{
auto dt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
const cdt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
immutable idt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
static assert(__traits(compiles, dt.dayOfYear));
static assert(__traits(compiles, cdt.dayOfYear));
static assert(__traits(compiles, idt.dayOfYear));
//Verify Examples.
assert(DateTime(Date(1999, 1, 1), TimeOfDay(12, 22, 7)).dayOfYear == 1);
assert(DateTime(Date(1999, 12, 31), TimeOfDay(7, 2, 59)).dayOfYear == 365);
assert(DateTime(Date(2000, 12, 31), TimeOfDay(21, 20, 0)).dayOfYear == 366);
}
}
/++
Day of the year.
Params:
day = The day of the year to set which day of the year this
$(D DateTime) is on.
+/
@property void dayOfYear(int day) pure
{
_date.dayOfYear = day;
}
unittest
{
version(testStdDateTime)
{
auto dt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
const cdt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
immutable idt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
static assert(__traits(compiles, dt.dayOfYear = 12));
static assert(!__traits(compiles, cdt.dayOfYear = 12));
static assert(!__traits(compiles, idt.dayOfYear = 12));
}
}
/++
The Xth day of the Gregorian Calendar that this $(D DateTime) is on.
Examples:
--------------------
assert(DateTime(Date(1, 1, 1), TimeOfDay(0, 0, 0)).dayOfGregorianCal ==
1);
assert(DateTime(Date(1, 12, 31), TimeOfDay(23, 59, 59)).dayOfGregorianCal ==
365);
assert(DateTime(Date(2, 1, 1), TimeOfDay(2, 2, 2)).dayOfGregorianCal ==
366);
assert(DateTime(Date(0, 12, 31), TimeOfDay(7, 7, 7)).dayOfGregorianCal ==
0);
assert(DateTime(Date(0, 1, 1), TimeOfDay(19, 30, 0)).dayOfGregorianCal ==
-365);
assert(DateTime(Date(-1, 12, 31), TimeOfDay(4, 7, 0)).dayOfGregorianCal ==
-366);
assert(DateTime(Date(2000, 1, 1), TimeOfDay(9, 30, 20)).dayOfGregorianCal ==
730_120);
assert(DateTime(Date(2010, 12, 31), TimeOfDay(15, 45, 50)).dayOfGregorianCal ==
734_137);
--------------------
+/
@property int dayOfGregorianCal() const pure nothrow
{
return _date.dayOfGregorianCal;
}
unittest
{
version(testStdDateTime)
{
const cdt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
immutable idt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
static assert(__traits(compiles, cdt.dayOfGregorianCal));
static assert(__traits(compiles, idt.dayOfGregorianCal));
//Verify Examples.
assert(DateTime(Date(1, 1, 1), TimeOfDay(0, 0, 0)).dayOfGregorianCal == 1);
assert(DateTime(Date(1, 12, 31), TimeOfDay(23, 59, 59)).dayOfGregorianCal == 365);
assert(DateTime(Date(2, 1, 1), TimeOfDay(2, 2, 2)).dayOfGregorianCal == 366);
assert(DateTime(Date(0, 12, 31), TimeOfDay(7, 7, 7)).dayOfGregorianCal == 0);
assert(DateTime(Date(0, 1, 1), TimeOfDay(19, 30, 0)).dayOfGregorianCal == -365);
assert(DateTime(Date(-1, 12, 31), TimeOfDay(4, 7, 0)).dayOfGregorianCal == -366);
assert(DateTime(Date(2000, 1, 1), TimeOfDay(9, 30, 20)).dayOfGregorianCal == 730_120);
assert(DateTime(Date(2010, 12, 31), TimeOfDay(15, 45, 50)).dayOfGregorianCal == 734_137);
}
}
/++
The Xth day of the Gregorian Calendar that this $(D DateTime) is on.
Setting this property does not affect the time portion of
$(D DateTime).
Params:
days = The day of the Gregorian Calendar to set this $(D DateTime)
to.
Examples:
--------------------
auto dt = DateTime(Date.init, TimeOfDay(12, 0, 0));
dt.dayOfGregorianCal = 1;
assert(dt == DateTime(Date(1, 1, 1), TimeOfDay(12, 0, 0)));
dt.dayOfGregorianCal = 365;
assert(dt == DateTime(Date(1, 12, 31), TimeOfDay(12, 0, 0)));
dt.dayOfGregorianCal = 366;
assert(dt == DateTime(Date(2, 1, 1), TimeOfDay(12, 0, 0)));
dt.dayOfGregorianCal = 0;
assert(dt == DateTime(Date(0, 12, 31), TimeOfDay(12, 0, 0)));
dt.dayOfGregorianCal = -365;
assert(dt == DateTime(Date(-0, 1, 1), TimeOfDay(12, 0, 0)));
dt.dayOfGregorianCal = -366;
assert(dt == DateTime(Date(-1, 12, 31), TimeOfDay(12, 0, 0)));
dt.dayOfGregorianCal = 730_120;
assert(dt == DateTime(Date(2000, 1, 1), TimeOfDay(12, 0, 0)));
dt.dayOfGregorianCal = 734_137;
assert(dt == DateTime(Date(2010, 12, 31), TimeOfDay(12, 0, 0)));
--------------------
+/
@property void dayOfGregorianCal(int days) pure nothrow
{
_date.dayOfGregorianCal = days;
}
unittest
{
version(testStdDateTime)
{
const cdt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
immutable idt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
static assert(!__traits(compiles, cdt.dayOfGregorianCal = 7));
static assert(!__traits(compiles, idt.dayOfGregorianCal = 7));
//Verify Examples.
auto dt = DateTime(Date.init, TimeOfDay(12, 0, 0));
dt.dayOfGregorianCal = 1;
assert(dt == DateTime(Date(1, 1, 1), TimeOfDay(12, 0, 0)));
dt.dayOfGregorianCal = 365;
assert(dt == DateTime(Date(1, 12, 31), TimeOfDay(12, 0, 0)));
dt.dayOfGregorianCal = 366;
assert(dt == DateTime(Date(2, 1, 1), TimeOfDay(12, 0, 0)));
dt.dayOfGregorianCal = 0;
assert(dt == DateTime(Date(0, 12, 31), TimeOfDay(12, 0, 0)));
dt.dayOfGregorianCal = -365;
assert(dt == DateTime(Date(-0, 1, 1), TimeOfDay(12, 0, 0)));
dt.dayOfGregorianCal = -366;
assert(dt == DateTime(Date(-1, 12, 31), TimeOfDay(12, 0, 0)));
dt.dayOfGregorianCal = 730_120;
assert(dt == DateTime(Date(2000, 1, 1), TimeOfDay(12, 0, 0)));
dt.dayOfGregorianCal = 734_137;
assert(dt == DateTime(Date(2010, 12, 31), TimeOfDay(12, 0, 0)));
}
}
/++
The ISO 8601 week of the year that this $(D DateTime) is in.
See_Also:
$(WEB en.wikipedia.org/wiki/ISO_week_date, ISO Week Date)
+/
@property ubyte isoWeek() const pure nothrow
{
return _date.isoWeek;
}
unittest
{
version(testStdDateTime)
{
auto dt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
const cdt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
immutable idt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
static assert(__traits(compiles, dt.isoWeek));
static assert(__traits(compiles, cdt.isoWeek));
static assert(__traits(compiles, idt.isoWeek));
}
}
/++
$(D DateTime) for the last day in the month that this $(D DateTime) is
in. The time portion of endOfMonth is always 23:59:59.
Examples:
--------------------
assert(DateTime(Date(1999, 1, 6), TimeOfDay(0, 0, 0)).endOfMonth ==
DateTime(Date(1999, 1, 31), TimeOfDay(23, 59, 59)));
assert(DateTime(Date(1999, 2, 7), TimeOfDay(19, 30, 0)).endOfMonth ==
DateTime(Date(1999, 2, 28), TimeOfDay(23, 59, 59)));
assert(DateTime(Date(2000, 2, 7), TimeOfDay(5, 12, 27)).endOfMonth ==
DateTime(Date(2000, 2, 29), TimeOfDay(23, 59, 59)));
assert(DateTime(Date(2000, 6, 4), TimeOfDay(12, 22, 9)).endOfMonth ==
DateTime(Date(2000, 6, 30), TimeOfDay(23, 59, 59)));
--------------------
+/
@property DateTime endOfMonth() const pure nothrow
{
try
return DateTime(_date.endOfMonth, TimeOfDay(23, 59, 59));
catch(Exception e)
assert(0, "DateTime constructor threw.");
}
unittest
{
version(testStdDateTime)
{
//Test A.D.
_assertPred!"=="(DateTime(1999, 1, 1, 0, 13, 26).endOfMonth, DateTime(1999, 1, 31, 23, 59, 59));
_assertPred!"=="(DateTime(1999, 2, 1, 1, 14, 27).endOfMonth, DateTime(1999, 2, 28, 23, 59, 59));
_assertPred!"=="(DateTime(2000, 2, 1, 2, 15, 28).endOfMonth, DateTime(2000, 2, 29, 23, 59, 59));
_assertPred!"=="(DateTime(1999, 3, 1, 3, 16, 29).endOfMonth, DateTime(1999, 3, 31, 23, 59, 59));
_assertPred!"=="(DateTime(1999, 4, 1, 4, 17, 30).endOfMonth, DateTime(1999, 4, 30, 23, 59, 59));
_assertPred!"=="(DateTime(1999, 5, 1, 5, 18, 31).endOfMonth, DateTime(1999, 5, 31, 23, 59, 59));
_assertPred!"=="(DateTime(1999, 6, 1, 6, 19, 32).endOfMonth, DateTime(1999, 6, 30, 23, 59, 59));
_assertPred!"=="(DateTime(1999, 7, 1, 7, 20, 33).endOfMonth, DateTime(1999, 7, 31, 23, 59, 59));
_assertPred!"=="(DateTime(1999, 8, 1, 8, 21, 34).endOfMonth, DateTime(1999, 8, 31, 23, 59, 59));
_assertPred!"=="(DateTime(1999, 9, 1, 9, 22, 35).endOfMonth, DateTime(1999, 9, 30, 23, 59, 59));
_assertPred!"=="(DateTime(1999, 10, 1, 10, 23, 36).endOfMonth, DateTime(1999, 10, 31, 23, 59, 59));
_assertPred!"=="(DateTime(1999, 11, 1, 11, 24, 37).endOfMonth, DateTime(1999, 11, 30, 23, 59, 59));
_assertPred!"=="(DateTime(1999, 12, 1, 12, 25, 38).endOfMonth, DateTime(1999, 12, 31, 23, 59, 59));
//Test B.C.
_assertPred!"=="(DateTime(-1999, 1, 1, 0, 13, 26).endOfMonth, DateTime(-1999, 1, 31, 23, 59, 59));
_assertPred!"=="(DateTime(-1999, 2, 1, 1, 14, 27).endOfMonth, DateTime(-1999, 2, 28, 23, 59, 59));
_assertPred!"=="(DateTime(-2000, 2, 1, 2, 15, 28).endOfMonth, DateTime(-2000, 2, 29, 23, 59, 59));
_assertPred!"=="(DateTime(-1999, 3, 1, 3, 16, 29).endOfMonth, DateTime(-1999, 3, 31, 23, 59, 59));
_assertPred!"=="(DateTime(-1999, 4, 1, 4, 17, 30).endOfMonth, DateTime(-1999, 4, 30, 23, 59, 59));
_assertPred!"=="(DateTime(-1999, 5, 1, 5, 18, 31).endOfMonth, DateTime(-1999, 5, 31, 23, 59, 59));
_assertPred!"=="(DateTime(-1999, 6, 1, 6, 19, 32).endOfMonth, DateTime(-1999, 6, 30, 23, 59, 59));
_assertPred!"=="(DateTime(-1999, 7, 1, 7, 20, 33).endOfMonth, DateTime(-1999, 7, 31, 23, 59, 59));
_assertPred!"=="(DateTime(-1999, 8, 1, 8, 21, 34).endOfMonth, DateTime(-1999, 8, 31, 23, 59, 59));
_assertPred!"=="(DateTime(-1999, 9, 1, 9, 22, 35).endOfMonth, DateTime(-1999, 9, 30, 23, 59, 59));
_assertPred!"=="(DateTime(-1999, 10, 1, 10, 23, 36).endOfMonth, DateTime(-1999, 10, 31, 23, 59, 59));
_assertPred!"=="(DateTime(-1999, 11, 1, 11, 24, 37).endOfMonth, DateTime(-1999, 11, 30, 23, 59, 59));
_assertPred!"=="(DateTime(-1999, 12, 1, 12, 25, 38).endOfMonth, DateTime(-1999, 12, 31, 23, 59, 59));
const cdt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
immutable idt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
static assert(__traits(compiles, cdt.endOfMonth));
static assert(__traits(compiles, idt.endOfMonth));
//Verify Examples.
assert(DateTime(Date(1999, 1, 6), TimeOfDay(0, 0, 0)).endOfMonth == DateTime(Date(1999, 1, 31), TimeOfDay(23, 59, 59)));
assert(DateTime(Date(1999, 2, 7), TimeOfDay(19, 30, 0)).endOfMonth == DateTime(Date(1999, 2, 28), TimeOfDay(23, 59, 59)));
assert(DateTime(Date(2000, 2, 7), TimeOfDay(5, 12, 27)).endOfMonth == DateTime(Date(2000, 2, 29), TimeOfDay(23, 59, 59)));
assert(DateTime(Date(2000, 6, 4), TimeOfDay(12, 22, 9)).endOfMonth == DateTime(Date(2000, 6, 30), TimeOfDay(23, 59, 59)));
}
}
/++
The last day in the month that this $(D DateTime) is in.
Examples:
--------------------
assert(DateTime(Date(1999, 1, 6), TimeOfDay(0, 0, 0)).endOfMonthDay == 31);
assert(DateTime(Date(1999, 2, 7), TimeOfDay(19, 30, 0)).endOfMonthDay == 28);
assert(DateTime(Date(2000, 2, 7), TimeOfDay(5, 12, 27)).endOfMonthDay == 29);
assert(DateTime(Date(2000, 6, 4), TimeOfDay(12, 22, 9)).endOfMonthDay == 30);
--------------------
+/
@property ubyte endOfMonthDay() const pure nothrow
{
return _date.endOfMonthDay;
}
unittest
{
version(testStdDateTime)
{
const cdt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
immutable idt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
static assert(__traits(compiles, cdt.endOfMonthDay));
static assert(__traits(compiles, idt.endOfMonthDay));
//Verify Examples.
assert(DateTime(Date(1999, 1, 6), TimeOfDay(0, 0, 0)).endOfMonthDay == 31);
assert(DateTime(Date(1999, 2, 7), TimeOfDay(19, 30, 0)).endOfMonthDay == 28);
assert(DateTime(Date(2000, 2, 7), TimeOfDay(5, 12, 27)).endOfMonthDay == 29);
assert(DateTime(Date(2000, 6, 4), TimeOfDay(12, 22, 9)).endOfMonthDay == 30);
}
}
/++
Whether the current year is a date in A.D.
Examples:
--------------------
assert(DateTime(Date(1, 1, 1), TimeOfDay(12, 7, 0)).isAD);
assert(DateTime(Date(2010, 12, 31), TimeOfDay(0, 0, 0)).isAD);
assert(!DateTime(Date(0, 12, 31), TimeOfDay(23, 59, 59)).isAD);
assert(!DateTime(Date(-2010, 1, 1), TimeOfDay(2, 2, 2)).isAD);
--------------------
+/
@property bool isAD() const pure nothrow
{
return _date.isAD;
}
unittest
{
version(testStdDateTime)
{
const cdt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
immutable idt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
static assert(__traits(compiles, cdt.isAD));
static assert(__traits(compiles, idt.isAD));
//Verify Examples.
assert(DateTime(Date(1, 1, 1), TimeOfDay(12, 7, 0)).isAD);
assert(DateTime(Date(2010, 12, 31), TimeOfDay(0, 0, 0)).isAD);
assert(!DateTime(Date(0, 12, 31), TimeOfDay(23, 59, 59)).isAD);
assert(!DateTime(Date(-2010, 1, 1), TimeOfDay(2, 2, 2)).isAD);
}
}
/++
The julian day for this $(D DateTime) at the given time. For example,
prior to noon, 1996-03-31 would be the julian day number 2_450_173, so
this function returns 2_450_173, while from noon onward, the julian
day number would be 2_450_174, so this function returns 2_450_174.
+/
@property long julianDay() const pure nothrow
{
if(_tod._hour < 12)
return _date.julianDay - 1;
else
return _date.julianDay;
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(DateTime(Date(-4713, 11, 24), TimeOfDay(0, 0, 0)).julianDay, -1);
_assertPred!"=="(DateTime(Date(-4713, 11, 24), TimeOfDay(12, 0, 0)).julianDay, 0);
_assertPred!"=="(DateTime(Date(0, 12, 31), TimeOfDay(0, 0, 0)).julianDay, 1_721_424);
_assertPred!"=="(DateTime(Date(0, 12, 31), TimeOfDay(12, 0, 0)).julianDay, 1_721_425);
_assertPred!"=="(DateTime(Date(1, 1, 1), TimeOfDay(0, 0, 0)).julianDay, 1_721_425);
_assertPred!"=="(DateTime(Date(1, 1, 1), TimeOfDay(12, 0, 0)).julianDay, 1_721_426);
_assertPred!"=="(DateTime(Date(1582, 10, 15), TimeOfDay(0, 0, 0)).julianDay, 2_299_160);
_assertPred!"=="(DateTime(Date(1582, 10, 15), TimeOfDay(12, 0, 0)).julianDay, 2_299_161);
_assertPred!"=="(DateTime(Date(1858, 11, 17), TimeOfDay(0, 0, 0)).julianDay, 2_400_000);
_assertPred!"=="(DateTime(Date(1858, 11, 17), TimeOfDay(12, 0, 0)).julianDay, 2_400_001);
_assertPred!"=="(DateTime(Date(1982, 1, 4), TimeOfDay(0, 0, 0)).julianDay, 2_444_973);
_assertPred!"=="(DateTime(Date(1982, 1, 4), TimeOfDay(12, 0, 0)).julianDay, 2_444_974);
_assertPred!"=="(DateTime(Date(1996, 3, 31), TimeOfDay(0, 0, 0)).julianDay, 2_450_173);
_assertPred!"=="(DateTime(Date(1996, 3, 31), TimeOfDay(12, 0, 0)).julianDay, 2_450_174);
_assertPred!"=="(DateTime(Date(2010, 8, 24), TimeOfDay(0, 0, 0)).julianDay, 2_455_432);
_assertPred!"=="(DateTime(Date(2010, 8, 24), TimeOfDay(12, 0, 0)).julianDay, 2_455_433);
const cdt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
immutable idt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
static assert(__traits(compiles, cdt.julianDay));
static assert(__traits(compiles, idt.julianDay));
}
}
/++
The modified julian day for any time on this date (since, the modified
julian day changes at midnight).
+/
@property long modJulianDay() const pure nothrow
{
return _date.modJulianDay;
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(DateTime(Date(1858, 11, 17), TimeOfDay(0, 0, 0)).modJulianDay, 0);
_assertPred!"=="(DateTime(Date(1858, 11, 17), TimeOfDay(12, 0, 0)).modJulianDay, 0);
_assertPred!"=="(DateTime(Date(2010, 8, 24), TimeOfDay(0, 0, 0)).modJulianDay, 55_432);
_assertPred!"=="(DateTime(Date(2010, 8, 24), TimeOfDay(12, 0, 0)).modJulianDay, 55_432);
const cdt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
immutable idt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
static assert(__traits(compiles, cdt.modJulianDay));
static assert(__traits(compiles, idt.modJulianDay));
}
}
/++
Converts this $(D DateTime) to a string with the format YYYYMMDDTHHMMSS.
Examples:
--------------------
assert(DateTime(Date(2010, 7, 4), TimeOfDay(7, 6, 12)).toISOString() ==
"20100704T070612");
assert(DateTime(Date(1998, 12, 25), TimeOfDay(2, 15, 0)).toISOString() ==
"19981225T021500");
assert(DateTime(Date(0, 1, 5), TimeOfDay(23, 9, 59)).toISOString() ==
"00000105T230959");
assert(DateTime(Date(-4, 1, 5), TimeOfDay(0, 0, 2)).toISOString() ==
"-00040105T000002");
--------------------
+/
string toISOString() const nothrow
{
try
return format("%sT%s", _date.toISOString(), _tod.toISOString());
catch(Exception e)
assert(0, "format() threw.");
}
unittest
{
version(testStdDateTime)
{
//Test A.D.
_assertPred!"=="(DateTime(Date(9, 12, 4), TimeOfDay(0, 0, 0)).toISOString(), "00091204T000000");
_assertPred!"=="(DateTime(Date(99, 12, 4), TimeOfDay(5, 6, 12)).toISOString(), "00991204T050612");
_assertPred!"=="(DateTime(Date(999, 12, 4), TimeOfDay(13, 44, 59)).toISOString(), "09991204T134459");
_assertPred!"=="(DateTime(Date(9999, 7, 4), TimeOfDay(23, 59, 59)).toISOString(), "99990704T235959");
_assertPred!"=="(DateTime(Date(10000, 10, 20), TimeOfDay(1, 1, 1)).toISOString(), "+100001020T010101");
//Test B.C.
_assertPred!"=="(DateTime(Date(0, 12, 4), TimeOfDay(0, 12, 4)).toISOString(), "00001204T001204");
_assertPred!"=="(DateTime(Date(-9, 12, 4), TimeOfDay(0, 0, 0)).toISOString(), "-00091204T000000");
_assertPred!"=="(DateTime(Date(-99, 12, 4), TimeOfDay(5, 6, 12)).toISOString(), "-00991204T050612");
_assertPred!"=="(DateTime(Date(-999, 12, 4), TimeOfDay(13, 44, 59)).toISOString(), "-09991204T134459");
_assertPred!"=="(DateTime(Date(-9999, 7, 4), TimeOfDay(23, 59, 59)).toISOString(), "-99990704T235959");
_assertPred!"=="(DateTime(Date(-10000, 10, 20), TimeOfDay(1, 1, 1)).toISOString(), "-100001020T010101");
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(__traits(compiles, cdt.toISOString()));
static assert(__traits(compiles, idt.toISOString()));
//Verify Examples.
assert(DateTime(Date(2010, 7, 4), TimeOfDay(7, 6, 12)).toISOString() == "20100704T070612");
assert(DateTime(Date(1998, 12, 25), TimeOfDay(2, 15, 0)).toISOString() == "19981225T021500");
assert(DateTime(Date(0, 1, 5), TimeOfDay(23, 9, 59)).toISOString() == "00000105T230959");
assert(DateTime(Date(-4, 1, 5), TimeOfDay(0, 0, 2)).toISOString() == "-00040105T000002");
}
}
/++
Converts this $(D DateTime) to a string with the format
YYYY-MM-DDTHH:MM:SS.
Examples:
--------------------
assert(DateTime(Date(2010, 7, 4), TimeOfDay(7, 6, 12)).toISOExtString() ==
"2010-07-04T07:06:12");
assert(DateTime(Date(1998, 12, 25), TimeOfDay(2, 15, 0)).toISOExtString() ==
"1998-12-25T02:15:00");
assert(DateTime(Date(0, 1, 5), TimeOfDay(23, 9, 59)).toISOExtString() ==
"0000-01-05T23:09:59");
assert(DateTime(Date(-4, 1, 5), TimeOfDay(0, 0, 2)).toISOExtString() ==
"-0004-01-05T00:00:02");
--------------------
+/
string toISOExtString() const nothrow
{
try
return format("%sT%s", _date.toISOExtString(), _tod.toISOExtString());
catch(Exception e)
assert(0, "format() threw.");
}
/++
$(RED Scheduled for deprecation. Use toISOExtString instead.)
+/
alias toISOExtString toISOExtendedString;
unittest
{
version(testStdDateTime)
{
//Test A.D.
_assertPred!"=="(DateTime(Date(9, 12, 4), TimeOfDay(0, 0, 0)).toISOExtString(), "0009-12-04T00:00:00");
_assertPred!"=="(DateTime(Date(99, 12, 4), TimeOfDay(5, 6, 12)).toISOExtString(), "0099-12-04T05:06:12");
_assertPred!"=="(DateTime(Date(999, 12, 4), TimeOfDay(13, 44, 59)).toISOExtString(), "0999-12-04T13:44:59");
_assertPred!"=="(DateTime(Date(9999, 7, 4), TimeOfDay(23, 59, 59)).toISOExtString(), "9999-07-04T23:59:59");
_assertPred!"=="(DateTime(Date(10000, 10, 20), TimeOfDay(1, 1, 1)).toISOExtString(), "+10000-10-20T01:01:01");
//Test B.C.
_assertPred!"=="(DateTime(Date(0, 12, 4), TimeOfDay(0, 12, 4)).toISOExtString(), "0000-12-04T00:12:04");
_assertPred!"=="(DateTime(Date(-9, 12, 4), TimeOfDay(0, 0, 0)).toISOExtString(), "-0009-12-04T00:00:00");
_assertPred!"=="(DateTime(Date(-99, 12, 4), TimeOfDay(5, 6, 12)).toISOExtString(), "-0099-12-04T05:06:12");
_assertPred!"=="(DateTime(Date(-999, 12, 4), TimeOfDay(13, 44, 59)).toISOExtString(), "-0999-12-04T13:44:59");
_assertPred!"=="(DateTime(Date(-9999, 7, 4), TimeOfDay(23, 59, 59)).toISOExtString(), "-9999-07-04T23:59:59");
_assertPred!"=="(DateTime(Date(-10000, 10, 20), TimeOfDay(1, 1, 1)).toISOExtString(), "-10000-10-20T01:01:01");
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(__traits(compiles, cdt.toISOExtString()));
static assert(__traits(compiles, idt.toISOExtString()));
//Verify Examples.
assert(DateTime(Date(2010, 7, 4), TimeOfDay(7, 6, 12)).toISOExtString() == "2010-07-04T07:06:12");
assert(DateTime(Date(1998, 12, 25), TimeOfDay(2, 15, 0)).toISOExtString() == "1998-12-25T02:15:00");
assert(DateTime(Date(0, 1, 5), TimeOfDay(23, 9, 59)).toISOExtString() == "0000-01-05T23:09:59");
assert(DateTime(Date(-4, 1, 5), TimeOfDay(0, 0, 2)).toISOExtString() == "-0004-01-05T00:00:02");
}
}
/++
Converts this $(D DateTime) to a string with the format
YYYY-Mon-DD HH:MM:SS.
Examples:
--------------------
assert(DateTime(Date(2010, 7, 4), TimeOfDay(7, 6, 12)).toSimpleString() ==
"2010-Jul-04 07:06:12");
assert(DateTime(Date(1998, 12, 25), TimeOfDay(2, 15, 0)).toSimpleString() ==
"1998-Dec-25 02:15:00");
assert(DateTime(Date(0, 1, 5), TimeOfDay(23, 9, 59)).toSimpleString() ==
"0000-Jan-05 23:09:59");
assert(DateTime(Dte(-4, 1, 5), TimeOfDay(0, 0, 2)).toSimpleString() ==
"-0004-Jan-05 00:00:02");
--------------------
+/
string toSimpleString() const nothrow
{
try
return format("%s %s", _date.toSimpleString(), _tod.toString());
catch(Exception e)
assert(0, "format() threw.");
}
unittest
{
version(testStdDateTime)
{
//Test A.D.
_assertPred!"=="(DateTime(Date(9, 12, 4), TimeOfDay(0, 0, 0)).toSimpleString(), "0009-Dec-04 00:00:00");
_assertPred!"=="(DateTime(Date(99, 12, 4), TimeOfDay(5, 6, 12)).toSimpleString(), "0099-Dec-04 05:06:12");
_assertPred!"=="(DateTime(Date(999, 12, 4), TimeOfDay(13, 44, 59)).toSimpleString(), "0999-Dec-04 13:44:59");
_assertPred!"=="(DateTime(Date(9999, 7, 4), TimeOfDay(23, 59, 59)).toSimpleString(), "9999-Jul-04 23:59:59");
_assertPred!"=="(DateTime(Date(10000, 10, 20), TimeOfDay(1, 1, 1)).toSimpleString(), "+10000-Oct-20 01:01:01");
//Test B.C.
_assertPred!"=="(DateTime(Date(0, 12, 4), TimeOfDay(0, 12, 4)).toSimpleString(), "0000-Dec-04 00:12:04");
_assertPred!"=="(DateTime(Date(-9, 12, 4), TimeOfDay(0, 0, 0)).toSimpleString(), "-0009-Dec-04 00:00:00");
_assertPred!"=="(DateTime(Date(-99, 12, 4), TimeOfDay(5, 6, 12)).toSimpleString(), "-0099-Dec-04 05:06:12");
_assertPred!"=="(DateTime(Date(-999, 12, 4), TimeOfDay(13, 44, 59)).toSimpleString(), "-0999-Dec-04 13:44:59");
_assertPred!"=="(DateTime(Date(-9999, 7, 4), TimeOfDay(23, 59, 59)).toSimpleString(), "-9999-Jul-04 23:59:59");
_assertPred!"=="(DateTime(Date(-10000, 10, 20), TimeOfDay(1, 1, 1)).toSimpleString(), "-10000-Oct-20 01:01:01");
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(__traits(compiles, cdt.toSimpleString()));
static assert(__traits(compiles, idt.toSimpleString()));
//Verify Examples.
assert(DateTime(Date(2010, 7, 4), TimeOfDay(7, 6, 12)).toSimpleString() == "2010-Jul-04 07:06:12");
assert(DateTime(Date(1998, 12, 25), TimeOfDay(2, 15, 0)).toSimpleString() == "1998-Dec-25 02:15:00");
assert(DateTime(Date(0, 1, 5), TimeOfDay(23, 9, 59)).toSimpleString() == "0000-Jan-05 23:09:59");
assert(DateTime(Date(-4, 1, 5), TimeOfDay(0, 0, 2)).toSimpleString() == "-0004-Jan-05 00:00:02");
}
}
/+
Converts this $(D DateTime) to a string.
+/
//Due to bug http://d.puremagic.com/issues/show_bug.cgi?id=3715 , we can't
//have versions of toString() with extra modifiers, so we define one version
//with modifiers and one without.
string toString()
{
return toSimpleString();
}
/++
Converts this $(D DateTime) to a string.
+/
//Due to bug http://d.puremagic.com/issues/show_bug.cgi?id=3715 , we can't
//have versions of toString() with extra modifiers, so we define one version
//with modifiers and one without.
string toString() const nothrow
{
return toSimpleString();
}
unittest
{
version(testStdDateTime)
{
auto dt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
const cdt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
immutable idt = DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33));
static assert(__traits(compiles, dt.toString()));
static assert(__traits(compiles, cdt.toString()));
static assert(__traits(compiles, idt.toString()));
}
}
/++
Creates a $(D DateTime) from a string with the format YYYYMMDDTHHMMSS.
Whitespace is stripped from the given string.
Params:
isoString = A string formatted in the ISO format for dates and times.
Throws:
$(D DateTimeException) if the given string is not in the ISO format
or if the resulting $(D DateTime) would not be valid.
Examples:
--------------------
assert(DateTime.fromISOString("20100704T070612") ==
DateTime(Date(2010, 7, 4), TimeOfDay(7, 6, 12)));
assert(DateTime.fromISOString("19981225T021500") ==
DateTime(Date(1998, 12, 25), TimeOfDay(2, 15, 0)));
assert(DateTime.fromISOString("00000105T230959") ==
DateTime(Date(0, 1, 5), TimeOfDay(23, 9, 59)));
assert(DateTime.fromISOString("-00040105T000002") ==
DateTime(Date(-4, 1, 5), TimeOfDay(0, 0, 2)));
assert(DateTime.fromISOString(" 20100704T070612 ") ==
DateTime(Date(2010, 7, 4), TimeOfDay(7, 6, 12)));
--------------------
+/
static DateTime fromISOString(S)(in S isoString)
if(isSomeString!S)
{
immutable dstr = to!dstring(strip(isoString));
enforce(dstr.length >= 15, new DateTimeException(format("Invalid ISO String: %s", isoString)));
auto t = dstr.stds_indexOf('T');
enforce(t != -1, new DateTimeException(format("Invalid ISO String: %s", isoString)));
immutable date = Date.fromISOString(dstr[0..t]);
immutable tod = TimeOfDay.fromISOString(dstr[t+1 .. $]);
return DateTime(date, tod);
}
unittest
{
version(testStdDateTime)
{
assertThrown!DateTimeException(DateTime.fromISOString(""));
assertThrown!DateTimeException(DateTime.fromISOString("20100704000000"));
assertThrown!DateTimeException(DateTime.fromISOString("20100704 000000"));
assertThrown!DateTimeException(DateTime.fromISOString("20100704t000000"));
assertThrown!DateTimeException(DateTime.fromISOString("20100704T000000."));
assertThrown!DateTimeException(DateTime.fromISOString("20100704T000000.0"));
assertThrown!DateTimeException(DateTime.fromISOString("2010-07-0400:00:00"));
assertThrown!DateTimeException(DateTime.fromISOString("2010-07-04 00:00:00"));
assertThrown!DateTimeException(DateTime.fromISOString("2010-07-04t00:00:00"));
assertThrown!DateTimeException(DateTime.fromISOString("2010-07-04T00:00:00."));
assertThrown!DateTimeException(DateTime.fromISOString("2010-07-04T00:00:00.0"));
assertThrown!DateTimeException(DateTime.fromISOString("2010-Jul-0400:00:00"));
assertThrown!DateTimeException(DateTime.fromISOString("2010-Jul-04 00:00:00"));
assertThrown!DateTimeException(DateTime.fromISOString("2010-Jul-04t00:00:00"));
assertThrown!DateTimeException(DateTime.fromISOString("2010-Jul-04T00:00:00"));
assertThrown!DateTimeException(DateTime.fromISOString("2010-Jul-04 00:00:00."));
assertThrown!DateTimeException(DateTime.fromISOString("2010-Jul-04 00:00:00.0"));
assertThrown!DateTimeException(DateTime.fromISOString("2010-12-22T172201"));
assertThrown!DateTimeException(DateTime.fromISOString("2010-Dec-22 17:22:01"));
_assertPred!"=="(DateTime.fromISOString("20101222T172201"), DateTime(Date(2010, 12, 22), TimeOfDay(17, 22, 01)));
_assertPred!"=="(DateTime.fromISOString("19990706T123033"), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!"=="(DateTime.fromISOString("-19990706T123033"), DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!"=="(DateTime.fromISOString("+019990706T123033"), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!"=="(DateTime.fromISOString("19990706T123033 "), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!"=="(DateTime.fromISOString(" 19990706T123033"), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!"=="(DateTime.fromISOString(" 19990706T123033 "), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
//Verify Examples.
assert(DateTime.fromISOString("20100704T070612") == DateTime(Date(2010, 7, 4), TimeOfDay(7, 6, 12)));
assert(DateTime.fromISOString("19981225T021500") == DateTime(Date(1998, 12, 25), TimeOfDay(2, 15, 0)));
assert(DateTime.fromISOString("00000105T230959") == DateTime(Date(0, 1, 5), TimeOfDay(23, 9, 59)));
assert(DateTime.fromISOString("-00040105T000002") == DateTime(Date(-4, 1, 5), TimeOfDay(0, 0, 2)));
assert(DateTime.fromISOString(" 20100704T070612 ") == DateTime(Date(2010, 7, 4), TimeOfDay(7, 6, 12)));
}
}
/++
Creates a $(D DateTime) from a string with the format
YYYY-MM-DDTHH:MM:SS. Whitespace is stripped from the given string.
Params:
isoString = A string formatted in the ISO Extended format for dates
and times.
Throws:
$(D DateTimeException) if the given string is not in the ISO
Extended format or if the resulting $(D DateTime) would not be
valid.
Examples:
--------------------
assert(DateTime.fromISOExtString("2010-07-04T07:06:12") ==
DateTime(Date(2010, 7, 4), TimeOfDay(7, 6, 12)));
assert(DateTime.fromISOExtString("1998-12-25T02:15:00") ==
DateTime(Date(1998, 12, 25), TimeOfDay(2, 15, 0)));
assert(DateTime.fromISOExtString("0000-01-05T23:09:59") ==
DateTime(Date(0, 1, 5), TimeOfDay(23, 9, 59)));
assert(DateTime.fromISOExtString("-0004-01-05T00:00:02") ==
DateTime(Date(-4, 1, 5), TimeOfDay(0, 0, 2)));
assert(DateTime.fromISOExtString(" 2010-07-04T07:06:12 ") ==
DateTime(Date(2010, 7, 4), TimeOfDay(7, 6, 12)));
--------------------
+/
static DateTime fromISOExtString(S)(in S isoExtString)
if(isSomeString!(S))
{
immutable dstr = to!dstring(strip(isoExtString));
enforce(dstr.length >= 15, new DateTimeException(format("Invalid ISO Extended String: %s", isoExtString)));
auto t = dstr.stds_indexOf('T');
enforce(t != -1, new DateTimeException(format("Invalid ISO Extended String: %s", isoExtString)));
immutable date = Date.fromISOExtString(dstr[0..t]);
immutable tod = TimeOfDay.fromISOExtString(dstr[t+1 .. $]);
return DateTime(date, tod);
}
/++
$(RED Scheduled for deprecation. Use fromISOExtString instead.)
+/
static DateTime fromISOExtendedString(S)(in S isoExtString)
if(isSomeString!(S))
{
pragma(msg, "fromISOExtendedString has been scheduled for deprecation. " ~
"Use fromISOExtString instead.");
return fromISOExtString!string(isoExtString);
}
unittest
{
version(testStdDateTime)
{
assertThrown!DateTimeException(DateTime.fromISOExtString(""));
assertThrown!DateTimeException(DateTime.fromISOExtString("20100704000000"));
assertThrown!DateTimeException(DateTime.fromISOExtString("20100704 000000"));
assertThrown!DateTimeException(DateTime.fromISOExtString("20100704t000000"));
assertThrown!DateTimeException(DateTime.fromISOExtString("20100704T000000."));
assertThrown!DateTimeException(DateTime.fromISOExtString("20100704T000000.0"));
assertThrown!DateTimeException(DateTime.fromISOExtString("2010-07:0400:00:00"));
assertThrown!DateTimeException(DateTime.fromISOExtString("2010-07-04 00:00:00"));
assertThrown!DateTimeException(DateTime.fromISOExtString("2010-07-04 00:00:00"));
assertThrown!DateTimeException(DateTime.fromISOExtString("2010-07-04t00:00:00"));
assertThrown!DateTimeException(DateTime.fromISOExtString("2010-07-04T00:00:00."));
assertThrown!DateTimeException(DateTime.fromISOExtString("2010-07-04T00:00:00.0"));
assertThrown!DateTimeException(DateTime.fromISOExtString("2010-Jul-0400:00:00"));
assertThrown!DateTimeException(DateTime.fromISOExtString("2010-Jul-04t00:00:00"));
assertThrown!DateTimeException(DateTime.fromISOExtString("2010-Jul-04 00:00:00."));
assertThrown!DateTimeException(DateTime.fromISOExtString("2010-Jul-04 00:00:00.0"));
assertThrown!DateTimeException(DateTime.fromISOExtString("20101222T172201"));
assertThrown!DateTimeException(DateTime.fromISOExtString("2010-Dec-22 17:22:01"));
_assertPred!"=="(DateTime.fromISOExtString("2010-12-22T17:22:01"), DateTime(Date(2010, 12, 22), TimeOfDay(17, 22, 01)));
_assertPred!"=="(DateTime.fromISOExtString("1999-07-06T12:30:33"), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!"=="(DateTime.fromISOExtString("-1999-07-06T12:30:33"), DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!"=="(DateTime.fromISOExtString("+01999-07-06T12:30:33"), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!"=="(DateTime.fromISOExtString("1999-07-06T12:30:33 "), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!"=="(DateTime.fromISOExtString(" 1999-07-06T12:30:33"), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!"=="(DateTime.fromISOExtString(" 1999-07-06T12:30:33 "), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
//Verify Examples.
assert(DateTime.fromISOExtString("2010-07-04T07:06:12") == DateTime(Date(2010, 7, 4), TimeOfDay(7, 6, 12)));
assert(DateTime.fromISOExtString("1998-12-25T02:15:00") == DateTime(Date(1998, 12, 25), TimeOfDay(2, 15, 0)));
assert(DateTime.fromISOExtString("0000-01-05T23:09:59") == DateTime(Date(0, 1, 5), TimeOfDay(23, 9, 59)));
assert(DateTime.fromISOExtString("-0004-01-05T00:00:02") == DateTime(Date(-4, 1, 5), TimeOfDay(0, 0, 2)));
assert(DateTime.fromISOExtString(" 2010-07-04T07:06:12 ") == DateTime(Date(2010, 7, 4), TimeOfDay(7, 6, 12)));
}
}
/++
Creates a $(D DateTime) from a string with the format
YYYY-Mon-DD HH:MM:SS. Whitespace is stripped from the given string.
Params:
simpleString = A string formatted in the way that toSimpleString
formats dates and times.
Throws:
$(D DateTimeException) if the given string is not in the correct
format or if the resulting $(D DateTime) would not be valid.
Examples:
--------------------
assert(DateTime.fromSimpleString("2010-Jul-04 07:06:12") ==
DateTime(Date(2010, 7, 4), TimeOfDay(7, 6, 12)));
assert(DateTime.fromSimpleString("1998-Dec-25 02:15:00") ==
DateTime(Date(1998, 12, 25), TimeOfDay(2, 15, 0)));
assert(DateTime.fromSimpleString("0000-Jan-05 23:09:59") ==
DateTime(Date(0, 1, 5), TimeOfDay(23, 9, 59)));
assert(DateTime.fromSimpleString("-0004-Jan-05 00:00:02") ==
DateTime(Date(-4, 1, 5), TimeOfDay(0, 0, 2)));
assert(DateTime.fromSimpleString(" 2010-Jul-04 07:06:12 ") ==
DateTime(Date(2010, 7, 4), TimeOfDay(7, 6, 12)));
--------------------
+/
static DateTime fromSimpleString(S)(in S simpleString)
if(isSomeString!(S))
{
immutable dstr = to!dstring(strip(simpleString));
enforce(dstr.length >= 15, new DateTimeException(format("Invalid string format: %s", simpleString)));
auto t = dstr.stds_indexOf(' ');
enforce(t != -1, new DateTimeException(format("Invalid string format: %s", simpleString)));
immutable date = Date.fromSimpleString(dstr[0..t]);
immutable tod = TimeOfDay.fromISOExtString(dstr[t+1 .. $]);
return DateTime(date, tod);
}
unittest
{
version(testStdDateTime)
{
assertThrown!DateTimeException(DateTime.fromISOString(""));
assertThrown!DateTimeException(DateTime.fromISOString("20100704000000"));
assertThrown!DateTimeException(DateTime.fromISOString("20100704 000000"));
assertThrown!DateTimeException(DateTime.fromISOString("20100704t000000"));
assertThrown!DateTimeException(DateTime.fromISOString("20100704T000000."));
assertThrown!DateTimeException(DateTime.fromISOString("20100704T000000.0"));
assertThrown!DateTimeException(DateTime.fromISOString("2010-07-0400:00:00"));
assertThrown!DateTimeException(DateTime.fromISOString("2010-07-04 00:00:00"));
assertThrown!DateTimeException(DateTime.fromISOString("2010-07-04t00:00:00"));
assertThrown!DateTimeException(DateTime.fromISOString("2010-07-04T00:00:00."));
assertThrown!DateTimeException(DateTime.fromISOString("2010-07-04T00:00:00.0"));
assertThrown!DateTimeException(DateTime.fromISOString("2010-Jul-0400:00:00"));
assertThrown!DateTimeException(DateTime.fromISOString("2010-Jul-04 00:00:00"));
assertThrown!DateTimeException(DateTime.fromISOString("2010-Jul-04t00:00:00"));
assertThrown!DateTimeException(DateTime.fromISOString("2010-Jul-04T00:00:00"));
assertThrown!DateTimeException(DateTime.fromISOString("2010-Jul-04 00:00:00."));
assertThrown!DateTimeException(DateTime.fromISOString("2010-Jul-04 00:00:00.0"));
assertThrown!DateTimeException(DateTime.fromSimpleString("20101222T172201"));
assertThrown!DateTimeException(DateTime.fromSimpleString("2010-12-22T172201"));
_assertPred!"=="(DateTime.fromSimpleString("2010-Dec-22 17:22:01"), DateTime(Date(2010, 12, 22), TimeOfDay(17, 22, 01)));
_assertPred!"=="(DateTime.fromSimpleString("1999-Jul-06 12:30:33"), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!"=="(DateTime.fromSimpleString("-1999-Jul-06 12:30:33"), DateTime(Date(-1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!"=="(DateTime.fromSimpleString("+01999-Jul-06 12:30:33"), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!"=="(DateTime.fromSimpleString("1999-Jul-06 12:30:33 "), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!"=="(DateTime.fromSimpleString(" 1999-Jul-06 12:30:33"), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
_assertPred!"=="(DateTime.fromSimpleString(" 1999-Jul-06 12:30:33 "), DateTime(Date(1999, 7, 6), TimeOfDay(12, 30, 33)));
//Verify Examples.
assert(DateTime.fromSimpleString("2010-Jul-04 07:06:12") == DateTime(Date(2010, 7, 4), TimeOfDay(7, 6, 12)));
assert(DateTime.fromSimpleString("1998-Dec-25 02:15:00") == DateTime(Date(1998, 12, 25), TimeOfDay(2, 15, 0)));
assert(DateTime.fromSimpleString("0000-Jan-05 23:09:59") == DateTime(Date(0, 1, 5), TimeOfDay(23, 9, 59)));
assert(DateTime.fromSimpleString("-0004-Jan-05 00:00:02") == DateTime(Date(-4, 1, 5), TimeOfDay(0, 0, 2)));
assert(DateTime.fromSimpleString(" 2010-Jul-04 07:06:12 ") == DateTime(Date(2010, 7, 4), TimeOfDay(7, 6, 12)));
}
}
//TODO Add function which takes a user-specified time format and produces a DateTime
//TODO Add function which takes pretty much any time-string and produces a DateTime
// Obviously, it will be less efficient, and it probably won't manage _every_
// possible date format, but a smart conversion function would be nice.
/++
Returns the $(D DateTime) farthest in the past which is representable by
$(D DateTime).
+/
@property static DateTime min() pure nothrow
out(result)
{
assert(result._date == Date.min);
assert(result._tod == TimeOfDay.min);
}
body
{
auto dt = DateTime.init;
dt._date._year = short.min;
dt._date._month = Month.jan;
dt._date._day = 1;
return dt;
}
unittest
{
version(testStdDateTime)
{
assert(DateTime.min.year < 0);
assert(DateTime.min < DateTime.max);
}
}
/++
Returns the $(D DateTime) farthest in the future which is representable
by $(D DateTime).
+/
@property static DateTime max() pure nothrow
out(result)
{
assert(result._date == Date.max);
assert(result._tod == TimeOfDay.max);
}
body
{
auto dt = DateTime.init;
dt._date._year = short.max;
dt._date._month = Month.dec;
dt._date._day = 31;
dt._tod._hour = TimeOfDay.maxHour;
dt._tod._minute = TimeOfDay.maxMinute;
dt._tod._second = TimeOfDay.maxSecond;
return dt;
}
unittest
{
version(testStdDateTime)
{
assert(DateTime.max.year > 0);
assert(DateTime.max > DateTime.min);
}
}
private:
/+
Add seconds to the time of day. Negative values will subtract. If the
number of seconds overflows (or underflows), then the seconds will wrap,
increasing (or decreasing) the number of minutes accordingly. The
same goes for any larger units.
Params:
seconds = The number of seconds to add to this $(D DateTime).
+/
ref DateTime addSeconds(long seconds) pure nothrow
{
long hnsecs = convert!("seconds", "hnsecs")(seconds);
hnsecs += convert!("hours", "hnsecs")(_tod._hour);
hnsecs += convert!("minutes", "hnsecs")(_tod._minute);
hnsecs += convert!("seconds", "hnsecs")(_tod._second);
auto days = splitUnitsFromHNSecs!"days"(hnsecs);
if(hnsecs < 0)
{
hnsecs += convert!("days", "hnsecs")(1);
--days;
}
_date.addDays(days);
immutable newHours = splitUnitsFromHNSecs!"hours"(hnsecs);
immutable newMinutes = splitUnitsFromHNSecs!"minutes"(hnsecs);
immutable newSeconds = splitUnitsFromHNSecs!"seconds"(hnsecs);
_tod._hour = cast(ubyte)newHours;
_tod._minute = cast(ubyte)newMinutes;
_tod._second = cast(ubyte)newSeconds;
return this;
}
unittest
{
version(testStdDateTime)
{
static void testDT(DateTime orig, int seconds, in DateTime expected, size_t line = __LINE__)
{
orig.addSeconds(seconds);
_assertPred!"=="(orig, expected, "", __FILE__, line);
}
//Test A.D.
testDT(DateTime(1999, 7, 6, 12, 30, 33), 0, DateTime(1999, 7, 6, 12, 30, 33));
testDT(DateTime(1999, 7, 6, 12, 30, 33), 1, DateTime(1999, 7, 6, 12, 30, 34));
testDT(DateTime(1999, 7, 6, 12, 30, 33), 2, DateTime(1999, 7, 6, 12, 30, 35));
testDT(DateTime(1999, 7, 6, 12, 30, 33), 3, DateTime(1999, 7, 6, 12, 30, 36));
testDT(DateTime(1999, 7, 6, 12, 30, 33), 4, DateTime(1999, 7, 6, 12, 30, 37));
testDT(DateTime(1999, 7, 6, 12, 30, 33), 5, DateTime(1999, 7, 6, 12, 30, 38));
testDT(DateTime(1999, 7, 6, 12, 30, 33), 10, DateTime(1999, 7, 6, 12, 30, 43));
testDT(DateTime(1999, 7, 6, 12, 30, 33), 15, DateTime(1999, 7, 6, 12, 30, 48));
testDT(DateTime(1999, 7, 6, 12, 30, 33), 26, DateTime(1999, 7, 6, 12, 30, 59));
testDT(DateTime(1999, 7, 6, 12, 30, 33), 27, DateTime(1999, 7, 6, 12, 31, 0));
testDT(DateTime(1999, 7, 6, 12, 30, 33), 30, DateTime(1999, 7, 6, 12, 31, 3));
testDT(DateTime(1999, 7, 6, 12, 30, 33), 59, DateTime(1999, 7, 6, 12, 31, 32));
testDT(DateTime(1999, 7, 6, 12, 30, 33), 60, DateTime(1999, 7, 6, 12, 31, 33));
testDT(DateTime(1999, 7, 6, 12, 30, 33), 61, DateTime(1999, 7, 6, 12, 31, 34));
testDT(DateTime(1999, 7, 6, 12, 30, 33), 1766, DateTime(1999, 7, 6, 12, 59, 59));
testDT(DateTime(1999, 7, 6, 12, 30, 33), 1767, DateTime(1999, 7, 6, 13, 0, 0));
testDT(DateTime(1999, 7, 6, 12, 30, 33), 1768, DateTime(1999, 7, 6, 13, 0, 1));
testDT(DateTime(1999, 7, 6, 12, 30, 33), 2007, DateTime(1999, 7, 6, 13, 4, 0));
testDT(DateTime(1999, 7, 6, 12, 30, 33), 3599, DateTime(1999, 7, 6, 13, 30, 32));
testDT(DateTime(1999, 7, 6, 12, 30, 33), 3600, DateTime(1999, 7, 6, 13, 30, 33));
testDT(DateTime(1999, 7, 6, 12, 30, 33), 3601, DateTime(1999, 7, 6, 13, 30, 34));
testDT(DateTime(1999, 7, 6, 12, 30, 33), 7200, DateTime(1999, 7, 6, 14, 30, 33));
testDT(DateTime(1999, 7, 6, 23, 0, 0), 432_123, DateTime(1999, 7, 11, 23, 2, 3));
testDT(DateTime(1999, 7, 6, 12, 30, 33), -1, DateTime(1999, 7, 6, 12, 30, 32));
testDT(DateTime(1999, 7, 6, 12, 30, 33), -2, DateTime(1999, 7, 6, 12, 30, 31));
testDT(DateTime(1999, 7, 6, 12, 30, 33), -3, DateTime(1999, 7, 6, 12, 30, 30));
testDT(DateTime(1999, 7, 6, 12, 30, 33), -4, DateTime(1999, 7, 6, 12, 30, 29));
testDT(DateTime(1999, 7, 6, 12, 30, 33), -5, DateTime(1999, 7, 6, 12, 30, 28));
testDT(DateTime(1999, 7, 6, 12, 30, 33), -10, DateTime(1999, 7, 6, 12, 30, 23));
testDT(DateTime(1999, 7, 6, 12, 30, 33), -15, DateTime(1999, 7, 6, 12, 30, 18));
testDT(DateTime(1999, 7, 6, 12, 30, 33), -33, DateTime(1999, 7, 6, 12, 30, 0));
testDT(DateTime(1999, 7, 6, 12, 30, 33), -34, DateTime(1999, 7, 6, 12, 29, 59));
testDT(DateTime(1999, 7, 6, 12, 30, 33), -35, DateTime(1999, 7, 6, 12, 29, 58));
testDT(DateTime(1999, 7, 6, 12, 30, 33), -59, DateTime(1999, 7, 6, 12, 29, 34));
testDT(DateTime(1999, 7, 6, 12, 30, 33), -60, DateTime(1999, 7, 6, 12, 29, 33));
testDT(DateTime(1999, 7, 6, 12, 30, 33), -61, DateTime(1999, 7, 6, 12, 29, 32));
testDT(DateTime(1999, 7, 6, 12, 30, 33), -1833, DateTime(1999, 7, 6, 12, 0, 0));
testDT(DateTime(1999, 7, 6, 12, 30, 33), -1834, DateTime(1999, 7, 6, 11, 59, 59));
testDT(DateTime(1999, 7, 6, 12, 30, 33), -3600, DateTime(1999, 7, 6, 11, 30, 33));
testDT(DateTime(1999, 7, 6, 12, 30, 33), -3601, DateTime(1999, 7, 6, 11, 30, 32));
testDT(DateTime(1999, 7, 6, 12, 30, 33), -5134, DateTime(1999, 7, 6, 11, 4, 59));
testDT(DateTime(1999, 7, 6, 23, 0, 0), -432_123, DateTime(1999, 7, 1, 22, 57, 57));
testDT(DateTime(1999, 7, 6, 12, 30, 0), 1, DateTime(1999, 7, 6, 12, 30, 1));
testDT(DateTime(1999, 7, 6, 12, 30, 0), 0, DateTime(1999, 7, 6, 12, 30, 0));
testDT(DateTime(1999, 7, 6, 12, 30, 0), -1, DateTime(1999, 7, 6, 12, 29, 59));
testDT(DateTime(1999, 7, 6, 12, 0, 0), 1, DateTime(1999, 7, 6, 12, 0, 1));
testDT(DateTime(1999, 7, 6, 12, 0, 0), 0, DateTime(1999, 7, 6, 12, 0, 0));
testDT(DateTime(1999, 7, 6, 12, 0, 0), -1, DateTime(1999, 7, 6, 11, 59, 59));
testDT(DateTime(1999, 7, 6, 0, 0, 0), 1, DateTime(1999, 7, 6, 0, 0, 1));
testDT(DateTime(1999, 7, 6, 0, 0, 0), 0, DateTime(1999, 7, 6, 0, 0, 0));
testDT(DateTime(1999, 7, 6, 0, 0, 0), -1, DateTime(1999, 7, 5, 23, 59, 59));
testDT(DateTime(1999, 7, 5, 23, 59, 59), 1, DateTime(1999, 7, 6, 0, 0, 0));
testDT(DateTime(1999, 7, 5, 23, 59, 59), 0, DateTime(1999, 7, 5, 23, 59, 59));
testDT(DateTime(1999, 7, 5, 23, 59, 59), -1, DateTime(1999, 7, 5, 23, 59, 58));
testDT(DateTime(1998, 12, 31, 23, 59, 59), 1, DateTime(1999, 1, 1, 0, 0, 0));
testDT(DateTime(1998, 12, 31, 23, 59, 59), 0, DateTime(1998, 12, 31, 23, 59, 59));
testDT(DateTime(1998, 12, 31, 23, 59, 59), -1, DateTime(1998, 12, 31, 23, 59, 58));
testDT(DateTime(1998, 1, 1, 0, 0, 0), 1, DateTime(1998, 1, 1, 0, 0, 1));
testDT(DateTime(1998, 1, 1, 0, 0, 0), 0, DateTime(1998, 1, 1, 0, 0, 0));
testDT(DateTime(1998, 1, 1, 0, 0, 0), -1, DateTime(1997, 12, 31, 23, 59, 59));
//Test B.C.
testDT(DateTime(-1999, 7, 6, 12, 30, 33), 0, DateTime(-1999, 7, 6, 12, 30, 33));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), 1, DateTime(-1999, 7, 6, 12, 30, 34));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), 2, DateTime(-1999, 7, 6, 12, 30, 35));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), 3, DateTime(-1999, 7, 6, 12, 30, 36));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), 4, DateTime(-1999, 7, 6, 12, 30, 37));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), 5, DateTime(-1999, 7, 6, 12, 30, 38));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), 10, DateTime(-1999, 7, 6, 12, 30, 43));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), 15, DateTime(-1999, 7, 6, 12, 30, 48));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), 26, DateTime(-1999, 7, 6, 12, 30, 59));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), 27, DateTime(-1999, 7, 6, 12, 31, 0));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), 30, DateTime(-1999, 7, 6, 12, 31, 3));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), 59, DateTime(-1999, 7, 6, 12, 31, 32));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), 60, DateTime(-1999, 7, 6, 12, 31, 33));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), 61, DateTime(-1999, 7, 6, 12, 31, 34));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), 1766, DateTime(-1999, 7, 6, 12, 59, 59));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), 1767, DateTime(-1999, 7, 6, 13, 0, 0));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), 1768, DateTime(-1999, 7, 6, 13, 0, 1));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), 2007, DateTime(-1999, 7, 6, 13, 4, 0));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), 3599, DateTime(-1999, 7, 6, 13, 30, 32));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), 3600, DateTime(-1999, 7, 6, 13, 30, 33));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), 3601, DateTime(-1999, 7, 6, 13, 30, 34));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), 7200, DateTime(-1999, 7, 6, 14, 30, 33));
testDT(DateTime(-1999, 7, 6, 23, 0, 0), 432_123, DateTime(-1999, 7, 11, 23, 2, 3));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), -1, DateTime(-1999, 7, 6, 12, 30, 32));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), -2, DateTime(-1999, 7, 6, 12, 30, 31));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), -3, DateTime(-1999, 7, 6, 12, 30, 30));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), -4, DateTime(-1999, 7, 6, 12, 30, 29));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), -5, DateTime(-1999, 7, 6, 12, 30, 28));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), -10, DateTime(-1999, 7, 6, 12, 30, 23));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), -15, DateTime(-1999, 7, 6, 12, 30, 18));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), -33, DateTime(-1999, 7, 6, 12, 30, 0));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), -34, DateTime(-1999, 7, 6, 12, 29, 59));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), -35, DateTime(-1999, 7, 6, 12, 29, 58));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), -59, DateTime(-1999, 7, 6, 12, 29, 34));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), -60, DateTime(-1999, 7, 6, 12, 29, 33));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), -61, DateTime(-1999, 7, 6, 12, 29, 32));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), -1833, DateTime(-1999, 7, 6, 12, 0, 0));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), -1834, DateTime(-1999, 7, 6, 11, 59, 59));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), -3600, DateTime(-1999, 7, 6, 11, 30, 33));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), -3601, DateTime(-1999, 7, 6, 11, 30, 32));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), -5134, DateTime(-1999, 7, 6, 11, 4, 59));
testDT(DateTime(-1999, 7, 6, 12, 30, 33), -7200, DateTime(-1999, 7, 6, 10, 30, 33));
testDT(DateTime(-1999, 7, 6, 23, 0, 0), -432_123, DateTime(-1999, 7, 1, 22, 57, 57));
testDT(DateTime(-1999, 7, 6, 12, 30, 0), 1, DateTime(-1999, 7, 6, 12, 30, 1));
testDT(DateTime(-1999, 7, 6, 12, 30, 0), 0, DateTime(-1999, 7, 6, 12, 30, 0));
testDT(DateTime(-1999, 7, 6, 12, 30, 0), -1, DateTime(-1999, 7, 6, 12, 29, 59));
testDT(DateTime(-1999, 7, 6, 12, 0, 0), 1, DateTime(-1999, 7, 6, 12, 0, 1));
testDT(DateTime(-1999, 7, 6, 12, 0, 0), 0, DateTime(-1999, 7, 6, 12, 0, 0));
testDT(DateTime(-1999, 7, 6, 12, 0, 0), -1, DateTime(-1999, 7, 6, 11, 59, 59));
testDT(DateTime(-1999, 7, 6, 0, 0, 0), 1, DateTime(-1999, 7, 6, 0, 0, 1));
testDT(DateTime(-1999, 7, 6, 0, 0, 0), 0, DateTime(-1999, 7, 6, 0, 0, 0));
testDT(DateTime(-1999, 7, 6, 0, 0, 0), -1, DateTime(-1999, 7, 5, 23, 59, 59));
testDT(DateTime(-1999, 7, 5, 23, 59, 59), 1, DateTime(-1999, 7, 6, 0, 0, 0));
testDT(DateTime(-1999, 7, 5, 23, 59, 59), 0, DateTime(-1999, 7, 5, 23, 59, 59));
testDT(DateTime(-1999, 7, 5, 23, 59, 59), -1, DateTime(-1999, 7, 5, 23, 59, 58));
testDT(DateTime(-2000, 12, 31, 23, 59, 59), 1, DateTime(-1999, 1, 1, 0, 0, 0));
testDT(DateTime(-2000, 12, 31, 23, 59, 59), 0, DateTime(-2000, 12, 31, 23, 59, 59));
testDT(DateTime(-2000, 12, 31, 23, 59, 59), -1, DateTime(-2000, 12, 31, 23, 59, 58));
testDT(DateTime(-2000, 1, 1, 0, 0, 0), 1, DateTime(-2000, 1, 1, 0, 0, 1));
testDT(DateTime(-2000, 1, 1, 0, 0, 0), 0, DateTime(-2000, 1, 1, 0, 0, 0));
testDT(DateTime(-2000, 1, 1, 0, 0, 0), -1, DateTime(-2001, 12, 31, 23, 59, 59));
//Test Both
testDT(DateTime(1, 1, 1, 0, 0, 0), -1, DateTime(0, 12, 31, 23, 59, 59));
testDT(DateTime(0, 12, 31, 23, 59, 59), 1, DateTime(1, 1, 1, 0, 0, 0));
testDT(DateTime(0, 1, 1, 0, 0, 0), -1, DateTime(-1, 12, 31, 23, 59, 59));
testDT(DateTime(-1, 12, 31, 23, 59, 59), 1, DateTime(0, 1, 1, 0, 0, 0));
testDT(DateTime(-1, 1, 1, 11, 30, 33), 63_165_600L, DateTime(1, 1, 1, 13, 30, 33));
testDT(DateTime(1, 1, 1, 13, 30, 33), -63_165_600L, DateTime(-1, 1, 1, 11, 30, 33));
testDT(DateTime(-1, 1, 1, 11, 30, 33), 63_165_617L, DateTime(1, 1, 1, 13, 30, 50));
testDT(DateTime(1, 1, 1, 13, 30, 50), -63_165_617L, DateTime(-1, 1, 1, 11, 30, 33));
const cdt = DateTime(1999, 7, 6, 12, 30, 33);
immutable idt = DateTime(1999, 7, 6, 12, 30, 33);
static assert(!__traits(compiles, cdt.addSeconds(4)));
static assert(!__traits(compiles, idt.addSeconds(4)));
}
}
Date _date;
TimeOfDay _tod;
}
//==============================================================================
// Section with intervals.
//==============================================================================
/++
Represents an interval of time.
An $(D Interval) has a starting point and an end point. The interval of time
is therefore the time starting at the starting point up to, but not
including, the end point. e.g.
$(TABLE
$(TR $(TD [January 5th, 2010 - March 10th, 2010$(RPAREN)))
$(TR $(TD [05:00:30 - 12:00:00$(RPAREN)))
$(TR $(TD [1982-01-04T08:59:00 - 2010-07-04T12:00:00$(RPAREN)))
)
A range can be obtained from an $(D Interval), allowing you to iterate over
that interval, with the exact time points which are iterated over depending
on the function which generates the range.
+/
struct Interval(TP)
{
public:
/++
Params:
begin = The time point which begins the interval.
end = The time point which ends (but is not included in) the
interval.
Throws:
$(D DateTimeException) if $(D_PARAM end) is before $(D_PARAM begin).
Examples:
--------------------
Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1));
--------------------
+/
this(U)(in TP begin, in U end) pure
if(is(Unqual!TP == Unqual!U))
{
if(!_valid(begin, end))
throw new DateTimeException("Arguments would result in an invalid Interval.");
_begin = cast(TP)begin;
_end = cast(TP)end;
}
/++
Params:
begin = The time point which begins the interval.
duration = The duration from the starting point to the end point.
Throws:
$(D DateTimeException) if the resulting $(D end) is before
$(D begin).
Examples:
--------------------
assert(Interval!Date(Date(1996, 1, 2), Dur.years(3)) ==
Interval!Date(Date(1996, 1, 2), Date(1999, 1, 2)));
--------------------
+/
this(D)(in TP begin, in D duration) pure
if(__traits(compiles, begin + duration))
{
_begin = cast(TP)begin;
_end = begin + duration;
if(!_valid(_begin, _end))
throw new DateTimeException("Arguments would result in an invalid Interval.");
}
/++
Params:
rhs = The $(D Interval) to assign to this one.
+/
/+ref+/ Interval opAssign(const ref Interval rhs) pure nothrow
{
_begin = cast(TP)rhs._begin;
_end = cast(TP)rhs._end;
return this;
}
/++
Params:
rhs = The $(D Interval) to assign to this one.
+/
/+ref+/ Interval opAssign(Interval rhs) pure nothrow
{
_begin = cast(TP)rhs._begin;
_end = cast(TP)rhs._end;
return this;
}
/++
The starting point of the interval. It is included in the interval.
Examples:
--------------------
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).begin ==
Date(1996, 1, 2));
--------------------
+/
@property TP begin() const pure nothrow
{
return cast(TP)_begin;
}
/++
The starting point of the interval. It is included in the interval.
Params:
timePoint = The time point to set $(D begin) to.
Throws:
$(D DateTimeException) if the resulting interval would be invalid.
+/
@property void begin(TP timePoint) pure
{
if(!_valid(timePoint, _end))
throw new DateTimeException("Arguments would result in an invalid Interval.");
_begin = timePoint;
}
/++
The end point of the interval. It is excluded from the interval.
Examples:
--------------------
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).end ==
Date(2012, 3, 1));
--------------------
+/
@property TP end() const pure nothrow
{
return cast(TP)_end;
}
/++
The end point of the interval. It is excluded from the interval.
Params:
timePoint = The time point to set end to.
Throws:
$(D DateTimeException) if the resulting interval would be invalid.
+/
@property void end(TP timePoint) pure
{
if(!_valid(_begin, timePoint))
throw new DateTimeException("Arguments would result in an invalid Interval.");
_end = timePoint;
}
/++
Returns the duration between $(D begin) and $(D end).
Examples:
--------------------
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).length ==
dur!"days"(5903));
--------------------
+/
@property typeof(end - begin) length() const pure nothrow
{
return _end - _begin;
}
/++
Whether the interval's length is 0, that is, whether $(D begin == end).
Examples:
--------------------
assert(Interval!Date(Date(1996, 1, 2), Date(1996, 1, 2)).empty);
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).empty);
--------------------
+/
@property bool empty() const pure nothrow
{
return _begin == _end;
}
/++
Whether the given time point is within this interval.
Params:
timePoint = The time point to check for inclusion in this interval.
Throws:
$(D DateTimeException) if this interval is empty.
Examples:
--------------------
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).contains(
Date(1994, 12, 24)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).contains(
Date(2000, 1, 5)));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).contains(
Date(2012, 3, 1)));
--------------------
+/
bool contains(in TP timePoint) const pure
{
_enforceNotEmpty();
return timePoint >= _begin && timePoint < _end;
}
/++
Whether the given interval is completely within this interval.
Params:
interval = The interval to check for inclusion in this interval.
Throws:
$(D DateTimeException) if either interval is empty.
Examples:
--------------------
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).contains(
Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).contains(
Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).contains(
Interval!Date(Date(1998, 2, 28), Date(2013, 5, 1))));
--------------------
+/
bool contains(in Interval interval) const pure
{
_enforceNotEmpty();
interval._enforceNotEmpty();
return interval._begin >= _begin &&
interval._begin < _end &&
interval._end <= _end;
}
/++
Whether the given interval is completely within this interval.
Always returns false (unless this interval is empty), because an
interval going to positive infinity can never be contained in a finite
interval.
Params:
interval = The interval to check for inclusion in this interval.
Throws:
$(D DateTimeException) if this interval is empty.
Examples:
--------------------
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).contains(
PosInfInterval!Date(Date(1999, 5, 4))));
--------------------
+/
bool contains(in PosInfInterval!TP interval) const pure
{
_enforceNotEmpty();
return false;
}
/++
Whether the given interval is completely within this interval.
Always returns false (unless this interval is empty), because an
interval beginning at negative infinity can never be contained in a
finite interval.
Params:
interval = The interval to check for inclusion in this interval.
Throws:
$(D DateTimeException) if this interval is empty.
Examples:
--------------------
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).contains(
NegInfInterval!Date(Date(1996, 5, 4))));
--------------------
+/
bool contains(in NegInfInterval!TP interval) const pure
{
_enforceNotEmpty();
return false;
}
/++
Whether this interval is before the given time point.
Params:
timePoint = The time point to check whether this interval is before
it.
Throws:
$(D DateTimeException) if this interval is empty.
Examples:
--------------------
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isBefore(
Date(1994, 12, 24)));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isBefore(
Date(2000, 1, 5)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isBefore(
Date(2012, 3, 1)));
--------------------
+/
bool isBefore(in TP timePoint) const pure
{
_enforceNotEmpty();
return _end <= timePoint;
}
/++
Whether this interval is before the given interval and does not
intersect with it.
Params:
interval = The interval to check for against this interval.
Throws:
$(D DateTimeException) if either interval is empty.
Examples:
--------------------
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isBefore(
Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isBefore(
Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isBefore(
Interval!Date(Date(2012, 3, 1), Date(2013, 5, 1))));
--------------------
+/
bool isBefore(in Interval interval) const pure
{
_enforceNotEmpty();
interval._enforceNotEmpty();
return _end <= interval._begin;
}
/++
Whether this interval is before the given interval and does not
intersect with it.
Params:
interval = The interval to check for against this interval.
Throws:
$(D DateTimeException) if this interval is empty.
Examples:
--------------------
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isBefore(
PosInfInterval!Date(Date(1999, 5, 4))));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isBefore(
PosInfInterval!Date(Date(2013, 3, 7))));
--------------------
+/
bool isBefore(in PosInfInterval!TP interval) const pure
{
_enforceNotEmpty();
return _end <= interval._begin;
}
/++
Whether this interval is before the given interval and does not
intersect with it.
Always returns false (unless this interval is empty) because a finite
interval can never be before an interval beginning at negative infinity.
Params:
interval = The interval to check for against this interval.
Throws:
$(D DateTimeException) if this interval is empty.
Examples:
--------------------
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isBefore(
NegInfInterval!Date(Date(1996, 5, 4))));
--------------------
+/
bool isBefore(in NegInfInterval!TP interval) const pure
{
_enforceNotEmpty();
return false;
}
/++
Whether this interval is after the given time point.
Params:
timePoint = The time point to check whether this interval is after
it.
Throws:
$(D DateTimeException) if this interval is empty.
Examples:
--------------------
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAfter(
Date(1994, 12, 24)));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAfter(
Date(2000, 1, 5)));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAfter(
Date(2012, 3, 1)));
--------------------
+/
bool isAfter(in TP timePoint) const pure
{
_enforceNotEmpty();
return timePoint < _begin;
}
/++
Whether this interval is after the given interval and does not intersect
it.
Params:
interval = The interval to check against this interval.
Throws:
$(D DateTimeException) if either interval is empty.
Examples:
--------------------
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAfter(
Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAfter(
Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAfter(
Interval!Date(Date(1989, 3, 1), Date(1996, 1, 2))));
--------------------
+/
bool isAfter(in Interval interval) const pure
{
_enforceNotEmpty();
interval._enforceNotEmpty();
return _begin >= interval._end;
}
/++
Whether this interval is after the given interval and does not intersect
it.
Always returns false (unless this interval is empty) because a finite
interval can never be after an interval going to positive infinity.
Params:
interval = The interval to check against this interval.
Throws:
$(D DateTimeException) if this interval is empty.
Examples:
--------------------
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAfter(
PosInfInterval!Date(Date(1999, 5, 4))));
--------------------
+/
bool isAfter(in PosInfInterval!TP interval) const pure
{
_enforceNotEmpty();
return false;
}
/++
Whether this interval is after the given interval and does not intersect
it.
Params:
interval = The interval to check against this interval.
Throws:
$(D DateTimeException) if this interval is empty.
Examples:
--------------------
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAfter(
NegInfInterval!Date(Date(1996, 1, 2))));
--------------------
+/
bool isAfter(in NegInfInterval!TP interval) const pure
{
_enforceNotEmpty();
return _begin >= interval._end;
}
/++
Whether the given interval overlaps this interval.
Params:
interval = The interval to check for intersection with this interval.
Throws:
$(D DateTimeException) if either interval is empty.
Examples:
--------------------
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersects(
Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersects(
Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersects(
Interval!Date(Date(1989, 3, 1), Date(1996, 1, 2))));
--------------------
+/
bool intersects(in Interval interval) const pure
{
_enforceNotEmpty();
interval._enforceNotEmpty();
return interval._begin < _end && interval._end > _begin;
}
/++
Whether the given interval overlaps this interval.
Params:
interval = The interval to check for intersection with this interval.
Throws:
$(D DateTimeException) if this interval is empty.
Examples:
--------------------
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersects(
PosInfInterval!Date(Date(1999, 5, 4))));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersects(
PosInfInterval!Date(Date(2012, 3, 1))));
--------------------
+/
bool intersects(in PosInfInterval!TP interval) const pure
{
_enforceNotEmpty();
return _end > interval._begin;
}
/++
Whether the given interval overlaps this interval.
Params:
interval = The interval to check for intersection with this interval.
Throws:
$(D DateTimeException) if this interval is empty.
Examples:
--------------------
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersects(
NegInfInterval!Date(Date(1996, 1, 2))));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersects(
NegInfInterval!Date(Date(2000, 1, 2))));
--------------------
+/
bool intersects(in NegInfInterval!TP interval) const pure
{
_enforceNotEmpty();
return _begin < interval._end;
}
/++
Returns the intersection of two intervals
Params:
interval = The interval to intersect with this interval.
Throws:
$(D DateTimeException) if the two intervals do not intersect or if
either interval is empty.
Examples:
--------------------
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersection(
Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))) ==
Interval!Date(Date(1996, 1 , 2), Date(2000, 8, 2)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersection(
Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))) ==
Interval!Date(Date(1999, 1 , 12), Date(2011, 9, 17)));
--------------------
+/
Interval intersection(in Interval interval) const
{
enforce(this.intersects(interval), new DateTimeException(format("%s and %s do not intersect.", this, interval)));
auto begin = _begin > interval._begin ? _begin : interval._begin;
auto end = _end < interval._end ? _end : interval._end;
return Interval(begin, end);
}
/++
Returns the intersection of two intervals
Params:
interval = The interval to intersect with this interval.
Throws:
$(D DateTimeException) if the two intervals do not intersect or if
this interval is empty.
Examples:
--------------------
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersection(
PosInfInterval!Date(Date(1990, 7, 6))) ==
Interval!Date(Date(1996, 1 , 2), Date(2012, 3, 1)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersection(
PosInfInterval!Date(Date(1999, 1, 12))) ==
Interval!Date(Date(1999, 1 , 12), Date(2012, 3, 1)));
--------------------
+/
Interval intersection(in PosInfInterval!TP interval) const
{
enforce(this.intersects(interval), new DateTimeException(format("%s and %s do not intersect.", this, interval)));
return Interval(_begin > interval._begin ? _begin : interval._begin, _end);
}
/++
Returns the intersection of two intervals
Params:
interval = The interval to intersect with this interval.
Throws:
$(D DateTimeException) if the two intervals do not intersect or if
this interval is empty.
Examples:
--------------------
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersection(
NegInfInterval!Date(Date(1999, 7, 6))) ==
Interval!Date(Date(1996, 1 , 2), Date(1999, 7, 6)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersection(
NegInfInterval!Date(Date(2013, 1, 12))) ==
Interval!Date(Date(1996, 1 , 2), Date(2012, 3, 1)));
--------------------
+/
Interval intersection(in NegInfInterval!TP interval) const
{
enforce(this.intersects(interval), new DateTimeException(format("%s and %s do not intersect.", this, interval)));
return Interval(_begin, _end < interval._end ? _end : interval._end);
}
/++
Whether the given interval is adjacent to this interval.
Params:
interval = The interval to check whether its adjecent to this
interval.
Throws:
$(D DateTimeException) if either interval is empty.
Examples:
--------------------
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAdjacent(
Interval!Date(Date(1990, 7, 6), Date(1996, 1, 2))));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAdjacent(
Interval!Date(Date(2012, 3, 1), Date(2013, 9, 17))));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAdjacent(
Interval!Date(Date(1989, 3, 1), Date(2012, 3, 1))));
--------------------
+/
bool isAdjacent(in Interval interval) const pure
{
_enforceNotEmpty();
interval._enforceNotEmpty();
return _begin == interval._end || _end == interval._begin;
}
/++
Whether the given interval is adjacent to this interval.
Params:
interval = The interval to check whether its adjecent to this
interval.
Throws:
$(D DateTimeException) if this interval is empty.
Examples:
--------------------
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAdjacent(
PosInfInterval!Date(Date(1999, 5, 4))));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAdjacent(
PosInfInterval!Date(Date(2012, 3, 1))));
--------------------
+/
bool isAdjacent(in PosInfInterval!TP interval) const pure
{
_enforceNotEmpty();
return _end == interval._begin;
}
/++
Whether the given interval is adjacent to this interval.
Params:
interval = The interval to check whether its adjecent to this
interval.
Throws:
$(D DateTimeException) if this interval is empty.
Examples:
--------------------
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAdjacent(
NegInfInterval!Date(Date(1996, 1, 2))));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAdjacent(
NegInfInterval!Date(Date(2000, 1, 2))));
--------------------
+/
bool isAdjacent(in NegInfInterval!TP interval) const pure
{
_enforceNotEmpty();
return _begin == interval._end;
}
/++
Returns the union of two intervals
Params:
interval = The interval to merge with this interval.
Throws:
$(D DateTimeException) if the two intervals do not intersect and are
not adjacent or if either interval is empty.
Examples:
--------------------
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).merge(
Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))) ==
Interval!Date(Date(1990, 7 , 6), Date(2012, 3, 1)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).merge(
Interval!Date(Date(2012, 3, 1), Date(2013, 5, 7))) ==
Interval!Date(Date(1996, 1 , 2), Date(2013, 5, 7)));
--------------------
+/
Interval merge(in Interval interval) const
{
enforce(this.isAdjacent(interval) || this.intersects(interval),
new DateTimeException(format("%s and %s are not adjacent and do not intersect.", this, interval)));
auto begin = _begin < interval._begin ? _begin : interval._begin;
auto end = _end > interval._end ? _end : interval._end;
return Interval(begin, end);
}
/++
Returns the union of two intervals
Params:
interval = The interval to merge with this interval.
Throws:
$(D DateTimeException) if the two intervals do not intersect and are
not adjacent or if this interval is empty.
Examples:
--------------------
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).merge(
PosInfInterval!Date(Date(1990, 7, 6))) ==
PosInfInterval!Date(Date(1990, 7 , 6)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).merge(
PosInfInterval!Date(Date(2012, 3, 1))) ==
PosInfInterval!Date(Date(1996, 1 , 2)));
--------------------
+/
PosInfInterval!TP merge(in PosInfInterval!TP interval) const
{
enforce(this.isAdjacent(interval) || this.intersects(interval),
new DateTimeException(format("%s and %s are not adjacent and do not intersect.", this, interval)));
return PosInfInterval!TP(_begin < interval._begin ? _begin : interval._begin);
}
/++
Returns the union of two intervals
Params:
interval = The interval to merge with this interval.
Throws:
$(D DateTimeException) if the two intervals do not intersect and are not
adjacent or if this interval is empty.
Examples:
--------------------
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).merge(
NegInfInterval!Date(Date(1996, 1, 2))) ==
NegInfInterval!Date(Date(2012, 3 , 1)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).merge(
NegInfInterval!Date(Date(2013, 1, 12))) ==
NegInfInterval!Date(Date(2013, 1 , 12)));
--------------------
+/
NegInfInterval!TP merge(in NegInfInterval!TP interval) const
{
enforce(this.isAdjacent(interval) || this.intersects(interval),
new DateTimeException(format("%s and %s are not adjacent and do not intersect.", this, interval)));
return NegInfInterval!TP(_end > interval._end ? _end : interval._end);
}
/++
Returns an interval that covers from the earliest time point of two
intervals up to (but not including) the latest time point of two
intervals.
Params:
interval = The interval to create a span together with this interval.
Throws:
$(D DateTimeException) if either interval is empty.
Examples:
--------------------
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).span(
Interval!Date(Date(1990, 7, 6), Date(1991, 1, 8))) ==
Interval!Date(Date(1990, 7 , 6), Date(2012, 3, 1)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).span(
Interval!Date(Date(2012, 3, 1), Date(2013, 5, 7))) ==
Interval!Date(Date(1996, 1 , 2), Date(2013, 5, 7)));
--------------------
+/
Interval span(in Interval interval) const pure
{
_enforceNotEmpty();
interval._enforceNotEmpty();
auto begin = _begin < interval._begin ? _begin : interval._begin;
auto end = _end > interval._end ? _end : interval._end;
return Interval(begin, end);
}
/++
Returns an interval that covers from the earliest time point of two
intervals up to (but not including) the latest time point of two
intervals.
Params:
interval = The interval to create a span together with this interval.
Throws:
$(D DateTimeException) if this interval is empty.
Examples:
--------------------
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).span(
PosInfInterval!Date(Date(1990, 7, 6))) ==
PosInfInterval!Date(Date(1990, 7 , 6)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).span(
PosInfInterval!Date(Date(2050, 1, 1))) ==
PosInfInterval!Date(Date(1996, 1 , 2)));
--------------------
+/
PosInfInterval!TP span(in PosInfInterval!TP interval) const pure
{
_enforceNotEmpty();
return PosInfInterval!TP(_begin < interval._begin ? _begin : interval._begin);
}
/++
Returns an interval that covers from the earliest time point of two
intervals up to (but not including) the latest time point of two
intervals.
Params:
interval = The interval to create a span together with this interval.
Throws:
$(D DateTimeException) if this interval is empty.
Examples:
--------------------
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).span(
NegInfInterval!Date(Date(1602, 5, 21))) ==
NegInfInterval!Date(Date(2012, 3 , 1)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).span(
NegInfInterval!Date(Date(2013, 1, 12))) ==
NegInfInterval!Date(Date(2013, 1 , 12)));
--------------------
+/
NegInfInterval!TP span(in NegInfInterval!TP interval) const pure
{
_enforceNotEmpty();
return NegInfInterval!TP(_end > interval._end ? _end : interval._end);
}
/++
Shifts the interval forward or backwards in time by the given duration
(a positive duration shifts the interval forward; a negative duration
shifts it backward). Effectively, it does $(D begin += duration) and
$(D end += duration).
Params:
duration = The duration to shift the interval by.
Throws:
$(D DateTimeException) this interval is empty or if the resulting
interval would be invalid.
Examples:
--------------------
auto interval1 = Interval!Date(Date(1996, 1, 2), Date(2012, 4, 5));
auto interval2 = Interval!Date(Date(1996, 1, 2), Date(2012, 4, 5));
interval1.shift(dur!"days"(50));
assert(interval1 == Interval!Date(Date(1996, 2, 21), Date(2012, 5, 25)));
interval2.shift(dur!"days"(-50));
assert(interval2 == Interval!Date(Date(1995, 11, 13), Date(2012, 2, 15)));
--------------------
+/
void shift(D)(D duration) pure
if(__traits(compiles, begin + duration))
{
_enforceNotEmpty();
auto begin = _begin + duration;
auto end = _end + duration;
if(!_valid(begin, end))
throw new DateTimeException("Argument would result in an invalid Interval.");
_begin = begin;
_end = end;
}
static if(__traits(compiles, begin.add!"months"(1)) &&
__traits(compiles, begin.add!"years"(1)))
{
/++
Shifts the interval forward or backwards in time by the given number
of years and/or months (a positive number of years and months shifts
the interval forward; a negative number shifts it backward).
It adds the years the given years and months to both begin and end.
It effectively calls $(D add!"years"()) and then $(D add!"months"())
on begin and end with the given number of years and months.
Params:
years = The number of years to shift the interval by.
months = The number of months to shift the interval by.
allowOverflow = Whether the days should be allowed to overflow
on $(D begin) and $(D end), causing their month
to increment.
Throws:
$(D DateTimeException) if this interval is empty or if the
resulting interval would be invalid.
Examples:
--------------------
auto interval1 = Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1));
auto interval2 = Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1));
interval1.shift(2);
assert(interval1 == Interval!Date(Date(1998, 1, 2), Date(2014, 3, 1)));
interval2.shift(-2);
assert(interval2 == Interval!Date(Date(1994, 1, 2), Date(2010, 3, 1)));
--------------------
+/
void shift(T)(T years, T months = 0, AllowDayOverflow allowOverflow = AllowDayOverflow.yes)
if(isIntegral!T)
{
_enforceNotEmpty();
auto begin = _begin;
auto end = _end;
begin.add!"years"(years, allowOverflow);
begin.add!"months"(months, allowOverflow);
end.add!"years"(years, allowOverflow);
end.add!"months"(months, allowOverflow);
enforce(_valid(begin, end), new DateTimeException("Argument would result in an invalid Interval."));
_begin = begin;
_end = end;
}
}
/++
Expands the interval forwards and/or backwards in time. Effectively,
it does $(D begin -= duration) and/or $(D end += duration). Whether
it expands forwards and/or backwards in time is determined by
$(D_PARAM dir).
Params:
duration = The duration to expand the interval by.
dir = The direction in time to expand the interval.
Throws:
$(D DateTimeException) this interval is empty or if the resulting
interval would be invalid.
Examples:
--------------------
auto interval1 = Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1));
auto interval2 = Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1));
interval1.expand(2);
assert(interval1 == Interval!Date(Date(1994, 1, 2), Date(2014, 3, 1)));
interval2.expand(-2);
assert(interval2 == Interval!Date(Date(1998, 1, 2), Date(2010, 3, 1)));
--------------------
+/
void expand(D)(D duration, Direction dir = Direction.both) pure
if(__traits(compiles, begin + duration))
{
_enforceNotEmpty();
switch(dir)
{
case Direction.both:
{
auto begin = _begin - duration;
auto end = _end + duration;
if(!_valid(begin, end))
throw new DateTimeException("Argument would result in an invalid Interval.");
_begin = begin;
_end = end;
return;
}
case Direction.fwd:
{
auto end = _end + duration;
if(!_valid(_begin, end))
throw new DateTimeException("Argument would result in an invalid Interval.");
_end = end;
return;
}
case Direction.bwd:
{
auto begin = _begin - duration;
if(!_valid(begin, _end))
throw new DateTimeException("Argument would result in an invalid Interval.");
_begin = begin;
return;
}
default:
assert(0, "Invalid Direction.");
}
}
static if(__traits(compiles, begin.add!"months"(1)) &&
__traits(compiles, begin.add!"years"(1)))
{
/++
Expands the interval forwards and/or backwards in time. Effectively,
it subtracts the given number of months/years from $(D begin) and
adds them to $(D end). Whether it expands forwards and/or backwards
in time is determined by $(D_PARAM dir).
Params:
years = The number of years to expand the interval by.
months = The number of months to expand the interval by.
allowOverflow = Whether the days should be allowed to overflow
on $(D begin) and $(D end), causing their month
to increment.
Throws:
$(D DateTimeException) if this interval is empty or if the
resulting interval would be invalid.
Examples:
--------------------
auto interval1 = Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1));
auto interval2 = Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1));
interval1.expand(2);
assert(interval1 == Interval!Date(Date(1994, 1, 2), Date(2014, 3, 1)));
interval2.expand(-2);
assert(interval2 == Interval!Date(Date(1998, 1, 2), Date(2010, 3, 1)));
--------------------
+/
void expand(T)(T years, T months = 0, AllowDayOverflow allowOverflow = AllowDayOverflow.yes, Direction dir = Direction.both)
if(isIntegral!T)
{
_enforceNotEmpty();
switch(dir)
{
case Direction.both:
{
auto begin = _begin;
auto end = _end;
begin.add!"years"(-years, allowOverflow);
begin.add!"months"(-months, allowOverflow);
end.add!"years"(years, allowOverflow);
end.add!"months"(months, allowOverflow);
enforce(_valid(begin, end), new DateTimeException("Argument would result in an invalid Interval."));
_begin = begin;
_end = end;
return;
}
case Direction.fwd:
{
auto end = _end;
end.add!"years"(years, allowOverflow);
end.add!"months"(months, allowOverflow);
enforce(_valid(_begin, end), new DateTimeException("Argument would result in an invalid Interval."));
_end = end;
return;
}
case Direction.bwd:
{
auto begin = _begin;
begin.add!"years"(-years, allowOverflow);
begin.add!"months"(-months, allowOverflow);
enforce(_valid(begin, _end), new DateTimeException("Argument would result in an invalid Interval."));
_begin = begin;
return;
}
default:
assert(0, "Invalid Direction.");
}
}
}
/++
Returns a range which iterates forward over the interval, starting
at $(D begin), using $(D_PARAM func) to generate each successive time
point.
The range's $(D front) is the interval's $(D begin). $(D_PARAM func) is
used to generate the next $(D front) when $(D popFront) is called. If
$(D_PARAM popFirst) is $(D PopFirst.yes), then $(D popFront) is called
before the range is returned (so that $(D front) is a time point which
$(D_PARAM func) would generate).
If $(D_PARAM func) ever generates a time point less than or equal to the
current $(D front) of the range, then a $(D DateTimeException) will be
thrown. The range will be empty and iteration complete when
$(D_PARAM func) generates a time point equal to or beyond the $(D end)
of the interval.
There are helper functions in this module which generate common
delegates to pass to $(D fwdRange). Their documentation starts with
"Range-generating function," so you can easily search for them.
Params:
func = The function used to generate the time points of the
range over the interval.
popFirst = Whether $(D popFront) should be called on the range
before returning it.
Throws:
$(D DateTimeException) if this interval is empty.
Warning:
$(D_PARAM func) must be logically pure. Ideally, $(D_PARAM func)
would be a function pointer to a pure function, but forcing
$(D_PARAM func) to be pure is far too restrictive to be useful, and
in order to have the ease of use of having functions which generate
functions to pass to $(D fwdRange), $(D_PARAM func) must be a
delegate.
If $(D_PARAM func) retains state which changes as it is called, then
some algorithms will not work correctly, because the range's
$(D save) will have failed to have really saved the range's state.
So, if you want to avoid such bugs, don't pass a delegate which is
not logically pure to $(D fwdRange). If $(D_PARAM func) is given the
same time point with two different calls, it must return the same
result both times.
Of course, none of the functions in this module have this problem,
so it's only relevant if you're creating your own delegate.
Examples:
--------------------
auto interval = Interval!Date(Date(2010, 9, 1), Date(2010, 9, 9));
auto func = (in Date date) //For iterating over even-numbered days.
{
if((date.day & 1) == 0)
return date + dur!"days"(2);
return date + dur!"days"(1);
};
auto range = interval.fwdRange(func);
//An odd day. Using PopFirst.yes would have made this Date(2010, 9, 2).
assert(range.front == Date(2010, 9, 1));
range.popFront();
assert(range.front == Date(2010, 9, 2));
range.popFront();
assert(range.front == Date(2010, 9, 4));
range.popFront();
assert(range.front == Date(2010, 9, 6));
range.popFront();
assert(range.front == Date(2010, 9, 8));
range.popFront();
assert(range.empty);
--------------------
+/
IntervalRange!(TP, Direction.fwd) fwdRange(TP delegate(in TP) func, PopFirst popFirst = PopFirst.no) const
{
_enforceNotEmpty();
auto range = IntervalRange!(TP, Direction.fwd)(this, func);
if(popFirst == PopFirst.yes)
range.popFront();
return range;
}
/++
Returns a range which iterates backwards over the interval, starting
at $(D end), using $(D_PARAM func) to generate each successive time
point.
The range's $(D front) is the interval's $(D end). $(D_PARAM func) is
used to generate the next $(D front) when $(D popFront) is called. If
$(D_PARAM popFirst) is $(D PopFirst.yes), then $(D popFront) is called
before the range is returned (so that $(D front) is a time point which
$(D_PARAM func) would generate).
If $(D_PARAM func) ever generates a time point greater than or equal to
the current $(D front) of the range, then a $(D DateTimeException) will
be thrown. The range will be empty and iteration complete when
$(D_PARAM func) generates a time point equal to or less than the
$(D begin) of the interval.
There are helper functions in this module which generate common
delegates to pass to $(D bwdRange). Their documentation starts with
"Range-generating function," so you can easily search for them.
Params:
func = The function used to generate the time points of the
range over the interval.
popFirst = Whether $(D popFront) should be called on the range
before returning it.
Throws:
$(D DateTimeException) if this interval is empty.
Warning:
$(D_PARAM func) must be logically pure. Ideally, $(D_PARAM func)
would be a function pointer to a pure function, but forcing
$(D_PARAM func) to be pure is far too restrictive to be useful, and
in order to have the ease of use of having functions which generate
functions to pass to $(D fwdRange), $(D_PARAM func) must be a
delegate.
If $(D_PARAM func) retains state which changes as it is called, then
some algorithms will not work correctly, because the range's
$(D save) will have failed to have really saved the range's state.
So, if you want to avoid such bugs, don't pass a delegate which is
not logically pure to $(D fwdRange). If $(D_PARAM func) is given the
same time point with two different calls, it must return the same
result both times.
Of course, none of the functions in this module have this problem,
so it's only relevant if you're creating your own delegate.
Examples:
--------------------
auto interval = Interval!Date(Date(2010, 9, 1), Date(2010, 9, 9));
auto func = (in Date date) //For iterating over even-numbered days.
{
if((date.day & 1) == 0)
return date - dur!"days"(2);
return date - dur!"days"(1);
};
auto range = interval.bwdRange(func);
//An odd day. Using PopFirst.yes would have made this Date(2010, 9, 8).
assert(range.front == Date(2010, 9, 9));
range.popFront();
assert(range.front == Date(2010, 9, 8));
range.popFront();
assert(range.front == Date(2010, 9, 6));
range.popFront();
assert(range.front == Date(2010, 9, 4));
range.popFront();
assert(range.front == Date(2010, 9, 2));
range.popFront();
assert(range.empty);
--------------------
+/
IntervalRange!(TP, Direction.bwd) bwdRange(TP delegate(in TP) func, PopFirst popFirst = PopFirst.no) const
{
_enforceNotEmpty();
auto range = IntervalRange!(TP, Direction.bwd)(this, func);
if(popFirst == PopFirst.yes)
range.popFront();
return range;
}
/+
Converts this interval to a string.
+/
//Due to bug http://d.puremagic.com/issues/show_bug.cgi?id=3715 , we can't
//have versions of toString() with extra modifiers, so we define one version
//with modifiers and one without.
string toString()
{
return _toStringImpl();
}
/++
Converts this interval to a string.
+/
//Due to bug http://d.puremagic.com/issues/show_bug.cgi?id=3715 , we can't
//have versions of toString() with extra modifiers, so we define one version
//with modifiers and one without.
string toString() const nothrow
{
return _toStringImpl();
}
private:
/+
Since we have two versions of toString, we have _toStringImpl
so that they can share implementations.
+/
string _toStringImpl() const nothrow
{
try
return format("[%s - %s)", _begin, _end);
catch(Exception e)
assert(0, "format() threw.");
}
/+
Throws:
$(D DateTimeException) if this interval is empty.
+/
void _enforceNotEmpty(size_t line = __LINE__) const pure
{
if(empty)
throw new DateTimeException("Invalid operation for an empty Interval.", __FILE__, line);
}
/+
Whether the given values form a valid time interval.
Params:
begin = The starting point of the interval.
end = The end point of the interval.
+/
static bool _valid(in TP begin, in TP end) pure nothrow
{
return begin <= end;
}
pure invariant()
{
assert(_valid(_begin, _end), "Invariant Failure: begin is not before or equal to end.");
}
TP _begin;
TP _end;
}
//Test Interval's constructors.
unittest
{
version(testStdDateTime)
{
assertThrown!DateTimeException(Interval!Date(Date(2010, 1, 1), Date(1, 1, 1)));
Interval!Date(Date.init, Date.init);
Interval!TimeOfDay(TimeOfDay.init, TimeOfDay.init);
Interval!DateTime(DateTime.init, DateTime.init);
Interval!SysTime(SysTime(0), SysTime(0));
Interval!DateTime(DateTime.init, dur!"days"(7));
//Verify Examples.
Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1));
assert(Interval!Date(Date(1996, 1, 2), dur!"weeks"(3)) == Interval!Date(Date(1996, 1, 2), Date(1996, 1, 23)));
assert(Interval!Date(Date(1996, 1, 2), dur!"days"(3)) == Interval!Date(Date(1996, 1, 2), Date(1996, 1, 5)));
assert(Interval!DateTime(DateTime(1996, 1, 2, 12, 0, 0), dur!"hours"(3)) == Interval!DateTime(DateTime(1996, 1, 2, 12, 0, 0), DateTime(1996, 1, 2, 15, 0, 0)));
assert(Interval!DateTime(DateTime(1996, 1, 2, 12, 0, 0), dur!"minutes"(3)) == Interval!DateTime(DateTime(1996, 1, 2, 12, 0, 0), DateTime(1996, 1, 2, 12, 3, 0)));
assert(Interval!DateTime(DateTime(1996, 1, 2, 12, 0, 0), dur!"seconds"(3)) == Interval!DateTime(DateTime(1996, 1, 2, 12, 0, 0), DateTime(1996, 1, 2, 12, 0, 3)));
assert(Interval!DateTime(DateTime(1996, 1, 2, 12, 0, 0), dur!"msecs"(3000)) == Interval!DateTime(DateTime(1996, 1, 2, 12, 0, 0), DateTime(1996, 1, 2, 12, 0, 3)));
}
}
//Test Interval's begin.
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(Interval!Date(Date(1, 1, 1), Date(2010, 1, 1)).begin, Date(1, 1, 1));
_assertPred!"=="(Interval!Date(Date(2010, 1, 1), Date(2010, 1, 1)).begin, Date(2010, 1, 1));
_assertPred!"=="(Interval!Date(Date(1997, 12, 31), Date(1998, 1, 1)).begin, Date(1997, 12, 31));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
static assert(__traits(compiles, cInterval.begin));
static assert(__traits(compiles, iInterval.begin));
//Verify Examples.
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).begin == Date(1996, 1, 2));
}
}
//Test Interval's end.
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(Interval!Date(Date(1, 1, 1), Date(2010, 1, 1)).end, Date(2010, 1, 1));
_assertPred!"=="(Interval!Date(Date(2010, 1, 1), Date(2010, 1, 1)).end, Date(2010, 1, 1));
_assertPred!"=="(Interval!Date(Date(1997, 12, 31), Date(1998, 1, 1)).end, Date(1998, 1, 1));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
static assert(__traits(compiles, cInterval.end));
static assert(__traits(compiles, iInterval.end));
//Verify Examples.
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).end == Date(2012, 3, 1));
}
}
//Test Interval's length.
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(Interval!Date(Date(2010, 1, 1), Date(2010, 1, 1)).length, dur!"days"(0));
_assertPred!"=="(Interval!Date(Date(2010, 1, 1), Date(2010, 4, 1)).length, dur!"days"(90));
_assertPred!"=="(Interval!TimeOfDay(TimeOfDay(0, 30, 0), TimeOfDay(12, 22, 7)).length, dur!"seconds"(42_727));
_assertPred!"=="(Interval!DateTime(DateTime(2010, 1, 1, 0, 30, 0), DateTime(2010, 1, 2, 12, 22, 7)).length, dur!"seconds"(129_127));
_assertPred!"=="(Interval!SysTime(SysTime(DateTime(2010, 1, 1, 0, 30, 0)), SysTime(DateTime(2010, 1, 2, 12, 22, 7))).length, dur!"seconds"(129_127));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
static assert(__traits(compiles, cInterval.length));
static assert(__traits(compiles, iInterval.length));
//Verify Examples.
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).length == dur!"days"(5903));
}
}
//Test Interval's empty.
unittest
{
version(testStdDateTime)
{
assert(Interval!Date(Date(2010, 1, 1), Date(2010, 1, 1)).empty);
assert(!Interval!Date(Date(2010, 1, 1), Date(2010, 4, 1)).empty);
assert(!Interval!TimeOfDay(TimeOfDay(0, 30, 0), TimeOfDay(12, 22, 7)).empty);
assert(!Interval!DateTime(DateTime(2010, 1, 1, 0, 30, 0), DateTime(2010, 1, 2, 12, 22, 7)).empty);
assert(!Interval!SysTime(SysTime(DateTime(2010, 1, 1, 0, 30, 0)), SysTime(DateTime(2010, 1, 2, 12, 22, 7))).empty);
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
static assert(__traits(compiles, cInterval.empty));
static assert(__traits(compiles, iInterval.empty));
//Verify Examples.
assert(Interval!Date(Date(1996, 1, 2), Date(1996, 1, 2)).empty);
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).empty);
}
}
//Test Interval's contains(time point).
unittest
{
version(testStdDateTime)
{
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
assertThrown!DateTimeException(Interval!Date(Date(2010, 7, 4), dur!"days"(0)).contains(Date(2010, 7, 4)));
assert(!interval.contains(Date(2009, 7, 4)));
assert(!interval.contains(Date(2010, 7, 3)));
assert(interval.contains(Date(2010, 7, 4)));
assert(interval.contains(Date(2010, 7, 5)));
assert(interval.contains(Date(2011, 7, 1)));
assert(interval.contains(Date(2012, 1, 6)));
assert(!interval.contains(Date(2012, 1, 7)));
assert(!interval.contains(Date(2012, 1, 8)));
assert(!interval.contains(Date(2013, 1, 7)));
const cdate = Date(2010, 7, 6);
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
static assert(__traits(compiles, interval.contains(cdate)));
static assert(__traits(compiles, cInterval.contains(cdate)));
static assert(__traits(compiles, iInterval.contains(cdate)));
//Verify Examples.
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).contains(Date(1994, 12, 24)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).contains(Date(2000, 1, 5)));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).contains(Date(2012, 3, 1)));
}
}
//Test Interval's contains(Interval).
unittest
{
version(testStdDateTime)
{
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
assertThrown!DateTimeException(interval.contains(Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assertThrown!DateTimeException(Interval!Date(Date(2010, 7, 4), dur!"days"(0)).contains(interval));
assertThrown!DateTimeException(Interval!Date(Date(2010, 7, 4), dur!"days"(0)).contains(Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assert(interval.contains(interval));
assert(!interval.contains(Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3))));
assert(!interval.contains(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3))));
assert(!interval.contains(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4))));
assert(!interval.contains(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5))));
assert(!interval.contains(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7))));
assert(!interval.contains(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8))));
assert(interval.contains(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6))));
assert(interval.contains(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7))));
assert(interval.contains(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7))));
assert(!interval.contains(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8))));
assert(!interval.contains(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8))));
assert(!interval.contains(Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9))));
assert(!Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3)).contains(interval));
assert(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3)).contains(interval));
assert(!Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4)).contains(interval));
assert(!Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5)).contains(interval));
assert(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7)).contains(interval));
assert(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8)).contains(interval));
assert(!Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6)).contains(interval));
assert(!Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7)).contains(interval));
assert(!Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7)).contains(interval));
assert(!Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8)).contains(interval));
assert(!Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8)).contains(interval));
assert(!Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9)).contains(interval));
assert(!interval.contains(PosInfInterval!Date(Date(2010, 7, 3))));
assert(!interval.contains(PosInfInterval!Date(Date(2010, 7, 4))));
assert(!interval.contains(PosInfInterval!Date(Date(2010, 7, 5))));
assert(!interval.contains(PosInfInterval!Date(Date(2012, 1, 6))));
assert(!interval.contains(PosInfInterval!Date(Date(2012, 1, 7))));
assert(!interval.contains(PosInfInterval!Date(Date(2012, 1, 8))));
assert(!interval.contains(NegInfInterval!Date(Date(2010, 7, 3))));
assert(!interval.contains(NegInfInterval!Date(Date(2010, 7, 4))));
assert(!interval.contains(NegInfInterval!Date(Date(2010, 7, 5))));
assert(!interval.contains(NegInfInterval!Date(Date(2012, 1, 6))));
assert(!interval.contains(NegInfInterval!Date(Date(2012, 1, 7))));
assert(!interval.contains(NegInfInterval!Date(Date(2012, 1, 8))));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, interval.contains(interval)));
static assert(__traits(compiles, interval.contains(cInterval)));
static assert(__traits(compiles, interval.contains(iInterval)));
static assert(__traits(compiles, interval.contains(posInfInterval)));
static assert(__traits(compiles, interval.contains(cPosInfInterval)));
static assert(__traits(compiles, interval.contains(iPosInfInterval)));
static assert(__traits(compiles, interval.contains(negInfInterval)));
static assert(__traits(compiles, interval.contains(cNegInfInterval)));
static assert(__traits(compiles, interval.contains(iNegInfInterval)));
static assert(__traits(compiles, cInterval.contains(interval)));
static assert(__traits(compiles, cInterval.contains(cInterval)));
static assert(__traits(compiles, cInterval.contains(iInterval)));
static assert(__traits(compiles, cInterval.contains(posInfInterval)));
static assert(__traits(compiles, cInterval.contains(cPosInfInterval)));
static assert(__traits(compiles, cInterval.contains(iPosInfInterval)));
static assert(__traits(compiles, cInterval.contains(negInfInterval)));
static assert(__traits(compiles, cInterval.contains(cNegInfInterval)));
static assert(__traits(compiles, cInterval.contains(iNegInfInterval)));
static assert(__traits(compiles, iInterval.contains(interval)));
static assert(__traits(compiles, iInterval.contains(cInterval)));
static assert(__traits(compiles, iInterval.contains(iInterval)));
static assert(__traits(compiles, iInterval.contains(posInfInterval)));
static assert(__traits(compiles, iInterval.contains(cPosInfInterval)));
static assert(__traits(compiles, iInterval.contains(iPosInfInterval)));
static assert(__traits(compiles, iInterval.contains(negInfInterval)));
static assert(__traits(compiles, iInterval.contains(cNegInfInterval)));
static assert(__traits(compiles, iInterval.contains(iNegInfInterval)));
//Verify Examples.
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).contains(Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).contains(Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).contains(Interval!Date(Date(1998, 2, 28), Date(2013, 5, 1))));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).contains(PosInfInterval!Date(Date(1999, 5, 4))));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).contains(NegInfInterval!Date(Date(1996, 5, 4))));
}
}
//Test Interval's isBefore(time point).
unittest
{
version(testStdDateTime)
{
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
assertThrown!DateTimeException(Interval!Date(Date(2010, 7, 4), dur!"days"(0)).isBefore(Date(2010, 7, 4)));
assert(!interval.isBefore(Date(2009, 7, 3)));
assert(!interval.isBefore(Date(2010, 7, 3)));
assert(!interval.isBefore(Date(2010, 7, 4)));
assert(!interval.isBefore(Date(2010, 7, 5)));
assert(!interval.isBefore(Date(2011, 7, 1)));
assert(!interval.isBefore(Date(2012, 1, 6)));
assert(interval.isBefore(Date(2012, 1, 7)));
assert(interval.isBefore(Date(2012, 1, 8)));
assert(interval.isBefore(Date(2013, 1, 7)));
const cdate = Date(2010, 7, 6);
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
static assert(__traits(compiles, interval.isBefore(cdate)));
static assert(__traits(compiles, cInterval.isBefore(cdate)));
static assert(__traits(compiles, iInterval.isBefore(cdate)));
//Verify Examples.
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isBefore(Date(1994, 12, 24)));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isBefore(Date(2000, 1, 5)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isBefore(Date(2012, 3, 1)));
}
}
//Test Interval's isBefore(Interval).
unittest
{
version(testStdDateTime)
{
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
assertThrown!DateTimeException(interval.isBefore(Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assertThrown!DateTimeException(Interval!Date(Date(2010, 7, 4), dur!"days"(0)).isBefore(interval));
assertThrown!DateTimeException(Interval!Date(Date(2010, 7, 4), dur!"days"(0)).isBefore(Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assert(!interval.isBefore(interval));
assert(!interval.isBefore(Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3))));
assert(!interval.isBefore(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3))));
assert(!interval.isBefore(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4))));
assert(!interval.isBefore(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5))));
assert(!interval.isBefore(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7))));
assert(!interval.isBefore(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8))));
assert(!interval.isBefore(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6))));
assert(!interval.isBefore(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7))));
assert(!interval.isBefore(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7))));
assert(!interval.isBefore(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8))));
assert(interval.isBefore(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8))));
assert(interval.isBefore(Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9))));
assert(Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3)).isBefore(interval));
assert(!Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3)).isBefore(interval));
assert(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4)).isBefore(interval));
assert(!Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5)).isBefore(interval));
assert(!Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7)).isBefore(interval));
assert(!Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8)).isBefore(interval));
assert(!Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6)).isBefore(interval));
assert(!Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7)).isBefore(interval));
assert(!Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7)).isBefore(interval));
assert(!Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8)).isBefore(interval));
assert(!Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8)).isBefore(interval));
assert(!Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9)).isBefore(interval));
assert(!interval.isBefore(PosInfInterval!Date(Date(2010, 7, 3))));
assert(!interval.isBefore(PosInfInterval!Date(Date(2010, 7, 4))));
assert(!interval.isBefore(PosInfInterval!Date(Date(2010, 7, 5))));
assert(!interval.isBefore(PosInfInterval!Date(Date(2012, 1, 6))));
assert(interval.isBefore(PosInfInterval!Date(Date(2012, 1, 7))));
assert(interval.isBefore(PosInfInterval!Date(Date(2012, 1, 8))));
assert(!interval.isBefore(NegInfInterval!Date(Date(2010, 7, 3))));
assert(!interval.isBefore(NegInfInterval!Date(Date(2010, 7, 4))));
assert(!interval.isBefore(NegInfInterval!Date(Date(2010, 7, 5))));
assert(!interval.isBefore(NegInfInterval!Date(Date(2012, 1, 6))));
assert(!interval.isBefore(NegInfInterval!Date(Date(2012, 1, 7))));
assert(!interval.isBefore(NegInfInterval!Date(Date(2012, 1, 8))));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, interval.isBefore(interval)));
static assert(__traits(compiles, interval.isBefore(cInterval)));
static assert(__traits(compiles, interval.isBefore(iInterval)));
static assert(__traits(compiles, interval.isBefore(posInfInterval)));
static assert(__traits(compiles, interval.isBefore(cPosInfInterval)));
static assert(__traits(compiles, interval.isBefore(iPosInfInterval)));
static assert(__traits(compiles, interval.isBefore(negInfInterval)));
static assert(__traits(compiles, interval.isBefore(cNegInfInterval)));
static assert(__traits(compiles, interval.isBefore(iNegInfInterval)));
static assert(__traits(compiles, cInterval.isBefore(interval)));
static assert(__traits(compiles, cInterval.isBefore(cInterval)));
static assert(__traits(compiles, cInterval.isBefore(iInterval)));
static assert(__traits(compiles, cInterval.isBefore(posInfInterval)));
static assert(__traits(compiles, cInterval.isBefore(cPosInfInterval)));
static assert(__traits(compiles, cInterval.isBefore(iPosInfInterval)));
static assert(__traits(compiles, cInterval.isBefore(negInfInterval)));
static assert(__traits(compiles, cInterval.isBefore(cNegInfInterval)));
static assert(__traits(compiles, cInterval.isBefore(iNegInfInterval)));
static assert(__traits(compiles, iInterval.isBefore(interval)));
static assert(__traits(compiles, iInterval.isBefore(cInterval)));
static assert(__traits(compiles, iInterval.isBefore(iInterval)));
static assert(__traits(compiles, iInterval.isBefore(posInfInterval)));
static assert(__traits(compiles, iInterval.isBefore(cPosInfInterval)));
static assert(__traits(compiles, iInterval.isBefore(iPosInfInterval)));
static assert(__traits(compiles, iInterval.isBefore(negInfInterval)));
static assert(__traits(compiles, iInterval.isBefore(cNegInfInterval)));
static assert(__traits(compiles, iInterval.isBefore(iNegInfInterval)));
//Verify Examples.
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isBefore(Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isBefore(Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isBefore(Interval!Date(Date(2012, 3, 1), Date(2013, 5, 1))));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isBefore(PosInfInterval!Date(Date(1999, 5, 4))));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isBefore(PosInfInterval!Date(Date(2013, 3, 7))));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isBefore(NegInfInterval!Date(Date(1996, 5, 4))));
}
}
//Test Interval's isAfter(time point).
unittest
{
version(testStdDateTime)
{
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
assertThrown!DateTimeException(Interval!Date(Date(2010, 7, 4), dur!"days"(0)).isAfter(Date(2010, 7, 4)));
assert(interval.isAfter(Date(2009, 7, 4)));
assert(interval.isAfter(Date(2010, 7, 3)));
assert(!interval.isAfter(Date(2010, 7, 4)));
assert(!interval.isAfter(Date(2010, 7, 5)));
assert(!interval.isAfter(Date(2011, 7, 1)));
assert(!interval.isAfter(Date(2012, 1, 6)));
assert(!interval.isAfter(Date(2012, 1, 7)));
assert(!interval.isAfter(Date(2012, 1, 8)));
assert(!interval.isAfter(Date(2013, 1, 7)));
const cdate = Date(2010, 7, 6);
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
static assert(__traits(compiles, interval.isAfter(cdate)));
static assert(__traits(compiles, cInterval.isAfter(cdate)));
static assert(__traits(compiles, iInterval.isAfter(cdate)));
//Verify Examples.
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAfter(Date(1994, 12, 24)));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAfter(Date(2000, 1, 5)));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAfter(Date(2012, 3, 1)));
}
}
//Test Interval's isAfter(Interval).
unittest
{
version(testStdDateTime)
{
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
assertThrown!DateTimeException(interval.isAfter(Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assertThrown!DateTimeException(Interval!Date(Date(2010, 7, 4), dur!"days"(0)).isAfter(interval));
assertThrown!DateTimeException(Interval!Date(Date(2010, 7, 4), dur!"days"(0)).isAfter(Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assert(!interval.isAfter(interval));
assert(interval.isAfter(Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3))));
assert(!interval.isAfter(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3))));
assert(interval.isAfter(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4))));
assert(!interval.isAfter(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5))));
assert(!interval.isAfter(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7))));
assert(!interval.isAfter(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8))));
assert(!interval.isAfter(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6))));
assert(!interval.isAfter(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7))));
assert(!interval.isAfter(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7))));
assert(!interval.isAfter(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8))));
assert(!interval.isAfter(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8))));
assert(!interval.isAfter(Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9))));
assert(!Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3)).isAfter(interval));
assert(!Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3)).isAfter(interval));
assert(!Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4)).isAfter(interval));
assert(!Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5)).isAfter(interval));
assert(!Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7)).isAfter(interval));
assert(!Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8)).isAfter(interval));
assert(!Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6)).isAfter(interval));
assert(!Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7)).isAfter(interval));
assert(!Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7)).isAfter(interval));
assert(!Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8)).isAfter(interval));
assert(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8)).isAfter(interval));
assert(Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9)).isAfter(interval));
assert(!interval.isAfter(PosInfInterval!Date(Date(2010, 7, 3))));
assert(!interval.isAfter(PosInfInterval!Date(Date(2010, 7, 4))));
assert(!interval.isAfter(PosInfInterval!Date(Date(2010, 7, 5))));
assert(!interval.isAfter(PosInfInterval!Date(Date(2012, 1, 6))));
assert(!interval.isAfter(PosInfInterval!Date(Date(2012, 1, 7))));
assert(!interval.isAfter(PosInfInterval!Date(Date(2012, 1, 8))));
assert(interval.isAfter(NegInfInterval!Date(Date(2010, 7, 3))));
assert(interval.isAfter(NegInfInterval!Date(Date(2010, 7, 4))));
assert(!interval.isAfter(NegInfInterval!Date(Date(2010, 7, 5))));
assert(!interval.isAfter(NegInfInterval!Date(Date(2012, 1, 6))));
assert(!interval.isAfter(NegInfInterval!Date(Date(2012, 1, 7))));
assert(!interval.isAfter(NegInfInterval!Date(Date(2012, 1, 8))));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, interval.isAfter(interval)));
static assert(__traits(compiles, interval.isAfter(cInterval)));
static assert(__traits(compiles, interval.isAfter(iInterval)));
static assert(__traits(compiles, interval.isAfter(posInfInterval)));
static assert(__traits(compiles, interval.isAfter(cPosInfInterval)));
static assert(__traits(compiles, interval.isAfter(iPosInfInterval)));
static assert(__traits(compiles, interval.isAfter(negInfInterval)));
static assert(__traits(compiles, interval.isAfter(cNegInfInterval)));
static assert(__traits(compiles, interval.isAfter(iNegInfInterval)));
static assert(__traits(compiles, cInterval.isAfter(interval)));
static assert(__traits(compiles, cInterval.isAfter(cInterval)));
static assert(__traits(compiles, cInterval.isAfter(iInterval)));
static assert(__traits(compiles, cInterval.isAfter(posInfInterval)));
static assert(__traits(compiles, cInterval.isAfter(cPosInfInterval)));
static assert(__traits(compiles, cInterval.isAfter(iPosInfInterval)));
static assert(__traits(compiles, cInterval.isAfter(negInfInterval)));
static assert(__traits(compiles, cInterval.isAfter(cNegInfInterval)));
static assert(__traits(compiles, cInterval.isAfter(iNegInfInterval)));
static assert(__traits(compiles, iInterval.isAfter(interval)));
static assert(__traits(compiles, iInterval.isAfter(cInterval)));
static assert(__traits(compiles, iInterval.isAfter(iInterval)));
static assert(__traits(compiles, iInterval.isAfter(posInfInterval)));
static assert(__traits(compiles, iInterval.isAfter(cPosInfInterval)));
static assert(__traits(compiles, iInterval.isAfter(iPosInfInterval)));
static assert(__traits(compiles, iInterval.isAfter(negInfInterval)));
static assert(__traits(compiles, iInterval.isAfter(cNegInfInterval)));
static assert(__traits(compiles, iInterval.isAfter(iNegInfInterval)));
//Verify Examples.
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAfter(Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAfter(Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAfter(Interval!Date(Date(1989, 3, 1), Date(1996, 1, 2))));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAfter(PosInfInterval!Date(Date(1999, 5, 4))));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAfter(NegInfInterval!Date(Date(1996, 1, 2))));
}
}
//Test Interval's intersects().
unittest
{
version(testStdDateTime)
{
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
assertThrown!DateTimeException(interval.intersects(Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assertThrown!DateTimeException(Interval!Date(Date(2010, 7, 4), dur!"days"(0)).intersects(interval));
assertThrown!DateTimeException(Interval!Date(Date(2010, 7, 4), dur!"days"(0)).intersects(Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assert(interval.intersects(interval));
assert(!interval.intersects(Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3))));
assert(interval.intersects(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3))));
assert(!interval.intersects(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4))));
assert(interval.intersects(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5))));
assert(interval.intersects(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7))));
assert(interval.intersects(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8))));
assert(interval.intersects(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6))));
assert(interval.intersects(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7))));
assert(interval.intersects(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7))));
assert(interval.intersects(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8))));
assert(!interval.intersects(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8))));
assert(!interval.intersects(Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9))));
assert(!Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3)).intersects(interval));
assert(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3)).intersects(interval));
assert(!Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4)).intersects(interval));
assert(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5)).intersects(interval));
assert(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7)).intersects(interval));
assert(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8)).intersects(interval));
assert(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6)).intersects(interval));
assert(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7)).intersects(interval));
assert(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7)).intersects(interval));
assert(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8)).intersects(interval));
assert(!Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8)).intersects(interval));
assert(!Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9)).intersects(interval));
assert(interval.intersects(PosInfInterval!Date(Date(2010, 7, 3))));
assert(interval.intersects(PosInfInterval!Date(Date(2010, 7, 4))));
assert(interval.intersects(PosInfInterval!Date(Date(2010, 7, 5))));
assert(interval.intersects(PosInfInterval!Date(Date(2012, 1, 6))));
assert(!interval.intersects(PosInfInterval!Date(Date(2012, 1, 7))));
assert(!interval.intersects(PosInfInterval!Date(Date(2012, 1, 8))));
assert(!interval.intersects(NegInfInterval!Date(Date(2010, 7, 3))));
assert(!interval.intersects(NegInfInterval!Date(Date(2010, 7, 4))));
assert(interval.intersects(NegInfInterval!Date(Date(2010, 7, 5))));
assert(interval.intersects(NegInfInterval!Date(Date(2012, 1, 6))));
assert(interval.intersects(NegInfInterval!Date(Date(2012, 1, 7))));
assert(interval.intersects(NegInfInterval!Date(Date(2012, 1, 8))));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, interval.intersects(interval)));
static assert(__traits(compiles, interval.intersects(cInterval)));
static assert(__traits(compiles, interval.intersects(iInterval)));
static assert(__traits(compiles, interval.intersects(posInfInterval)));
static assert(__traits(compiles, interval.intersects(cPosInfInterval)));
static assert(__traits(compiles, interval.intersects(iPosInfInterval)));
static assert(__traits(compiles, interval.intersects(negInfInterval)));
static assert(__traits(compiles, interval.intersects(cNegInfInterval)));
static assert(__traits(compiles, interval.intersects(iNegInfInterval)));
static assert(__traits(compiles, cInterval.intersects(interval)));
static assert(__traits(compiles, cInterval.intersects(cInterval)));
static assert(__traits(compiles, cInterval.intersects(iInterval)));
static assert(__traits(compiles, cInterval.intersects(posInfInterval)));
static assert(__traits(compiles, cInterval.intersects(cPosInfInterval)));
static assert(__traits(compiles, cInterval.intersects(iPosInfInterval)));
static assert(__traits(compiles, cInterval.intersects(negInfInterval)));
static assert(__traits(compiles, cInterval.intersects(cNegInfInterval)));
static assert(__traits(compiles, cInterval.intersects(iNegInfInterval)));
static assert(__traits(compiles, iInterval.intersects(interval)));
static assert(__traits(compiles, iInterval.intersects(cInterval)));
static assert(__traits(compiles, iInterval.intersects(iInterval)));
static assert(__traits(compiles, iInterval.intersects(posInfInterval)));
static assert(__traits(compiles, iInterval.intersects(cPosInfInterval)));
static assert(__traits(compiles, iInterval.intersects(iPosInfInterval)));
static assert(__traits(compiles, iInterval.intersects(negInfInterval)));
static assert(__traits(compiles, iInterval.intersects(cNegInfInterval)));
static assert(__traits(compiles, iInterval.intersects(iNegInfInterval)));
//Verify Examples.
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersects(Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersects(Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersects(Interval!Date(Date(1989, 3, 1), Date(1996, 1, 2))));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersects(PosInfInterval!Date(Date(1999, 5, 4))));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersects(PosInfInterval!Date(Date(2012, 3, 1))));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersects(NegInfInterval!Date(Date(1996, 1, 2))));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersects(NegInfInterval!Date(Date(2000, 1, 2))));
}
}
//Test Interval's intersection().
unittest
{
version(testStdDateTime)
{
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
assertThrown!DateTimeException(interval.intersection(Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assertThrown!DateTimeException(Interval!Date(Date(2010, 7, 4), dur!"days"(0)).intersection(interval));
assertThrown!DateTimeException(Interval!Date(Date(2010, 7, 4), dur!"days"(0)).intersection(Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assertThrown!DateTimeException(interval.intersection(Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3))));
assertThrown!DateTimeException(interval.intersection(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4))));
assertThrown!DateTimeException(interval.intersection(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8))));
assertThrown!DateTimeException(interval.intersection(Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9))));
assertThrown!DateTimeException(Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3)).intersection(interval));
assertThrown!DateTimeException(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4)).intersection(interval));
assertThrown!DateTimeException(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8)).intersection(interval));
assertThrown!DateTimeException(Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9)).intersection(interval));
assertThrown!DateTimeException(interval.intersection(PosInfInterval!Date(Date(2012, 1, 7))));
assertThrown!DateTimeException(interval.intersection(PosInfInterval!Date(Date(2012, 1, 8))));
assertThrown!DateTimeException(interval.intersection(NegInfInterval!Date(Date(2010, 7, 3))));
assertThrown!DateTimeException(interval.intersection(NegInfInterval!Date(Date(2010, 7, 4))));
_assertPred!"=="(interval.intersection(interval), interval);
_assertPred!"=="(interval.intersection(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3))),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)));
_assertPred!"=="(interval.intersection(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5))),
Interval!Date(Date(2010, 7, 4), Date(2010, 7, 5)));
_assertPred!"=="(interval.intersection(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7))),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)));
_assertPred!"=="(interval.intersection(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8))),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)));
_assertPred!"=="(interval.intersection(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6))),
Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6)));
_assertPred!"=="(interval.intersection(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7))),
Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7)));
_assertPred!"=="(interval.intersection(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7))),
Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7)));
_assertPred!"=="(interval.intersection(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8))),
Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7)));
_assertPred!"=="(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3)).intersection(interval),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)));
_assertPred!"=="(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5)).intersection(interval),
Interval!Date(Date(2010, 7, 4), Date(2010, 7, 5)));
_assertPred!"=="(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7)).intersection(interval),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)));
_assertPred!"=="(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8)).intersection(interval),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)));
_assertPred!"=="(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6)).intersection(interval),
Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6)));
_assertPred!"=="(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7)).intersection(interval),
Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7)));
_assertPred!"=="(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7)).intersection(interval),
Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7)));
_assertPred!"=="(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8)).intersection(interval),
Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7)));
_assertPred!"=="(interval.intersection(PosInfInterval!Date(Date(2010, 7, 3))),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)));
_assertPred!"=="(interval.intersection(PosInfInterval!Date(Date(2010, 7, 4))),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)));
_assertPred!"=="(interval.intersection(PosInfInterval!Date(Date(2010, 7, 5))),
Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7)));
_assertPred!"=="(interval.intersection(PosInfInterval!Date(Date(2012, 1, 6))),
Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7)));
_assertPred!"=="(interval.intersection(NegInfInterval!Date(Date(2010, 7, 5))),
Interval!Date(Date(2010, 7, 4), Date(2010, 7, 5)));
_assertPred!"=="(interval.intersection(NegInfInterval!Date(Date(2012, 1, 6))),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 6)));
_assertPred!"=="(interval.intersection(NegInfInterval!Date(Date(2012, 1, 7))),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)));
_assertPred!"=="(interval.intersection(NegInfInterval!Date(Date(2012, 1, 8))),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, interval.intersection(interval)));
static assert(__traits(compiles, interval.intersection(cInterval)));
static assert(__traits(compiles, interval.intersection(iInterval)));
static assert(__traits(compiles, interval.intersection(posInfInterval)));
static assert(__traits(compiles, interval.intersection(cPosInfInterval)));
static assert(__traits(compiles, interval.intersection(iPosInfInterval)));
static assert(__traits(compiles, interval.intersection(negInfInterval)));
static assert(__traits(compiles, interval.intersection(cNegInfInterval)));
static assert(__traits(compiles, interval.intersection(iNegInfInterval)));
static assert(__traits(compiles, cInterval.intersection(interval)));
static assert(__traits(compiles, cInterval.intersection(cInterval)));
static assert(__traits(compiles, cInterval.intersection(iInterval)));
static assert(__traits(compiles, cInterval.intersection(posInfInterval)));
static assert(__traits(compiles, cInterval.intersection(cPosInfInterval)));
static assert(__traits(compiles, cInterval.intersection(iPosInfInterval)));
static assert(__traits(compiles, cInterval.intersection(negInfInterval)));
static assert(__traits(compiles, cInterval.intersection(cNegInfInterval)));
static assert(__traits(compiles, cInterval.intersection(iNegInfInterval)));
static assert(__traits(compiles, iInterval.intersection(interval)));
static assert(__traits(compiles, iInterval.intersection(cInterval)));
static assert(__traits(compiles, iInterval.intersection(iInterval)));
static assert(__traits(compiles, iInterval.intersection(posInfInterval)));
static assert(__traits(compiles, iInterval.intersection(cPosInfInterval)));
static assert(__traits(compiles, iInterval.intersection(iPosInfInterval)));
static assert(__traits(compiles, iInterval.intersection(negInfInterval)));
static assert(__traits(compiles, iInterval.intersection(cNegInfInterval)));
static assert(__traits(compiles, iInterval.intersection(iNegInfInterval)));
//Verify Examples.
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersection(Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))) == Interval!Date(Date(1996, 1 , 2), Date(2000, 8, 2)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersection(Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))) == Interval!Date(Date(1999, 1 , 12), Date(2011, 9, 17)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersection(PosInfInterval!Date(Date(1990, 7, 6))) == Interval!Date(Date(1996, 1 , 2), Date(2012, 3, 1)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersection(PosInfInterval!Date(Date(1999, 1, 12))) == Interval!Date(Date(1999, 1 , 12), Date(2012, 3, 1)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersection(NegInfInterval!Date(Date(1999, 7, 6))) == Interval!Date(Date(1996, 1 , 2), Date(1999, 7, 6)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).intersection(NegInfInterval!Date(Date(2013, 1, 12))) == Interval!Date(Date(1996, 1 , 2), Date(2012, 3, 1)));
}
}
//Test Interval's isAdjacent().
unittest
{
version(testStdDateTime)
{
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
static void testInterval(in Interval!Date interval1, in Interval!Date interval2)
{
interval1.isAdjacent(interval2);
}
assertThrown!DateTimeException(testInterval(interval, Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assertThrown!DateTimeException(testInterval(Interval!Date(Date(2010, 7, 4), dur!"days"(0)), interval));
assertThrown!DateTimeException(testInterval(Interval!Date(Date(2010, 7, 4), dur!"days"(0)), Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assert(!interval.isAdjacent(interval));
assert(!interval.isAdjacent(Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3))));
assert(!interval.isAdjacent(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3))));
assert(interval.isAdjacent(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4))));
assert(!interval.isAdjacent(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5))));
assert(!interval.isAdjacent(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7))));
assert(!interval.isAdjacent(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8))));
assert(!interval.isAdjacent(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6))));
assert(!interval.isAdjacent(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7))));
assert(!interval.isAdjacent(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7))));
assert(!interval.isAdjacent(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8))));
assert(interval.isAdjacent(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8))));
assert(!interval.isAdjacent(Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9))));
assert(!Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3)).isAdjacent(interval));
assert(!Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3)).isAdjacent(interval));
assert(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4)).isAdjacent(interval));
assert(!Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5)).isAdjacent(interval));
assert(!Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7)).isAdjacent(interval));
assert(!Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8)).isAdjacent(interval));
assert(!Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6)).isAdjacent(interval));
assert(!Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7)).isAdjacent(interval));
assert(!Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7)).isAdjacent(interval));
assert(!Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8)).isAdjacent(interval));
assert(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8)).isAdjacent(interval));
assert(!Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9)).isAdjacent(interval));
assert(!interval.isAdjacent(PosInfInterval!Date(Date(2010, 7, 3))));
assert(!interval.isAdjacent(PosInfInterval!Date(Date(2010, 7, 4))));
assert(!interval.isAdjacent(PosInfInterval!Date(Date(2010, 7, 5))));
assert(!interval.isAdjacent(PosInfInterval!Date(Date(2012, 1, 6))));
assert(interval.isAdjacent(PosInfInterval!Date(Date(2012, 1, 7))));
assert(!interval.isAdjacent(PosInfInterval!Date(Date(2012, 1, 8))));
assert(!interval.isAdjacent(NegInfInterval!Date(Date(2010, 7, 3))));
assert(interval.isAdjacent(NegInfInterval!Date(Date(2010, 7, 4))));
assert(!interval.isAdjacent(NegInfInterval!Date(Date(2010, 7, 5))));
assert(!interval.isAdjacent(NegInfInterval!Date(Date(2012, 1, 6))));
assert(!interval.isAdjacent(NegInfInterval!Date(Date(2012, 1, 7))));
assert(!interval.isAdjacent(NegInfInterval!Date(Date(2012, 1, 8))));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, interval.isAdjacent(interval)));
static assert(__traits(compiles, interval.isAdjacent(cInterval)));
static assert(__traits(compiles, interval.isAdjacent(iInterval)));
static assert(__traits(compiles, interval.isAdjacent(posInfInterval)));
static assert(__traits(compiles, interval.isAdjacent(cPosInfInterval)));
static assert(__traits(compiles, interval.isAdjacent(iPosInfInterval)));
static assert(__traits(compiles, interval.isAdjacent(negInfInterval)));
static assert(__traits(compiles, interval.isAdjacent(cNegInfInterval)));
static assert(__traits(compiles, interval.isAdjacent(iNegInfInterval)));
static assert(__traits(compiles, cInterval.isAdjacent(interval)));
static assert(__traits(compiles, cInterval.isAdjacent(cInterval)));
static assert(__traits(compiles, cInterval.isAdjacent(iInterval)));
static assert(__traits(compiles, cInterval.isAdjacent(posInfInterval)));
static assert(__traits(compiles, cInterval.isAdjacent(cPosInfInterval)));
static assert(__traits(compiles, cInterval.isAdjacent(iPosInfInterval)));
static assert(__traits(compiles, cInterval.isAdjacent(negInfInterval)));
static assert(__traits(compiles, cInterval.isAdjacent(cNegInfInterval)));
static assert(__traits(compiles, cInterval.isAdjacent(iNegInfInterval)));
static assert(__traits(compiles, iInterval.isAdjacent(interval)));
static assert(__traits(compiles, iInterval.isAdjacent(cInterval)));
static assert(__traits(compiles, iInterval.isAdjacent(iInterval)));
static assert(__traits(compiles, iInterval.isAdjacent(posInfInterval)));
static assert(__traits(compiles, iInterval.isAdjacent(cPosInfInterval)));
static assert(__traits(compiles, iInterval.isAdjacent(iPosInfInterval)));
static assert(__traits(compiles, iInterval.isAdjacent(negInfInterval)));
static assert(__traits(compiles, iInterval.isAdjacent(cNegInfInterval)));
static assert(__traits(compiles, iInterval.isAdjacent(iNegInfInterval)));
//Verify Examples.
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAdjacent(Interval!Date(Date(1990, 7, 6), Date(1996, 1, 2))));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAdjacent(Interval!Date(Date(2012, 3, 1), Date(2013, 9, 17))));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAdjacent(Interval!Date(Date(1989, 3, 1), Date(2012, 3, 1))));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAdjacent(PosInfInterval!Date(Date(1999, 5, 4))));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAdjacent(PosInfInterval!Date(Date(2012, 3, 1))));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAdjacent(NegInfInterval!Date(Date(1996, 1, 2))));
assert(!Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).isAdjacent(NegInfInterval!Date(Date(2000, 1, 2))));
}
}
//Test Interval's merge().
unittest
{
version(testStdDateTime)
{
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
static void testInterval(I)(in Interval!Date interval1, in I interval2)
{
interval1.merge(interval2);
}
assertThrown!DateTimeException(testInterval(interval, Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assertThrown!DateTimeException(testInterval(Interval!Date(Date(2010, 7, 4), dur!"days"(0)), interval));
assertThrown!DateTimeException(testInterval(Interval!Date(Date(2010, 7, 4), dur!"days"(0)), Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assertThrown!DateTimeException(testInterval(interval, Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3))));
assertThrown!DateTimeException(testInterval(interval, Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9))));
assertThrown!DateTimeException(testInterval(Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3)), interval));
assertThrown!DateTimeException(testInterval(Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9)), interval));
assertThrown!DateTimeException(testInterval(interval, PosInfInterval!Date(Date(2012, 1, 8))));
assertThrown!DateTimeException(testInterval(interval, NegInfInterval!Date(Date(2010, 7, 3))));
_assertPred!"=="(interval.merge(interval), interval);
_assertPred!"=="(interval.merge(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3))),
Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3)));
_assertPred!"=="(interval.merge(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4))),
Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7)));
_assertPred!"=="(interval.merge(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5))),
Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7)));
_assertPred!"=="(interval.merge(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7))),
Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7)));
_assertPred!"=="(interval.merge(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8))),
Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8)));
_assertPred!"=="(interval.merge(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6))),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)));
_assertPred!"=="(interval.merge(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7))),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)));
_assertPred!"=="(interval.merge(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7))),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)));
_assertPred!"=="(interval.merge(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8))),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 8)));
_assertPred!"=="(interval.merge(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8))),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 8)));
_assertPred!"=="(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3)).merge(interval),
Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3)));
_assertPred!"=="(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4)).merge(interval),
Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7)));
_assertPred!"=="(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5)).merge(interval),
Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7)));
_assertPred!"=="(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7)).merge(interval),
Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7)));
_assertPred!"=="(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8)).merge(interval),
Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8)));
_assertPred!"=="(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6)).merge(interval),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)));
_assertPred!"=="(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7)).merge(interval),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)));
_assertPred!"=="(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7)).merge(interval),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)));
_assertPred!"=="(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8)).merge(interval),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 8)));
_assertPred!"=="(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8)).merge(interval),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 8)));
_assertPred!"=="(interval.merge(PosInfInterval!Date(Date(2010, 7, 3))),
PosInfInterval!Date(Date(2010, 7, 3)));
_assertPred!"=="(interval.merge(PosInfInterval!Date(Date(2010, 7, 4))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(interval.merge(PosInfInterval!Date(Date(2010, 7, 5))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(interval.merge(PosInfInterval!Date(Date(2012, 1, 6))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(interval.merge(PosInfInterval!Date(Date(2012, 1, 7))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(interval.merge(NegInfInterval!Date(Date(2010, 7, 4))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(interval.merge(NegInfInterval!Date(Date(2010, 7, 5))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(interval.merge(NegInfInterval!Date(Date(2012, 1, 6))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(interval.merge(NegInfInterval!Date(Date(2012, 1, 7))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(interval.merge(NegInfInterval!Date(Date(2012, 1, 8))),
NegInfInterval!Date(Date(2012, 1, 8)));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, interval.merge(interval)));
static assert(__traits(compiles, interval.merge(cInterval)));
static assert(__traits(compiles, interval.merge(iInterval)));
static assert(__traits(compiles, interval.merge(posInfInterval)));
static assert(__traits(compiles, interval.merge(cPosInfInterval)));
static assert(__traits(compiles, interval.merge(iPosInfInterval)));
static assert(__traits(compiles, interval.merge(negInfInterval)));
static assert(__traits(compiles, interval.merge(cNegInfInterval)));
static assert(__traits(compiles, interval.merge(iNegInfInterval)));
static assert(__traits(compiles, cInterval.merge(interval)));
static assert(__traits(compiles, cInterval.merge(cInterval)));
static assert(__traits(compiles, cInterval.merge(iInterval)));
static assert(__traits(compiles, cInterval.merge(posInfInterval)));
static assert(__traits(compiles, cInterval.merge(cPosInfInterval)));
static assert(__traits(compiles, cInterval.merge(iPosInfInterval)));
static assert(__traits(compiles, cInterval.merge(negInfInterval)));
static assert(__traits(compiles, cInterval.merge(cNegInfInterval)));
static assert(__traits(compiles, cInterval.merge(iNegInfInterval)));
static assert(__traits(compiles, iInterval.merge(interval)));
static assert(__traits(compiles, iInterval.merge(cInterval)));
static assert(__traits(compiles, iInterval.merge(iInterval)));
static assert(__traits(compiles, iInterval.merge(posInfInterval)));
static assert(__traits(compiles, iInterval.merge(cPosInfInterval)));
static assert(__traits(compiles, iInterval.merge(iPosInfInterval)));
static assert(__traits(compiles, iInterval.merge(negInfInterval)));
static assert(__traits(compiles, iInterval.merge(cNegInfInterval)));
static assert(__traits(compiles, iInterval.merge(iNegInfInterval)));
//Verify Examples.
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).merge(Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))) == Interval!Date(Date(1990, 7 , 6), Date(2012, 3, 1)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).merge(Interval!Date(Date(2012, 3, 1), Date(2013, 5, 7))) == Interval!Date(Date(1996, 1 , 2), Date(2013, 5, 7)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).merge(PosInfInterval!Date(Date(1990, 7, 6))) == PosInfInterval!Date(Date(1990, 7 , 6)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).merge(PosInfInterval!Date(Date(2012, 3, 1))) == PosInfInterval!Date(Date(1996, 1 , 2)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).merge(NegInfInterval!Date(Date(1996, 1, 2))) == NegInfInterval!Date(Date(2012, 3 , 1)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).merge(NegInfInterval!Date(Date(2013, 1, 12))) == NegInfInterval!Date(Date(2013, 1 , 12)));
}
}
//Test Interval's span().
unittest
{
version(testStdDateTime)
{
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
static void testInterval(in Interval!Date interval1, in Interval!Date interval2)
{
interval1.span(interval2);
}
assertThrown!DateTimeException(testInterval(interval, Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assertThrown!DateTimeException(testInterval(Interval!Date(Date(2010, 7, 4), dur!"days"(0)), interval));
assertThrown!DateTimeException(testInterval(Interval!Date(Date(2010, 7, 4), dur!"days"(0)), Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
_assertPred!"=="(interval.span(interval), interval);
_assertPred!"=="(interval.span(Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3))),
Interval!Date(Date(2010, 7, 1), Date(2012, 1, 7)));
_assertPred!"=="(interval.span(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3))),
Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3)));
_assertPred!"=="(interval.span(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4))),
Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7)));
_assertPred!"=="(interval.span(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5))),
Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7)));
_assertPred!"=="(interval.span(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7))),
Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7)));
_assertPred!"=="(interval.span(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8))),
Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8)));
_assertPred!"=="(interval.span(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6))),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)));
_assertPred!"=="(interval.span(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7))),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)));
_assertPred!"=="(interval.span(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7))),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)));
_assertPred!"=="(interval.span(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8))),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 8)));
_assertPred!"=="(interval.span(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8))),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 8)));
_assertPred!"=="(interval.span(Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9))),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 9)));
_assertPred!"=="(Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3)).span(interval),
Interval!Date(Date(2010, 7, 1), Date(2012, 1, 7)));
_assertPred!"=="(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3)).span(interval),
Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3)));
_assertPred!"=="(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4)).span(interval),
Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7)));
_assertPred!"=="(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5)).span(interval),
Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7)));
_assertPred!"=="(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7)).span(interval),
Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7)));
_assertPred!"=="(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8)).span(interval),
Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8)));
_assertPred!"=="(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6)).span(interval),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)));
_assertPred!"=="(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7)).span(interval),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)));
_assertPred!"=="(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7)).span(interval),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)));
_assertPred!"=="(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8)).span(interval),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 8)));
_assertPred!"=="(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8)).span(interval),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 8)));
_assertPred!"=="(Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9)).span(interval),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 9)));
_assertPred!"=="(interval.span(PosInfInterval!Date(Date(2010, 7, 3))),
PosInfInterval!Date(Date(2010, 7, 3)));
_assertPred!"=="(interval.span(PosInfInterval!Date(Date(2010, 7, 4))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(interval.span(PosInfInterval!Date(Date(2010, 7, 5))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(interval.span(PosInfInterval!Date(Date(2012, 1, 6))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(interval.span(PosInfInterval!Date(Date(2012, 1, 7))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(interval.span(PosInfInterval!Date(Date(2012, 1, 8))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(interval.span(NegInfInterval!Date(Date(2010, 7, 3))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(interval.span(NegInfInterval!Date(Date(2010, 7, 4))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(interval.span(NegInfInterval!Date(Date(2010, 7, 5))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(interval.span(NegInfInterval!Date(Date(2012, 1, 6))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(interval.span(NegInfInterval!Date(Date(2012, 1, 7))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(interval.span(NegInfInterval!Date(Date(2012, 1, 8))),
NegInfInterval!Date(Date(2012, 1, 8)));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, interval.span(interval)));
static assert(__traits(compiles, interval.span(cInterval)));
static assert(__traits(compiles, interval.span(iInterval)));
static assert(__traits(compiles, interval.span(posInfInterval)));
static assert(__traits(compiles, interval.span(cPosInfInterval)));
static assert(__traits(compiles, interval.span(iPosInfInterval)));
static assert(__traits(compiles, interval.span(negInfInterval)));
static assert(__traits(compiles, interval.span(cNegInfInterval)));
static assert(__traits(compiles, interval.span(iNegInfInterval)));
static assert(__traits(compiles, cInterval.span(interval)));
static assert(__traits(compiles, cInterval.span(cInterval)));
static assert(__traits(compiles, cInterval.span(iInterval)));
static assert(__traits(compiles, cInterval.span(posInfInterval)));
static assert(__traits(compiles, cInterval.span(cPosInfInterval)));
static assert(__traits(compiles, cInterval.span(iPosInfInterval)));
static assert(__traits(compiles, cInterval.span(negInfInterval)));
static assert(__traits(compiles, cInterval.span(cNegInfInterval)));
static assert(__traits(compiles, cInterval.span(iNegInfInterval)));
static assert(__traits(compiles, iInterval.span(interval)));
static assert(__traits(compiles, iInterval.span(cInterval)));
static assert(__traits(compiles, iInterval.span(iInterval)));
static assert(__traits(compiles, iInterval.span(posInfInterval)));
static assert(__traits(compiles, iInterval.span(cPosInfInterval)));
static assert(__traits(compiles, iInterval.span(iPosInfInterval)));
static assert(__traits(compiles, iInterval.span(negInfInterval)));
static assert(__traits(compiles, iInterval.span(cNegInfInterval)));
static assert(__traits(compiles, iInterval.span(iNegInfInterval)));
//Verify Examples.
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).span(Interval!Date(Date(1990, 7, 6), Date(1991, 1, 8))) == Interval!Date(Date(1990, 7 , 6), Date(2012, 3, 1)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).span(Interval!Date(Date(2012, 3, 1), Date(2013, 5, 7))) == Interval!Date(Date(1996, 1 , 2), Date(2013, 5, 7)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).span(PosInfInterval!Date(Date(1990, 7, 6))) == PosInfInterval!Date(Date(1990, 7 , 6)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).span(PosInfInterval!Date(Date(2050, 1, 1))) == PosInfInterval!Date(Date(1996, 1 , 2)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).span(NegInfInterval!Date(Date(1602, 5, 21))) == NegInfInterval!Date(Date(2012, 3 , 1)));
assert(Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1)).span(NegInfInterval!Date(Date(2013, 1, 12))) == NegInfInterval!Date(Date(2013, 1 , 12)));
}
}
//Test Interval's shift(duration).
unittest
{
version(testStdDateTime)
{
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
static void testIntervalFail(Interval!Date interval, in Duration duration)
{
interval.shift(duration);
}
assertThrown!DateTimeException(testIntervalFail(Interval!Date(Date(2010, 7, 4), dur!"days"(0)), dur!"days"(1)));
static void testInterval(I)(I interval, in Duration duration, in I expected, size_t line = __LINE__)
{
interval.shift(duration);
_assertPred!"=="(interval, expected, "", __FILE__, line);
}
testInterval(interval, dur!"days"(22), Interval!Date(Date(2010, 7, 26), Date(2012, 1, 29)));
testInterval(interval, dur!"days"(-22), Interval!Date(Date(2010, 6, 12), Date(2011, 12, 16)));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
static assert(!__traits(compiles, cInterval.shift(dur!"days"(5))));
static assert(!__traits(compiles, iInterval.shift(dur!"days"(5))));
//Verify Examples.
auto interval1 = Interval!Date(Date(1996, 1, 2), Date(2012, 4, 5));
auto interval2 = Interval!Date(Date(1996, 1, 2), Date(2012, 4, 5));
interval1.shift(dur!"days"(50));
assert(interval1 == Interval!Date(Date(1996, 2, 21), Date(2012, 5, 25)));
interval2.shift(dur!"days"(-50));
assert(interval2 == Interval!Date(Date(1995, 11, 13), Date(2012, 2, 15)));
}
}
//Test Interval's shift(int, int, AllowDayOverflow).
unittest
{
version(testStdDateTime)
{
{
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
static void testIntervalFail(Interval!Date interval, int years, int months)
{
interval.shift(years, months);
}
assertThrown!DateTimeException(testIntervalFail(Interval!Date(Date(2010, 7, 4), dur!"days"(0)), 1, 0));
static void testInterval(I)(I interval, int years, int months, AllowDayOverflow allow, in I expected, size_t line = __LINE__)
{
interval.shift(years, months, allow);
_assertPred!"=="(interval, expected, "", __FILE__, line);
}
testInterval(interval, 5, 0, AllowDayOverflow.yes, Interval!Date(Date(2015, 7, 4), Date(2017, 1, 7)));
testInterval(interval, -5, 0, AllowDayOverflow.yes, Interval!Date(Date(2005, 7, 4), Date(2007, 1, 7)));
auto interval2 = Interval!Date(Date(2000, 1, 29), Date(2010, 5, 31));
testInterval(interval2, 1, 1, AllowDayOverflow.yes, Interval!Date(Date(2001, 3, 1), Date(2011, 7, 1)));
testInterval(interval2, 1, -1, AllowDayOverflow.yes, Interval!Date(Date(2000, 12, 29), Date(2011, 5, 1)));
testInterval(interval2, -1, -1, AllowDayOverflow.yes, Interval!Date(Date(1998, 12, 29), Date(2009, 5, 1)));
testInterval(interval2, -1, 1, AllowDayOverflow.yes, Interval!Date(Date(1999, 3, 1), Date(2009, 7, 1)));
testInterval(interval2, 1, 1, AllowDayOverflow.no, Interval!Date(Date(2001, 2, 28), Date(2011, 6, 30)));
testInterval(interval2, 1, -1, AllowDayOverflow.no, Interval!Date(Date(2000, 12, 29), Date(2011, 4, 30)));
testInterval(interval2, -1, -1, AllowDayOverflow.no, Interval!Date(Date(1998, 12, 29), Date(2009, 4, 30)));
testInterval(interval2, -1, 1, AllowDayOverflow.no, Interval!Date(Date(1999, 2, 28), Date(2009, 6, 30)));
}
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
static assert(!__traits(compiles, cInterval.shift(5)));
static assert(!__traits(compiles, iInterval.shift(5)));
//Verify Examples.
auto interval1 = Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1));
auto interval2 = Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1));
interval1.shift(2);
assert(interval1 == Interval!Date(Date(1998, 1, 2), Date(2014, 3, 1)));
interval2.shift(-2);
assert(interval2 == Interval!Date(Date(1994, 1, 2), Date(2010, 3, 1)));
}
}
//Test Interval's expand(Duration).
unittest
{
version(testStdDateTime)
{
auto interval = Interval!Date(Date(2000, 7, 4), Date(2012, 1, 7));
static void testIntervalFail(I)(I interval, in Duration duration)
{
interval.expand(duration);
}
assertThrown!DateTimeException(testIntervalFail(Interval!Date(Date(2010, 7, 4), dur!"days"(0)), dur!"days"(1)));
assertThrown!DateTimeException(testIntervalFail(Interval!Date(Date(2010, 7, 4), Date(2010, 7, 5)), dur!"days"(-5)));
static void testInterval(I)(I interval, in Duration duration, in I expected, size_t line = __LINE__)
{
interval.expand(duration);
_assertPred!"=="(interval, expected, "", __FILE__, line);
}
testInterval(interval, dur!"days"(22), Interval!Date(Date(2000, 6, 12), Date(2012, 1, 29)));
testInterval(interval, dur!"days"(-22), Interval!Date(Date(2000, 7, 26), Date(2011, 12, 16)));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
static assert(!__traits(compiles, cInterval.expand(dur!"days"(5))));
static assert(!__traits(compiles, iInterval.expand(dur!"days"(5))));
//Verify Examples.
auto interval1 = Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1));
auto interval2 = Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1));
interval1.expand(dur!"days"(2));
assert(interval1 == Interval!Date(Date(1995, 12, 31), Date(2012, 3, 3)));
interval2.expand(dur!"days"(-2));
assert(interval2 == Interval!Date(Date(1996, 1, 4), Date(2012, 2, 28)));
}
}
//Test Interval's expand(int, int, AllowDayOverflow, Direction)
unittest
{
version(testStdDateTime)
{
{
auto interval = Interval!Date(Date(2000, 7, 4), Date(2012, 1, 7));
static void testIntervalFail(Interval!Date interval, int years, int months)
{
interval.expand(years, months);
}
assertThrown!DateTimeException(testIntervalFail(Interval!Date(Date(2010, 7, 4), dur!"days"(0)), 1, 0));
assertThrown!DateTimeException(testIntervalFail(Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)), -5, 0));
static void testInterval(I)(I interval, int years, int months, AllowDayOverflow allow, Direction dir, in I expected, size_t line = __LINE__)
{
interval.expand(years, months, allow, dir);
_assertPred!"=="(interval, expected, "", __FILE__, line);
}
testInterval(interval, 5, 0, AllowDayOverflow.yes, Direction.both, Interval!Date(Date(1995, 7, 4), Date(2017, 1, 7)));
testInterval(interval, -5, 0, AllowDayOverflow.yes, Direction.both, Interval!Date(Date(2005, 7, 4), Date(2007, 1, 7)));
testInterval(interval, 5, 0, AllowDayOverflow.yes, Direction.fwd, Interval!Date(Date(2000, 7, 4), Date(2017, 1, 7)));
testInterval(interval, -5, 0, AllowDayOverflow.yes, Direction.fwd, Interval!Date(Date(2000, 7, 4), Date(2007, 1, 7)));
testInterval(interval, 5, 0, AllowDayOverflow.yes, Direction.bwd, Interval!Date(Date(1995, 7, 4), Date(2012, 1, 7)));
testInterval(interval, -5, 0, AllowDayOverflow.yes, Direction.bwd, Interval!Date(Date(2005, 7, 4), Date(2012, 1, 7)));
auto interval2 = Interval!Date(Date(2000, 1, 29), Date(2010, 5, 31));
testInterval(interval2, 1, 1, AllowDayOverflow.yes, Direction.both, Interval!Date(Date(1998, 12, 29), Date(2011, 7, 1)));
testInterval(interval2, 1, -1, AllowDayOverflow.yes, Direction.both, Interval!Date(Date(1999, 3, 1), Date(2011, 5, 1)));
testInterval(interval2, -1, -1, AllowDayOverflow.yes, Direction.both, Interval!Date(Date(2001, 3, 1), Date(2009, 5, 1)));
testInterval(interval2, -1, 1, AllowDayOverflow.yes, Direction.both, Interval!Date(Date(2000, 12, 29), Date(2009, 7, 1)));
testInterval(interval2, 1, 1, AllowDayOverflow.no, Direction.both, Interval!Date(Date(1998, 12, 29), Date(2011, 6, 30)));
testInterval(interval2, 1, -1, AllowDayOverflow.no, Direction.both, Interval!Date(Date(1999, 2, 28), Date(2011, 4, 30)));
testInterval(interval2, -1, -1, AllowDayOverflow.no, Direction.both, Interval!Date(Date(2001, 2, 28), Date(2009, 4, 30)));
testInterval(interval2, -1, 1, AllowDayOverflow.no, Direction.both, Interval!Date(Date(2000, 12, 29), Date(2009, 6, 30)));
testInterval(interval2, 1, 1, AllowDayOverflow.yes, Direction.fwd, Interval!Date(Date(2000, 1, 29), Date(2011, 7, 1)));
testInterval(interval2, 1, -1, AllowDayOverflow.yes, Direction.fwd, Interval!Date(Date(2000, 1, 29), Date(2011, 5, 1)));
testInterval(interval2, -1, -1, AllowDayOverflow.yes, Direction.fwd, Interval!Date(Date(2000, 1, 29), Date(2009, 5, 1)));
testInterval(interval2, -1, 1, AllowDayOverflow.yes, Direction.fwd, Interval!Date(Date(2000, 1, 29), Date(2009, 7, 1)));
testInterval(interval2, 1, 1, AllowDayOverflow.no, Direction.fwd, Interval!Date(Date(2000, 1, 29), Date(2011, 6, 30)));
testInterval(interval2, 1, -1, AllowDayOverflow.no, Direction.fwd, Interval!Date(Date(2000, 1, 29), Date(2011, 4, 30)));
testInterval(interval2, -1, -1, AllowDayOverflow.no, Direction.fwd, Interval!Date(Date(2000, 1, 29), Date(2009, 4, 30)));
testInterval(interval2, -1, 1, AllowDayOverflow.no, Direction.fwd, Interval!Date(Date(2000, 1, 29), Date(2009, 6, 30)));
testInterval(interval2, 1, 1, AllowDayOverflow.yes, Direction.bwd, Interval!Date(Date(1998, 12, 29), Date(2010, 5, 31)));
testInterval(interval2, 1, -1, AllowDayOverflow.yes, Direction.bwd, Interval!Date(Date(1999, 3, 1), Date(2010, 5, 31)));
testInterval(interval2, -1, -1, AllowDayOverflow.yes, Direction.bwd, Interval!Date(Date(2001, 3, 1), Date(2010, 5, 31)));
testInterval(interval2, -1, 1, AllowDayOverflow.yes, Direction.bwd, Interval!Date(Date(2000, 12, 29), Date(2010, 5, 31)));
testInterval(interval2, 1, 1, AllowDayOverflow.no, Direction.bwd, Interval!Date(Date(1998, 12, 29), Date(2010, 5, 31)));
testInterval(interval2, 1, -1, AllowDayOverflow.no, Direction.bwd, Interval!Date(Date(1999, 2, 28), Date(2010, 5, 31)));
testInterval(interval2, -1, -1, AllowDayOverflow.no, Direction.bwd, Interval!Date(Date(2001, 2, 28), Date(2010, 5, 31)));
testInterval(interval2, -1, 1, AllowDayOverflow.no, Direction.bwd, Interval!Date(Date(2000, 12, 29), Date(2010, 5, 31)));
}
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
static assert(!__traits(compiles, cInterval.expand(5)));
static assert(!__traits(compiles, iInterval.expand(5)));
//Verify Examples.
auto interval1 = Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1));
auto interval2 = Interval!Date(Date(1996, 1, 2), Date(2012, 3, 1));
interval1.expand(2);
assert(interval1 == Interval!Date(Date(1994, 1, 2), Date(2014, 3, 1)));
interval2.expand(-2);
assert(interval2 == Interval!Date(Date(1998, 1, 2), Date(2010, 3, 1)));
}
}
//Test Interval's fwdRange.
unittest
{
version(testStdDateTime)
{
{
auto interval = Interval!Date(Date(2010, 9, 19), Date(2010, 9, 21));
static void testInterval1(Interval!Date interval)
{
interval.fwdRange(everyDayOfWeek!Date(DayOfWeek.fri));
}
assertThrown!DateTimeException(testInterval1(Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
static void testInterval2(Interval!Date interval)
{
interval.fwdRange(everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.fri)).popFront();
}
assertThrown!DateTimeException(testInterval2(interval));
assert(!interval.fwdRange(everyDayOfWeek!Date(DayOfWeek.fri)).empty);
assert(interval.fwdRange(everyDayOfWeek!Date(DayOfWeek.fri), PopFirst.yes).empty);
_assertPred!"=="(Interval!Date(Date(2010, 9, 12), Date(2010, 10, 1)).fwdRange(everyDayOfWeek!Date(DayOfWeek.fri)).front,
Date(2010, 9, 12));
_assertPred!"=="(Interval!Date(Date(2010, 9, 12), Date(2010, 10, 1)).fwdRange(everyDayOfWeek!Date(DayOfWeek.fri), PopFirst.yes).front,
Date(2010, 9, 17));
}
//Verify Examples.
{
auto interval = Interval!Date(Date(2010, 9, 1), Date(2010, 9, 9));
auto func = (in Date date)
{
if((date.day & 1) == 0)
return date + dur!"days"(2);
return date + dur!"days"(1);
};
auto range = interval.fwdRange(func);
assert(range.front == Date(2010, 9, 1)); //An odd day. Using PopFirst.yes would have made this Date(2010, 9, 2).
range.popFront();
assert(range.front == Date(2010, 9, 2));
range.popFront();
assert(range.front == Date(2010, 9, 4));
range.popFront();
assert(range.front == Date(2010, 9, 6));
range.popFront();
assert(range.front == Date(2010, 9, 8));
range.popFront();
assert(range.empty);
}
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
static assert(__traits(compiles, cInterval.fwdRange(everyDayOfWeek!Date(DayOfWeek.fri))));
static assert(__traits(compiles, iInterval.fwdRange(everyDayOfWeek!Date(DayOfWeek.fri))));
}
}
//Test Interval's bwdRange.
unittest
{
version(testStdDateTime)
{
{
auto interval = Interval!Date(Date(2010, 9, 19), Date(2010, 9, 21));
static void testInterval1(Interval!Date interval)
{
interval.bwdRange(everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.fri));
}
assertThrown!DateTimeException(testInterval1(Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
static void testInterval2(Interval!Date interval)
{
interval.bwdRange(everyDayOfWeek!(Date, Direction.fwd)(DayOfWeek.fri)).popFront();
}
assertThrown!DateTimeException(testInterval2(interval));
assert(!interval.bwdRange(everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.fri)).empty);
assert(interval.bwdRange(everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.fri), PopFirst.yes).empty);
_assertPred!"=="(Interval!Date(Date(2010, 9, 19), Date(2010, 10, 1)).bwdRange(everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.fri)).front,
Date(2010, 10, 1));
_assertPred!"=="(Interval!Date(Date(2010, 9, 19), Date(2010, 10, 1)).bwdRange(everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.fri), PopFirst.yes).front,
Date(2010, 9, 24));
}
//Verify Examples.
{
auto interval = Interval!Date(Date(2010, 9, 1), Date(2010, 9, 9));
auto func = (in Date date)
{
if((date.day & 1) == 0)
return date - dur!"days"(2);
return date - dur!"days"(1);
};
auto range = interval.bwdRange(func);
assert(range.front == Date(2010, 9, 9)); //An odd day. Using PopFirst.yes would have made this Date(2010, 9, 8).
range.popFront();
assert(range.front == Date(2010, 9, 8));
range.popFront();
assert(range.front == Date(2010, 9, 6));
range.popFront();
assert(range.front == Date(2010, 9, 4));
range.popFront();
assert(range.front == Date(2010, 9, 2));
range.popFront();
assert(range.empty);
}
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
static assert(__traits(compiles, cInterval.bwdRange(everyDayOfWeek!Date(DayOfWeek.fri))));
static assert(__traits(compiles, iInterval.bwdRange(everyDayOfWeek!Date(DayOfWeek.fri))));
}
}
//Test Interval's toString().
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)).toString(), "[2010-Jul-04 - 2012-Jan-07)");
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
static assert(__traits(compiles, cInterval.toString()));
static assert(__traits(compiles, iInterval.toString()));
}
}
/++
Represents an interval of time which has positive infinity as its end point.
Any ranges which iterate over a $(D PosInfInterval) are infinite. So, the
main purpose of using $(D PosInfInterval) is to create an infinite range
which starts at a fixed point in time and goes to positive infinity.
+/
struct PosInfInterval(TP)
{
public:
/++
Params:
begin = The time point which begins the interval.
Examples:
--------------------
auto interval = PosInfInterval!Date(Date(1996, 1, 2));
--------------------
+/
this(in TP begin) pure nothrow
{
_begin = cast(TP)begin;
}
/++
Params:
rhs = The $(D PosInfInterval) to assign to this one.
+/
/+ref+/ PosInfInterval opAssign(const ref PosInfInterval rhs) pure nothrow
{
_begin = cast(TP)rhs._begin;
return this;
}
/++
Params:
rhs = The $(D PosInfInterval) to assign to this one.
+/
/+ref+/ PosInfInterval opAssign(PosInfInterval rhs) pure nothrow
{
_begin = cast(TP)rhs._begin;
return this;
}
/++
The starting point of the interval. It is included in the interval.
Examples:
--------------------
assert(PosInfInterval!Date(Date(1996, 1, 2)).begin == Date(1996, 1, 2));
--------------------
+/
@property TP begin() const pure nothrow
{
return cast(TP)_begin;
}
/++
The starting point of the interval. It is included in the interval.
Params:
timePoint = The time point to set $(D begin) to.
+/
@property void begin(TP timePoint) pure nothrow
{
_begin = timePoint;
}
/++
Whether the interval's length is 0. Always returns false.
Examples:
--------------------
assert(!PosInfInterval!Date(Date(1996, 1, 2)).empty);
--------------------
+/
@property bool empty() const pure nothrow
{
return false;
}
/++
Whether the given time point is within this interval.
Params:
timePoint = The time point to check for inclusion in this interval.
Examples:
--------------------
assert(!PosInfInterval!Date(Date(1996, 1, 2)).contains(Date(1994, 12, 24)));
assert(PosInfInterval!Date(Date(1996, 1, 2)).contains(Date(2000, 1, 5)));
--------------------
+/
bool contains(TP timePoint) const pure nothrow
{
return timePoint >= _begin;
}
/++
Whether the given interval is completely within this interval.
Params:
interval = The interval to check for inclusion in this interval.
Throws:
$(D DateTimeException) if the given interval is empty.
Examples:
--------------------
assert(!PosInfInterval!Date(Date(1996, 1, 2)).contains(
Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(PosInfInterval!Date(Date(1996, 1, 2)).contains(
Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
assert(PosInfInterval!Date(Date(1996, 1, 2)).contains(
Interval!Date(Date(1998, 2, 28), Date(2013, 5, 1))));
--------------------
+/
bool contains(in Interval!TP interval) const pure
{
interval._enforceNotEmpty();
return interval._begin >= _begin;
}
/++
Whether the given interval is completely within this interval.
Params:
interval = The interval to check for inclusion in this interval.
Examples:
--------------------
assert(PosInfInterval!Date(Date(1996, 1, 2)).contains(
PosInfInterval!Date(Date(1999, 5, 4))));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).contains(
PosInfInterval!Date(Date(1995, 7, 2))));
--------------------
+/
bool contains(in PosInfInterval interval) const pure nothrow
{
return interval._begin >= _begin;
}
/++
Whether the given interval is completely within this interval.
Always returns false because an interval going to positive infinity
can never contain an interval beginning at negative infinity.
Params:
interval = The interval to check for inclusion in this interval.
Examples:
--------------------
assert(!PosInfInterval!Date(Date(1996, 1, 2)).contains(
NegInfInterval!Date(Date(1996, 5, 4))));
--------------------
+/
bool contains(in NegInfInterval!TP interval) const pure nothrow
{
return false;
}
/++
Whether this interval is before the given time point.
Always returns false because an interval going to positive infinity
can never be before any time point.
Params:
timePoint = The time point to check whether this interval is before
it.
Examples:
--------------------
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isBefore(Date(1994, 12, 24)));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isBefore(Date(2000, 1, 5)));
--------------------
+/
bool isBefore(in TP timePoint) const pure nothrow
{
return false;
}
/++
Whether this interval is before the given interval and does not
intersect it.
Always returns false (unless the given interval is empty) because an
interval going to positive infinity can never be before any other
interval.
Params:
interval = The interval to check for against this interval.
Throws:
$(D DateTimeException) if the given interval is empty.
Examples:
--------------------
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isBefore(
Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isBefore(
Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
--------------------
+/
bool isBefore(in Interval!TP interval) const pure
{
interval._enforceNotEmpty();
return false;
}
/++
Whether this interval is before the given interval and does not
intersect it.
Always returns false because an interval going to positive infinity can
never be before any other interval.
Params:
interval = The interval to check for against this interval.
Examples:
--------------------
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isBefore(
PosInfInterval!Date(Date(1992, 5, 4))));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isBefore(
PosInfInterval!Date(Date(2013, 3, 7))));
--------------------
+/
bool isBefore(in PosInfInterval interval) const pure nothrow
{
return false;
}
/++
Whether this interval is before the given interval and does not
intersect it.
Always returns false because an interval going to positive infinity can
never be before any other interval.
Params:
interval = The interval to check for against this interval.
Examples:
--------------------
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isBefore(
NegInfInterval!Date(Date(1996, 5, 4))));
--------------------
+/
bool isBefore(in NegInfInterval!TP interval) const pure nothrow
{
return false;
}
/++
Whether this interval is after the given time point.
Params:
timePoint = The time point to check whether this interval is after
it.
Examples:
--------------------
assert(PosInfInterval!Date(Date(1996, 1, 2)).isAfter(Date(1994, 12, 24)));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isAfter(Date(2000, 1, 5)));
--------------------
+/
bool isAfter(in TP timePoint) const pure nothrow
{
return timePoint < _begin;
}
/++
Whether this interval is after the given interval and does not intersect
it.
Params:
interval = The interval to check against this interval.
Throws:
$(D DateTimeException) if the given interval is empty.
Examples:
--------------------
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isAfter(
Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isAfter(
Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
assert(PosInfInterval!Date(Date(1996, 1, 2)).isAfter(
Interval!Date(Date(1989, 3, 1), Date(1996, 1, 2))));
--------------------
+/
bool isAfter(in Interval!TP interval) const pure
{
interval._enforceNotEmpty();
return _begin >= interval._end;
}
/++
Whether this interval is after the given interval and does not intersect
it.
Always returns false because an interval going to positive infinity can
never be after another interval going to positive infinity.
Params:
interval = The interval to check against this interval.
Examples:
--------------------
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isAfter(
PosInfInterval!Date(Date(1990, 1, 7))));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isAfter(
PosInfInterval!Date(Date(1999, 5, 4))));
--------------------
+/
bool isAfter(in PosInfInterval interval) const pure nothrow
{
return false;
}
/++
Whether this interval is after the given interval and does not intersect
it.
Params:
interval = The interval to check against this interval.
Examples:
--------------------
assert(PosInfInterval!Date(Date(1996, 1, 2)).isAfter(
NegInfInterval!Date(Date(1996, 1, 2))));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isAfter(
NegInfInterval!Date(Date(2000, 7, 1))));
--------------------
+/
bool isAfter(in NegInfInterval!TP interval) const pure nothrow
{
return _begin >= interval._end;
}
/++
Whether the given interval overlaps this interval.
Params:
interval = The interval to check for intersection with this interval.
Throws:
$(D DateTimeException) if the given interval is empty.
Examples:
--------------------
assert(PosInfInterval!Date(Date(1996, 1, 2)).intersects(
Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(PosInfInterval!Date(Date(1996, 1, 2)).intersects(
Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).intersects(
Interval!Date(Date(1989, 3, 1), Date(1996, 1, 2))));
--------------------
+/
bool intersects(in Interval!TP interval) const pure
{
interval._enforceNotEmpty();
return interval._end > _begin;
}
/++
Whether the given interval overlaps this interval.
Always returns true because two intervals going to positive infinity
always overlap.
Params:
interval = The interval to check for intersection with this
interval.
Examples:
--------------------
assert(PosInfInterval!Date(Date(1996, 1, 2)).intersects(
PosInfInterval!Date(Date(1990, 1, 7))));
assert(PosInfInterval!Date(Date(1996, 1, 2)).intersects(
PosInfInterval!Date(Date(1999, 5, 4))));
--------------------
+/
bool intersects(in PosInfInterval interval) const pure nothrow
{
return true;
}
/++
Whether the given interval overlaps this interval.
Params:
interval = The interval to check for intersection with this
interval.
Examples:
--------------------
assert(!PosInfInterval!Date(Date(1996, 1, 2)).intersects(
NegInfInterval!Date(Date(1996, 1, 2))));
assert(PosInfInterval!Date(Date(1996, 1, 2)).intersects(
NegInfInterval!Date(Date(2000, 7, 1))));
--------------------
+/
bool intersects(in NegInfInterval!TP interval) const pure nothrow
{
return _begin < interval._end;
}
/++
Returns the intersection of two intervals
Params:
interval = The interval to intersect with this interval.
Throws:
$(D DateTimeException) if the two intervals do not intersect or if
the given interval is empty.
Examples:
--------------------
assert(PosInfInterval!Date(Date(1996, 1, 2)).intersection(
Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))) ==
Interval!Date(Date(1996, 1 , 2), Date(2000, 8, 2)));
assert(PosInfInterval!Date(Date(1996, 1, 2)).intersection(
Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))) ==
Interval!Date(Date(1999, 1 , 12), Date(2011, 9, 17)));
--------------------
+/
Interval!TP intersection(in Interval!TP interval) const
{
enforce(this.intersects(interval), new DateTimeException(format("%s and %s do not intersect.", this, interval)));
auto begin = _begin > interval._begin ? _begin : interval._begin;
return Interval!TP(begin, interval._end);
}
/++
Returns the intersection of two intervals
Params:
interval = The interval to intersect with this interval.
Examples:
--------------------
assert(PosInfInterval!Date(Date(1996, 1, 2)).intersection(
PosInfInterval!Date(Date(1990, 7, 6))) ==
PosInfInterval!Date(Date(1996, 1 , 2)));
assert(PosInfInterval!Date(Date(1996, 1, 2)).intersection(
PosInfInterval!Date(Date(1999, 1, 12))) ==
PosInfInterval!Date(Date(1999, 1 , 12)));
--------------------
+/
PosInfInterval intersection(in PosInfInterval interval) const pure nothrow
{
return PosInfInterval(_begin < interval._begin ? interval._begin : _begin);
}
/++
Returns the intersection of two intervals
Params:
interval = The interval to intersect with this interval.
Throws:
$(D DateTimeException) if the two intervals do not intersect.
Examples:
--------------------
assert(PosInfInterval!Date(Date(1996, 1, 2)).intersection(
NegInfInterval!Date(Date(1999, 7, 6))) ==
Interval!Date(Date(1996, 1 , 2), Date(1999, 7, 6)));
assert(PosInfInterval!Date(Date(1996, 1, 2)).intersection(
NegInfInterval!Date(Date(2013, 1, 12))) ==
Interval!Date(Date(1996, 1 , 2), Date(2013, 1, 12)));
--------------------
+/
Interval!TP intersection(in NegInfInterval!TP interval) const
{
enforce(this.intersects(interval), new DateTimeException(format("%s and %s do not intersect.", this, interval)));
return Interval!TP(_begin, interval._end);
}
/++
Whether the given interval is adjacent to this interval.
Params:
interval = The interval to check whether its adjecent to this
interval.
Throws:
$(D DateTimeException) if the given interval is empty.
Examples:
--------------------
assert(PosInfInterval!Date(Date(1996, 1, 2)).isAdjacent(
Interval!Date(Date(1989, 3, 1), Date(1996, 1, 2))));
assert(!PosInfInterval!Date(Date(1999, 1, 12)).isAdjacent(
Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
--------------------
+/
bool isAdjacent(in Interval!TP interval) const pure
{
interval._enforceNotEmpty();
return _begin == interval._end;
}
/++
Whether the given interval is adjacent to this interval.
Always returns false because two intervals going to positive infinity
can never be adjacent to one another.
Params:
interval = The interval to check whether its adjecent to this
interval.
Examples:
--------------------
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isAdjacent(
PosInfInterval!Date(Date(1990, 1, 7))));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isAdjacent(
PosInfInterval!Date(Date(1996, 1, 2))));
--------------------
+/
bool isAdjacent(in PosInfInterval interval) const pure nothrow
{
return false;
}
/++
Whether the given interval is adjacent to this interval.
Params:
interval = The interval to check whether its adjecent to this
interval.
Examples:
--------------------
assert(PosInfInterval!Date(Date(1996, 1, 2)).isAdjacent(
NegInfInterval!Date(Date(1996, 1, 2))));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isAdjacent(
NegInfInterval!Date(Date(2000, 7, 1))));
--------------------
+/
bool isAdjacent(in NegInfInterval!TP interval) const pure nothrow
{
return _begin == interval._end;
}
/++
Returns the union of two intervals
Params:
interval = The interval to merge with this interval.
Throws:
$(D DateTimeException) if the two intervals do not intersect and are
not adjacent or if the given interval is empty.
Note:
There is no overload for $(D merge) which takes a
$(D NegInfInterval). This is because you can't have an interval
which goes from negative infinity to positive infinity.
Examples:
--------------------
assert(PosInfInterval!Date(Date(1996, 1, 2)).merge(
Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))) ==
PosInfInterval!Date(Date(1990, 7 , 6)));
assert(PosInfInterval!Date(Date(1996, 1, 2)).merge(
Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))) ==
PosInfInterval!Date(Date(1996, 1 , 2)));
--------------------
+/
PosInfInterval merge(in Interval!TP interval) const
{
enforce(this.isAdjacent(interval) || this.intersects(interval),
new DateTimeException(format("%s and %s are not adjacent and do not intersect.", this, interval)));
return PosInfInterval(_begin < interval._begin ? _begin : interval._begin);
}
/++
Returns the union of two intervals
Params:
interval = The interval to merge with this interval.
Note:
There is no overload for $(D merge) which takes a
$(D NegInfInterval). This is because you can't have an interval
which goes from negative infinity to positive infinity.
Examples:
--------------------
assert(PosInfInterval!Date(Date(1996, 1, 2)).merge(
PosInfInterval!Date(Date(1990, 7, 6))) ==
PosInfInterval!Date(Date(1990, 7 , 6)));
assert(PosInfInterval!Date(Date(1996, 1, 2)).merge(
PosInfInterval!Date(Date(1999, 1, 12))) ==
PosInfInterval!Date(Date(1996, 1 , 2)));
--------------------
+/
PosInfInterval merge(in PosInfInterval interval) const pure nothrow
{
return PosInfInterval(_begin < interval._begin ? _begin : interval._begin);
}
/++
Returns an interval that covers from the earliest time point of two
intervals up to (but not including) the latest time point of two
intervals.
Params:
interval = The interval to create a span together with this
interval.
Throws:
$(D DateTimeException) if the given interval is empty.
Note:
There is no overload for $(D span) which takes a
$(D NegInfInterval). This is because you can't have an interval
which goes from negative infinity to positive infinity.
Examples:
--------------------
assert(PosInfInterval!Date(Date(1996, 1, 2)).span(
Interval!Date(Date(500, 8, 9), Date(1602, 1, 31))) ==
PosInfInterval!Date(Date(500, 8, 9)));
assert(PosInfInterval!Date(Date(1996, 1, 2)).span(
Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))) ==
PosInfInterval!Date(Date(1990, 7 , 6)));
assert(PosInfInterval!Date(Date(1996, 1, 2)).span(
Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))) ==
PosInfInterval!Date(Date(1996, 1 , 2)));
--------------------
+/
PosInfInterval span(in Interval!TP interval) const pure
{
interval._enforceNotEmpty();
return PosInfInterval(_begin < interval._begin ? _begin : interval._begin);
}
/++
Returns an interval that covers from the earliest time point of two
intervals up to (but not including) the latest time point of two
intervals.
Params:
interval = The interval to create a span together with this
interval.
Note:
There is no overload for $(D span) which takes a
$(D NegInfInterval). This is because you can't have an interval
which goes from negative infinity to positive infinity.
Examples:
--------------------
assert(PosInfInterval!Date(Date(1996, 1, 2)).span(
PosInfInterval!Date(Date(1990, 7, 6))) ==
PosInfInterval!Date(Date(1990, 7 , 6)));
assert(PosInfInterval!Date(Date(1996, 1, 2)).span(
PosInfInterval!Date(Date(1999, 1, 12))) ==
PosInfInterval!Date(Date(1996, 1 , 2)));
--------------------
+/
PosInfInterval span(in PosInfInterval interval) const pure nothrow
{
return PosInfInterval(_begin < interval._begin ? _begin : interval._begin);
}
/++
Shifts the $(D begin) of this interval forward or backwards in time by
the given duration (a positive duration shifts the interval forward; a
negative duration shifts it backward). Effectively, it does
$(D begin += duration).
Params:
duration = The duration to shift the interval by.
Examples:
--------------------
auto interval1 = PosInfInterval!Date(Date(1996, 1, 2));
auto interval2 = PosInfInterval!Date(Date(1996, 1, 2));
interval1.shift(dur!"days"(50));
assert(interval1 == PosInfInterval!Date(Date(1996, 2, 21)));
interval2.shift(dur!"days"(-50));
assert(interval2 == PosInfInterval!Date(Date(1995, 11, 13)));
--------------------
+/
void shift(D)(D duration) pure nothrow
if(__traits(compiles, begin + duration))
{
_begin += duration;
}
static if(__traits(compiles, begin.add!"months"(1)) &&
__traits(compiles, begin.add!"years"(1)))
{
/++
Shifts the $(D begin) of this interval forward or backwards in time
by the given number of years and/or months (a positive number of years
and months shifts the interval forward; a negative number shifts it
backward). It adds the years the given years and months to
$(D begin). It effectively calls $(D add!"years"()) and then
$(D add!"months"()) on $(D begin) with the given number of years and
months.
Params:
years = The number of years to shift the interval by.
months = The number of months to shift the interval by.
allowOverflow = Whether the days should be allowed to overflow
on $(D begin), causing its month to increment.
Throws:
$(D DateTimeException) if this interval is empty or if the
resulting interval would be invalid.
Examples:
--------------------
auto interval1 = PosInfInterval!Date(Date(1996, 1, 2));
auto interval2 = PosInfInterval!Date(Date(1996, 1, 2));
interval1.shift(dur!"days"(50));
assert(interval1 == PosInfInterval!Date(Date(1996, 2, 21)));
interval2.shift(dur!"days"(-50));
assert(interval2 == PosInfInterval!Date(Date(1995, 11, 13)));
--------------------
+/
void shift(T)(T years, T months = 0, AllowDayOverflow allowOverflow = AllowDayOverflow.yes)
if(isIntegral!T)
{
auto begin = _begin;
begin.add!"years"(years, allowOverflow);
begin.add!"months"(months, allowOverflow);
_begin = begin;
}
}
/++
Expands the interval backwards in time. Effectively, it does
$(D begin -= duration).
Params:
duration = The duration to expand the interval by.
dir = The direction in time to expand the interval.
Examples:
--------------------
auto interval1 = PosInfInterval!Date(Date(1996, 1, 2));
auto interval2 = PosInfInterval!Date(Date(1996, 1, 2));
interval1.expand(dur!"days"(2));
assert(interval1 == PosInfInterval!Date(Date(1995, 12, 31)));
interval2.expand(dur!"days"(-2));
assert(interval2 == PosInfInterval!Date(Date(1996, 1, 4)));
--------------------
+/
void expand(D)(D duration) pure nothrow
if(__traits(compiles, begin + duration))
{
_begin -= duration;
}
static if(__traits(compiles, begin.add!"months"(1)) &&
__traits(compiles, begin.add!"years"(1)))
{
/++
Expands the interval forwards and/or backwards in time. Effectively,
it subtracts the given number of months/years from $(D begin).
Params:
years = The number of years to expand the interval by.
months = The number of months to expand the interval by.
allowOverflow = Whether the days should be allowed to overflow
on $(D begin), causing its month to increment.
Throws:
$(D DateTimeException) if this interval is empty or if the
resulting interval would be invalid.
Examples:
--------------------
auto interval1 = PosInfInterval!Date(Date(1996, 1, 2));
auto interval2 = PosInfInterval!Date(Date(1996, 1, 2));
interval1.expand(2);
assert(interval1 == PosInfInterval!Date(Date(1994, 1, 2)));
interval2.expand(-2);
assert(interval2 == PosInfInterval!Date(Date(1998, 1, 2)));
--------------------
+/
void expand(T)(T years, T months = 0, AllowDayOverflow allowOverflow = AllowDayOverflow.yes)
if(isIntegral!T)
{
auto begin = _begin;
begin.add!"years"(-years, allowOverflow);
begin.add!"months"(-months, allowOverflow);
_begin = begin;
return;
}
}
/++
Returns a range which iterates forward over the interval, starting
at $(D begin), using $(D_PARAM func) to generate each successive time
point.
The range's $(D front) is the interval's $(D begin). $(D_PARAM func) is
used to generate the next $(D front) when $(D popFront) is called. If
$(D_PARAM popFirst) is $(D PopFirst.yes), then $(D popFront) is called
before the range is returned (so that $(D front) is a time point which
$(D_PARAM func) would generate).
If $(D_PARAM func) ever generates a time point less than or equal to the
current $(D front) of the range, then a $(D DateTimeException) will be
thrown.
There are helper functions in this module which generate common
delegates to pass to $(D fwdRange). Their documentation starts with
"Range-generating function," so you can easily search for them.
Params:
func = The function used to generate the time points of the
range over the interval.
popFirst = Whether $(D popFront) should be called on the range
before returning it.
Throws:
$(D DateTimeException) if this interval is empty.
Warning:
$(D_PARAM func) must be logically pure. Ideally, $(D_PARAM func)
would be a function pointer to a pure function, but forcing
$(D_PARAM func) to be pure is far too restrictive to be useful, and
in order to have the ease of use of having functions which generate
functions to pass to $(D fwdRange), $(D_PARAM func) must be a
delegate.
If $(D_PARAM func) retains state which changes as it is called, then
some algorithms will not work correctly, because the range's
$(D save) will have failed to have really saved the range's state.
So, if you want to avoid such bugs, don't pass a delegate which is
not logically pure to $(D fwdRange). If $(D_PARAM func) is given the
same time point with two different calls, it must return the same
result both times.
Of course, none of the functions in this module have this problem,
so it's only relevant if you're creating your own delegate.
Examples:
--------------------
auto interval = PosInfInterval!Date(Date(2010, 9, 1));
auto func = (in Date date) //For iterating over even-numbered days.
{
if((date.day & 1) == 0)
return date + dur!"days"(2);
return date + dur!"days"(1);
};
auto range = interval.fwdRange(func);
//An odd day. Using PopFirst.yes would have made this Date(2010, 9, 2).
assert(range.front == Date(2010, 9, 1));
range.popFront();
assert(range.front == Date(2010, 9, 2));
range.popFront();
assert(range.front == Date(2010, 9, 4));
range.popFront();
assert(range.front == Date(2010, 9, 6));
range.popFront();
assert(range.front == Date(2010, 9, 8));
range.popFront();
assert(!range.empty);
--------------------
+/
PosInfIntervalRange!(TP) fwdRange(TP delegate(in TP) func, PopFirst popFirst = PopFirst.no) const
{
auto range = PosInfIntervalRange!(TP)(this, func);
if(popFirst == PopFirst.yes)
range.popFront();
return range;
}
/+
Converts this interval to a string.
+/
//Due to bug http://d.puremagic.com/issues/show_bug.cgi?id=3715 , we can't
//have versions of toString() with extra modifiers, so we define one version
//with modifiers and one without.
string toString()
{
return _toStringImpl();
}
/++
Converts this interval to a string.
+/
//Due to bug http://d.puremagic.com/issues/show_bug.cgi?id=3715 , we can't
//have versions of toString() with extra modifiers, so we define one version
//with modifiers and one without.
string toString() const nothrow
{
return _toStringImpl();
}
private:
/+
Since we have two versions of toString(), we have _toStringImpl()
so that they can share implementations.
+/
string _toStringImpl() const nothrow
{
try
return format("[%s - ∞)", _begin);
catch(Exception e)
assert(0, "format() threw.");
}
TP _begin;
}
//Test PosInfInterval's constructor.
unittest
{
version(testStdDateTime)
{
PosInfInterval!Date(Date.init);
PosInfInterval!TimeOfDay(TimeOfDay.init);
PosInfInterval!DateTime(DateTime.init);
PosInfInterval!SysTime(SysTime(0));
//Verify Examples.
auto interval = PosInfInterval!Date(Date(1996, 1, 2));
}
}
//Test PosInfInterval's begin.
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(PosInfInterval!Date(Date(1, 1, 1)).begin, Date(1, 1, 1));
_assertPred!"=="(PosInfInterval!Date(Date(2010, 1, 1)).begin, Date(2010, 1, 1));
_assertPred!"=="(PosInfInterval!Date(Date(1997, 12, 31)).begin, Date(1997, 12, 31));
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
static assert(__traits(compiles, cPosInfInterval.begin));
static assert(__traits(compiles, iPosInfInterval.begin));
//Verify Examples.
assert(PosInfInterval!Date(Date(1996, 1, 2)).begin == Date(1996, 1, 2));
}
}
//Test PosInfInterval's empty.
unittest
{
version(testStdDateTime)
{
assert(!PosInfInterval!Date(Date(2010, 1, 1)).empty);
assert(!PosInfInterval!TimeOfDay(TimeOfDay(0, 30, 0)).empty);
assert(!PosInfInterval!DateTime(DateTime(2010, 1, 1, 0, 30, 0)).empty);
assert(!PosInfInterval!SysTime(SysTime(DateTime(2010, 1, 1, 0, 30, 0))).empty);
const cPosInfInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iPosInfInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
static assert(__traits(compiles, cPosInfInterval.empty));
static assert(__traits(compiles, iPosInfInterval.empty));
//Verify Examples.
assert(!PosInfInterval!Date(Date(1996, 1, 2)).empty);
}
}
//Test PosInfInterval's contains(time point).
unittest
{
version(testStdDateTime)
{
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
assert(!posInfInterval.contains(Date(2009, 7, 4)));
assert(!posInfInterval.contains(Date(2010, 7, 3)));
assert(posInfInterval.contains(Date(2010, 7, 4)));
assert(posInfInterval.contains(Date(2010, 7, 5)));
assert(posInfInterval.contains(Date(2011, 7, 1)));
assert(posInfInterval.contains(Date(2012, 1, 6)));
assert(posInfInterval.contains(Date(2012, 1, 7)));
assert(posInfInterval.contains(Date(2012, 1, 8)));
assert(posInfInterval.contains(Date(2013, 1, 7)));
const cdate = Date(2010, 7, 6);
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
static assert(__traits(compiles, posInfInterval.contains(cdate)));
static assert(__traits(compiles, cPosInfInterval.contains(cdate)));
static assert(__traits(compiles, iPosInfInterval.contains(cdate)));
//Verify Examples.
assert(!PosInfInterval!Date(Date(1996, 1, 2)).contains(Date(1994, 12, 24)));
assert(PosInfInterval!Date(Date(1996, 1, 2)).contains(Date(2000, 1, 5)));
}
}
//Test PosInfInterval's contains(Interval).
unittest
{
version(testStdDateTime)
{
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
static void testInterval(in PosInfInterval!Date posInfInterval, in Interval!Date interval)
{
posInfInterval.contains(interval);
}
assertThrown!DateTimeException(testInterval(posInfInterval, Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assert(posInfInterval.contains(posInfInterval));
assert(!posInfInterval.contains(Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3))));
assert(!posInfInterval.contains(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3))));
assert(!posInfInterval.contains(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4))));
assert(!posInfInterval.contains(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5))));
assert(!posInfInterval.contains(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7))));
assert(!posInfInterval.contains(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8))));
assert(posInfInterval.contains(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6))));
assert(posInfInterval.contains(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7))));
assert(posInfInterval.contains(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7))));
assert(posInfInterval.contains(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8))));
assert(posInfInterval.contains(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8))));
assert(posInfInterval.contains(Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9))));
assert(!posInfInterval.contains(PosInfInterval!Date(Date(2010, 7, 3))));
assert(posInfInterval.contains(PosInfInterval!Date(Date(2010, 7, 4))));
assert(posInfInterval.contains(PosInfInterval!Date(Date(2010, 7, 5))));
assert(posInfInterval.contains(PosInfInterval!Date(Date(2012, 1, 6))));
assert(posInfInterval.contains(PosInfInterval!Date(Date(2012, 1, 7))));
assert(posInfInterval.contains(PosInfInterval!Date(Date(2012, 1, 8))));
assert(PosInfInterval!Date(Date(2010, 7, 3)).contains(posInfInterval));
assert(PosInfInterval!Date(Date(2010, 7, 4)).contains(posInfInterval));
assert(!PosInfInterval!Date(Date(2010, 7, 5)).contains(posInfInterval));
assert(!PosInfInterval!Date(Date(2012, 1, 6)).contains(posInfInterval));
assert(!PosInfInterval!Date(Date(2012, 1, 7)).contains(posInfInterval));
assert(!PosInfInterval!Date(Date(2012, 1, 8)).contains(posInfInterval));
assert(!posInfInterval.contains(NegInfInterval!Date(Date(2010, 7, 3))));
assert(!posInfInterval.contains(NegInfInterval!Date(Date(2010, 7, 4))));
assert(!posInfInterval.contains(NegInfInterval!Date(Date(2010, 7, 5))));
assert(!posInfInterval.contains(NegInfInterval!Date(Date(2012, 1, 6))));
assert(!posInfInterval.contains(NegInfInterval!Date(Date(2012, 1, 7))));
assert(!posInfInterval.contains(NegInfInterval!Date(Date(2012, 1, 8))));
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, posInfInterval.contains(interval)));
static assert(__traits(compiles, posInfInterval.contains(cInterval)));
static assert(__traits(compiles, posInfInterval.contains(iInterval)));
static assert(__traits(compiles, posInfInterval.contains(posInfInterval)));
static assert(__traits(compiles, posInfInterval.contains(cPosInfInterval)));
static assert(__traits(compiles, posInfInterval.contains(iPosInfInterval)));
static assert(__traits(compiles, posInfInterval.contains(negInfInterval)));
static assert(__traits(compiles, posInfInterval.contains(cNegInfInterval)));
static assert(__traits(compiles, posInfInterval.contains(iNegInfInterval)));
static assert(__traits(compiles, cPosInfInterval.contains(interval)));
static assert(__traits(compiles, cPosInfInterval.contains(cInterval)));
static assert(__traits(compiles, cPosInfInterval.contains(iInterval)));
static assert(__traits(compiles, cPosInfInterval.contains(posInfInterval)));
static assert(__traits(compiles, cPosInfInterval.contains(cPosInfInterval)));
static assert(__traits(compiles, cPosInfInterval.contains(iPosInfInterval)));
static assert(__traits(compiles, cPosInfInterval.contains(negInfInterval)));
static assert(__traits(compiles, cPosInfInterval.contains(cNegInfInterval)));
static assert(__traits(compiles, cPosInfInterval.contains(iNegInfInterval)));
static assert(__traits(compiles, iPosInfInterval.contains(interval)));
static assert(__traits(compiles, iPosInfInterval.contains(cInterval)));
static assert(__traits(compiles, iPosInfInterval.contains(iInterval)));
static assert(__traits(compiles, iPosInfInterval.contains(posInfInterval)));
static assert(__traits(compiles, iPosInfInterval.contains(cPosInfInterval)));
static assert(__traits(compiles, iPosInfInterval.contains(iPosInfInterval)));
static assert(__traits(compiles, iPosInfInterval.contains(negInfInterval)));
static assert(__traits(compiles, iPosInfInterval.contains(cNegInfInterval)));
static assert(__traits(compiles, iPosInfInterval.contains(iNegInfInterval)));
//Verify Examples.
assert(!PosInfInterval!Date(Date(1996, 1, 2)).contains(Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(PosInfInterval!Date(Date(1996, 1, 2)).contains(Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
assert(PosInfInterval!Date(Date(1996, 1, 2)).contains(Interval!Date(Date(1998, 2, 28), Date(2013, 5, 1))));
assert(PosInfInterval!Date(Date(1996, 1, 2)).contains(PosInfInterval!Date(Date(1999, 5, 4))));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).contains(PosInfInterval!Date(Date(1995, 7, 2))));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).contains(NegInfInterval!Date(Date(1996, 5, 4))));
}
}
//Test PosInfInterval's isBefore(time point).
unittest
{
version(testStdDateTime)
{
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
assert(!posInfInterval.isBefore(Date(2009, 7, 3)));
assert(!posInfInterval.isBefore(Date(2010, 7, 3)));
assert(!posInfInterval.isBefore(Date(2010, 7, 4)));
assert(!posInfInterval.isBefore(Date(2010, 7, 5)));
assert(!posInfInterval.isBefore(Date(2011, 7, 1)));
assert(!posInfInterval.isBefore(Date(2012, 1, 6)));
assert(!posInfInterval.isBefore(Date(2012, 1, 7)));
assert(!posInfInterval.isBefore(Date(2012, 1, 8)));
assert(!posInfInterval.isBefore(Date(2013, 1, 7)));
const cdate = Date(2010, 7, 6);
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
static assert(__traits(compiles, posInfInterval.isBefore(cdate)));
static assert(__traits(compiles, cPosInfInterval.isBefore(cdate)));
static assert(__traits(compiles, iPosInfInterval.isBefore(cdate)));
//Verify Examples.
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isBefore(Date(1994, 12, 24)));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isBefore(Date(2000, 1, 5)));
}
}
//Test PosInfInterval's isBefore(Interval).
unittest
{
version(testStdDateTime)
{
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
static void testInterval(in PosInfInterval!Date posInfInterval, in Interval!Date interval)
{
posInfInterval.isBefore(interval);
}
assertThrown!DateTimeException(testInterval(posInfInterval, Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assert(!posInfInterval.isBefore(posInfInterval));
assert(!posInfInterval.isBefore(Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3))));
assert(!posInfInterval.isBefore(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3))));
assert(!posInfInterval.isBefore(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4))));
assert(!posInfInterval.isBefore(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5))));
assert(!posInfInterval.isBefore(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7))));
assert(!posInfInterval.isBefore(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8))));
assert(!posInfInterval.isBefore(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6))));
assert(!posInfInterval.isBefore(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7))));
assert(!posInfInterval.isBefore(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7))));
assert(!posInfInterval.isBefore(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8))));
assert(!posInfInterval.isBefore(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8))));
assert(!posInfInterval.isBefore(Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9))));
assert(!posInfInterval.isBefore(PosInfInterval!Date(Date(2010, 7, 3))));
assert(!posInfInterval.isBefore(PosInfInterval!Date(Date(2010, 7, 4))));
assert(!posInfInterval.isBefore(PosInfInterval!Date(Date(2010, 7, 5))));
assert(!posInfInterval.isBefore(PosInfInterval!Date(Date(2012, 1, 6))));
assert(!posInfInterval.isBefore(PosInfInterval!Date(Date(2012, 1, 7))));
assert(!posInfInterval.isBefore(PosInfInterval!Date(Date(2012, 1, 8))));
assert(!PosInfInterval!Date(Date(2010, 7, 3)).isBefore(posInfInterval));
assert(!PosInfInterval!Date(Date(2010, 7, 4)).isBefore(posInfInterval));
assert(!PosInfInterval!Date(Date(2010, 7, 5)).isBefore(posInfInterval));
assert(!PosInfInterval!Date(Date(2012, 1, 6)).isBefore(posInfInterval));
assert(!PosInfInterval!Date(Date(2012, 1, 7)).isBefore(posInfInterval));
assert(!PosInfInterval!Date(Date(2012, 1, 8)).isBefore(posInfInterval));
assert(!posInfInterval.isBefore(NegInfInterval!Date(Date(2010, 7, 3))));
assert(!posInfInterval.isBefore(NegInfInterval!Date(Date(2010, 7, 4))));
assert(!posInfInterval.isBefore(NegInfInterval!Date(Date(2010, 7, 5))));
assert(!posInfInterval.isBefore(NegInfInterval!Date(Date(2012, 1, 6))));
assert(!posInfInterval.isBefore(NegInfInterval!Date(Date(2012, 1, 7))));
assert(!posInfInterval.isBefore(NegInfInterval!Date(Date(2012, 1, 8))));
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, posInfInterval.isBefore(interval)));
static assert(__traits(compiles, posInfInterval.isBefore(cInterval)));
static assert(__traits(compiles, posInfInterval.isBefore(iInterval)));
static assert(__traits(compiles, posInfInterval.isBefore(posInfInterval)));
static assert(__traits(compiles, posInfInterval.isBefore(cPosInfInterval)));
static assert(__traits(compiles, posInfInterval.isBefore(iPosInfInterval)));
static assert(__traits(compiles, posInfInterval.isBefore(negInfInterval)));
static assert(__traits(compiles, posInfInterval.isBefore(cNegInfInterval)));
static assert(__traits(compiles, posInfInterval.isBefore(iNegInfInterval)));
static assert(__traits(compiles, cPosInfInterval.isBefore(interval)));
static assert(__traits(compiles, cPosInfInterval.isBefore(cInterval)));
static assert(__traits(compiles, cPosInfInterval.isBefore(iInterval)));
static assert(__traits(compiles, cPosInfInterval.isBefore(posInfInterval)));
static assert(__traits(compiles, cPosInfInterval.isBefore(cPosInfInterval)));
static assert(__traits(compiles, cPosInfInterval.isBefore(iPosInfInterval)));
static assert(__traits(compiles, cPosInfInterval.isBefore(negInfInterval)));
static assert(__traits(compiles, cPosInfInterval.isBefore(cNegInfInterval)));
static assert(__traits(compiles, cPosInfInterval.isBefore(iNegInfInterval)));
static assert(__traits(compiles, iPosInfInterval.isBefore(interval)));
static assert(__traits(compiles, iPosInfInterval.isBefore(cInterval)));
static assert(__traits(compiles, iPosInfInterval.isBefore(iInterval)));
static assert(__traits(compiles, iPosInfInterval.isBefore(posInfInterval)));
static assert(__traits(compiles, iPosInfInterval.isBefore(cPosInfInterval)));
static assert(__traits(compiles, iPosInfInterval.isBefore(iPosInfInterval)));
static assert(__traits(compiles, iPosInfInterval.isBefore(negInfInterval)));
static assert(__traits(compiles, iPosInfInterval.isBefore(cNegInfInterval)));
static assert(__traits(compiles, iPosInfInterval.isBefore(iNegInfInterval)));
//Verify Examples.
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isBefore(Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isBefore(Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isBefore(PosInfInterval!Date(Date(1992, 5, 4))));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isBefore(PosInfInterval!Date(Date(2013, 3, 7))));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isBefore(NegInfInterval!Date(Date(1996, 5, 4))));
}
}
//Test PosInfInterval's isAfter(time point).
unittest
{
version(testStdDateTime)
{
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
assert(posInfInterval.isAfter(Date(2009, 7, 3)));
assert(posInfInterval.isAfter(Date(2010, 7, 3)));
assert(!posInfInterval.isAfter(Date(2010, 7, 4)));
assert(!posInfInterval.isAfter(Date(2010, 7, 5)));
assert(!posInfInterval.isAfter(Date(2011, 7, 1)));
assert(!posInfInterval.isAfter(Date(2012, 1, 6)));
assert(!posInfInterval.isAfter(Date(2012, 1, 7)));
assert(!posInfInterval.isAfter(Date(2012, 1, 8)));
assert(!posInfInterval.isAfter(Date(2013, 1, 7)));
const cdate = Date(2010, 7, 6);
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
static assert(__traits(compiles, posInfInterval.isAfter(cdate)));
static assert(__traits(compiles, cPosInfInterval.isAfter(cdate)));
static assert(__traits(compiles, iPosInfInterval.isAfter(cdate)));
//Verify Examples.
assert(PosInfInterval!Date(Date(1996, 1, 2)).isAfter(Date(1994, 12, 24)));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isAfter(Date(2000, 1, 5)));
}
}
//Test PosInfInterval's isAfter(Interval).
unittest
{
version(testStdDateTime)
{
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
static void testInterval(in PosInfInterval!Date posInfInterval, in Interval!Date interval)
{
posInfInterval.isAfter(interval);
}
assertThrown!DateTimeException(testInterval(posInfInterval, Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assert(!posInfInterval.isAfter(posInfInterval));
assert(posInfInterval.isAfter(Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3))));
assert(!posInfInterval.isAfter(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3))));
assert(posInfInterval.isAfter(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4))));
assert(!posInfInterval.isAfter(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5))));
assert(!posInfInterval.isAfter(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7))));
assert(!posInfInterval.isAfter(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8))));
assert(!posInfInterval.isAfter(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6))));
assert(!posInfInterval.isAfter(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7))));
assert(!posInfInterval.isAfter(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7))));
assert(!posInfInterval.isAfter(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8))));
assert(!posInfInterval.isAfter(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8))));
assert(!posInfInterval.isAfter(Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9))));
assert(!posInfInterval.isAfter(PosInfInterval!Date(Date(2010, 7, 3))));
assert(!posInfInterval.isAfter(PosInfInterval!Date(Date(2010, 7, 4))));
assert(!posInfInterval.isAfter(PosInfInterval!Date(Date(2010, 7, 5))));
assert(!posInfInterval.isAfter(PosInfInterval!Date(Date(2012, 1, 6))));
assert(!posInfInterval.isAfter(PosInfInterval!Date(Date(2012, 1, 7))));
assert(!posInfInterval.isAfter(PosInfInterval!Date(Date(2012, 1, 8))));
assert(!PosInfInterval!Date(Date(2010, 7, 3)).isAfter(posInfInterval));
assert(!PosInfInterval!Date(Date(2010, 7, 4)).isAfter(posInfInterval));
assert(!PosInfInterval!Date(Date(2010, 7, 5)).isAfter(posInfInterval));
assert(!PosInfInterval!Date(Date(2012, 1, 6)).isAfter(posInfInterval));
assert(!PosInfInterval!Date(Date(2012, 1, 7)).isAfter(posInfInterval));
assert(!PosInfInterval!Date(Date(2012, 1, 8)).isAfter(posInfInterval));
assert(posInfInterval.isAfter(NegInfInterval!Date(Date(2010, 7, 3))));
assert(posInfInterval.isAfter(NegInfInterval!Date(Date(2010, 7, 4))));
assert(!posInfInterval.isAfter(NegInfInterval!Date(Date(2010, 7, 5))));
assert(!posInfInterval.isAfter(NegInfInterval!Date(Date(2012, 1, 6))));
assert(!posInfInterval.isAfter(NegInfInterval!Date(Date(2012, 1, 7))));
assert(!posInfInterval.isAfter(NegInfInterval!Date(Date(2012, 1, 8))));
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, posInfInterval.isAfter(interval)));
static assert(__traits(compiles, posInfInterval.isAfter(cInterval)));
static assert(__traits(compiles, posInfInterval.isAfter(iInterval)));
static assert(__traits(compiles, posInfInterval.isAfter(posInfInterval)));
static assert(__traits(compiles, posInfInterval.isAfter(cPosInfInterval)));
static assert(__traits(compiles, posInfInterval.isAfter(iPosInfInterval)));
static assert(__traits(compiles, posInfInterval.isAfter(negInfInterval)));
static assert(__traits(compiles, posInfInterval.isAfter(cNegInfInterval)));
static assert(__traits(compiles, posInfInterval.isAfter(iNegInfInterval)));
static assert(__traits(compiles, cPosInfInterval.isAfter(interval)));
static assert(__traits(compiles, cPosInfInterval.isAfter(cInterval)));
static assert(__traits(compiles, cPosInfInterval.isAfter(iInterval)));
static assert(__traits(compiles, cPosInfInterval.isAfter(posInfInterval)));
static assert(__traits(compiles, cPosInfInterval.isAfter(cPosInfInterval)));
static assert(__traits(compiles, cPosInfInterval.isAfter(iPosInfInterval)));
static assert(__traits(compiles, cPosInfInterval.isAfter(negInfInterval)));
static assert(__traits(compiles, cPosInfInterval.isAfter(cNegInfInterval)));
static assert(__traits(compiles, cPosInfInterval.isAfter(iNegInfInterval)));
static assert(__traits(compiles, iPosInfInterval.isAfter(interval)));
static assert(__traits(compiles, iPosInfInterval.isAfter(cInterval)));
static assert(__traits(compiles, iPosInfInterval.isAfter(iInterval)));
static assert(__traits(compiles, iPosInfInterval.isAfter(posInfInterval)));
static assert(__traits(compiles, iPosInfInterval.isAfter(cPosInfInterval)));
static assert(__traits(compiles, iPosInfInterval.isAfter(iPosInfInterval)));
static assert(__traits(compiles, iPosInfInterval.isAfter(negInfInterval)));
static assert(__traits(compiles, iPosInfInterval.isAfter(cNegInfInterval)));
static assert(__traits(compiles, iPosInfInterval.isAfter(iNegInfInterval)));
//Verify Examples.
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isAfter(Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isAfter(Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
assert(PosInfInterval!Date(Date(1996, 1, 2)).isAfter(Interval!Date(Date(1989, 3, 1), Date(1996, 1, 2))));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isAfter(PosInfInterval!Date(Date(1990, 1, 7))));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isAfter(PosInfInterval!Date(Date(1999, 5, 4))));
assert(PosInfInterval!Date(Date(1996, 1, 2)).isAfter(NegInfInterval!Date(Date(1996, 1, 2))));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isAfter(NegInfInterval!Date(Date(2000, 7, 1))));
}
}
//Test PosInfInterval's intersects().
unittest
{
version(testStdDateTime)
{
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
static void testInterval(in PosInfInterval!Date posInfInterval, in Interval!Date interval)
{
posInfInterval.intersects(interval);
}
assertThrown!DateTimeException(testInterval(posInfInterval, Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assert(posInfInterval.intersects(posInfInterval));
assert(!posInfInterval.intersects(Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3))));
assert(posInfInterval.intersects(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3))));
assert(!posInfInterval.intersects(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4))));
assert(posInfInterval.intersects(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5))));
assert(posInfInterval.intersects(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7))));
assert(posInfInterval.intersects(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8))));
assert(posInfInterval.intersects(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6))));
assert(posInfInterval.intersects(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7))));
assert(posInfInterval.intersects(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7))));
assert(posInfInterval.intersects(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8))));
assert(posInfInterval.intersects(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8))));
assert(posInfInterval.intersects(Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9))));
assert(posInfInterval.intersects(PosInfInterval!Date(Date(2010, 7, 3))));
assert(posInfInterval.intersects(PosInfInterval!Date(Date(2010, 7, 4))));
assert(posInfInterval.intersects(PosInfInterval!Date(Date(2010, 7, 5))));
assert(posInfInterval.intersects(PosInfInterval!Date(Date(2012, 1, 6))));
assert(posInfInterval.intersects(PosInfInterval!Date(Date(2012, 1, 7))));
assert(posInfInterval.intersects(PosInfInterval!Date(Date(2012, 1, 8))));
assert(PosInfInterval!Date(Date(2010, 7, 3)).intersects(posInfInterval));
assert(PosInfInterval!Date(Date(2010, 7, 4)).intersects(posInfInterval));
assert(PosInfInterval!Date(Date(2010, 7, 5)).intersects(posInfInterval));
assert(PosInfInterval!Date(Date(2012, 1, 6)).intersects(posInfInterval));
assert(PosInfInterval!Date(Date(2012, 1, 7)).intersects(posInfInterval));
assert(PosInfInterval!Date(Date(2012, 1, 8)).intersects(posInfInterval));
assert(!posInfInterval.intersects(NegInfInterval!Date(Date(2010, 7, 3))));
assert(!posInfInterval.intersects(NegInfInterval!Date(Date(2010, 7, 4))));
assert(posInfInterval.intersects(NegInfInterval!Date(Date(2010, 7, 5))));
assert(posInfInterval.intersects(NegInfInterval!Date(Date(2012, 1, 6))));
assert(posInfInterval.intersects(NegInfInterval!Date(Date(2012, 1, 7))));
assert(posInfInterval.intersects(NegInfInterval!Date(Date(2012, 1, 8))));
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, posInfInterval.intersects(interval)));
static assert(__traits(compiles, posInfInterval.intersects(cInterval)));
static assert(__traits(compiles, posInfInterval.intersects(iInterval)));
static assert(__traits(compiles, posInfInterval.intersects(posInfInterval)));
static assert(__traits(compiles, posInfInterval.intersects(cPosInfInterval)));
static assert(__traits(compiles, posInfInterval.intersects(iPosInfInterval)));
static assert(__traits(compiles, posInfInterval.intersects(negInfInterval)));
static assert(__traits(compiles, posInfInterval.intersects(cNegInfInterval)));
static assert(__traits(compiles, posInfInterval.intersects(iNegInfInterval)));
static assert(__traits(compiles, cPosInfInterval.intersects(interval)));
static assert(__traits(compiles, cPosInfInterval.intersects(cInterval)));
static assert(__traits(compiles, cPosInfInterval.intersects(iInterval)));
static assert(__traits(compiles, cPosInfInterval.intersects(posInfInterval)));
static assert(__traits(compiles, cPosInfInterval.intersects(cPosInfInterval)));
static assert(__traits(compiles, cPosInfInterval.intersects(iPosInfInterval)));
static assert(__traits(compiles, cPosInfInterval.intersects(negInfInterval)));
static assert(__traits(compiles, cPosInfInterval.intersects(cNegInfInterval)));
static assert(__traits(compiles, cPosInfInterval.intersects(iNegInfInterval)));
static assert(__traits(compiles, iPosInfInterval.intersects(interval)));
static assert(__traits(compiles, iPosInfInterval.intersects(cInterval)));
static assert(__traits(compiles, iPosInfInterval.intersects(iInterval)));
static assert(__traits(compiles, iPosInfInterval.intersects(posInfInterval)));
static assert(__traits(compiles, iPosInfInterval.intersects(cPosInfInterval)));
static assert(__traits(compiles, iPosInfInterval.intersects(iPosInfInterval)));
static assert(__traits(compiles, iPosInfInterval.intersects(negInfInterval)));
static assert(__traits(compiles, iPosInfInterval.intersects(cNegInfInterval)));
static assert(__traits(compiles, iPosInfInterval.intersects(iNegInfInterval)));
//Verify Examples.
assert(PosInfInterval!Date(Date(1996, 1, 2)).intersects(Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(PosInfInterval!Date(Date(1996, 1, 2)).intersects(Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).intersects(Interval!Date(Date(1989, 3, 1), Date(1996, 1, 2))));
assert(PosInfInterval!Date(Date(1996, 1, 2)).intersects(PosInfInterval!Date(Date(1990, 1, 7))));
assert(PosInfInterval!Date(Date(1996, 1, 2)).intersects(PosInfInterval!Date(Date(1999, 5, 4))));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).intersects(NegInfInterval!Date(Date(1996, 1, 2))));
assert(PosInfInterval!Date(Date(1996, 1, 2)).intersects(NegInfInterval!Date(Date(2000, 7, 1))));
}
}
//Test PosInfInterval's intersection().
unittest
{
version(testStdDateTime)
{
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
static void testInterval(I, J)(in I interval1, in J interval2)
{
interval1.intersection(interval2);
}
assertThrown!DateTimeException(testInterval(posInfInterval, Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assertThrown!DateTimeException(testInterval(posInfInterval, Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3))));
assertThrown!DateTimeException(testInterval(posInfInterval, Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4))));
assertThrown!DateTimeException(testInterval(posInfInterval, NegInfInterval!Date(Date(2010, 7, 3))));
assertThrown!DateTimeException(testInterval(posInfInterval, NegInfInterval!Date(Date(2010, 7, 4))));
_assertPred!"=="(posInfInterval.intersection(posInfInterval),
posInfInterval);
_assertPred!"=="(posInfInterval.intersection(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3))),
Interval!Date(Date(2010, 7, 4), Date(2013, 7, 3)));
_assertPred!"=="(posInfInterval.intersection(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5))),
Interval!Date(Date(2010, 7, 4), Date(2010, 7, 5)));
_assertPred!"=="(posInfInterval.intersection(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7))),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)));
_assertPred!"=="(posInfInterval.intersection(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8))),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 8)));
_assertPred!"=="(posInfInterval.intersection(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6))),
Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6)));
_assertPred!"=="(posInfInterval.intersection(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7))),
Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7)));
_assertPred!"=="(posInfInterval.intersection(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7))),
Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7)));
_assertPred!"=="(posInfInterval.intersection(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8))),
Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8)));
_assertPred!"=="(posInfInterval.intersection(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8))),
Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8)));
_assertPred!"=="(posInfInterval.intersection(Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9))),
Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9)));
_assertPred!"=="(posInfInterval.intersection(PosInfInterval!Date(Date(2010, 7, 3))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(posInfInterval.intersection(PosInfInterval!Date(Date(2010, 7, 4))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(posInfInterval.intersection(PosInfInterval!Date(Date(2010, 7, 5))),
PosInfInterval!Date(Date(2010, 7, 5)));
_assertPred!"=="(posInfInterval.intersection(PosInfInterval!Date(Date(2012, 1, 6))),
PosInfInterval!Date(Date(2012, 1, 6)));
_assertPred!"=="(posInfInterval.intersection(PosInfInterval!Date(Date(2012, 1, 7))),
PosInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(posInfInterval.intersection(PosInfInterval!Date(Date(2012, 1, 8))),
PosInfInterval!Date(Date(2012, 1, 8)));
_assertPred!"=="(PosInfInterval!Date(Date(2010, 7, 3)).intersection(posInfInterval),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(PosInfInterval!Date(Date(2010, 7, 4)).intersection(posInfInterval),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(PosInfInterval!Date(Date(2010, 7, 5)).intersection(posInfInterval),
PosInfInterval!Date(Date(2010, 7, 5)));
_assertPred!"=="(PosInfInterval!Date(Date(2012, 1, 6)).intersection(posInfInterval),
PosInfInterval!Date(Date(2012, 1, 6)));
_assertPred!"=="(PosInfInterval!Date(Date(2012, 1, 7)).intersection(posInfInterval),
PosInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(PosInfInterval!Date(Date(2012, 1, 8)).intersection(posInfInterval),
PosInfInterval!Date(Date(2012, 1, 8)));
_assertPred!"=="(posInfInterval.intersection(NegInfInterval!Date(Date(2010, 7, 5))),
Interval!Date(Date(2010, 7, 4), Date(2010, 7, 5)));
_assertPred!"=="(posInfInterval.intersection(NegInfInterval!Date(Date(2012, 1, 6))),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 6)));
_assertPred!"=="(posInfInterval.intersection(NegInfInterval!Date(Date(2012, 1, 7))),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)));
_assertPred!"=="(posInfInterval.intersection(NegInfInterval!Date(Date(2012, 1, 8))),
Interval!Date(Date(2010, 7, 4), Date(2012, 1, 8)));
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, posInfInterval.intersection(interval)));
static assert(__traits(compiles, posInfInterval.intersection(cInterval)));
static assert(__traits(compiles, posInfInterval.intersection(iInterval)));
static assert(__traits(compiles, posInfInterval.intersection(posInfInterval)));
static assert(__traits(compiles, posInfInterval.intersection(cPosInfInterval)));
static assert(__traits(compiles, posInfInterval.intersection(iPosInfInterval)));
static assert(__traits(compiles, posInfInterval.intersection(negInfInterval)));
static assert(__traits(compiles, posInfInterval.intersection(cNegInfInterval)));
static assert(__traits(compiles, posInfInterval.intersection(iNegInfInterval)));
static assert(__traits(compiles, cPosInfInterval.intersection(interval)));
static assert(__traits(compiles, cPosInfInterval.intersection(cInterval)));
static assert(__traits(compiles, cPosInfInterval.intersection(iInterval)));
static assert(__traits(compiles, cPosInfInterval.intersection(posInfInterval)));
static assert(__traits(compiles, cPosInfInterval.intersection(cPosInfInterval)));
static assert(__traits(compiles, cPosInfInterval.intersection(iPosInfInterval)));
static assert(__traits(compiles, cPosInfInterval.intersection(negInfInterval)));
static assert(__traits(compiles, cPosInfInterval.intersection(cNegInfInterval)));
static assert(__traits(compiles, cPosInfInterval.intersection(iNegInfInterval)));
static assert(__traits(compiles, iPosInfInterval.intersection(interval)));
static assert(__traits(compiles, iPosInfInterval.intersection(cInterval)));
static assert(__traits(compiles, iPosInfInterval.intersection(iInterval)));
static assert(__traits(compiles, iPosInfInterval.intersection(posInfInterval)));
static assert(__traits(compiles, iPosInfInterval.intersection(cPosInfInterval)));
static assert(__traits(compiles, iPosInfInterval.intersection(iPosInfInterval)));
static assert(__traits(compiles, iPosInfInterval.intersection(negInfInterval)));
static assert(__traits(compiles, iPosInfInterval.intersection(cNegInfInterval)));
static assert(__traits(compiles, iPosInfInterval.intersection(iNegInfInterval)));
//Verify Examples.
assert(PosInfInterval!Date(Date(1996, 1, 2)).intersection(Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))) == Interval!Date(Date(1996, 1 , 2), Date(2000, 8, 2)));
assert(PosInfInterval!Date(Date(1996, 1, 2)).intersection(Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))) == Interval!Date(Date(1999, 1 , 12), Date(2011, 9, 17)));
assert(PosInfInterval!Date(Date(1996, 1, 2)).intersection(PosInfInterval!Date(Date(1990, 7, 6))) == PosInfInterval!Date(Date(1996, 1 , 2)));
assert(PosInfInterval!Date(Date(1996, 1, 2)).intersection(PosInfInterval!Date(Date(1999, 1, 12))) == PosInfInterval!Date(Date(1999, 1 , 12)));
assert(PosInfInterval!Date(Date(1996, 1, 2)).intersection(NegInfInterval!Date(Date(1999, 7, 6))) == Interval!Date(Date(1996, 1 , 2), Date(1999, 7, 6)));
assert(PosInfInterval!Date(Date(1996, 1, 2)).intersection(NegInfInterval!Date(Date(2013, 1, 12))) == Interval!Date(Date(1996, 1 , 2), Date(2013, 1, 12)));
}
}
//Test PosInfInterval's isAdjacent().
unittest
{
version(testStdDateTime)
{
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
static void testInterval(in PosInfInterval!Date posInfInterval, in Interval!Date interval)
{
posInfInterval.isAdjacent(interval);
}
assertThrown!DateTimeException(testInterval(posInfInterval, Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assert(!posInfInterval.isAdjacent(posInfInterval));
assert(!posInfInterval.isAdjacent(Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3))));
assert(!posInfInterval.isAdjacent(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3))));
assert(posInfInterval.isAdjacent(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4))));
assert(!posInfInterval.isAdjacent(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5))));
assert(!posInfInterval.isAdjacent(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7))));
assert(!posInfInterval.isAdjacent(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8))));
assert(!posInfInterval.isAdjacent(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6))));
assert(!posInfInterval.isAdjacent(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7))));
assert(!posInfInterval.isAdjacent(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7))));
assert(!posInfInterval.isAdjacent(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8))));
assert(!posInfInterval.isAdjacent(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8))));
assert(!posInfInterval.isAdjacent(Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9))));
assert(!posInfInterval.isAdjacent(PosInfInterval!Date(Date(2010, 7, 3))));
assert(!posInfInterval.isAdjacent(PosInfInterval!Date(Date(2010, 7, 4))));
assert(!posInfInterval.isAdjacent(PosInfInterval!Date(Date(2010, 7, 5))));
assert(!posInfInterval.isAdjacent(PosInfInterval!Date(Date(2012, 1, 6))));
assert(!posInfInterval.isAdjacent(PosInfInterval!Date(Date(2012, 1, 7))));
assert(!posInfInterval.isAdjacent(PosInfInterval!Date(Date(2012, 1, 8))));
assert(!PosInfInterval!Date(Date(2010, 7, 3)).isAdjacent(posInfInterval));
assert(!PosInfInterval!Date(Date(2010, 7, 4)).isAdjacent(posInfInterval));
assert(!PosInfInterval!Date(Date(2010, 7, 5)).isAdjacent(posInfInterval));
assert(!PosInfInterval!Date(Date(2012, 1, 6)).isAdjacent(posInfInterval));
assert(!PosInfInterval!Date(Date(2012, 1, 7)).isAdjacent(posInfInterval));
assert(!PosInfInterval!Date(Date(2012, 1, 8)).isAdjacent(posInfInterval));
assert(!posInfInterval.isAdjacent(NegInfInterval!Date(Date(2010, 7, 3))));
assert(posInfInterval.isAdjacent(NegInfInterval!Date(Date(2010, 7, 4))));
assert(!posInfInterval.isAdjacent(NegInfInterval!Date(Date(2010, 7, 5))));
assert(!posInfInterval.isAdjacent(NegInfInterval!Date(Date(2012, 1, 6))));
assert(!posInfInterval.isAdjacent(NegInfInterval!Date(Date(2012, 1, 7))));
assert(!posInfInterval.isAdjacent(NegInfInterval!Date(Date(2012, 1, 8))));
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, posInfInterval.isAdjacent(interval)));
static assert(__traits(compiles, posInfInterval.isAdjacent(cInterval)));
static assert(__traits(compiles, posInfInterval.isAdjacent(iInterval)));
static assert(__traits(compiles, posInfInterval.isAdjacent(posInfInterval)));
static assert(__traits(compiles, posInfInterval.isAdjacent(cPosInfInterval)));
static assert(__traits(compiles, posInfInterval.isAdjacent(iPosInfInterval)));
static assert(__traits(compiles, posInfInterval.isAdjacent(negInfInterval)));
static assert(__traits(compiles, posInfInterval.isAdjacent(cNegInfInterval)));
static assert(__traits(compiles, posInfInterval.isAdjacent(iNegInfInterval)));
static assert(__traits(compiles, cPosInfInterval.isAdjacent(interval)));
static assert(__traits(compiles, cPosInfInterval.isAdjacent(cInterval)));
static assert(__traits(compiles, cPosInfInterval.isAdjacent(iInterval)));
static assert(__traits(compiles, cPosInfInterval.isAdjacent(posInfInterval)));
static assert(__traits(compiles, cPosInfInterval.isAdjacent(cPosInfInterval)));
static assert(__traits(compiles, cPosInfInterval.isAdjacent(iPosInfInterval)));
static assert(__traits(compiles, cPosInfInterval.isAdjacent(negInfInterval)));
static assert(__traits(compiles, cPosInfInterval.isAdjacent(cNegInfInterval)));
static assert(__traits(compiles, cPosInfInterval.isAdjacent(iNegInfInterval)));
static assert(__traits(compiles, iPosInfInterval.isAdjacent(interval)));
static assert(__traits(compiles, iPosInfInterval.isAdjacent(cInterval)));
static assert(__traits(compiles, iPosInfInterval.isAdjacent(iInterval)));
static assert(__traits(compiles, iPosInfInterval.isAdjacent(posInfInterval)));
static assert(__traits(compiles, iPosInfInterval.isAdjacent(cPosInfInterval)));
static assert(__traits(compiles, iPosInfInterval.isAdjacent(iPosInfInterval)));
static assert(__traits(compiles, iPosInfInterval.isAdjacent(negInfInterval)));
static assert(__traits(compiles, iPosInfInterval.isAdjacent(cNegInfInterval)));
static assert(__traits(compiles, iPosInfInterval.isAdjacent(iNegInfInterval)));
//Verify Examples.
assert(PosInfInterval!Date(Date(1996, 1, 2)).isAdjacent(Interval!Date(Date(1989, 3, 1), Date(1996, 1, 2))));
assert(!PosInfInterval!Date(Date(1999, 1, 12)).isAdjacent(Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isAdjacent(PosInfInterval!Date(Date(1990, 1, 7))));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isAdjacent(PosInfInterval!Date(Date(1996, 1, 2))));
assert(PosInfInterval!Date(Date(1996, 1, 2)).isAdjacent(NegInfInterval!Date(Date(1996, 1, 2))));
assert(!PosInfInterval!Date(Date(1996, 1, 2)).isAdjacent(NegInfInterval!Date(Date(2000, 7, 1))));
}
}
//Test PosInfInterval's merge().
unittest
{
version(testStdDateTime)
{
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
static void testInterval(in PosInfInterval!Date posInfInterval, in Interval!Date interval)
{
posInfInterval.merge(interval);
}
assertThrown!DateTimeException(testInterval(posInfInterval, Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assertThrown!DateTimeException(testInterval(posInfInterval, Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3))));
_assertPred!"=="(posInfInterval.merge(posInfInterval),
posInfInterval);
_assertPred!"=="(posInfInterval.merge(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3))),
PosInfInterval!Date(Date(2010, 7, 1)));
_assertPred!"=="(posInfInterval.merge(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4))),
PosInfInterval!Date(Date(2010, 7, 3)));
_assertPred!"=="(posInfInterval.merge(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5))),
PosInfInterval!Date(Date(2010, 7, 3)));
_assertPred!"=="(posInfInterval.merge(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7))),
PosInfInterval!Date(Date(2010, 7, 3)));
_assertPred!"=="(posInfInterval.merge(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8))),
PosInfInterval!Date(Date(2010, 7, 3)));
_assertPred!"=="(posInfInterval.merge(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(posInfInterval.merge(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(posInfInterval.merge(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(posInfInterval.merge(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(posInfInterval.merge(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(posInfInterval.merge(Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(posInfInterval.merge(PosInfInterval!Date(Date(2010, 7, 3))),
PosInfInterval!Date(Date(2010, 7, 3)));
_assertPred!"=="(posInfInterval.merge(PosInfInterval!Date(Date(2010, 7, 4))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(posInfInterval.merge(PosInfInterval!Date(Date(2010, 7, 5))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(posInfInterval.merge(PosInfInterval!Date(Date(2012, 1, 6))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(posInfInterval.merge(PosInfInterval!Date(Date(2012, 1, 7))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(posInfInterval.merge(PosInfInterval!Date(Date(2012, 1, 8))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(PosInfInterval!Date(Date(2010, 7, 3)).merge(posInfInterval),
PosInfInterval!Date(Date(2010, 7, 3)));
_assertPred!"=="(PosInfInterval!Date(Date(2010, 7, 4)).merge(posInfInterval),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(PosInfInterval!Date(Date(2010, 7, 5)).merge(posInfInterval),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(PosInfInterval!Date(Date(2012, 1, 6)).merge(posInfInterval),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(PosInfInterval!Date(Date(2012, 1, 7)).merge(posInfInterval),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(PosInfInterval!Date(Date(2012, 1, 8)).merge(posInfInterval),
PosInfInterval!Date(Date(2010, 7, 4)));
static assert(!__traits(compiles, posInfInterval.merge(NegInfInterval!Date(Date(2010, 7, 3)))));
static assert(!__traits(compiles, posInfInterval.merge(NegInfInterval!Date(Date(2010, 7, 4)))));
static assert(!__traits(compiles, posInfInterval.merge(NegInfInterval!Date(Date(2010, 7, 5)))));
static assert(!__traits(compiles, posInfInterval.merge(NegInfInterval!Date(Date(2012, 1, 6)))));
static assert(!__traits(compiles, posInfInterval.merge(NegInfInterval!Date(Date(2012, 1, 7)))));
static assert(!__traits(compiles, posInfInterval.merge(NegInfInterval!Date(Date(2012, 1, 8)))));
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, posInfInterval.merge(interval)));
static assert(__traits(compiles, posInfInterval.merge(cInterval)));
static assert(__traits(compiles, posInfInterval.merge(iInterval)));
static assert(__traits(compiles, posInfInterval.merge(posInfInterval)));
static assert(__traits(compiles, posInfInterval.merge(cPosInfInterval)));
static assert(__traits(compiles, posInfInterval.merge(iPosInfInterval)));
static assert(!__traits(compiles, posInfInterval.merge(negInfInterval)));
static assert(!__traits(compiles, posInfInterval.merge(cNegInfInterval)));
static assert(!__traits(compiles, posInfInterval.merge(iNegInfInterval)));
static assert(__traits(compiles, cPosInfInterval.merge(interval)));
static assert(__traits(compiles, cPosInfInterval.merge(cInterval)));
static assert(__traits(compiles, cPosInfInterval.merge(iInterval)));
static assert(__traits(compiles, cPosInfInterval.merge(posInfInterval)));
static assert(__traits(compiles, cPosInfInterval.merge(cPosInfInterval)));
static assert(__traits(compiles, cPosInfInterval.merge(iPosInfInterval)));
static assert(!__traits(compiles, cPosInfInterval.merge(negInfInterval)));
static assert(!__traits(compiles, cPosInfInterval.merge(cNegInfInterval)));
static assert(!__traits(compiles, cPosInfInterval.merge(iNegInfInterval)));
static assert(__traits(compiles, iPosInfInterval.merge(interval)));
static assert(__traits(compiles, iPosInfInterval.merge(cInterval)));
static assert(__traits(compiles, iPosInfInterval.merge(iInterval)));
static assert(__traits(compiles, iPosInfInterval.merge(posInfInterval)));
static assert(__traits(compiles, iPosInfInterval.merge(cPosInfInterval)));
static assert(__traits(compiles, iPosInfInterval.merge(iPosInfInterval)));
static assert(!__traits(compiles, iPosInfInterval.merge(negInfInterval)));
static assert(!__traits(compiles, iPosInfInterval.merge(cNegInfInterval)));
static assert(!__traits(compiles, iPosInfInterval.merge(iNegInfInterval)));
//Verify Examples.
assert(PosInfInterval!Date(Date(1996, 1, 2)).merge(Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))) == PosInfInterval!Date(Date(1990, 7 , 6)));
assert(PosInfInterval!Date(Date(1996, 1, 2)).merge(Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))) == PosInfInterval!Date(Date(1996, 1 , 2)));
assert(PosInfInterval!Date(Date(1996, 1, 2)).merge(PosInfInterval!Date(Date(1990, 7, 6))) == PosInfInterval!Date(Date(1990, 7 , 6)));
assert(PosInfInterval!Date(Date(1996, 1, 2)).merge(PosInfInterval!Date(Date(1999, 1, 12))) == PosInfInterval!Date(Date(1996, 1 , 2)));
}
}
//Test PosInfInterval's span().
unittest
{
version(testStdDateTime)
{
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
static void testInterval(in PosInfInterval!Date posInfInterval, in Interval!Date interval)
{
posInfInterval.span(interval);
}
assertThrown!DateTimeException(testInterval(posInfInterval, Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
_assertPred!"=="(posInfInterval.span(posInfInterval),
posInfInterval);
_assertPred!"=="(posInfInterval.span(Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3))),
PosInfInterval!Date(Date(2010, 7, 1)));
_assertPred!"=="(posInfInterval.span(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3))),
PosInfInterval!Date(Date(2010, 7, 1)));
_assertPred!"=="(posInfInterval.span(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4))),
PosInfInterval!Date(Date(2010, 7, 3)));
_assertPred!"=="(posInfInterval.span(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5))),
PosInfInterval!Date(Date(2010, 7, 3)));
_assertPred!"=="(posInfInterval.span(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7))),
PosInfInterval!Date(Date(2010, 7, 3)));
_assertPred!"=="(posInfInterval.span(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8))),
PosInfInterval!Date(Date(2010, 7, 3)));
_assertPred!"=="(posInfInterval.span(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(posInfInterval.span(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(posInfInterval.span(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(posInfInterval.span(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(posInfInterval.span(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(posInfInterval.span(Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(posInfInterval.span(PosInfInterval!Date(Date(2010, 7, 3))),
PosInfInterval!Date(Date(2010, 7, 3)));
_assertPred!"=="(posInfInterval.span(PosInfInterval!Date(Date(2010, 7, 4))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(posInfInterval.span(PosInfInterval!Date(Date(2010, 7, 5))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(posInfInterval.span(PosInfInterval!Date(Date(2012, 1, 6))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(posInfInterval.span(PosInfInterval!Date(Date(2012, 1, 7))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(posInfInterval.span(PosInfInterval!Date(Date(2012, 1, 8))),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(PosInfInterval!Date(Date(2010, 7, 3)).span(posInfInterval),
PosInfInterval!Date(Date(2010, 7, 3)));
_assertPred!"=="(PosInfInterval!Date(Date(2010, 7, 4)).span(posInfInterval),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(PosInfInterval!Date(Date(2010, 7, 5)).span(posInfInterval),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(PosInfInterval!Date(Date(2012, 1, 6)).span(posInfInterval),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(PosInfInterval!Date(Date(2012, 1, 7)).span(posInfInterval),
PosInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(PosInfInterval!Date(Date(2012, 1, 8)).span(posInfInterval),
PosInfInterval!Date(Date(2010, 7, 4)));
static assert(!__traits(compiles, posInfInterval.span(NegInfInterval!Date(Date(2010, 7, 3)))));
static assert(!__traits(compiles, posInfInterval.span(NegInfInterval!Date(Date(2010, 7, 4)))));
static assert(!__traits(compiles, posInfInterval.span(NegInfInterval!Date(Date(2010, 7, 5)))));
static assert(!__traits(compiles, posInfInterval.span(NegInfInterval!Date(Date(2012, 1, 6)))));
static assert(!__traits(compiles, posInfInterval.span(NegInfInterval!Date(Date(2012, 1, 7)))));
static assert(!__traits(compiles, posInfInterval.span(NegInfInterval!Date(Date(2012, 1, 8)))));
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, posInfInterval.span(interval)));
static assert(__traits(compiles, posInfInterval.span(cInterval)));
static assert(__traits(compiles, posInfInterval.span(iInterval)));
static assert(__traits(compiles, posInfInterval.span(posInfInterval)));
static assert(__traits(compiles, posInfInterval.span(cPosInfInterval)));
static assert(__traits(compiles, posInfInterval.span(iPosInfInterval)));
static assert(!__traits(compiles, posInfInterval.span(negInfInterval)));
static assert(!__traits(compiles, posInfInterval.span(cNegInfInterval)));
static assert(!__traits(compiles, posInfInterval.span(iNegInfInterval)));
static assert(__traits(compiles, cPosInfInterval.span(interval)));
static assert(__traits(compiles, cPosInfInterval.span(cInterval)));
static assert(__traits(compiles, cPosInfInterval.span(iInterval)));
static assert(__traits(compiles, cPosInfInterval.span(posInfInterval)));
static assert(__traits(compiles, cPosInfInterval.span(cPosInfInterval)));
static assert(__traits(compiles, cPosInfInterval.span(iPosInfInterval)));
static assert(!__traits(compiles, cPosInfInterval.span(negInfInterval)));
static assert(!__traits(compiles, cPosInfInterval.span(cNegInfInterval)));
static assert(!__traits(compiles, cPosInfInterval.span(iNegInfInterval)));
static assert(__traits(compiles, iPosInfInterval.span(interval)));
static assert(__traits(compiles, iPosInfInterval.span(cInterval)));
static assert(__traits(compiles, iPosInfInterval.span(iInterval)));
static assert(__traits(compiles, iPosInfInterval.span(posInfInterval)));
static assert(__traits(compiles, iPosInfInterval.span(cPosInfInterval)));
static assert(__traits(compiles, iPosInfInterval.span(iPosInfInterval)));
static assert(!__traits(compiles, iPosInfInterval.span(negInfInterval)));
static assert(!__traits(compiles, iPosInfInterval.span(cNegInfInterval)));
static assert(!__traits(compiles, iPosInfInterval.span(iNegInfInterval)));
//Verify Examples.
assert(PosInfInterval!Date(Date(1996, 1, 2)).span(Interval!Date(Date(500, 8, 9), Date(1602, 1, 31))) == PosInfInterval!Date(Date(500, 8, 9)));
assert(PosInfInterval!Date(Date(1996, 1, 2)).span(Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))) == PosInfInterval!Date(Date(1990, 7 , 6)));
assert(PosInfInterval!Date(Date(1996, 1, 2)).span(Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))) == PosInfInterval!Date(Date(1996, 1 , 2)));
assert(PosInfInterval!Date(Date(1996, 1, 2)).span(PosInfInterval!Date(Date(1990, 7, 6))) == PosInfInterval!Date(Date(1990, 7 , 6)));
assert(PosInfInterval!Date(Date(1996, 1, 2)).span(PosInfInterval!Date(Date(1999, 1, 12))) == PosInfInterval!Date(Date(1996, 1 , 2)));
}
}
//Test PosInfInterval's shift().
unittest
{
version(testStdDateTime)
{
auto interval = PosInfInterval!Date(Date(2010, 7, 4));
static void testInterval(I)(I interval, in Duration duration, in I expected, size_t line = __LINE__)
{
interval.shift(duration);
_assertPred!"=="(interval, expected, "", __FILE__, line);
}
testInterval(interval, dur!"days"(22), PosInfInterval!Date(Date(2010, 7, 26)));
testInterval(interval, dur!"days"(-22), PosInfInterval!Date(Date(2010, 6, 12)));
const cInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iInterval = PosInfInterval!Date(Date(2010, 7, 4));
static assert(!__traits(compiles, cInterval.shift(dur!"days"(5))));
static assert(!__traits(compiles, iInterval.shift(dur!"days"(5))));
//Verify Examples.
auto interval1 = PosInfInterval!Date(Date(1996, 1, 2));
auto interval2 = PosInfInterval!Date(Date(1996, 1, 2));
interval1.shift(dur!"days"(50));
assert(interval1 == PosInfInterval!Date(Date(1996, 2, 21)));
interval2.shift(dur!"days"(-50));
assert(interval2 == PosInfInterval!Date(Date(1995, 11, 13)));
}
}
//Test PosInfInterval's shift(int, int, AllowDayOverflow).
unittest
{
version(testStdDateTime)
{
{
auto interval = PosInfInterval!Date(Date(2010, 7, 4));
static void testInterval(I)(I interval, int years, int months, AllowDayOverflow allow, in I expected, size_t line = __LINE__)
{
interval.shift(years, months, allow);
_assertPred!"=="(interval, expected, "", __FILE__, line);
}
testInterval(interval, 5, 0, AllowDayOverflow.yes, PosInfInterval!Date(Date(2015, 7, 4)));
testInterval(interval, -5, 0, AllowDayOverflow.yes, PosInfInterval!Date(Date(2005, 7, 4)));
auto interval2 = PosInfInterval!Date(Date(2000, 1, 29));
testInterval(interval2, 1, 1, AllowDayOverflow.yes, PosInfInterval!Date(Date(2001, 3, 1)));
testInterval(interval2, 1, -1, AllowDayOverflow.yes, PosInfInterval!Date(Date(2000, 12, 29)));
testInterval(interval2, -1, -1, AllowDayOverflow.yes, PosInfInterval!Date(Date(1998, 12, 29)));
testInterval(interval2, -1, 1, AllowDayOverflow.yes, PosInfInterval!Date(Date(1999, 3, 1)));
testInterval(interval2, 1, 1, AllowDayOverflow.no, PosInfInterval!Date(Date(2001, 2, 28)));
testInterval(interval2, 1, -1, AllowDayOverflow.no, PosInfInterval!Date(Date(2000, 12, 29)));
testInterval(interval2, -1, -1, AllowDayOverflow.no, PosInfInterval!Date(Date(1998, 12, 29)));
testInterval(interval2, -1, 1, AllowDayOverflow.no, PosInfInterval!Date(Date(1999, 2, 28)));
}
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
static assert(!__traits(compiles, cPosInfInterval.shift(1)));
static assert(!__traits(compiles, iPosInfInterval.shift(1)));
//Verify Examples.
auto interval1 = PosInfInterval!Date(Date(1996, 1, 2));
auto interval2 = PosInfInterval!Date(Date(1996, 1, 2));
interval1.shift(2);
assert(interval1 == PosInfInterval!Date(Date(1998, 1, 2)));
interval2.shift(-2);
assert(interval2 == PosInfInterval!Date(Date(1994, 1, 2)));
}
}
//Test PosInfInterval's expand().
unittest
{
version(testStdDateTime)
{
auto interval = PosInfInterval!Date(Date(2000, 7, 4));
static void testInterval(I)(I interval, in Duration duration, in I expected, size_t line = __LINE__)
{
interval.expand(duration);
_assertPred!"=="(interval, expected, "", __FILE__, line);
}
testInterval(interval, dur!"days"(22), PosInfInterval!Date(Date(2000, 6, 12)));
testInterval(interval, dur!"days"(-22), PosInfInterval!Date(Date(2000, 7, 26)));
const cInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iInterval = PosInfInterval!Date(Date(2010, 7, 4));
static assert(!__traits(compiles, cInterval.expand(dur!"days"(5))));
static assert(!__traits(compiles, iInterval.expand(dur!"days"(5))));
//Verify Examples.
auto interval1 = PosInfInterval!Date(Date(1996, 1, 2));
auto interval2 = PosInfInterval!Date(Date(1996, 1, 2));
interval1.expand(dur!"days"(2));
assert(interval1 == PosInfInterval!Date(Date(1995, 12, 31)));
interval2.expand(dur!"days"(-2));
assert(interval2 == PosInfInterval!Date(Date(1996, 1, 4)));
}
}
//Test PosInfInterval's expand(int, int, AllowDayOverflow).
unittest
{
version(testStdDateTime)
{
{
auto interval = PosInfInterval!Date(Date(2000, 7, 4));
static void testInterval(I)(I interval, int years, int months, AllowDayOverflow allow, in I expected, size_t line = __LINE__)
{
interval.expand(years, months, allow);
_assertPred!"=="(interval, expected, "", __FILE__, line);
}
testInterval(interval, 5, 0, AllowDayOverflow.yes, PosInfInterval!Date(Date(1995, 7, 4)));
testInterval(interval, -5, 0, AllowDayOverflow.yes, PosInfInterval!Date(Date(2005, 7, 4)));
auto interval2 = PosInfInterval!Date(Date(2000, 1, 29));
testInterval(interval2, 1, 1, AllowDayOverflow.yes, PosInfInterval!Date(Date(1998, 12, 29)));
testInterval(interval2, 1, -1, AllowDayOverflow.yes, PosInfInterval!Date(Date(1999, 3, 1)));
testInterval(interval2, -1, -1, AllowDayOverflow.yes, PosInfInterval!Date(Date(2001, 3, 1)));
testInterval(interval2, -1, 1, AllowDayOverflow.yes, PosInfInterval!Date(Date(2000, 12, 29)));
testInterval(interval2, 1, 1, AllowDayOverflow.no, PosInfInterval!Date(Date(1998, 12, 29)));
testInterval(interval2, 1, -1, AllowDayOverflow.no, PosInfInterval!Date(Date(1999, 2, 28)));
testInterval(interval2, -1, -1, AllowDayOverflow.no, PosInfInterval!Date(Date(2001, 2, 28)));
testInterval(interval2, -1, 1, AllowDayOverflow.no, PosInfInterval!Date(Date(2000, 12, 29)));
}
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
static assert(!__traits(compiles, cPosInfInterval.expand(1)));
static assert(!__traits(compiles, iPosInfInterval.expand(1)));
//Verify Examples.
auto interval1 = PosInfInterval!Date(Date(1996, 1, 2));
auto interval2 = PosInfInterval!Date(Date(1996, 1, 2));
interval1.expand(2);
assert(interval1 == PosInfInterval!Date(Date(1994, 1, 2)));
interval2.expand(-2);
assert(interval2 == PosInfInterval!Date(Date(1998, 1, 2)));
}
}
//Test PosInfInterval's fwdRange().
unittest
{
version(testStdDateTime)
{
auto posInfInterval = PosInfInterval!Date(Date(2010, 9, 19));
static void testInterval(PosInfInterval!Date posInfInterval)
{
posInfInterval.fwdRange(everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.fri)).popFront();
}
assertThrown!DateTimeException(testInterval(posInfInterval));
_assertPred!"=="(PosInfInterval!Date(Date(2010, 9, 12)).fwdRange(everyDayOfWeek!Date(DayOfWeek.fri)).front,
Date(2010, 9, 12));
_assertPred!"=="(PosInfInterval!Date(Date(2010, 9, 12)).fwdRange(everyDayOfWeek!Date(DayOfWeek.fri), PopFirst.yes).front,
Date(2010, 9, 17));
//Verify Examples.
auto interval = PosInfInterval!Date(Date(2010, 9, 1));
auto func = (in Date date)
{
if((date.day & 1) == 0)
return date + dur!"days"(2);
return date + dur!"days"(1);
};
auto range = interval.fwdRange(func);
assert(range.front == Date(2010, 9, 1)); //An odd day. Using PopFirst.yes would have made this Date(2010, 9, 2).
range.popFront();
assert(range.front == Date(2010, 9, 2));
range.popFront();
assert(range.front == Date(2010, 9, 4));
range.popFront();
assert(range.front == Date(2010, 9, 6));
range.popFront();
assert(range.front == Date(2010, 9, 8));
range.popFront();
assert(!range.empty);
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
static assert(__traits(compiles, cPosInfInterval.fwdRange(everyDayOfWeek!Date(DayOfWeek.fri))));
static assert(__traits(compiles, iPosInfInterval.fwdRange(everyDayOfWeek!Date(DayOfWeek.fri))));
}
}
//Test PosInfInterval's toString().
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(PosInfInterval!Date(Date(2010, 7, 4)).toString(), "[2010-Jul-04 - ∞)");
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
static assert(__traits(compiles, cPosInfInterval.toString()));
static assert(__traits(compiles, iPosInfInterval.toString()));
}
}
/++
Represents an interval of time which has negative infinity as its starting
point.
Any ranges which iterate over a $(D NegInfInterval) are infinite. So, the
main purpose of using $(D NegInfInterval) is to create an infinite range
which starts at negative infinity and goes to a fixed end point. You would
then iterate over it in reverse.
+/
struct NegInfInterval(TP)
{
public:
/++
Params:
begin = The time point which begins the interval.
Examples:
--------------------
auto interval = PosInfInterval!Date(Date(1996, 1, 2));
--------------------
+/
this(in TP end) pure nothrow
{
_end = cast(TP)end;
}
/++
Params:
rhs = The $(D NegInfInterval) to assign to this one.
+/
/+ref+/ NegInfInterval opAssign(const ref NegInfInterval rhs) pure nothrow
{
_end = cast(TP)rhs._end;
return this;
}
/++
Params:
rhs = The $(D NegInfInterval) to assign to this one.
+/
/+ref+/ NegInfInterval opAssign(NegInfInterval rhs) pure nothrow
{
_end = cast(TP)rhs._end;
return this;
}
/++
The end point of the interval. It is excluded from the interval.
Examples:
--------------------
assert(NegInfInterval!Date(Date(2012, 3, 1)).end == Date(2012, 3, 1));
--------------------
+/
@property TP end() const pure nothrow
{
return cast(TP)_end;
}
/++
The end point of the interval. It is excluded from the interval.
Params:
timePoint = The time point to set end to.
+/
@property void end(TP timePoint) pure nothrow
{
_end = timePoint;
}
/++
Whether the interval's length is 0. Always returns false.
Examples:
--------------------
assert(!NegInfInterval!Date(Date(1996, 1, 2)).empty);
--------------------
+/
@property bool empty() const pure nothrow
{
return false;
}
/++
Whether the given time point is within this interval.
Params:
timePoint = The time point to check for inclusion in this interval.
Examples:
--------------------
assert(NegInfInterval!Date(Date(2012, 3, 1)).contains(Date(1994, 12, 24)));
assert(NegInfInterval!Date(Date(2012, 3, 1)).contains(Date(2000, 1, 5)));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).contains(Date(2012, 3, 1)));
--------------------
+/
bool contains(TP timePoint) const pure nothrow
{
return timePoint < _end;
}
/++
Whether the given interval is completely within this interval.
Params:
interval = The interval to check for inclusion in this interval.
Throws:
$(D DateTimeException) if the given interval is empty.
Examples:
--------------------
assert(NegInfInterval!Date(Date(2012, 3, 1)).contains(
Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(NegInfInterval!Date(Date(2012, 3, 1)).contains(
Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).contains(
Interval!Date(Date(1998, 2, 28), Date(2013, 5, 1))));
--------------------
+/
bool contains(in Interval!TP interval) const pure
{
interval._enforceNotEmpty();
return interval._end <= _end;
}
/++
Whether the given interval is completely within this interval.
Always returns false because an interval beginning at negative
infinity can never contain an interval going to positive infinity.
Params:
interval = The interval to check for inclusion in this interval.
Examples:
--------------------
assert(!NegInfInterval!Date(Date(2012, 3, 1)).contains(
PosInfInterval!Date(Date(1999, 5, 4))));
--------------------
+/
bool contains(in PosInfInterval!TP interval) const pure nothrow
{
return false;
}
/++
Whether the given interval is completely within this interval.
Params:
interval = The interval to check for inclusion in this interval.
Examples:
--------------------
assert(NegInfInterval!Date(Date(2012, 3, 1)).contains(
NegInfInterval!Date(Date(1996, 5, 4))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).contains(
NegInfInterval!Date(Date(2013, 7, 9))));
--------------------
+/
bool contains(in NegInfInterval interval) const pure nothrow
{
return interval._end <= _end;
}
/++
Whether this interval is before the given time point.
Params:
timePoint = The time point to check whether this interval is
before it.
Examples:
--------------------
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isBefore(Date(1994, 12, 24)));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isBefore(Date(2000, 1, 5)));
assert(NegInfInterval!Date(Date(2012, 3, 1)).isBefore(Date(2012, 3, 1)));
--------------------
+/
bool isBefore(in TP timePoint) const pure nothrow
{
return timePoint >= _end;
}
/++
Whether this interval is before the given interval and does not
intersect it.
Params:
interval = The interval to check for against this interval.
Throws:
$(D DateTimeException) if the given interval is empty
Examples:
--------------------
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isBefore(
Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isBefore(
Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
assert(NegInfInterval!Date(Date(2012, 3, 1)).isBefore(
Interval!Date(Date(2022, 10, 19), Date(2027, 6, 3))));
--------------------
+/
bool isBefore(in Interval!TP interval) const pure
{
interval._enforceNotEmpty();
return _end <= interval._begin;
}
/++
Whether this interval is before the given interval and does not
intersect it.
Params:
interval = The interval to check for against this interval.
Examples:
--------------------
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isBefore(
PosInfInterval!Date(Date(1999, 5, 4))));
assert(NegInfInterval!Date(Date(2012, 3, 1)).isBefore(
PosInfInterval!Date(Date(2012, 3, 1))));
--------------------
+/
bool isBefore(in PosInfInterval!TP interval) const pure nothrow
{
return _end <= interval._begin;
}
/++
Whether this interval is before the given interval and does not
intersect it.
Always returns false because an interval beginning at negative
infinity can never be before another interval beginning at negative
infinity.
Params:
interval = The interval to check for against this interval.
Examples:
--------------------
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isBefore(
NegInfInterval!Date(Date(1996, 5, 4))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isBefore(
NegInfInterval!Date(Date(2013, 7, 9))));
--------------------
+/
bool isBefore(in NegInfInterval interval) const pure nothrow
{
return false;
}
/++
Whether this interval is after the given time point.
Always returns false because an interval beginning at negative infinity
can never be after any time point.
Params:
timePoint = The time point to check whether this interval is after
it.
Examples:
--------------------
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAfter(Date(1994, 12, 24)));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAfter(Date(2000, 1, 5)));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAfter(Date(2012, 3, 1)));
--------------------
+/
bool isAfter(in TP timePoint) const pure nothrow
{
return false;
}
/++
Whether this interval is after the given interval and does not
intersect it.
Always returns false (unless the given interval is empty) because an
interval beginning at negative infinity can never be after any other
interval.
Params:
interval = The interval to check against this interval.
Throws:
$(D DateTimeException) if the given interval is empty.
Examples:
--------------------
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAfter(
Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAfter(
Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAfter(
Interval!Date(Date(2022, 10, 19), Date(2027, 6, 3))));
--------------------
+/
bool isAfter(in Interval!TP interval) const pure
{
interval._enforceNotEmpty();
return false;
}
/++
Whether this interval is after the given interval and does not intersect
it.
Always returns false because an interval beginning at negative infinity
can never be after any other interval.
Params:
interval = The interval to check against this interval.
Examples:
--------------------
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAfter(
PosInfInterval!Date(Date(1999, 5, 4))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAfter(
PosInfInterval!Date(Date(2012, 3, 1))));
--------------------
+/
bool isAfter(in PosInfInterval!TP interval) const pure nothrow
{
return false;
}
/++
Whether this interval is after the given interval and does not intersect
it.
Always returns false because an interval beginning at negative infinity
can never be after any other interval.
Params:
interval = The interval to check against this interval.
Examples:
--------------------
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAfter(
NegInfInterval!Date(Date(1996, 5, 4))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAfter(
NegInfInterval!Date(Date(2013, 7, 9))));
--------------------
+/
bool isAfter(in NegInfInterval interval) const pure nothrow
{
return false;
}
/++
Whether the given interval overlaps this interval.
Params:
interval = The interval to check for intersection with this interval.
Throws:
$(D DateTimeException) if the given interval is empty.
Examples:
--------------------
assert(NegInfInterval!Date(Date(2012, 3, 1)).intersects(
Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(NegInfInterval!Date(Date(2012, 3, 1)).intersects(
Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).intersects(
Interval!Date(Date(2022, 10, 19), Date(2027, 6, 3))));
--------------------
+/
bool intersects(in Interval!TP interval) const pure
{
interval._enforceNotEmpty();
return interval._begin < _end;
}
/++
Whether the given interval overlaps this interval.
Params:
interval = The interval to check for intersection with this
interval.
Examples:
--------------------
assert(NegInfInterval!Date(Date(2012, 3, 1)).intersects(
PosInfInterval!Date(Date(1999, 5, 4))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).intersects(
PosInfInterval!Date(Date(2012, 3, 1))));
--------------------
+/
bool intersects(in PosInfInterval!TP interval) const pure nothrow
{
return interval._begin < _end;
}
/++
Whether the given interval overlaps this interval.
Always returns true because two intervals beginning at negative infinity
always overlap.
Params:
interval = The interval to check for intersection with this interval.
Examples:
--------------------
assert(NegInfInterval!Date(Date(2012, 3, 1)).intersects(
NegInfInterval!Date(Date(1996, 5, 4))));
assert(NegInfInterval!Date(Date(2012, 3, 1)).intersects(
NegInfInterval!Date(Date(2013, 7, 9))));
--------------------
+/
bool intersects(in NegInfInterval!TP interval) const pure nothrow
{
return true;
}
/++
Returns the intersection of two intervals
Params:
interval = The interval to intersect with this interval.
Throws:
$(D DateTimeException) if the two intervals do not intersect or if
the given interval is empty.
Examples:
--------------------
assert(NegInfInterval!Date(Date(2012, 3, 1)).intersection(
Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))) ==
Interval!Date(Date(1990, 7 , 6), Date(2000, 8, 2)));
assert(NegInfInterval!Date(Date(2012, 3, 1)).intersection(
Interval!Date(Date(1999, 1, 12), Date(2015, 9, 2))) ==
Interval!Date(Date(1999, 1 , 12), Date(2012, 3, 1)));
--------------------
+/
Interval!TP intersection(in Interval!TP interval) const
{
enforce(this.intersects(interval), new DateTimeException(format("%s and %s do not intersect.", this, interval)));
auto end = _end < interval._end ? _end : interval._end;
return Interval!TP(interval._begin, end);
}
/++
Returns the intersection of two intervals
Params:
interval = The interval to intersect with this interval.
Throws:
$(D DateTimeException) if the two intervals do not intersect.
Examples:
--------------------
assert(NegInfInterval!Date(Date(2012, 3, 1)).intersection(
PosInfInterval!Date(Date(1990, 7, 6))) ==
Interval!Date(Date(1990, 7 , 6), Date(2012, 3, 1)));
assert(NegInfInterval!Date(Date(2012, 3, 1)).intersection(
PosInfInterval!Date(Date(1999, 1, 12))) ==
Interval!Date(Date(1999, 1 , 12), Date(2012, 3, 1)));
--------------------
+/
Interval!TP intersection(in PosInfInterval!TP interval) const
{
enforce(this.intersects(interval), new DateTimeException(format("%s and %s do not intersect.", this, interval)));
return Interval!TP(interval._begin, _end);
}
/++
Returns the intersection of two intervals
Params:
interval = The interval to intersect with this interval.
Examples:
--------------------
assert(NegInfInterval!Date(Date(2012, 3, 1)).intersection(
NegInfInterval!Date(Date(1999, 7, 6))) ==
NegInfInterval!Date(Date(1999, 7 , 6)));
assert(NegInfInterval!Date(Date(2012, 3, 1)).intersection(
NegInfInterval!Date(Date(2013, 1, 12))) ==
NegInfInterval!Date(Date(2012, 3 , 1)));
--------------------
+/
NegInfInterval intersection(in NegInfInterval interval) const nothrow
{
return NegInfInterval(_end < interval._end ? _end : interval._end);
}
/++
Whether the given interval is adjacent to this interval.
Params:
interval = The interval to check whether its adjecent to this
interval.
Throws:
$(D DateTimeException) if the given interval is empty.
Examples:
--------------------
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAdjacent(
Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAdjacent(
Interval!Date(Date(1999, 1, 12), Date(2012, 3, 1))));
assert(NegInfInterval!Date(Date(2012, 3, 1)).isAdjacent(
Interval!Date(Date(2012, 3, 1), Date(2019, 2, 2))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAdjacent(
Interval!Date(Date(2022, 10, 19), Date(2027, 6, 3))));
--------------------
+/
bool isAdjacent(in Interval!TP interval) const pure
{
interval._enforceNotEmpty();
return interval._begin == _end;
}
/++
Whether the given interval is adjacent to this interval.
Params:
interval = The interval to check whether its adjecent to this
interval.
Examples:
--------------------
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAdjacent(
PosInfInterval!Date(Date(1999, 5, 4))));
assert(NegInfInterval!Date(Date(2012, 3, 1)).isAdjacent(
PosInfInterval!Date(Date(2012, 3, 1))));
--------------------
+/
bool isAdjacent(in PosInfInterval!TP interval) const pure nothrow
{
return interval._begin == _end;
}
/++
Whether the given interval is adjacent to this interval.
Always returns false because two intervals beginning at negative
infinity can never be adjacent to one another.
Params:
interval = The interval to check whether its adjecent to this
interval.
Examples:
--------------------
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAdjacent(
NegInfInterval!Date(Date(1996, 5, 4))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAdjacent(
NegInfInterval!Date(Date(2012, 3, 1))));
--------------------
+/
bool isAdjacent(in NegInfInterval interval) const pure nothrow
{
return false;
}
/++
Returns the union of two intervals
Params:
interval = The interval to merge with this interval.
Throws:
$(D DateTimeException) if the two intervals do not intersect and are
not adjacent or if the given interval is empty.
Note:
There is no overload for $(D merge) which takes a
$(D PosInfInterval). This is because you can't have an interval
which goes from negative infinity to positive infinity.
Examples:
--------------------
assert(NegInfInterval!Date(Date(2012, 3, 1)).merge(
Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))) ==
NegInfInterval!Date(Date(2012, 3 , 1)));
assert(NegInfInterval!Date(Date(2012, 3, 1)).merge(
Interval!Date(Date(1999, 1, 12), Date(2015, 9, 2))) ==
NegInfInterval!Date(Date(2015, 9 , 2)));
--------------------
+/
NegInfInterval merge(in Interval!TP interval) const
{
enforce(this.isAdjacent(interval) || this.intersects(interval),
new DateTimeException(format("%s and %s are not adjacent and do not intersect.", this, interval)));
return NegInfInterval(_end > interval._end ? _end : interval._end);
}
/++
Returns the union of two intervals
Params:
interval = The interval to merge with this interval.
Note:
There is no overload for $(D merge) which takes a
$(D PosInfInterval). This is because you can't have an interval
which goes from negative infinity to positive infinity.
Examples:
--------------------
assert(NegInfInterval!Date(Date(2012, 3, 1)).merge(
NegInfInterval!Date(Date(1999, 7, 6))) ==
NegInfInterval!Date(Date(2012, 3 , 1)));
assert(NegInfInterval!Date(Date(2012, 3, 1)).merge(
NegInfInterval!Date(Date(2013, 1, 12))) ==
NegInfInterval!Date(Date(2013, 1 , 12)));
--------------------
+/
NegInfInterval merge(in NegInfInterval interval) const pure nothrow
{
return NegInfInterval(_end > interval._end ? _end : interval._end);
}
/++
Returns an interval that covers from the earliest time point of two
intervals up to (but not including) the latest time point of two
intervals.
Params:
interval = The interval to create a span together with this
interval.
Throws:
$(D DateTimeException) if the given interval is empty.
Note:
There is no overload for $(D span) which takes a
$(D PosInfInterval). This is because you can't have an interval
which goes from negative infinity to positive infinity.
Examples:
--------------------
assert(NegInfInterval!Date(Date(2012, 3, 1)).span(
Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))) ==
NegInfInterval!Date(Date(2012, 3 , 1)));
assert(NegInfInterval!Date(Date(2012, 3, 1)).span(
Interval!Date(Date(1999, 1, 12), Date(2015, 9, 2))) ==
NegInfInterval!Date(Date(2015, 9 , 2)));
assert(NegInfInterval!Date(Date(1600, 1, 7)).span(
Interval!Date(Date(2012, 3, 11), Date(2017, 7, 1))) ==
NegInfInterval!Date(Date(2017, 7 , 1)));
--------------------
+/
NegInfInterval span(in Interval!TP interval) const pure
{
interval._enforceNotEmpty();
return NegInfInterval(_end > interval._end ? _end : interval._end);
}
/++
Returns an interval that covers from the earliest time point of two
intervals up to (but not including) the latest time point of two
intervals.
Params:
interval = The interval to create a span together with this
interval.
Note:
There is no overload for $(D span) which takes a
$(D PosInfInterval). This is because you can't have an interval
which goes from negative infinity to positive infinity.
Examples:
--------------------
assert(NegInfInterval!Date(Date(2012, 3, 1)).span(
NegInfInterval!Date(Date(1999, 7, 6))) ==
NegInfInterval!Date(Date(2012, 3 , 1)));
assert(NegInfInterval!Date(Date(2012, 3, 1)).span(
NegInfInterval!Date(Date(2013, 1, 12))) ==
NegInfInterval!Date(Date(2013, 1 , 12)));
--------------------
+/
NegInfInterval span(in NegInfInterval interval) const pure nothrow
{
return NegInfInterval(_end > interval._end ? _end : interval._end);
}
/++
Shifts the $(D end) of this interval forward or backwards in time by the
given duration (a positive duration shifts the interval forward; a
negative duration shifts it backward). Effectively, it does
$(D end += duration).
Params:
duration = The duration to shift the interval by.
Examples:
--------------------
auto interval1 = NegInfInterval!Date(Date(2012, 4, 5));
auto interval2 = NegInfInterval!Date(Date(2012, 4, 5));
interval1.shift(dur!"days"(50));
assert(interval1 == NegInfInterval!Date(Date(2012, 5, 25)));
interval2.shift(dur!"days"(-50));
assert(interval2 == NegInfInterval!Date( Date(2012, 2, 15)));
--------------------
+/
void shift(D)(D duration) pure nothrow
if(__traits(compiles, end + duration))
{
_end += duration;
}
static if(__traits(compiles, end.add!"months"(1)) &&
__traits(compiles, end.add!"years"(1)))
{
/++
Shifts the $(D end) of this interval forward or backwards in time by
the given number of years and/or months (a positive number of years
and months shifts the interval forward; a negative number shifts it
backward). It adds the years the given years and months to end. It
effectively calls $(D add!"years"()) and then $(D add!"months"())
on end with the given number of years and months.
Params:
years = The number of years to shift the interval by.
months = The number of months to shift the interval by.
allowOverflow = Whether the days should be allowed to overflow
on $(D end), causing its month to increment.
Throws:
$(D DateTimeException) if empty is true or if the resulting
interval would be invalid.
Examples:
--------------------
auto interval1 = NegInfInterval!Date(Date(2012, 3, 1));
auto interval2 = NegInfInterval!Date(Date(2012, 3, 1));
interval1.shift(2);
assert(interval1 == NegInfInterval!Date(Date(2014, 3, 1)));
interval2.shift(-2);
assert(interval2 == NegInfInterval!Date(Date(2010, 3, 1)));
--------------------
+/
void shift(T)(T years, T months = 0, AllowDayOverflow allowOverflow = AllowDayOverflow.yes)
if(isIntegral!T)
{
auto end = _end;
end.add!"years"(years, allowOverflow);
end.add!"months"(months, allowOverflow);
_end = end;
}
}
/++
Expands the interval forwards in time. Effectively, it does
$(D end += duration).
Params:
duration = The duration to expand the interval by.
dir = The direction in time to expand the interval.
Examples:
--------------------
auto interval1 = NegInfInterval!Date(Date(2012, 3, 1));
auto interval2 = NegInfInterval!Date(Date(2012, 3, 1));
interval1.expand(dur!"days"(2));
assert(interval1 == NegInfInterval!Date(Date(2012, 3, 3)));
interval2.expand(dur!"days"(-2));
assert(interval2 == NegInfInterval!Date(Date(2012, 2, 28)));
--------------------
+/
void expand(D)(D duration) pure nothrow
if(__traits(compiles, end + duration))
{
_end += duration;
}
static if(__traits(compiles, end.add!"months"(1)) &&
__traits(compiles, end.add!"years"(1)))
{
/++
Expands the interval forwards and/or backwards in time. Effectively,
it adds the given number of months/years to end.
Params:
years = The number of years to expand the interval by.
months = The number of months to expand the interval by.
allowOverflow = Whether the days should be allowed to overflow
on $(D end), causing their month to increment.
Throws:
$(D DateTimeException) if empty is true or if the resulting
interval would be invalid.
Examples:
--------------------
auto interval1 = NegInfInterval!Date(Date(2012, 3, 1));
auto interval2 = NegInfInterval!Date(Date(2012, 3, 1));
interval1.expand(2);
assert(interval1 == NegInfInterval!Date(Date(2014, 3, 1)));
interval2.expand(-2);
assert(interval2 == NegInfInterval!Date(Date(2010, 3, 1)));
--------------------
+/
void expand(T)(T years, T months = 0, AllowDayOverflow allowOverflow = AllowDayOverflow.yes)
if(isIntegral!T)
{
auto end = _end;
end.add!"years"(years, allowOverflow);
end.add!"months"(months, allowOverflow);
_end = end;
return;
}
}
/++
Returns a range which iterates backwards over the interval, starting
at $(D end), using $(D_PARAM func) to generate each successive time
point.
The range's $(D front) is the interval's $(D end). $(D_PARAM func) is
used to generate the next $(D front) when $(D popFront) is called. If
$(D_PARAM popFirst) is $(D PopFirst.yes), then $(D popFront) is called
before the range is returned (so that $(D front) is a time point which
$(D_PARAM func) would generate).
If $(D_PARAM func) ever generates a time point greater than or equal to
the current $(D front) of the range, then a $(D DateTimeException) will
be thrown.
There are helper functions in this module which generate common
delegates to pass to $(D bwdRange). Their documentation starts with
"Range-generating function," so you can easily search for them.
Params:
func = The function used to generate the time points of the
range over the interval.
popFirst = Whether $(D popFront) should be called on the range
before returning it.
Throws:
$(D DateTimeException) if this interval is empty.
Warning:
$(D_PARAM func) must be logically pure. Ideally, $(D_PARAM func)
would be a function pointer to a pure function, but forcing
$(D_PARAM func) to be pure is far too restrictive to be useful, and
in order to have the ease of use of having functions which generate
functions to pass to $(D fwdRange), $(D_PARAM func) must be a
delegate.
If $(D_PARAM func) retains state which changes as it is called, then
some algorithms will not work correctly, because the range's
$(D save) will have failed to have really saved the range's state.
So, if you want to avoid such bugs, don't pass a delegate which is
not logically pure to $(D fwdRange). If $(D_PARAM func) is given the
same time point with two different calls, it must return the same
result both times.
Of course, none of the functions in this module have this problem,
so it's only relevant if you're creating your own delegate.
Examples:
--------------------
auto interval = NegInfInterval!Date(Date(2010, 9, 9));
auto func = (in Date date) //For iterating over even-numbered days.
{
if((date.day & 1) == 0)
return date - dur!"days"(2);
return date - dur!"days"(1);
};
auto range = interval.bwdRange(func);
assert(range.front == Date(2010, 9, 9)); //An odd day. Using PopFirst.yes would have made this Date(2010, 9, 8).
range.popFront();
assert(range.front == Date(2010, 9, 8));
range.popFront();
assert(range.front == Date(2010, 9, 6));
range.popFront();
assert(range.front == Date(2010, 9, 4));
range.popFront();
assert(range.front == Date(2010, 9, 2));
range.popFront();
assert(!range.empty);
--------------------
+/
NegInfIntervalRange!(TP) bwdRange(TP delegate(in TP) func, PopFirst popFirst = PopFirst.no) const
{
auto range = NegInfIntervalRange!(TP)(this, func);
if(popFirst == PopFirst.yes)
range.popFront();
return range;
}
/+
Converts this interval to a string.
+/
//Due to bug http://d.puremagic.com/issues/show_bug.cgi?id=3715 , we can't
//have versions of toString() with extra modifiers, so we define one version
//with modifiers and one without.
string toString()
{
return _toStringImpl();
}
/++
Converts this interval to a string.
+/
//Due to bug http://d.puremagic.com/issues/show_bug.cgi?id=3715 , we can't
//have versions of toString() with extra modifiers, so we define one version
//with modifiers and one without.
string toString() const nothrow
{
return _toStringImpl();
}
private:
/+
Since we have two versions of toString(), we have _toStringImpl()
so that they can share implementations.
+/
string _toStringImpl() const nothrow
{
try
return format("[-∞ - %s)", _end);
catch(Exception e)
assert(0, "format() threw.");
}
TP _end;
}
//Test NegInfInterval's constructor.
unittest
{
version(testStdDateTime)
{
NegInfInterval!Date(Date.init);
NegInfInterval!TimeOfDay(TimeOfDay.init);
NegInfInterval!DateTime(DateTime.init);
NegInfInterval!SysTime(SysTime(0));
}
}
//Test NegInfInterval's end.
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(NegInfInterval!Date(Date(2010, 1, 1)).end, Date(2010, 1, 1));
_assertPred!"=="(NegInfInterval!Date(Date(2010, 1, 1)).end, Date(2010, 1, 1));
_assertPred!"=="(NegInfInterval!Date(Date(1998, 1, 1)).end, Date(1998, 1, 1));
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, cNegInfInterval.end));
static assert(__traits(compiles, iNegInfInterval.end));
//Verify Examples.
assert(NegInfInterval!Date(Date(2012, 3, 1)).end == Date(2012, 3, 1));
}
}
//Test NegInfInterval's empty.
unittest
{
version(testStdDateTime)
{
assert(!NegInfInterval!Date(Date(2010, 1, 1)).empty);
assert(!NegInfInterval!TimeOfDay(TimeOfDay(0, 30, 0)).empty);
assert(!NegInfInterval!DateTime(DateTime(2010, 1, 1, 0, 30, 0)).empty);
assert(!NegInfInterval!SysTime(SysTime(DateTime(2010, 1, 1, 0, 30, 0))).empty);
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, cNegInfInterval.empty));
static assert(__traits(compiles, iNegInfInterval.empty));
//Verify Examples.
assert(!NegInfInterval!Date(Date(1996, 1, 2)).empty);
}
}
//Test NegInfInterval's contains(time point).
unittest
{
version(testStdDateTime)
{
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
assert(negInfInterval.contains(Date(2009, 7, 4)));
assert(negInfInterval.contains(Date(2010, 7, 3)));
assert(negInfInterval.contains(Date(2010, 7, 4)));
assert(negInfInterval.contains(Date(2010, 7, 5)));
assert(negInfInterval.contains(Date(2011, 7, 1)));
assert(negInfInterval.contains(Date(2012, 1, 6)));
assert(!negInfInterval.contains(Date(2012, 1, 7)));
assert(!negInfInterval.contains(Date(2012, 1, 8)));
assert(!negInfInterval.contains(Date(2013, 1, 7)));
const cdate = Date(2010, 7, 6);
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, negInfInterval.contains(cdate)));
static assert(__traits(compiles, cNegInfInterval.contains(cdate)));
static assert(__traits(compiles, iNegInfInterval.contains(cdate)));
//Verify Examples.
assert(NegInfInterval!Date(Date(2012, 3, 1)).contains(Date(1994, 12, 24)));
assert(NegInfInterval!Date(Date(2012, 3, 1)).contains(Date(2000, 1, 5)));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).contains(Date(2012, 3, 1)));
}
}
//Test NegInfInterval's contains(Interval).
unittest
{
version(testStdDateTime)
{
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static void testInterval(in NegInfInterval!Date negInfInterval, in Interval!Date interval)
{
negInfInterval.contains(interval);
}
assertThrown!DateTimeException(testInterval(negInfInterval, Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assert(negInfInterval.contains(negInfInterval));
assert(negInfInterval.contains(Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3))));
assert(!negInfInterval.contains(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3))));
assert(negInfInterval.contains(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4))));
assert(negInfInterval.contains(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5))));
assert(negInfInterval.contains(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7))));
assert(!negInfInterval.contains(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8))));
assert(negInfInterval.contains(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6))));
assert(negInfInterval.contains(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7))));
assert(negInfInterval.contains(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7))));
assert(!negInfInterval.contains(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8))));
assert(!negInfInterval.contains(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8))));
assert(!negInfInterval.contains(Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9))));
assert(negInfInterval.contains(NegInfInterval!Date(Date(2010, 7, 3))));
assert(negInfInterval.contains(NegInfInterval!Date(Date(2010, 7, 4))));
assert(negInfInterval.contains(NegInfInterval!Date(Date(2010, 7, 5))));
assert(negInfInterval.contains(NegInfInterval!Date(Date(2012, 1, 6))));
assert(negInfInterval.contains(NegInfInterval!Date(Date(2012, 1, 7))));
assert(!negInfInterval.contains(NegInfInterval!Date(Date(2012, 1, 8))));
assert(!NegInfInterval!Date(Date(2010, 7, 3)).contains(negInfInterval));
assert(!NegInfInterval!Date(Date(2010, 7, 4)).contains(negInfInterval));
assert(!NegInfInterval!Date(Date(2010, 7, 5)).contains(negInfInterval));
assert(!NegInfInterval!Date(Date(2012, 1, 6)).contains(negInfInterval));
assert(NegInfInterval!Date(Date(2012, 1, 7)).contains(negInfInterval));
assert(NegInfInterval!Date(Date(2012, 1, 8)).contains(negInfInterval));
assert(!negInfInterval.contains(PosInfInterval!Date(Date(2010, 7, 3))));
assert(!negInfInterval.contains(PosInfInterval!Date(Date(2010, 7, 4))));
assert(!negInfInterval.contains(PosInfInterval!Date(Date(2010, 7, 5))));
assert(!negInfInterval.contains(PosInfInterval!Date(Date(2012, 1, 6))));
assert(!negInfInterval.contains(PosInfInterval!Date(Date(2012, 1, 7))));
assert(!negInfInterval.contains(PosInfInterval!Date(Date(2012, 1, 8))));
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, negInfInterval.contains(interval)));
static assert(__traits(compiles, negInfInterval.contains(cInterval)));
static assert(__traits(compiles, negInfInterval.contains(iInterval)));
static assert(__traits(compiles, negInfInterval.contains(posInfInterval)));
static assert(__traits(compiles, negInfInterval.contains(cPosInfInterval)));
static assert(__traits(compiles, negInfInterval.contains(iPosInfInterval)));
static assert(__traits(compiles, negInfInterval.contains(negInfInterval)));
static assert(__traits(compiles, negInfInterval.contains(cNegInfInterval)));
static assert(__traits(compiles, negInfInterval.contains(iNegInfInterval)));
static assert(__traits(compiles, cNegInfInterval.contains(interval)));
static assert(__traits(compiles, cNegInfInterval.contains(cInterval)));
static assert(__traits(compiles, cNegInfInterval.contains(iInterval)));
static assert(__traits(compiles, cNegInfInterval.contains(posInfInterval)));
static assert(__traits(compiles, cNegInfInterval.contains(cPosInfInterval)));
static assert(__traits(compiles, cNegInfInterval.contains(iPosInfInterval)));
static assert(__traits(compiles, cNegInfInterval.contains(negInfInterval)));
static assert(__traits(compiles, cNegInfInterval.contains(cNegInfInterval)));
static assert(__traits(compiles, cNegInfInterval.contains(iNegInfInterval)));
static assert(__traits(compiles, iNegInfInterval.contains(interval)));
static assert(__traits(compiles, iNegInfInterval.contains(cInterval)));
static assert(__traits(compiles, iNegInfInterval.contains(iInterval)));
static assert(__traits(compiles, iNegInfInterval.contains(posInfInterval)));
static assert(__traits(compiles, iNegInfInterval.contains(cPosInfInterval)));
static assert(__traits(compiles, iNegInfInterval.contains(iPosInfInterval)));
static assert(__traits(compiles, iNegInfInterval.contains(negInfInterval)));
static assert(__traits(compiles, iNegInfInterval.contains(cNegInfInterval)));
static assert(__traits(compiles, iNegInfInterval.contains(iNegInfInterval)));
//Verify Examples.
assert(NegInfInterval!Date(Date(2012, 3, 1)).contains(Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(NegInfInterval!Date(Date(2012, 3, 1)).contains(Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).contains(Interval!Date(Date(1998, 2, 28), Date(2013, 5, 1))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).contains(PosInfInterval!Date(Date(1999, 5, 4))));
assert(NegInfInterval!Date(Date(2012, 3, 1)).contains(NegInfInterval!Date(Date(1996, 5, 4))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).contains(NegInfInterval!Date(Date(2013, 7, 9))));
}
}
//Test NegInfInterval's isBefore(time point).
unittest
{
version(testStdDateTime)
{
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
assert(!negInfInterval.isBefore(Date(2009, 7, 4)));
assert(!negInfInterval.isBefore(Date(2010, 7, 3)));
assert(!negInfInterval.isBefore(Date(2010, 7, 4)));
assert(!negInfInterval.isBefore(Date(2010, 7, 5)));
assert(!negInfInterval.isBefore(Date(2011, 7, 1)));
assert(!negInfInterval.isBefore(Date(2012, 1, 6)));
assert(negInfInterval.isBefore(Date(2012, 1, 7)));
assert(negInfInterval.isBefore(Date(2012, 1, 8)));
assert(negInfInterval.isBefore(Date(2013, 1, 7)));
const cdate = Date(2010, 7, 6);
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, negInfInterval.isBefore(cdate)));
static assert(__traits(compiles, cNegInfInterval.isBefore(cdate)));
static assert(__traits(compiles, iNegInfInterval.isBefore(cdate)));
//Verify Examples.
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isBefore(Date(1994, 12, 24)));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isBefore(Date(2000, 1, 5)));
assert(NegInfInterval!Date(Date(2012, 3, 1)).isBefore(Date(2012, 3, 1)));
}
}
//Test NegInfInterval's isBefore(Interval).
unittest
{
version(testStdDateTime)
{
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static void testInterval(in NegInfInterval!Date negInfInterval, in Interval!Date interval)
{
negInfInterval.isBefore(interval);
}
assertThrown!DateTimeException(testInterval(negInfInterval, Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assert(!negInfInterval.isBefore(negInfInterval));
assert(!negInfInterval.isBefore(Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3))));
assert(!negInfInterval.isBefore(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3))));
assert(!negInfInterval.isBefore(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4))));
assert(!negInfInterval.isBefore(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5))));
assert(!negInfInterval.isBefore(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7))));
assert(!negInfInterval.isBefore(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8))));
assert(!negInfInterval.isBefore(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6))));
assert(!negInfInterval.isBefore(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7))));
assert(!negInfInterval.isBefore(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7))));
assert(!negInfInterval.isBefore(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8))));
assert(negInfInterval.isBefore(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8))));
assert(negInfInterval.isBefore(Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9))));
assert(!negInfInterval.isBefore(NegInfInterval!Date(Date(2010, 7, 3))));
assert(!negInfInterval.isBefore(NegInfInterval!Date(Date(2010, 7, 4))));
assert(!negInfInterval.isBefore(NegInfInterval!Date(Date(2010, 7, 5))));
assert(!negInfInterval.isBefore(NegInfInterval!Date(Date(2012, 1, 6))));
assert(!negInfInterval.isBefore(NegInfInterval!Date(Date(2012, 1, 7))));
assert(!negInfInterval.isBefore(NegInfInterval!Date(Date(2012, 1, 8))));
assert(!NegInfInterval!Date(Date(2010, 7, 3)).isBefore(negInfInterval));
assert(!NegInfInterval!Date(Date(2010, 7, 4)).isBefore(negInfInterval));
assert(!NegInfInterval!Date(Date(2010, 7, 5)).isBefore(negInfInterval));
assert(!NegInfInterval!Date(Date(2012, 1, 6)).isBefore(negInfInterval));
assert(!NegInfInterval!Date(Date(2012, 1, 7)).isBefore(negInfInterval));
assert(!NegInfInterval!Date(Date(2012, 1, 8)).isBefore(negInfInterval));
assert(!negInfInterval.isBefore(PosInfInterval!Date(Date(2010, 7, 3))));
assert(!negInfInterval.isBefore(PosInfInterval!Date(Date(2010, 7, 4))));
assert(!negInfInterval.isBefore(PosInfInterval!Date(Date(2010, 7, 5))));
assert(!negInfInterval.isBefore(PosInfInterval!Date(Date(2012, 1, 6))));
assert(negInfInterval.isBefore(PosInfInterval!Date(Date(2012, 1, 7))));
assert(negInfInterval.isBefore(PosInfInterval!Date(Date(2012, 1, 8))));
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, negInfInterval.isBefore(interval)));
static assert(__traits(compiles, negInfInterval.isBefore(cInterval)));
static assert(__traits(compiles, negInfInterval.isBefore(iInterval)));
static assert(__traits(compiles, negInfInterval.isBefore(posInfInterval)));
static assert(__traits(compiles, negInfInterval.isBefore(cPosInfInterval)));
static assert(__traits(compiles, negInfInterval.isBefore(iPosInfInterval)));
static assert(__traits(compiles, negInfInterval.isBefore(negInfInterval)));
static assert(__traits(compiles, negInfInterval.isBefore(cNegInfInterval)));
static assert(__traits(compiles, negInfInterval.isBefore(iNegInfInterval)));
static assert(__traits(compiles, cNegInfInterval.isBefore(interval)));
static assert(__traits(compiles, cNegInfInterval.isBefore(cInterval)));
static assert(__traits(compiles, cNegInfInterval.isBefore(iInterval)));
static assert(__traits(compiles, cNegInfInterval.isBefore(posInfInterval)));
static assert(__traits(compiles, cNegInfInterval.isBefore(cPosInfInterval)));
static assert(__traits(compiles, cNegInfInterval.isBefore(iPosInfInterval)));
static assert(__traits(compiles, cNegInfInterval.isBefore(negInfInterval)));
static assert(__traits(compiles, cNegInfInterval.isBefore(cNegInfInterval)));
static assert(__traits(compiles, cNegInfInterval.isBefore(iNegInfInterval)));
static assert(__traits(compiles, iNegInfInterval.isBefore(interval)));
static assert(__traits(compiles, iNegInfInterval.isBefore(cInterval)));
static assert(__traits(compiles, iNegInfInterval.isBefore(iInterval)));
static assert(__traits(compiles, iNegInfInterval.isBefore(posInfInterval)));
static assert(__traits(compiles, iNegInfInterval.isBefore(cPosInfInterval)));
static assert(__traits(compiles, iNegInfInterval.isBefore(iPosInfInterval)));
static assert(__traits(compiles, iNegInfInterval.isBefore(negInfInterval)));
static assert(__traits(compiles, iNegInfInterval.isBefore(cNegInfInterval)));
static assert(__traits(compiles, iNegInfInterval.isBefore(iNegInfInterval)));
//Verify Examples.
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isBefore(Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isBefore(Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
assert(NegInfInterval!Date(Date(2012, 3, 1)).isBefore(Interval!Date(Date(2022, 10, 19), Date(2027, 6, 3))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isBefore(PosInfInterval!Date(Date(1999, 5, 4))));
assert(NegInfInterval!Date(Date(2012, 3, 1)).isBefore(PosInfInterval!Date(Date(2012, 3, 1))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isBefore(NegInfInterval!Date(Date(1996, 5, 4))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isBefore(NegInfInterval!Date(Date(2013, 7, 9))));
}
}
//Test NegInfInterval's isAfter(time point).
unittest
{
version(testStdDateTime)
{
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
assert(!negInfInterval.isAfter(Date(2009, 7, 4)));
assert(!negInfInterval.isAfter(Date(2010, 7, 3)));
assert(!negInfInterval.isAfter(Date(2010, 7, 4)));
assert(!negInfInterval.isAfter(Date(2010, 7, 5)));
assert(!negInfInterval.isAfter(Date(2011, 7, 1)));
assert(!negInfInterval.isAfter(Date(2012, 1, 6)));
assert(!negInfInterval.isAfter(Date(2012, 1, 7)));
assert(!negInfInterval.isAfter(Date(2012, 1, 8)));
assert(!negInfInterval.isAfter(Date(2013, 1, 7)));
const cdate = Date(2010, 7, 6);
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, negInfInterval.isAfter(cdate)));
static assert(__traits(compiles, cNegInfInterval.isAfter(cdate)));
static assert(__traits(compiles, iNegInfInterval.isAfter(cdate)));
}
}
//Test NegInfInterval's isAfter(Interval).
unittest
{
version(testStdDateTime)
{
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static void testInterval(in NegInfInterval!Date negInfInterval, in Interval!Date interval)
{
negInfInterval.isAfter(interval);
}
assertThrown!DateTimeException(testInterval(negInfInterval, Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assert(!negInfInterval.isAfter(negInfInterval));
assert(!negInfInterval.isAfter(Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3))));
assert(!negInfInterval.isAfter(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3))));
assert(!negInfInterval.isAfter(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4))));
assert(!negInfInterval.isAfter(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5))));
assert(!negInfInterval.isAfter(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7))));
assert(!negInfInterval.isAfter(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8))));
assert(!negInfInterval.isAfter(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6))));
assert(!negInfInterval.isAfter(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7))));
assert(!negInfInterval.isAfter(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7))));
assert(!negInfInterval.isAfter(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8))));
assert(!negInfInterval.isAfter(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8))));
assert(!negInfInterval.isAfter(Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9))));
assert(!negInfInterval.isAfter(NegInfInterval!Date(Date(2010, 7, 3))));
assert(!negInfInterval.isAfter(NegInfInterval!Date(Date(2010, 7, 4))));
assert(!negInfInterval.isAfter(NegInfInterval!Date(Date(2010, 7, 5))));
assert(!negInfInterval.isAfter(NegInfInterval!Date(Date(2012, 1, 6))));
assert(!negInfInterval.isAfter(NegInfInterval!Date(Date(2012, 1, 7))));
assert(!negInfInterval.isAfter(NegInfInterval!Date(Date(2012, 1, 8))));
assert(!NegInfInterval!Date(Date(2010, 7, 3)).isAfter(negInfInterval));
assert(!NegInfInterval!Date(Date(2010, 7, 4)).isAfter(negInfInterval));
assert(!NegInfInterval!Date(Date(2010, 7, 5)).isAfter(negInfInterval));
assert(!NegInfInterval!Date(Date(2012, 1, 6)).isAfter(negInfInterval));
assert(!NegInfInterval!Date(Date(2012, 1, 7)).isAfter(negInfInterval));
assert(!NegInfInterval!Date(Date(2012, 1, 8)).isAfter(negInfInterval));
assert(!negInfInterval.isAfter(PosInfInterval!Date(Date(2010, 7, 3))));
assert(!negInfInterval.isAfter(PosInfInterval!Date(Date(2010, 7, 4))));
assert(!negInfInterval.isAfter(PosInfInterval!Date(Date(2010, 7, 5))));
assert(!negInfInterval.isAfter(PosInfInterval!Date(Date(2012, 1, 6))));
assert(!negInfInterval.isAfter(PosInfInterval!Date(Date(2012, 1, 7))));
assert(!negInfInterval.isAfter(PosInfInterval!Date(Date(2012, 1, 8))));
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, negInfInterval.isAfter(interval)));
static assert(__traits(compiles, negInfInterval.isAfter(cInterval)));
static assert(__traits(compiles, negInfInterval.isAfter(iInterval)));
static assert(__traits(compiles, negInfInterval.isAfter(posInfInterval)));
static assert(__traits(compiles, negInfInterval.isAfter(cPosInfInterval)));
static assert(__traits(compiles, negInfInterval.isAfter(iPosInfInterval)));
static assert(__traits(compiles, negInfInterval.isAfter(negInfInterval)));
static assert(__traits(compiles, negInfInterval.isAfter(cNegInfInterval)));
static assert(__traits(compiles, negInfInterval.isAfter(iNegInfInterval)));
static assert(__traits(compiles, cNegInfInterval.isAfter(interval)));
static assert(__traits(compiles, cNegInfInterval.isAfter(cInterval)));
static assert(__traits(compiles, cNegInfInterval.isAfter(iInterval)));
static assert(__traits(compiles, cNegInfInterval.isAfter(posInfInterval)));
static assert(__traits(compiles, cNegInfInterval.isAfter(cPosInfInterval)));
static assert(__traits(compiles, cNegInfInterval.isAfter(iPosInfInterval)));
static assert(__traits(compiles, cNegInfInterval.isAfter(negInfInterval)));
static assert(__traits(compiles, cNegInfInterval.isAfter(cNegInfInterval)));
static assert(__traits(compiles, cNegInfInterval.isAfter(iNegInfInterval)));
static assert(__traits(compiles, iNegInfInterval.isAfter(interval)));
static assert(__traits(compiles, iNegInfInterval.isAfter(cInterval)));
static assert(__traits(compiles, iNegInfInterval.isAfter(iInterval)));
static assert(__traits(compiles, iNegInfInterval.isAfter(posInfInterval)));
static assert(__traits(compiles, iNegInfInterval.isAfter(cPosInfInterval)));
static assert(__traits(compiles, iNegInfInterval.isAfter(iPosInfInterval)));
static assert(__traits(compiles, iNegInfInterval.isAfter(negInfInterval)));
static assert(__traits(compiles, iNegInfInterval.isAfter(cNegInfInterval)));
static assert(__traits(compiles, iNegInfInterval.isAfter(iNegInfInterval)));
//Verify Examples.
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAfter(Date(1994, 12, 24)));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAfter(Date(2000, 1, 5)));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAfter(Date(2012, 3, 1)));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAfter(Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAfter(Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAfter(Interval!Date(Date(2022, 10, 19), Date(2027, 6, 3))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAfter(PosInfInterval!Date(Date(1999, 5, 4))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAfter(PosInfInterval!Date(Date(2012, 3, 1))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAfter(NegInfInterval!Date(Date(1996, 5, 4))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAfter(NegInfInterval!Date(Date(2013, 7, 9))));
}
}
//Test NegInfInterval's intersects().
unittest
{
version(testStdDateTime)
{
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static void testInterval(in NegInfInterval!Date negInfInterval, in Interval!Date interval)
{
negInfInterval.intersects(interval);
}
assertThrown!DateTimeException(testInterval(negInfInterval, Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assert(negInfInterval.intersects(negInfInterval));
assert(negInfInterval.intersects(Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3))));
assert(negInfInterval.intersects(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3))));
assert(negInfInterval.intersects(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4))));
assert(negInfInterval.intersects(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5))));
assert(negInfInterval.intersects(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7))));
assert(negInfInterval.intersects(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8))));
assert(negInfInterval.intersects(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6))));
assert(negInfInterval.intersects(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7))));
assert(negInfInterval.intersects(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7))));
assert(negInfInterval.intersects(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8))));
assert(!negInfInterval.intersects(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8))));
assert(!negInfInterval.intersects(Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9))));
assert(negInfInterval.intersects(NegInfInterval!Date(Date(2010, 7, 3))));
assert(negInfInterval.intersects(NegInfInterval!Date(Date(2010, 7, 4))));
assert(negInfInterval.intersects(NegInfInterval!Date(Date(2010, 7, 5))));
assert(negInfInterval.intersects(NegInfInterval!Date(Date(2012, 1, 6))));
assert(negInfInterval.intersects(NegInfInterval!Date(Date(2012, 1, 7))));
assert(negInfInterval.intersects(NegInfInterval!Date(Date(2012, 1, 8))));
assert(NegInfInterval!Date(Date(2010, 7, 3)).intersects(negInfInterval));
assert(NegInfInterval!Date(Date(2010, 7, 4)).intersects(negInfInterval));
assert(NegInfInterval!Date(Date(2010, 7, 5)).intersects(negInfInterval));
assert(NegInfInterval!Date(Date(2012, 1, 6)).intersects(negInfInterval));
assert(NegInfInterval!Date(Date(2012, 1, 7)).intersects(negInfInterval));
assert(NegInfInterval!Date(Date(2012, 1, 8)).intersects(negInfInterval));
assert(negInfInterval.intersects(PosInfInterval!Date(Date(2010, 7, 3))));
assert(negInfInterval.intersects(PosInfInterval!Date(Date(2010, 7, 4))));
assert(negInfInterval.intersects(PosInfInterval!Date(Date(2010, 7, 5))));
assert(negInfInterval.intersects(PosInfInterval!Date(Date(2012, 1, 6))));
assert(!negInfInterval.intersects(PosInfInterval!Date(Date(2012, 1, 7))));
assert(!negInfInterval.intersects(PosInfInterval!Date(Date(2012, 1, 8))));
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, negInfInterval.intersects(interval)));
static assert(__traits(compiles, negInfInterval.intersects(cInterval)));
static assert(__traits(compiles, negInfInterval.intersects(iInterval)));
static assert(__traits(compiles, negInfInterval.intersects(posInfInterval)));
static assert(__traits(compiles, negInfInterval.intersects(cPosInfInterval)));
static assert(__traits(compiles, negInfInterval.intersects(iPosInfInterval)));
static assert(__traits(compiles, negInfInterval.intersects(negInfInterval)));
static assert(__traits(compiles, negInfInterval.intersects(cNegInfInterval)));
static assert(__traits(compiles, negInfInterval.intersects(iNegInfInterval)));
static assert(__traits(compiles, cNegInfInterval.intersects(interval)));
static assert(__traits(compiles, cNegInfInterval.intersects(cInterval)));
static assert(__traits(compiles, cNegInfInterval.intersects(iInterval)));
static assert(__traits(compiles, cNegInfInterval.intersects(posInfInterval)));
static assert(__traits(compiles, cNegInfInterval.intersects(cPosInfInterval)));
static assert(__traits(compiles, cNegInfInterval.intersects(iPosInfInterval)));
static assert(__traits(compiles, cNegInfInterval.intersects(negInfInterval)));
static assert(__traits(compiles, cNegInfInterval.intersects(cNegInfInterval)));
static assert(__traits(compiles, cNegInfInterval.intersects(iNegInfInterval)));
static assert(__traits(compiles, iNegInfInterval.intersects(interval)));
static assert(__traits(compiles, iNegInfInterval.intersects(cInterval)));
static assert(__traits(compiles, iNegInfInterval.intersects(iInterval)));
static assert(__traits(compiles, iNegInfInterval.intersects(posInfInterval)));
static assert(__traits(compiles, iNegInfInterval.intersects(cPosInfInterval)));
static assert(__traits(compiles, iNegInfInterval.intersects(iPosInfInterval)));
static assert(__traits(compiles, iNegInfInterval.intersects(negInfInterval)));
static assert(__traits(compiles, iNegInfInterval.intersects(cNegInfInterval)));
static assert(__traits(compiles, iNegInfInterval.intersects(iNegInfInterval)));
//Verify Examples.
assert(NegInfInterval!Date(Date(2012, 3, 1)).intersects(Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(NegInfInterval!Date(Date(2012, 3, 1)).intersects(Interval!Date(Date(1999, 1, 12), Date(2011, 9, 17))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).intersects(Interval!Date(Date(2022, 10, 19), Date(2027, 6, 3))));
assert(NegInfInterval!Date(Date(2012, 3, 1)).intersects(PosInfInterval!Date(Date(1999, 5, 4))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).intersects(PosInfInterval!Date(Date(2012, 3, 1))));
assert(NegInfInterval!Date(Date(2012, 3, 1)).intersects(NegInfInterval!Date(Date(1996, 5, 4))));
assert(NegInfInterval!Date(Date(2012, 3, 1)).intersects(NegInfInterval!Date(Date(2013, 7, 9))));
}
}
//Test NegInfInterval's intersection().
unittest
{
version(testStdDateTime)
{
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static void testInterval(I, J)(in I interval1, in J interval2)
{
interval1.intersection(interval2);
}
assertThrown!DateTimeException(testInterval(negInfInterval, Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assertThrown!DateTimeException(testInterval(negInfInterval, Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8))));
assertThrown!DateTimeException(testInterval(negInfInterval, Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9))));
assertThrown!DateTimeException(testInterval(negInfInterval, PosInfInterval!Date(Date(2012, 1, 7))));
assertThrown!DateTimeException(testInterval(negInfInterval, PosInfInterval!Date(Date(2012, 1, 8))));
_assertPred!"=="(negInfInterval.intersection(negInfInterval),
negInfInterval);
_assertPred!"=="(negInfInterval.intersection(Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3))),
Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3)));
_assertPred!"=="(negInfInterval.intersection(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3))),
Interval!Date(Date(2010, 7, 1), Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.intersection(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4))),
Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4)));
_assertPred!"=="(negInfInterval.intersection(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5))),
Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5)));
_assertPred!"=="(negInfInterval.intersection(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7))),
Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.intersection(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8))),
Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.intersection(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6))),
Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6)));
_assertPred!"=="(negInfInterval.intersection(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7))),
Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.intersection(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7))),
Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.intersection(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8))),
Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.intersection(NegInfInterval!Date(Date(2010, 7, 3))),
NegInfInterval!Date(Date(2010, 7, 3)));
_assertPred!"=="(negInfInterval.intersection(NegInfInterval!Date(Date(2010, 7, 4))),
NegInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(negInfInterval.intersection(NegInfInterval!Date(Date(2010, 7, 5))),
NegInfInterval!Date(Date(2010, 7, 5)));
_assertPred!"=="(negInfInterval.intersection(NegInfInterval!Date(Date(2012, 1, 6))),
NegInfInterval!Date(Date(2012, 1, 6)));
_assertPred!"=="(negInfInterval.intersection(NegInfInterval!Date(Date(2012, 1, 7))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.intersection(NegInfInterval!Date(Date(2012, 1, 8))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(NegInfInterval!Date(Date(2010, 7, 3)).intersection(negInfInterval),
NegInfInterval!Date(Date(2010, 7, 3)));
_assertPred!"=="(NegInfInterval!Date(Date(2010, 7, 4)).intersection(negInfInterval),
NegInfInterval!Date(Date(2010, 7, 4)));
_assertPred!"=="(NegInfInterval!Date(Date(2010, 7, 5)).intersection(negInfInterval),
NegInfInterval!Date(Date(2010, 7, 5)));
_assertPred!"=="(NegInfInterval!Date(Date(2012, 1, 6)).intersection(negInfInterval),
NegInfInterval!Date(Date(2012, 1, 6)));
_assertPred!"=="(NegInfInterval!Date(Date(2012, 1, 7)).intersection(negInfInterval),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(NegInfInterval!Date(Date(2012, 1, 8)).intersection(negInfInterval),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.intersection(PosInfInterval!Date(Date(2010, 7, 3))),
Interval!Date(Date(2010, 7, 3), Date(2012, 1 ,7)));
_assertPred!"=="(negInfInterval.intersection(PosInfInterval!Date(Date(2010, 7, 4))),
Interval!Date(Date(2010, 7, 4), Date(2012, 1 ,7)));
_assertPred!"=="(negInfInterval.intersection(PosInfInterval!Date(Date(2010, 7, 5))),
Interval!Date(Date(2010, 7, 5), Date(2012, 1 ,7)));
_assertPred!"=="(negInfInterval.intersection(PosInfInterval!Date(Date(2012, 1, 6))),
Interval!Date(Date(2012, 1, 6), Date(2012, 1 ,7)));
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, negInfInterval.intersection(interval)));
static assert(__traits(compiles, negInfInterval.intersection(cInterval)));
static assert(__traits(compiles, negInfInterval.intersection(iInterval)));
static assert(__traits(compiles, negInfInterval.intersection(posInfInterval)));
static assert(__traits(compiles, negInfInterval.intersection(cPosInfInterval)));
static assert(__traits(compiles, negInfInterval.intersection(iPosInfInterval)));
static assert(__traits(compiles, negInfInterval.intersection(negInfInterval)));
static assert(__traits(compiles, negInfInterval.intersection(cNegInfInterval)));
static assert(__traits(compiles, negInfInterval.intersection(iNegInfInterval)));
static assert(__traits(compiles, cNegInfInterval.intersection(interval)));
static assert(__traits(compiles, cNegInfInterval.intersection(cInterval)));
static assert(__traits(compiles, cNegInfInterval.intersection(iInterval)));
static assert(__traits(compiles, cNegInfInterval.intersection(posInfInterval)));
static assert(__traits(compiles, cNegInfInterval.intersection(cPosInfInterval)));
static assert(__traits(compiles, cNegInfInterval.intersection(iPosInfInterval)));
static assert(__traits(compiles, cNegInfInterval.intersection(negInfInterval)));
static assert(__traits(compiles, cNegInfInterval.intersection(cNegInfInterval)));
static assert(__traits(compiles, cNegInfInterval.intersection(iNegInfInterval)));
static assert(__traits(compiles, iNegInfInterval.intersection(interval)));
static assert(__traits(compiles, iNegInfInterval.intersection(cInterval)));
static assert(__traits(compiles, iNegInfInterval.intersection(iInterval)));
static assert(__traits(compiles, iNegInfInterval.intersection(posInfInterval)));
static assert(__traits(compiles, iNegInfInterval.intersection(cPosInfInterval)));
static assert(__traits(compiles, iNegInfInterval.intersection(iPosInfInterval)));
static assert(__traits(compiles, iNegInfInterval.intersection(negInfInterval)));
static assert(__traits(compiles, iNegInfInterval.intersection(cNegInfInterval)));
static assert(__traits(compiles, iNegInfInterval.intersection(iNegInfInterval)));
//Verify Examples.
assert(NegInfInterval!Date(Date(2012, 3, 1)).intersection(Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))) == Interval!Date(Date(1990, 7 , 6), Date(2000, 8, 2)));
assert(NegInfInterval!Date(Date(2012, 3, 1)).intersection(Interval!Date(Date(1999, 1, 12), Date(2015, 9, 2))) == Interval!Date(Date(1999, 1 , 12), Date(2012, 3, 1)));
assert(NegInfInterval!Date(Date(2012, 3, 1)).intersection(PosInfInterval!Date(Date(1990, 7, 6))) == Interval!Date(Date(1990, 7 , 6), Date(2012, 3, 1)));
assert(NegInfInterval!Date(Date(2012, 3, 1)).intersection(PosInfInterval!Date(Date(1999, 1, 12))) == Interval!Date(Date(1999, 1 , 12), Date(2012, 3, 1)));
assert(NegInfInterval!Date(Date(2012, 3, 1)).intersection(NegInfInterval!Date(Date(1999, 7, 6))) == NegInfInterval!Date(Date(1999, 7 , 6)));
assert(NegInfInterval!Date(Date(2012, 3, 1)).intersection(NegInfInterval!Date(Date(2013, 1, 12))) == NegInfInterval!Date(Date(2012, 3 , 1)));
}
}
//Test NegInfInterval's isAdjacent().
unittest
{
version(testStdDateTime)
{
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static void testInterval(in NegInfInterval!Date negInfInterval, in Interval!Date interval)
{
negInfInterval.isAdjacent(interval);
}
assertThrown!DateTimeException(testInterval(negInfInterval, Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assert(!negInfInterval.isAdjacent(negInfInterval));
assert(!negInfInterval.isAdjacent(Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3))));
assert(!negInfInterval.isAdjacent(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3))));
assert(!negInfInterval.isAdjacent(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4))));
assert(!negInfInterval.isAdjacent(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5))));
assert(!negInfInterval.isAdjacent(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7))));
assert(!negInfInterval.isAdjacent(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8))));
assert(!negInfInterval.isAdjacent(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6))));
assert(!negInfInterval.isAdjacent(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7))));
assert(!negInfInterval.isAdjacent(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7))));
assert(!negInfInterval.isAdjacent(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8))));
assert(negInfInterval.isAdjacent(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8))));
assert(!negInfInterval.isAdjacent(Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9))));
assert(!negInfInterval.isAdjacent(NegInfInterval!Date(Date(2010, 7, 3))));
assert(!negInfInterval.isAdjacent(NegInfInterval!Date(Date(2010, 7, 4))));
assert(!negInfInterval.isAdjacent(NegInfInterval!Date(Date(2010, 7, 5))));
assert(!negInfInterval.isAdjacent(NegInfInterval!Date(Date(2012, 1, 6))));
assert(!negInfInterval.isAdjacent(NegInfInterval!Date(Date(2012, 1, 7))));
assert(!negInfInterval.isAdjacent(NegInfInterval!Date(Date(2012, 1, 8))));
assert(!NegInfInterval!Date(Date(2010, 7, 3)).isAdjacent(negInfInterval));
assert(!NegInfInterval!Date(Date(2010, 7, 4)).isAdjacent(negInfInterval));
assert(!NegInfInterval!Date(Date(2010, 7, 5)).isAdjacent(negInfInterval));
assert(!NegInfInterval!Date(Date(2012, 1, 6)).isAdjacent(negInfInterval));
assert(!NegInfInterval!Date(Date(2012, 1, 7)).isAdjacent(negInfInterval));
assert(!NegInfInterval!Date(Date(2012, 1, 8)).isAdjacent(negInfInterval));
assert(!negInfInterval.isAdjacent(PosInfInterval!Date(Date(2010, 7, 3))));
assert(!negInfInterval.isAdjacent(PosInfInterval!Date(Date(2010, 7, 4))));
assert(!negInfInterval.isAdjacent(PosInfInterval!Date(Date(2010, 7, 5))));
assert(!negInfInterval.isAdjacent(PosInfInterval!Date(Date(2012, 1, 6))));
assert(negInfInterval.isAdjacent(PosInfInterval!Date(Date(2012, 1, 7))));
assert(!negInfInterval.isAdjacent(PosInfInterval!Date(Date(2012, 1, 8))));
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, negInfInterval.isAdjacent(interval)));
static assert(__traits(compiles, negInfInterval.isAdjacent(cInterval)));
static assert(__traits(compiles, negInfInterval.isAdjacent(iInterval)));
static assert(__traits(compiles, negInfInterval.isAdjacent(posInfInterval)));
static assert(__traits(compiles, negInfInterval.isAdjacent(cPosInfInterval)));
static assert(__traits(compiles, negInfInterval.isAdjacent(iPosInfInterval)));
static assert(__traits(compiles, negInfInterval.isAdjacent(negInfInterval)));
static assert(__traits(compiles, negInfInterval.isAdjacent(cNegInfInterval)));
static assert(__traits(compiles, negInfInterval.isAdjacent(iNegInfInterval)));
static assert(__traits(compiles, cNegInfInterval.isAdjacent(interval)));
static assert(__traits(compiles, cNegInfInterval.isAdjacent(cInterval)));
static assert(__traits(compiles, cNegInfInterval.isAdjacent(iInterval)));
static assert(__traits(compiles, cNegInfInterval.isAdjacent(posInfInterval)));
static assert(__traits(compiles, cNegInfInterval.isAdjacent(cPosInfInterval)));
static assert(__traits(compiles, cNegInfInterval.isAdjacent(iPosInfInterval)));
static assert(__traits(compiles, cNegInfInterval.isAdjacent(negInfInterval)));
static assert(__traits(compiles, cNegInfInterval.isAdjacent(cNegInfInterval)));
static assert(__traits(compiles, cNegInfInterval.isAdjacent(iNegInfInterval)));
static assert(__traits(compiles, iNegInfInterval.isAdjacent(interval)));
static assert(__traits(compiles, iNegInfInterval.isAdjacent(cInterval)));
static assert(__traits(compiles, iNegInfInterval.isAdjacent(iInterval)));
static assert(__traits(compiles, iNegInfInterval.isAdjacent(posInfInterval)));
static assert(__traits(compiles, iNegInfInterval.isAdjacent(cPosInfInterval)));
static assert(__traits(compiles, iNegInfInterval.isAdjacent(iPosInfInterval)));
static assert(__traits(compiles, iNegInfInterval.isAdjacent(negInfInterval)));
static assert(__traits(compiles, iNegInfInterval.isAdjacent(cNegInfInterval)));
static assert(__traits(compiles, iNegInfInterval.isAdjacent(iNegInfInterval)));
//Verify Examples.
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAdjacent(Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAdjacent(Interval!Date(Date(1999, 1, 12), Date(2012, 3, 1))));
assert(NegInfInterval!Date(Date(2012, 3, 1)).isAdjacent(Interval!Date(Date(2012, 3, 1), Date(2019, 2, 2))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAdjacent(Interval!Date(Date(2022, 10, 19), Date(2027, 6, 3))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAdjacent(PosInfInterval!Date(Date(1999, 5, 4))));
assert(NegInfInterval!Date(Date(2012, 3, 1)).isAdjacent(PosInfInterval!Date(Date(2012, 3, 1))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAdjacent(NegInfInterval!Date(Date(1996, 5, 4))));
assert(!NegInfInterval!Date(Date(2012, 3, 1)).isAdjacent(NegInfInterval!Date(Date(2012, 3, 1))));
}
}
//Test NegInfInterval's merge().
unittest
{
version(testStdDateTime)
{
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static void testInterval(I, J)(in I interval1, in J interval2)
{
interval1.merge(interval2);
}
assertThrown!DateTimeException(testInterval(negInfInterval, Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
assertThrown!DateTimeException(testInterval(negInfInterval, Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9))));
_assertPred!"=="(negInfInterval.merge(negInfInterval),
negInfInterval);
_assertPred!"=="(negInfInterval.merge(Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.merge(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3))),
NegInfInterval!Date(Date(2013, 7, 3)));
_assertPred!"=="(negInfInterval.merge(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.merge(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.merge(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.merge(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8))),
NegInfInterval!Date(Date(2012, 1, 8)));
_assertPred!"=="(negInfInterval.merge(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.merge(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.merge(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.merge(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8))),
NegInfInterval!Date(Date(2012, 1, 8)));
_assertPred!"=="(negInfInterval.merge(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8))),
NegInfInterval!Date(Date(2012, 1, 8)));
_assertPred!"=="(negInfInterval.merge(NegInfInterval!Date(Date(2010, 7, 3))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.merge(NegInfInterval!Date(Date(2010, 7, 4))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.merge(NegInfInterval!Date(Date(2010, 7, 5))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.merge(NegInfInterval!Date(Date(2012, 1, 6))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.merge(NegInfInterval!Date(Date(2012, 1, 7))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.merge(NegInfInterval!Date(Date(2012, 1, 8))),
NegInfInterval!Date(Date(2012, 1, 8)));
_assertPred!"=="(NegInfInterval!Date(Date(2010, 7, 3)).merge(negInfInterval),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(NegInfInterval!Date(Date(2010, 7, 4)).merge(negInfInterval),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(NegInfInterval!Date(Date(2010, 7, 5)).merge(negInfInterval),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(NegInfInterval!Date(Date(2012, 1, 6)).merge(negInfInterval),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(NegInfInterval!Date(Date(2012, 1, 7)).merge(negInfInterval),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(NegInfInterval!Date(Date(2012, 1, 8)).merge(negInfInterval),
NegInfInterval!Date(Date(2012, 1, 8)));
static assert(!__traits(compiles, negInfInterval.merge(PosInfInterval!Date(Date(2010, 7, 3)))));
static assert(!__traits(compiles, negInfInterval.merge(PosInfInterval!Date(Date(2010, 7, 4)))));
static assert(!__traits(compiles, negInfInterval.merge(PosInfInterval!Date(Date(2010, 7, 5)))));
static assert(!__traits(compiles, negInfInterval.merge(PosInfInterval!Date(Date(2012, 1, 6)))));
static assert(!__traits(compiles, negInfInterval.merge(PosInfInterval!Date(Date(2012, 1, 7)))));
static assert(!__traits(compiles, negInfInterval.merge(PosInfInterval!Date(Date(2012, 1, 8)))));
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, negInfInterval.merge(interval)));
static assert(__traits(compiles, negInfInterval.merge(cInterval)));
static assert(__traits(compiles, negInfInterval.merge(iInterval)));
static assert(!__traits(compiles, negInfInterval.merge(posInfInterval)));
static assert(!__traits(compiles, negInfInterval.merge(cPosInfInterval)));
static assert(!__traits(compiles, negInfInterval.merge(iPosInfInterval)));
static assert(__traits(compiles, negInfInterval.merge(negInfInterval)));
static assert(__traits(compiles, negInfInterval.merge(cNegInfInterval)));
static assert(__traits(compiles, negInfInterval.merge(iNegInfInterval)));
static assert(__traits(compiles, cNegInfInterval.merge(interval)));
static assert(__traits(compiles, cNegInfInterval.merge(cInterval)));
static assert(__traits(compiles, cNegInfInterval.merge(iInterval)));
static assert(!__traits(compiles, cNegInfInterval.merge(posInfInterval)));
static assert(!__traits(compiles, cNegInfInterval.merge(cPosInfInterval)));
static assert(!__traits(compiles, cNegInfInterval.merge(iPosInfInterval)));
static assert(__traits(compiles, cNegInfInterval.merge(negInfInterval)));
static assert(__traits(compiles, cNegInfInterval.merge(cNegInfInterval)));
static assert(__traits(compiles, cNegInfInterval.merge(iNegInfInterval)));
static assert(__traits(compiles, iNegInfInterval.merge(interval)));
static assert(__traits(compiles, iNegInfInterval.merge(cInterval)));
static assert(__traits(compiles, iNegInfInterval.merge(iInterval)));
static assert(!__traits(compiles, iNegInfInterval.merge(posInfInterval)));
static assert(!__traits(compiles, iNegInfInterval.merge(cPosInfInterval)));
static assert(!__traits(compiles, iNegInfInterval.merge(iPosInfInterval)));
static assert(__traits(compiles, iNegInfInterval.merge(negInfInterval)));
static assert(__traits(compiles, iNegInfInterval.merge(cNegInfInterval)));
static assert(__traits(compiles, iNegInfInterval.merge(iNegInfInterval)));
//Verify Examples.
assert(NegInfInterval!Date(Date(2012, 3, 1)).merge(Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))) == NegInfInterval!Date(Date(2012, 3 , 1)));
assert(NegInfInterval!Date(Date(2012, 3, 1)).merge(Interval!Date(Date(1999, 1, 12), Date(2015, 9, 2))) == NegInfInterval!Date(Date(2015, 9 , 2)));
assert(NegInfInterval!Date(Date(2012, 3, 1)).merge(NegInfInterval!Date(Date(1999, 7, 6))) == NegInfInterval!Date(Date(2012, 3 , 1)));
assert(NegInfInterval!Date(Date(2012, 3, 1)).merge(NegInfInterval!Date(Date(2013, 1, 12))) == NegInfInterval!Date(Date(2013, 1 , 12)));
}
}
//Test NegInfInterval's span().
unittest
{
version(testStdDateTime)
{
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static void testInterval(I, J)(in I interval1, in J interval2)
{
interval1.span(interval2);
}
assertThrown!DateTimeException(testInterval(negInfInterval, Interval!Date(Date(2010, 7, 4), dur!"days"(0))));
_assertPred!"=="(negInfInterval.span(negInfInterval),
negInfInterval);
_assertPred!"=="(negInfInterval.span(Interval!Date(Date(2010, 7, 1), Date(2010, 7, 3))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.span(Interval!Date(Date(2010, 7, 1), Date(2013, 7, 3))),
NegInfInterval!Date(Date(2013, 7, 3)));
_assertPred!"=="(negInfInterval.span(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 4))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.span(Interval!Date(Date(2010, 7, 3), Date(2010, 7, 5))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.span(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 7))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.span(Interval!Date(Date(2010, 7, 3), Date(2012, 1, 8))),
NegInfInterval!Date(Date(2012, 1, 8)));
_assertPred!"=="(negInfInterval.span(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 6))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.span(Interval!Date(Date(2010, 7, 5), Date(2012, 1, 7))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.span(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 7))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.span(Interval!Date(Date(2012, 1, 6), Date(2012, 1, 8))),
NegInfInterval!Date(Date(2012, 1, 8)));
_assertPred!"=="(negInfInterval.span(Interval!Date(Date(2012, 1, 7), Date(2012, 1, 8))),
NegInfInterval!Date(Date(2012, 1, 8)));
_assertPred!"=="(negInfInterval.span(Interval!Date(Date(2012, 1, 8), Date(2012, 1, 9))),
NegInfInterval!Date(Date(2012, 1, 9)));
_assertPred!"=="(negInfInterval.span(NegInfInterval!Date(Date(2010, 7, 3))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.span(NegInfInterval!Date(Date(2010, 7, 4))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.span(NegInfInterval!Date(Date(2010, 7, 5))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.span(NegInfInterval!Date(Date(2012, 1, 6))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.span(NegInfInterval!Date(Date(2012, 1, 7))),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(negInfInterval.span(NegInfInterval!Date(Date(2012, 1, 8))),
NegInfInterval!Date(Date(2012, 1, 8)));
_assertPred!"=="(NegInfInterval!Date(Date(2010, 7, 3)).span(negInfInterval),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(NegInfInterval!Date(Date(2010, 7, 4)).span(negInfInterval),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(NegInfInterval!Date(Date(2010, 7, 5)).span(negInfInterval),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(NegInfInterval!Date(Date(2012, 1, 6)).span(negInfInterval),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(NegInfInterval!Date(Date(2012, 1, 7)).span(negInfInterval),
NegInfInterval!Date(Date(2012, 1, 7)));
_assertPred!"=="(NegInfInterval!Date(Date(2012, 1, 8)).span(negInfInterval),
NegInfInterval!Date(Date(2012, 1, 8)));
static assert(!__traits(compiles, negInfInterval.span(PosInfInterval!Date(Date(2010, 7, 3)))));
static assert(!__traits(compiles, negInfInterval.span(PosInfInterval!Date(Date(2010, 7, 4)))));
static assert(!__traits(compiles, negInfInterval.span(PosInfInterval!Date(Date(2010, 7, 5)))));
static assert(!__traits(compiles, negInfInterval.span(PosInfInterval!Date(Date(2012, 1, 6)))));
static assert(!__traits(compiles, negInfInterval.span(PosInfInterval!Date(Date(2012, 1, 7)))));
static assert(!__traits(compiles, negInfInterval.span(PosInfInterval!Date(Date(2012, 1, 8)))));
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
const cInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
immutable iInterval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
const cPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
immutable iPosInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, negInfInterval.span(interval)));
static assert(__traits(compiles, negInfInterval.span(cInterval)));
static assert(__traits(compiles, negInfInterval.span(iInterval)));
static assert(!__traits(compiles, negInfInterval.span(posInfInterval)));
static assert(!__traits(compiles, negInfInterval.span(cPosInfInterval)));
static assert(!__traits(compiles, negInfInterval.span(iPosInfInterval)));
static assert(__traits(compiles, negInfInterval.span(negInfInterval)));
static assert(__traits(compiles, negInfInterval.span(cNegInfInterval)));
static assert(__traits(compiles, negInfInterval.span(iNegInfInterval)));
static assert(__traits(compiles, cNegInfInterval.span(interval)));
static assert(__traits(compiles, cNegInfInterval.span(cInterval)));
static assert(__traits(compiles, cNegInfInterval.span(iInterval)));
static assert(!__traits(compiles, cNegInfInterval.span(posInfInterval)));
static assert(!__traits(compiles, cNegInfInterval.span(cPosInfInterval)));
static assert(!__traits(compiles, cNegInfInterval.span(iPosInfInterval)));
static assert(__traits(compiles, cNegInfInterval.span(negInfInterval)));
static assert(__traits(compiles, cNegInfInterval.span(cNegInfInterval)));
static assert(__traits(compiles, cNegInfInterval.span(iNegInfInterval)));
static assert(__traits(compiles, iNegInfInterval.span(interval)));
static assert(__traits(compiles, iNegInfInterval.span(cInterval)));
static assert(__traits(compiles, iNegInfInterval.span(iInterval)));
static assert(!__traits(compiles, iNegInfInterval.span(posInfInterval)));
static assert(!__traits(compiles, iNegInfInterval.span(cPosInfInterval)));
static assert(!__traits(compiles, iNegInfInterval.span(iPosInfInterval)));
static assert(__traits(compiles, iNegInfInterval.span(negInfInterval)));
static assert(__traits(compiles, iNegInfInterval.span(cNegInfInterval)));
static assert(__traits(compiles, iNegInfInterval.span(iNegInfInterval)));
//Verify Examples.
assert(NegInfInterval!Date(Date(2012, 3, 1)).span(Interval!Date(Date(1990, 7, 6), Date(2000, 8, 2))) == NegInfInterval!Date(Date(2012, 3 , 1)));
assert(NegInfInterval!Date(Date(2012, 3, 1)).span(Interval!Date(Date(1999, 1, 12), Date(2015, 9, 2))) == NegInfInterval!Date(Date(2015, 9 , 2)));
assert(NegInfInterval!Date(Date(1600, 1, 7)).span(Interval!Date(Date(2012, 3, 11), Date(2017, 7, 1))) == NegInfInterval!Date(Date(2017, 7 , 1)));
assert(NegInfInterval!Date(Date(2012, 3, 1)).span(NegInfInterval!Date(Date(1999, 7, 6))) == NegInfInterval!Date(Date(2012, 3 , 1)));
assert(NegInfInterval!Date(Date(2012, 3, 1)).span(NegInfInterval!Date(Date(2013, 1, 12))) == NegInfInterval!Date(Date(2013, 1 , 12)));
}
}
//Test NegInfInterval's shift().
unittest
{
version(testStdDateTime)
{
auto interval = NegInfInterval!Date(Date(2012, 1, 7));
static void testInterval(I)(I interval, in Duration duration, in I expected, size_t line = __LINE__)
{
interval.shift(duration);
_assertPred!"=="(interval, expected, "", __FILE__, line);
}
testInterval(interval, dur!"days"(22), NegInfInterval!Date(Date(2012, 1, 29)));
testInterval(interval, dur!"days"(-22), NegInfInterval!Date(Date(2011, 12, 16)));
const cInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(!__traits(compiles, cInterval.shift(dur!"days"(5))));
static assert(!__traits(compiles, iInterval.shift(dur!"days"(5))));
//Verify Examples.
auto interval1 = NegInfInterval!Date(Date(2012, 4, 5));
auto interval2 = NegInfInterval!Date(Date(2012, 4, 5));
interval1.shift(dur!"days"(50));
assert(interval1 == NegInfInterval!Date(Date(2012, 5, 25)));
interval2.shift(dur!"days"(-50));
assert(interval2 == NegInfInterval!Date( Date(2012, 2, 15)));
}
}
//Test NegInfInterval's shift(int, int, AllowDayOverflow).
unittest
{
version(testStdDateTime)
{
{
auto interval = NegInfInterval!Date(Date(2012, 1, 7));
static void testIntervalFail(I)(I interval, int years, int months)
{
interval.shift(years, months);
}
static void testInterval(I)(I interval, int years, int months, AllowDayOverflow allow, in I expected, size_t line = __LINE__)
{
interval.shift(years, months, allow);
_assertPred!"=="(interval, expected, "", __FILE__, line);
}
testInterval(interval, 5, 0, AllowDayOverflow.yes, NegInfInterval!Date(Date(2017, 1, 7)));
testInterval(interval, -5, 0, AllowDayOverflow.yes, NegInfInterval!Date(Date(2007, 1, 7)));
auto interval2 = NegInfInterval!Date(Date(2010, 5, 31));
testInterval(interval2, 1, 1, AllowDayOverflow.yes, NegInfInterval!Date(Date(2011, 7, 1)));
testInterval(interval2, 1, -1, AllowDayOverflow.yes, NegInfInterval!Date(Date(2011, 5, 1)));
testInterval(interval2, -1, -1, AllowDayOverflow.yes, NegInfInterval!Date(Date(2009, 5, 1)));
testInterval(interval2, -1, 1, AllowDayOverflow.yes, NegInfInterval!Date(Date(2009, 7, 1)));
testInterval(interval2, 1, 1, AllowDayOverflow.no, NegInfInterval!Date(Date(2011, 6, 30)));
testInterval(interval2, 1, -1, AllowDayOverflow.no, NegInfInterval!Date(Date(2011, 4, 30)));
testInterval(interval2, -1, -1, AllowDayOverflow.no, NegInfInterval!Date(Date(2009, 4, 30)));
testInterval(interval2, -1, 1, AllowDayOverflow.no, NegInfInterval!Date(Date(2009, 6, 30)));
}
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(!__traits(compiles, cNegInfInterval.shift(1)));
static assert(!__traits(compiles, iNegInfInterval.shift(1)));
//Verify Examples.
auto interval1 = NegInfInterval!Date(Date(2012, 3, 1));
auto interval2 = NegInfInterval!Date(Date(2012, 3, 1));
interval1.shift(2);
assert(interval1 == NegInfInterval!Date(Date(2014, 3, 1)));
interval2.shift(-2);
assert(interval2 == NegInfInterval!Date(Date(2010, 3, 1)));
}
}
//Test NegInfInterval's expand().
unittest
{
version(testStdDateTime)
{
auto interval = NegInfInterval!Date(Date(2012, 1, 7));
static void testInterval(I)(I interval, in Duration duration, in I expected, size_t line = __LINE__)
{
interval.expand(duration);
_assertPred!"=="(interval, expected, "", __FILE__, line);
}
testInterval(interval, dur!"days"(22), NegInfInterval!Date(Date(2012, 1, 29)));
testInterval(interval, dur!"days"(-22), NegInfInterval!Date(Date(2011, 12, 16)));
const cInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(!__traits(compiles, cInterval.expand(dur!"days"(5))));
static assert(!__traits(compiles, iInterval.expand(dur!"days"(5))));
//Verify Examples.
auto interval1 = NegInfInterval!Date(Date(2012, 3, 1));
auto interval2 = NegInfInterval!Date(Date(2012, 3, 1));
interval1.expand(dur!"days"(2));
assert(interval1 == NegInfInterval!Date(Date(2012, 3, 3)));
interval2.expand(dur!"days"(-2));
assert(interval2 == NegInfInterval!Date(Date(2012, 2, 28)));
}
}
//Test NegInfInterval's expand(int, int, AllowDayOverflow).
unittest
{
version(testStdDateTime)
{
{
auto interval = NegInfInterval!Date(Date(2012, 1, 7));
static void testInterval(I)(I interval, int years, int months, AllowDayOverflow allow, in I expected, size_t line = __LINE__)
{
interval.expand(years, months, allow);
_assertPred!"=="(interval, expected, "", __FILE__, line);
}
testInterval(interval, 5, 0, AllowDayOverflow.yes, NegInfInterval!Date(Date(2017, 1, 7)));
testInterval(interval, -5, 0, AllowDayOverflow.yes, NegInfInterval!Date(Date(2007, 1, 7)));
auto interval2 = NegInfInterval!Date(Date(2010, 5, 31));
testInterval(interval2, 1, 1, AllowDayOverflow.yes, NegInfInterval!Date(Date(2011, 7, 1)));
testInterval(interval2, 1, -1, AllowDayOverflow.yes, NegInfInterval!Date(Date(2011, 5, 1)));
testInterval(interval2, -1, -1, AllowDayOverflow.yes, NegInfInterval!Date(Date(2009, 5, 1)));
testInterval(interval2, -1, 1, AllowDayOverflow.yes, NegInfInterval!Date(Date(2009, 7, 1)));
testInterval(interval2, 1, 1, AllowDayOverflow.no, NegInfInterval!Date(Date(2011, 6, 30)));
testInterval(interval2, 1, -1, AllowDayOverflow.no, NegInfInterval!Date(Date(2011, 4, 30)));
testInterval(interval2, -1, -1, AllowDayOverflow.no, NegInfInterval!Date(Date(2009, 4, 30)));
testInterval(interval2, -1, 1, AllowDayOverflow.no, NegInfInterval!Date( Date(2009, 6, 30)));
}
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(!__traits(compiles, cNegInfInterval.expand(1)));
static assert(!__traits(compiles, iNegInfInterval.expand(1)));
//Verify Examples.
auto interval1 = NegInfInterval!Date(Date(2012, 3, 1));
auto interval2 = NegInfInterval!Date(Date(2012, 3, 1));
interval1.expand(2);
assert(interval1 == NegInfInterval!Date(Date(2014, 3, 1)));
interval2.expand(-2);
assert(interval2 == NegInfInterval!Date(Date(2010, 3, 1)));
}
}
//Test NegInfInterval's bwdRange().
unittest
{
version(testStdDateTime)
{
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static void testInterval(NegInfInterval!Date negInfInterval)
{
negInfInterval.bwdRange(everyDayOfWeek!(Date, Direction.fwd)(DayOfWeek.fri)).popFront();
}
assertThrown!DateTimeException(testInterval(negInfInterval));
_assertPred!"=="(NegInfInterval!Date(Date(2010, 10, 1)).bwdRange(everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.fri)).front,
Date(2010, 10, 1));
_assertPred!"=="(NegInfInterval!Date(Date(2010, 10, 1)).bwdRange(everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.fri), PopFirst.yes).front,
Date(2010, 9, 24));
//Verify Examples.
auto interval = NegInfInterval!Date(Date(2010, 9, 9));
auto func = (in Date date)
{
if((date.day & 1) == 0)
return date - dur!"days"(2);
return date - dur!"days"(1);
};
auto range = interval.bwdRange(func);
//An odd day. Using PopFirst.yes would have made this Date(2010, 9, 8).
assert(range.front == Date(2010, 9, 9));
range.popFront();
assert(range.front == Date(2010, 9, 8));
range.popFront();
assert(range.front == Date(2010, 9, 6));
range.popFront();
assert(range.front == Date(2010, 9, 4));
range.popFront();
assert(range.front == Date(2010, 9, 2));
range.popFront();
assert(!range.empty);
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, cNegInfInterval.bwdRange(everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.fri))));
static assert(__traits(compiles, iNegInfInterval.bwdRange(everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.fri))));
}
}
//Test NegInfInterval's toString().
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(NegInfInterval!Date(Date(2012, 1, 7)).toString(), "[-∞ - 2012-Jan-07)");
const cNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
immutable iNegInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
static assert(__traits(compiles, cNegInfInterval.toString()));
static assert(__traits(compiles, iNegInfInterval.toString()));
}
}
/++
Range-generating function.
Returns a delegate which returns the next time point with the given
$(D DayOfWeek) in a range.
Using this delegate allows you to iterate over successive time points which
are all the same day of the week. e.g. passing $(D DayOfWeek.mon) to
$(D everyDayOfWeek) would result in a delegate which could be used to
iterate over all of the Mondays in a range.
Params:
dir = The direction to iterate in. If passing the return value to
$(D fwdRange), use $(D Direction.fwd). If passing it to
$(D bwdRange), use $(D Direction.bwd).
dayOfWeek = The week that each time point in the range will be.
Examples:
--------------------
auto interval = Interval!Date(Date(2010, 9, 2), Date(2010, 9, 27));
auto func = everyDayOfWeek!Date(DayOfWeek.mon);
auto range = interval.fwdRange(func);
//A Thursday. Using PopFirst.yes would have made this Date(2010, 9, 6).
assert(range.front == Date(2010, 9, 2));
range.popFront();
assert(range.front == Date(2010, 9, 6));
range.popFront();
assert(range.front == Date(2010, 9, 13));
range.popFront();
assert(range.front == Date(2010, 9, 20));
range.popFront();
assert(range.empty);
--------------------
+/
static TP delegate(in TP) everyDayOfWeek(TP, Direction dir = Direction.fwd)(DayOfWeek dayOfWeek) nothrow
if(isTimePoint!TP &&
(dir == Direction.fwd || dir == Direction.bwd) &&
__traits(hasMember, TP, "dayOfWeek") &&
!__traits(isStaticFunction, TP.dayOfWeek) &&
is(ReturnType!(TP.dayOfWeek) == DayOfWeek) &&
(functionAttributes!(TP.dayOfWeek) & FunctionAttribute.PROPERTY) &&
(functionAttributes!(TP.dayOfWeek) & FunctionAttribute.NOTHROW))
{
TP func(in TP tp)
{
TP retval = cast(TP)tp;
immutable days = daysToDayOfWeek(retval.dayOfWeek, dayOfWeek);
static if(dir == Direction.fwd)
immutable adjustedDays = days == 0 ? 7 : days;
else
immutable adjustedDays = days == 0 ? -7 : days - 7;
return retval += dur!"days"(adjustedDays);
}
return &func;
}
unittest
{
version(testStdDateTime)
{
auto funcFwd = everyDayOfWeek!Date(DayOfWeek.mon);
auto funcBwd = everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.mon);
_assertPred!"=="(funcFwd(Date(2010, 8, 28)), Date(2010, 8, 30));
_assertPred!"=="(funcFwd(Date(2010, 8, 29)), Date(2010, 8, 30));
_assertPred!"=="(funcFwd(Date(2010, 8, 30)), Date(2010, 9, 6));
_assertPred!"=="(funcFwd(Date(2010, 8, 31)), Date(2010, 9, 6));
_assertPred!"=="(funcFwd(Date(2010, 9, 1)), Date(2010, 9, 6));
_assertPred!"=="(funcFwd(Date(2010, 9, 2)), Date(2010, 9, 6));
_assertPred!"=="(funcFwd(Date(2010, 9, 3)), Date(2010, 9, 6));
_assertPred!"=="(funcFwd(Date(2010, 9, 4)), Date(2010, 9, 6));
_assertPred!"=="(funcFwd(Date(2010, 9, 5)), Date(2010, 9, 6));
_assertPred!"=="(funcFwd(Date(2010, 9, 6)), Date(2010, 9, 13));
_assertPred!"=="(funcFwd(Date(2010, 9, 7)), Date(2010, 9, 13));
_assertPred!"=="(funcBwd(Date(2010, 8, 28)), Date(2010, 8, 23));
_assertPred!"=="(funcBwd(Date(2010, 8, 29)), Date(2010, 8, 23));
_assertPred!"=="(funcBwd(Date(2010, 8, 30)), Date(2010, 8, 23));
_assertPred!"=="(funcBwd(Date(2010, 8, 31)), Date(2010, 8, 30));
_assertPred!"=="(funcBwd(Date(2010, 9, 1)), Date(2010, 8, 30));
_assertPred!"=="(funcBwd(Date(2010, 9, 2)), Date(2010, 8, 30));
_assertPred!"=="(funcBwd(Date(2010, 9, 3)), Date(2010, 8, 30));
_assertPred!"=="(funcBwd(Date(2010, 9, 4)), Date(2010, 8, 30));
_assertPred!"=="(funcBwd(Date(2010, 9, 5)), Date(2010, 8, 30));
_assertPred!"=="(funcBwd(Date(2010, 9, 6)), Date(2010, 8, 30));
_assertPred!"=="(funcBwd(Date(2010, 9, 7)), Date(2010, 9, 6));
static assert(!__traits(compiles, everyDayOfWeek!(TimeOfDay)(DayOfWeek.mon)));
static assert(__traits(compiles, everyDayOfWeek!(DateTime)(DayOfWeek.mon)));
static assert(__traits(compiles, everyDayOfWeek!(SysTime)(DayOfWeek.mon)));
//Verify Examples.
auto interval = Interval!Date(Date(2010, 9, 2), Date(2010, 9, 27));
auto func = everyDayOfWeek!Date(DayOfWeek.mon);
auto range = interval.fwdRange(func);
//A Thursday. Using PopFirst.yes would have made this Date(2010, 9, 6).
assert(range.front == Date(2010, 9, 2));
range.popFront();
assert(range.front == Date(2010, 9, 6));
range.popFront();
assert(range.front == Date(2010, 9, 13));
range.popFront();
assert(range.front == Date(2010, 9, 20));
range.popFront();
assert(range.empty);
}
}
/++
Range-generating function.
Returns a delegate which returns the next time point with the given month
which would be reached by adding months to the given time point.
So, using this delegate allows you to iterate over successive time points
which are in the same month but different years. For example, you could
iterate over each successive December 25th in an interval by starting with a
date which had the 25th as its day and passed $(D Month.dec) to
$(D everyMonth) to create the delegate.
Since it wouldn't really make sense to be iterating over a specific month
and end up with some of the time points in the succeeding month or two years
after the previous time point, $(D AllowDayOverflow.no) is always used when
calculating the next time point.
Params:
dir = The direction to iterate in. If passing the return value to
$(D fwdRange), use $(D Direction.fwd). If passing it to
$(D bwdRange), use $(D Direction.bwd).
month = The month that each time point in the range will be in.
Examples:
--------------------
auto interval = Interval!Date(Date(2000, 1, 30), Date(2004, 8, 5));
auto func = everyMonth!(Date)(Month.feb);
auto range = interval.fwdRange(func);
//Using PopFirst.yes would have made this Date(2010, 2, 29).
assert(range.front == Date(2000, 1, 30));
range.popFront();
assert(range.front == Date(2000, 2, 29));
range.popFront();
assert(range.front == Date(2001, 2, 28));
range.popFront();
assert(range.front == Date(2002, 2, 28));
range.popFront();
assert(range.front == Date(2003, 2, 28));
range.popFront();
assert(range.front == Date(2004, 2, 28));
range.popFront();
assert(range.empty);
--------------------
+/
static TP delegate(in TP) everyMonth(TP, Direction dir = Direction.fwd)(int month)
if(isTimePoint!TP &&
(dir == Direction.fwd || dir == Direction.bwd) &&
__traits(hasMember, TP, "month") &&
!__traits(isStaticFunction, TP.month) &&
is(ReturnType!(TP.month) == Month) &&
(functionAttributes!(TP.month) & FunctionAttribute.PROPERTY) &&
(functionAttributes!(TP.month) & FunctionAttribute.NOTHROW))
{
enforceValid!"months"(month);
TP func(in TP tp)
{
TP retval = cast(TP)tp;
immutable months = monthsToMonth(retval.month, month);
static if(dir == Direction.fwd)
immutable adjustedMonths = months == 0 ? 12 : months;
else
immutable adjustedMonths = months == 0 ? -12 : months - 12;
retval.add!"months"(adjustedMonths, AllowDayOverflow.no);
if(retval.month != month)
{
retval.add!"months"(-1);
assert(retval.month == month);
}
return retval;
}
return &func;
}
unittest
{
version(testStdDateTime)
{
auto funcFwd = everyMonth!Date(Month.jun);
auto funcBwd = everyMonth!(Date, Direction.bwd)(Month.jun);
_assertPred!"=="(funcFwd(Date(2010, 5, 31)), Date(2010, 6, 30));
_assertPred!"=="(funcFwd(Date(2010, 6, 30)), Date(2011, 6, 30));
_assertPred!"=="(funcFwd(Date(2010, 7, 31)), Date(2011, 6, 30));
_assertPred!"=="(funcFwd(Date(2010, 8, 31)), Date(2011, 6, 30));
_assertPred!"=="(funcFwd(Date(2010, 9, 30)), Date(2011, 6, 30));
_assertPred!"=="(funcFwd(Date(2010, 10, 31)), Date(2011, 6, 30));
_assertPred!"=="(funcFwd(Date(2010, 11, 30)), Date(2011, 6, 30));
_assertPred!"=="(funcFwd(Date(2010, 12, 31)), Date(2011, 6, 30));
_assertPred!"=="(funcFwd(Date(2011, 1, 31)), Date(2011, 6, 30));
_assertPred!"=="(funcFwd(Date(2011, 2, 28)), Date(2011, 6, 28));
_assertPred!"=="(funcFwd(Date(2011, 3, 31)), Date(2011, 6, 30));
_assertPred!"=="(funcFwd(Date(2011, 4, 30)), Date(2011, 6, 30));
_assertPred!"=="(funcFwd(Date(2011, 5, 31)), Date(2011, 6, 30));
_assertPred!"=="(funcFwd(Date(2011, 6, 30)), Date(2012, 6, 30));
_assertPred!"=="(funcFwd(Date(2011, 7, 31)), Date(2012, 6, 30));
_assertPred!"=="(funcBwd(Date(2010, 5, 31)), Date(2009, 6, 30));
_assertPred!"=="(funcBwd(Date(2010, 6, 30)), Date(2009, 6, 30));
_assertPred!"=="(funcBwd(Date(2010, 7, 31)), Date(2010, 6, 30));
_assertPred!"=="(funcBwd(Date(2010, 8, 31)), Date(2010, 6, 30));
_assertPred!"=="(funcBwd(Date(2010, 9, 30)), Date(2010, 6, 30));
_assertPred!"=="(funcBwd(Date(2010, 10, 31)), Date(2010, 6, 30));
_assertPred!"=="(funcBwd(Date(2010, 11, 30)), Date(2010, 6, 30));
_assertPred!"=="(funcBwd(Date(2010, 12, 31)), Date(2010, 6, 30));
_assertPred!"=="(funcBwd(Date(2011, 1, 31)), Date(2010, 6, 30));
_assertPred!"=="(funcBwd(Date(2011, 2, 28)), Date(2010, 6, 28));
_assertPred!"=="(funcBwd(Date(2011, 3, 31)), Date(2010, 6, 30));
_assertPred!"=="(funcBwd(Date(2011, 4, 30)), Date(2010, 6, 30));
_assertPred!"=="(funcBwd(Date(2011, 5, 31)), Date(2010, 6, 30));
_assertPred!"=="(funcBwd(Date(2011, 6, 30)), Date(2010, 6, 30));
_assertPred!"=="(funcBwd(Date(2011, 7, 30)), Date(2011, 6, 30));
static assert(!__traits(compiles, everyMonth!(TimeOfDay)(Month.jan)));
static assert(__traits(compiles, everyMonth!(DateTime)(Month.jan)));
static assert(__traits(compiles, everyMonth!(SysTime)(Month.jan)));
//Verify Examples.
auto interval = Interval!Date(Date(2000, 1, 30), Date(2004, 8, 5));
auto func = everyMonth!(Date)(Month.feb);
auto range = interval.fwdRange(func);
//Using PopFirst.yes would have made this Date(2010, 2, 29).
assert(range.front == Date(2000, 1, 30));
range.popFront();
assert(range.front == Date(2000, 2, 29));
range.popFront();
assert(range.front == Date(2001, 2, 28));
range.popFront();
assert(range.front == Date(2002, 2, 28));
range.popFront();
assert(range.front == Date(2003, 2, 28));
range.popFront();
assert(range.front == Date(2004, 2, 28));
range.popFront();
assert(range.empty);
}
}
/++
Range-generating function.
Returns a delegate which returns the next time point which is the given
duration later.
Using this delegate allows you to iterate over successive time points which
are apart by the given duration e.g. passing $(D dur!"days"(3)) to
$(D everyDuration) would result in a delegate which could be used to iterate
over a range of days which are each 3 days apart.
Params:
dir = The direction to iterate in. If passing the return value to
$(D fwdRange), use $(D Direction.fwd). If passing it to
$(D bwdRange), use $(D Direction.bwd).
duration = The duration which separates each successive time point in
the range.
Examples:
--------------------
auto interval = Interval!Date(Date(2010, 9, 2), Date(2010, 9, 27));
auto func = everyDuration!Date(dur!"days"(8));
auto range = interval.fwdRange(func);
//Using PopFirst.yes would have made this Date(2010, 9, 10).
assert(range.front == Date(2010, 9, 2));
range.popFront();
assert(range.front == Date(2010, 9, 10));
range.popFront();
assert(range.front == Date(2010, 9, 18));
range.popFront();
assert(range.front == Date(2010, 9, 26));
range.popFront();
assert(range.empty);
--------------------
+/
static TP delegate(in TP) everyDuration(TP, Direction dir = Direction.fwd, D)
(D duration) nothrow
if(isTimePoint!TP &&
__traits(compiles, TP.init + duration) &&
(dir == Direction.fwd || dir == Direction.bwd))
{
TP func(in TP tp)
{
static if(dir == Direction.fwd)
return tp + duration;
else
return tp - duration;
}
return &func;
}
unittest
{
version(testStdDateTime)
{
auto funcFwd = everyDuration!Date(dur!"days"(27));
auto funcBwd = everyDuration!(Date, Direction.bwd)(dur!"days"(27));
_assertPred!"=="(funcFwd(Date(2009, 12, 25)), Date(2010, 1, 21));
_assertPred!"=="(funcFwd(Date(2009, 12, 26)), Date(2010, 1, 22));
_assertPred!"=="(funcFwd(Date(2009, 12, 27)), Date(2010, 1, 23));
_assertPred!"=="(funcFwd(Date(2009, 12, 28)), Date(2010, 1, 24));
_assertPred!"=="(funcBwd(Date(2010, 1, 21)), Date(2009, 12, 25));
_assertPred!"=="(funcBwd(Date(2010, 1, 22)), Date(2009, 12, 26));
_assertPred!"=="(funcBwd(Date(2010, 1, 23)), Date(2009, 12, 27));
_assertPred!"=="(funcBwd(Date(2010, 1, 24)), Date(2009, 12, 28));
static assert(__traits(compiles, everyDuration!Date(dur!"hnsecs"(1))));
static assert(__traits(compiles, everyDuration!TimeOfDay(dur!"hnsecs"(1))));
static assert(__traits(compiles, everyDuration!DateTime(dur!"hnsecs"(1))));
static assert(__traits(compiles, everyDuration!SysTime(dur!"hnsecs"(1))));
//Verify Examples.
auto interval = Interval!Date(Date(2010, 9, 2), Date(2010, 9, 27));
auto func = everyDuration!Date(dur!"days"(8));
auto range = interval.fwdRange(func);
//Using PopFirst.yes would have made this Date(2010, 9, 10).
assert(range.front == Date(2010, 9, 2));
range.popFront();
assert(range.front == Date(2010, 9, 10));
range.popFront();
assert(range.front == Date(2010, 9, 18));
range.popFront();
assert(range.front == Date(2010, 9, 26));
range.popFront();
assert(range.empty);
}
}
/++
Range-generating function.
Returns a delegate which returns the next time point which is the given
number of years, month, and duration later.
The difference between this version of $(D everyDuration) and the version
which just takes a $(D Duration) is that this one also takes the number of
years and months (along with an $(D AllowDayOverflow) to indicate whether
adding years and months should allow the days to overflow).
Note that if iterating forward, $(D add!"years"()) is called on the given
time point, then $(D add!"months"()), and finally the duration is added
to it. However, if iterating backwards, the duration is added first, then
$(D add!"months"()) is called, and finally $(D add!"years"()) is called.
That way, going backwards generates close to the same time points that
iterating forward does, but since adding years and months is not entirely
reversible (due to possible day overflow, regardless of whether
$(D AllowDayOverflow.yes) or $(D AllowDayOverflow.no) is used), it can't be
guaranteed that iterating backwards will give you the same time points as
iterating forward would have (even assuming that the end of the range is a
time point which would be returned by the delegate when iterating forward
from $(D begin)).
Params:
dir = The direction to iterate in. If passing the return
value to $(D fwdRange), use $(D Direction.fwd). If
passing it to $(D bwdRange), use $(D Direction.bwd).
years = The number of years to add to the time point passed to
the delegate.
months = The number of months to add to the time point passed to
the delegate.
allowOverflow = Whether the days should be allowed to overflow on
$(D begin) and $(D end), causing their month to
increment.
duration = The duration to add to the time point passed to the
delegate.
Examples:
--------------------
auto interval = Interval!Date(Date(2010, 9, 2), Date(2025, 9, 27));
auto func = everyDuration!Date(4, 1, AllowDayOverflow.yes, dur!"days"(2));
auto range = interval.fwdRange(func);
//Using PopFirst.yes would have made this Date(2014, 10, 12).
assert(range.front == Date(2010, 9, 2));
range.popFront();
assert(range.front == Date(2014, 10, 4));
range.popFront();
assert(range.front == Date(2018, 11, 6));
range.popFront();
assert(range.front == Date(2022, 12, 8));
range.popFront();
assert(range.empty);
--------------------
+/
static TP delegate(in TP) everyDuration(TP, Direction dir = Direction.fwd, D)
(int years,
int months = 0,
AllowDayOverflow allowOverflow = AllowDayOverflow.yes,
D duration = dur!"days"(0)) nothrow
if(isTimePoint!TP &&
__traits(compiles, TP.init + duration) &&
__traits(compiles, TP.init.add!"years"(years)) &&
__traits(compiles, TP.init.add!"months"(months)) &&
(dir == Direction.fwd || dir == Direction.bwd))
{
TP func(in TP tp)
{
static if(dir == Direction.fwd)
{
TP retval = cast(TP)tp;
retval.add!"years"(years, allowOverflow);
retval.add!"months"(months, allowOverflow);
return retval + duration;
}
else
{
TP retval = tp - duration;
retval.add!"months"(-months, allowOverflow);
retval.add!"years"(-years, allowOverflow);
return retval;
}
}
return &func;
}
unittest
{
version(testStdDateTime)
{
{
auto funcFwd = everyDuration!Date(1, 2, AllowDayOverflow.yes, dur!"days"(3));
auto funcBwd = everyDuration!(Date, Direction.bwd)(1, 2, AllowDayOverflow.yes, dur!"days"(3));
_assertPred!"=="(funcFwd(Date(2009, 12, 25)), Date(2011, 2, 28));
_assertPred!"=="(funcFwd(Date(2009, 12, 26)), Date(2011, 3, 1));
_assertPred!"=="(funcFwd(Date(2009, 12, 27)), Date(2011, 3, 2));
_assertPred!"=="(funcFwd(Date(2009, 12, 28)), Date(2011, 3, 3));
_assertPred!"=="(funcFwd(Date(2009, 12, 29)), Date(2011, 3, 4));
_assertPred!"=="(funcBwd(Date(2011, 2, 28)), Date(2009, 12, 25));
_assertPred!"=="(funcBwd(Date(2011, 3, 1)), Date(2009, 12, 26));
_assertPred!"=="(funcBwd(Date(2011, 3, 2)), Date(2009, 12, 27));
_assertPred!"=="(funcBwd(Date(2011, 3, 3)), Date(2009, 12, 28));
_assertPred!"=="(funcBwd(Date(2011, 3, 4)), Date(2010, 1, 1));
}
{
auto funcFwd = everyDuration!Date(1, 2, AllowDayOverflow.no, dur!"days"(3));
auto funcBwd = everyDuration!(Date, Direction.bwd)(1, 2, AllowDayOverflow.yes, dur!"days"(3));
_assertPred!"=="(funcFwd(Date(2009, 12, 25)), Date(2011, 2, 28));
_assertPred!"=="(funcFwd(Date(2009, 12, 26)), Date(2011, 3, 1));
_assertPred!"=="(funcFwd(Date(2009, 12, 27)), Date(2011, 3, 2));
_assertPred!"=="(funcFwd(Date(2009, 12, 28)), Date(2011, 3, 3));
_assertPred!"=="(funcFwd(Date(2009, 12, 29)), Date(2011, 3, 3));
_assertPred!"=="(funcBwd(Date(2011, 2, 28)), Date(2009, 12, 25));
_assertPred!"=="(funcBwd(Date(2011, 3, 1)), Date(2009, 12, 26));
_assertPred!"=="(funcBwd(Date(2011, 3, 2)), Date(2009, 12, 27));
_assertPred!"=="(funcBwd(Date(2011, 3, 3)), Date(2009, 12, 28));
_assertPred!"=="(funcBwd(Date(2011, 3, 4)), Date(2010, 1, 1));
}
static assert(__traits(compiles, everyDuration!Date(1, 2, AllowDayOverflow.yes, dur!"hnsecs"(1))));
static assert(!__traits(compiles, everyDuration!TimeOfDay(1, 2, AllowDayOverflow.yes, dur!"hnsecs"(1))));
static assert(__traits(compiles, everyDuration!DateTime(1, 2, AllowDayOverflow.yes, dur!"hnsecs"(1))));
static assert(__traits(compiles, everyDuration!SysTime(1, 2, AllowDayOverflow.yes, dur!"hnsecs"(1))));
//Verify Examples.
auto interval = Interval!Date(Date(2010, 9, 2), Date(2025, 9, 27));
auto func = everyDuration!Date(4, 1, AllowDayOverflow.yes, dur!"days"(2));
auto range = interval.fwdRange(func);
//Using PopFirst.yes would have made this Date(2014, 10, 12).
assert(range.front == Date(2010, 9, 2));
range.popFront();
assert(range.front == Date(2014, 10, 4));
range.popFront();
assert(range.front == Date(2018, 11, 6));
range.popFront();
assert(range.front == Date(2022, 12, 8));
range.popFront();
assert(range.empty);
}
}
//TODO Add function to create a range generating function based on a date recurrence pattern string.
// This may or may not involve creating a date recurrence pattern class of some sort - probably
// yes if we want to make it easy to build them. However, there is a standard recurrence
// pattern string format which we'd want to support with a range generator (though if we have
// the class/struct, we'd probably want a version of the range generating function which took
// that rather than a string).
//==============================================================================
// Section with ranges.
//==============================================================================
/++
A range over an $(D Interval).
$(D IntervalRange) is only ever constructed by $(D Interval). However, when
it is constructed, it is given a function, $(D func), which is used to
generate the time points which are iterated over. $(D func) takes a time
point and returns a time point of the same type. So, for instance, if you
had an $(D Interval!Date), and you wanted to iterate over all of the days in
that interval, you would pass a function to $(D Interval)'s $(D fwdRange)
where that function took a $(D Date) and returned a $(D Date) which was one
day later. That function would then be used by $(D IntervalRange)'s
$(D popFront) to iterate over the $(D Date)s in the interval.
If $(D dir == Direction.fwd), then a range iterates forward in time, whereas
if $(D dir == Direction.bwd), then it iterates backwards in time. So, if
$(D dir == Direction.fwd) then $(D front == interval.begin), whereas if
$(D dir == Direction.bwd) then $(D front == interval.end). $(D func) must
generate a time point going in the proper direction of iteration, or a
$(D DateTimeException) will be thrown. So, if you're iterating forward in
time, the time point that $(D func) generates must be later in time than the
one passed to it. If it's either identical or earlier in time, then a
$(D DateTimeException) will be thrown. If you're iterating backwards, then
the generated time point must be before the time point which was passed in.
If the generated time point is ever passed the edge of the range in the
proper direction, then the edge of that range will be used instead. So, if
iterating forward, and the generated time point is past the interval's
$(D end), then $(D front) becomes $(D end). If iterating backwards, and the
generated time point is before $(D begin), then $(D front) becomes
$(D begin). In either case, the range would then be empty.
Also note that while normally the $(D begin) of an interval is included in
it and its $(D end) is excluded from it, if $(D dir == Direction.bwd), then
$(D begin) is treated as excluded and $(D end) is treated as included. This
allows for the same behavior in both directions. This works because none of
$(D Interval)'s functions which care about whether $(D begin) or $(D end) is
included or excluded are ever called by $(D IntervalRange). $(D interval)
returns a normal interval, regardless of whether $(D dir == Direction.fwd)
or if $(D dir == Direction.bwd), so any $(D Interval) functions which are
called on it which care about whether $(D begin) or $(D end) are included or
excluded will treat $(D begin) as included and $(D end) as excluded.
+/
struct IntervalRange(TP, Direction dir)
if(isTimePoint!TP && dir != Direction.both)
{
public:
/++
Params:
rhs = The $(D IntervalRange) to assign to this one.
+/
/+ref+/ IntervalRange opAssign(ref IntervalRange rhs) pure nothrow
{
_interval = rhs._interval;
_func = rhs._func;
return this;
}
/++
Whether this $(D IntervalRange) is empty.
+/
@property bool empty() const pure nothrow
{
return _interval.empty;
}
/++
The first time point in the range.
Throws:
$(D DateTimeException) if the range is empty.
+/
@property TP front() const pure
{
_enforceNotEmpty();
static if(dir == Direction.fwd)
return _interval.begin;
else
return _interval.end;
}
/++
Pops $(D front) from the range, using $(D func) to generate the next
time point in the range. If the generated time point is beyond the edge
of the range, then $(D front) is set to that edge, and the range is then
empty. So, if iterating forwards, and the generated time point is
greater than the interval's $(D end), then $(D front) is set to
$(D end). If iterating backwards, and the generated time point is less
than the interval's $(D begin), then $(D front) is set to $(D begin).
Throws:
$(D DateTimeException) if the range is empty or if the generated
time point is in the wrong direction (i.e. if you're iterating
forward and the generated time point is before $(D front), or if
you're iterating backwards, and the generated time point is after
$(D front)).
+/
void popFront()
{
_enforceNotEmpty();
static if(dir == Direction.fwd)
{
auto begin = _func(_interval.begin);
if(begin > _interval.end)
begin = _interval.end;
_enforceCorrectDirection(begin);
_interval.begin = begin;
}
else
{
auto end = _func(_interval.end);
if(end < _interval.begin)
end = _interval.begin;
_enforceCorrectDirection(end);
_interval.end = end;
}
}
/++
Returns a copy of $(D this).
+/
@property IntervalRange save() pure nothrow
{
return this;
}
/++
The interval that this $(D IntervalRange) currently covers.
+/
@property Interval!TP interval() const pure nothrow
{
return cast(Interval!TP)_interval;
}
/++
The function used to generate the next time point in the range.
+/
TP delegate(in TP) func() pure nothrow @property
{
return _func;
}
/++
The $(D Direction) that this range iterates in.
+/
@property Direction direction() const pure nothrow
{
return dir;
}
private:
/+
Params:
interval = The interval that this range covers.
func = The function used to generate the time points which are
iterated over.
+/
this(in Interval!TP interval, TP delegate(in TP) func) pure nothrow
{
_func = func;
_interval = interval;
}
/+
Throws:
$(D DateTimeException) if this interval is empty.
+/
void _enforceNotEmpty(size_t line = __LINE__) const pure
{
if(empty)
throw new DateTimeException("Invalid operation for an empty IntervalRange.", __FILE__, line);
}
/+
Throws:
$(D DateTimeException) if $(D_PARAM newTP) is in the wrong
direction.
+/
void _enforceCorrectDirection(in TP newTP, size_t line = __LINE__) const
{
static if(dir == Direction.fwd)
{
enforce(newTP > _interval._begin,
new DateTimeException(format("Generated time point is before previous begin: prev [%s] new [%s]",
interval._begin,
newTP),
__FILE__,
line));
}
else
{
enforce(newTP < _interval._end,
new DateTimeException(format("Generated time point is after previous end: prev [%s] new [%s]",
interval._end,
newTP),
__FILE__,
line));
}
}
Interval!TP _interval;
TP delegate(in TP) _func;
}
//Test that IntervalRange satisfies the range predicates that it's supposed to satisfy.
unittest
{
version(testStdDateTime)
{
static assert(isInputRange!(IntervalRange!(Date, Direction.fwd)));
static assert(isForwardRange!(IntervalRange!(Date, Direction.fwd)));
//Commented out due to bug http://d.puremagic.com/issues/show_bug.cgi?id=4895
//static assert(!isOutputRange!(IntervalRange!(Date, Direction.fwd), Date));
static assert(!isBidirectionalRange!(IntervalRange!(Date, Direction.fwd)));
static assert(!isRandomAccessRange!(IntervalRange!(Date, Direction.fwd)));
static assert(!hasSwappableElements!(IntervalRange!(Date, Direction.fwd)));
static assert(!hasAssignableElements!(IntervalRange!(Date, Direction.fwd)));
static assert(!hasLength!(IntervalRange!(Date, Direction.fwd)));
static assert(!isInfinite!(IntervalRange!(Date, Direction.fwd)));
static assert(!hasSlicing!(IntervalRange!(Date, Direction.fwd)));
static assert(is(ElementType!(IntervalRange!(Date, Direction.fwd)) == Date));
static assert(is(ElementType!(IntervalRange!(TimeOfDay, Direction.fwd)) == TimeOfDay));
static assert(is(ElementType!(IntervalRange!(DateTime, Direction.fwd)) == DateTime));
static assert(is(ElementType!(IntervalRange!(SysTime, Direction.fwd)) == SysTime));
}
}
//Test construction of IntervalRange.
unittest
{
version(testStdDateTime)
{
{
Date dateFunc(in Date date)
{
return date;
}
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
auto ir = IntervalRange!(Date, Direction.fwd)(interval, &dateFunc);
}
{
TimeOfDay todFunc(in TimeOfDay tod)
{
return tod;
}
auto interval = Interval!TimeOfDay(TimeOfDay(12, 1, 7), TimeOfDay(14, 0, 0));
auto ir = IntervalRange!(TimeOfDay, Direction.fwd)(interval, &todFunc);
}
{
DateTime dtFunc(in DateTime dt)
{
return dt;
}
auto interval = Interval!DateTime(DateTime(2010, 7, 4, 12, 1, 7), DateTime(2012, 1, 7, 14, 0, 0));
auto ir = IntervalRange!(DateTime, Direction.fwd)(interval, &dtFunc);
}
{
SysTime stFunc(in SysTime st)
{
return cast(SysTime)st;
}
auto interval = Interval!SysTime(SysTime(DateTime(2010, 7, 4, 12, 1, 7)), SysTime(DateTime(2012, 1, 7, 14, 0, 0)));
auto ir = IntervalRange!(SysTime, Direction.fwd)(interval, &stFunc);
}
}
}
//Test IntervalRange's empty().
unittest
{
version(testStdDateTime)
{
//fwd
{
auto range = Interval!Date(Date(2010, 9, 19), Date(2010, 9, 21)).fwdRange(everyDayOfWeek!Date(DayOfWeek.fri));
assert(!range.empty);
range.popFront();
assert(range.empty);
const cRange = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)).fwdRange(everyDayOfWeek!Date(DayOfWeek.fri));
static assert(__traits(compiles, cRange.empty));
//Apparently, creating an immutable IntervalRange!Date doesn't work, so we can't test if
//empty works with it. However, since an immutable range is pretty useless, it's no great loss.
}
//bwd
{
auto range = Interval!Date(Date(2010, 9, 19), Date(2010, 9, 21)).bwdRange(everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.fri));
assert(!range.empty);
range.popFront();
assert(range.empty);
const cRange = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)).bwdRange(everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.fri));
static assert(__traits(compiles, cRange.empty));
//Apparently, creating an immutable IntervalRange!Date doesn't work, so we can't test if
//empty works with it. However, since an immutable range is pretty useless, it's no great loss.
}
}
}
//Test IntervalRange's front.
unittest
{
version(testStdDateTime)
{
//fwd
{
auto emptyRange = Interval!Date(Date(2010, 9, 19), Date(2010, 9, 20)).fwdRange(everyDayOfWeek!Date(DayOfWeek.wed), PopFirst.yes);
assertThrown!DateTimeException((in IntervalRange!(Date, Direction.fwd) range){range.front;}(emptyRange));
auto range = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)).fwdRange(everyDayOfWeek!Date(DayOfWeek.wed));
_assertPred!"=="(range.front, Date(2010, 7, 4));
auto poppedRange = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)).fwdRange(everyDayOfWeek!Date(DayOfWeek.wed), PopFirst.yes);
_assertPred!"=="(poppedRange.front, Date(2010, 7, 7));
const cRange = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)).fwdRange(everyDayOfWeek!Date(DayOfWeek.fri));
static assert(__traits(compiles, cRange.front));
}
//bwd
{
auto emptyRange = Interval!Date(Date(2010, 9, 19), Date(2010, 9, 20)).bwdRange(everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.wed), PopFirst.yes);
assertThrown!DateTimeException((in IntervalRange!(Date, Direction.bwd) range){range.front;}(emptyRange));
auto range = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)).bwdRange(everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.wed));
_assertPred!"=="(range.front, Date(2012, 1, 7));
auto poppedRange = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)).bwdRange(everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.wed), PopFirst.yes);
_assertPred!"=="(poppedRange.front, Date(2012, 1, 4));
const cRange = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)).bwdRange(everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.fri));
static assert(__traits(compiles, cRange.front));
}
}
}
//Test IntervalRange's popFront().
unittest
{
version(testStdDateTime)
{
//fwd
{
auto emptyRange = Interval!Date(Date(2010, 9, 19), Date(2010, 9, 20)).fwdRange(everyDayOfWeek!Date(DayOfWeek.wed), PopFirst.yes);
assertThrown!DateTimeException((IntervalRange!(Date, Direction.fwd) range){range.popFront();}(emptyRange));
auto range = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)).fwdRange(everyDayOfWeek!Date(DayOfWeek.wed), PopFirst.yes);
auto expected = range.front;
foreach(date; range)
{
_assertPred!"=="(date, expected);
expected += dur!"days"(7);
}
_assertPred!"=="(walkLength(range), 79);
const cRange = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)).fwdRange(everyDayOfWeek!Date(DayOfWeek.fri));
static assert(__traits(compiles, cRange.front));
}
//bwd
{
auto emptyRange = Interval!Date(Date(2010, 9, 19), Date(2010, 9, 20)).bwdRange(everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.wed), PopFirst.yes);
assertThrown!DateTimeException((IntervalRange!(Date, Direction.bwd) range){range.popFront();}(emptyRange));
auto range = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)).bwdRange(everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.wed), PopFirst.yes);
auto expected = range.front;
foreach(date; range)
{
_assertPred!"=="(date, expected);
expected += dur!"days"(-7);
}
_assertPred!"=="(walkLength(range), 79);
const cRange = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7)).bwdRange(everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.fri));
static assert(!__traits(compiles, cRange.popFront()));
}
}
}
//Test IntervalRange's save.
unittest
{
version(testStdDateTime)
{
//fwd
{
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
auto func = everyDayOfWeek!Date(DayOfWeek.fri);
auto range = interval.fwdRange(func);
assert(range.save == range);
}
//bwd
{
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
auto func = everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.fri);
auto range = interval.bwdRange(func);
assert(range.save == range);
}
}
}
//Test IntervalRange's interval.
unittest
{
version(testStdDateTime)
{
//fwd
{
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
auto func = everyDayOfWeek!Date(DayOfWeek.fri);
auto range = interval.fwdRange(func);
assert(range.interval == interval);
const cRange = range;
static assert(__traits(compiles, cRange.interval));
}
//bwd
{
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
auto func = everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.fri);
auto range = interval.bwdRange(func);
assert(range.interval == interval);
const cRange = range;
static assert(__traits(compiles, cRange.interval));
}
}
}
//Test IntervalRange's func.
unittest
{
version(testStdDateTime)
{
//fwd
{
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
auto func = everyDayOfWeek!Date(DayOfWeek.fri);
auto range = interval.fwdRange(func);
assert(range.func == func);
}
//bwd
{
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
auto func = everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.fri);
auto range = interval.bwdRange(func);
assert(range.func == func);
}
}
}
//Test IntervalRange's direction.
unittest
{
version(testStdDateTime)
{
//fwd
{
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
auto func = everyDayOfWeek!Date(DayOfWeek.fri);
auto range = interval.fwdRange(func);
assert(range.direction == Direction.fwd);
const cRange = range;
static assert(__traits(compiles, cRange.direction));
}
//bwd
{
auto interval = Interval!Date(Date(2010, 7, 4), Date(2012, 1, 7));
auto func = everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.fri);
auto range = interval.bwdRange(func);
assert(range.direction == Direction.bwd);
const cRange = range;
static assert(__traits(compiles, cRange.direction));
}
}
}
/++
A range over a $(D PosInfInterval). It is an infinite range.
$(D PosInfIntervalRange) is only ever constructed by $(D PosInfInterval).
However, when it is constructed, it is given a function, $(D func), which
is used to generate the time points which are iterated over. $(D func)
takes a time point and returns a time point of the same type. So, for
instance, if you had a $(D PosInfInterval!Date), and you wanted to iterate
over all of the days in that interval, you would pass a function to
$(D PosInfInterval)'s $(D fwdRange) where that function took a $(D Date) and
returned a $(D Date) which was one day later. That function would then be
used by $(D PosInfIntervalRange)'s $(D popFront) to iterate over the
$(D Date)s in the interval - though obviously, since the range is infinite,
you would use a function such as $(D std.range.take) with it rather than
iterating over $(I all) of the dates.
As the interval goes to positive infinity, the range is always iterated over
forwards, never backwards. $(D func) must generate a time point going in
the proper direction of iteration, or a $(D DateTimeException) will be
thrown. So, the time points that $(D func) generates must be later in time
than the one passed to it. If it's either identical or earlier in time, then
a $(D DateTimeException) will be thrown.
+/
struct PosInfIntervalRange(TP)
if(isTimePoint!TP)
{
public:
/++
Params:
rhs = The $(D PosInfIntervalRange) to assign to this one.
+/
/+ref+/ PosInfIntervalRange opAssign(ref PosInfIntervalRange rhs) pure nothrow
{
_interval = rhs._interval;
_func = rhs._func;
return this;
}
/++
This is an infinite range, so it is never empty.
+/
enum bool empty = false;
/++
The first time point in the range.
+/
@property TP front() const pure nothrow
{
return _interval.begin;
}
/++
Pops $(D front) from the range, using $(D func) to generate the next
time point in the range.
Throws:
$(D DateTimeException) if the generated time point is less than
$(D front).
+/
void popFront()
{
auto begin = _func(_interval.begin);
_enforceCorrectDirection(begin);
_interval.begin = begin;
}
/++
Returns a copy of $(D this).
+/
@property PosInfIntervalRange save() pure nothrow
{
return this;
}
/++
The interval that this range currently covers.
+/
@property PosInfInterval!TP interval() const pure nothrow
{
return cast(PosInfInterval!TP)_interval;
}
/++
The function used to generate the next time point in the range.
+/
TP delegate(in TP) func() pure nothrow @property
{
return _func;
}
private:
/+
Params:
interval = The interval that this range covers.
func = The function used to generate the time points which are
iterated over.
+/
this(in PosInfInterval!TP interval, TP delegate(in TP) func) pure nothrow
{
_func = func;
_interval = interval;
}
/+
Throws:
$(D DateTimeException) if $(D_PARAME newTP) is in the wrong
direction.
+/
void _enforceCorrectDirection(in TP newTP, size_t line = __LINE__) const
{
enforce(newTP > _interval._begin,
new DateTimeException(format("Generated time point is before previous begin: prev [%s] new [%s]",
interval._begin,
newTP),
__FILE__,
line));
}
PosInfInterval!TP _interval;
TP delegate(in TP) _func;
}
//Test that PosInfIntervalRange satisfies the range predicates that it's supposed to satisfy.
unittest
{
version(testStdDateTime)
{
static assert(isInputRange!(PosInfIntervalRange!Date));
static assert(isForwardRange!(PosInfIntervalRange!Date));
static assert(isInfinite!(PosInfIntervalRange!Date));
//Commented out due to bug http://d.puremagic.com/issues/show_bug.cgi?id=4895
//static assert(!isOutputRange!(PosInfIntervalRange!Date, Date));
static assert(!isBidirectionalRange!(PosInfIntervalRange!Date));
static assert(!isRandomAccessRange!(PosInfIntervalRange!Date));
static assert(!hasSwappableElements!(PosInfIntervalRange!Date));
static assert(!hasAssignableElements!(PosInfIntervalRange!Date));
static assert(!hasLength!(PosInfIntervalRange!Date));
static assert(!hasSlicing!(PosInfIntervalRange!Date));
static assert(is(ElementType!(PosInfIntervalRange!Date) == Date));
static assert(is(ElementType!(PosInfIntervalRange!TimeOfDay) == TimeOfDay));
static assert(is(ElementType!(PosInfIntervalRange!DateTime) == DateTime));
static assert(is(ElementType!(PosInfIntervalRange!SysTime) == SysTime));
}
}
//Test construction of PosInfIntervalRange.
unittest
{
version(testStdDateTime)
{
{
Date dateFunc(in Date date)
{
return date;
}
auto posInfInterval = PosInfInterval!Date(Date(2010, 7, 4));
auto ir = PosInfIntervalRange!Date(posInfInterval, &dateFunc);
}
{
TimeOfDay todFunc(in TimeOfDay tod)
{
return tod;
}
auto posInfInterval = PosInfInterval!TimeOfDay(TimeOfDay(12, 1, 7));
auto ir = PosInfIntervalRange!(TimeOfDay)(posInfInterval, &todFunc);
}
{
DateTime dtFunc(in DateTime dt)
{
return dt;
}
auto posInfInterval = PosInfInterval!DateTime(DateTime(2010, 7, 4, 12, 1, 7));
auto ir = PosInfIntervalRange!(DateTime)(posInfInterval, &dtFunc);
}
{
SysTime stFunc(in SysTime st)
{
return cast(SysTime)st;
}
auto posInfInterval = PosInfInterval!SysTime(SysTime(DateTime(2010, 7, 4, 12, 1, 7)));
auto ir = PosInfIntervalRange!(SysTime)(posInfInterval, &stFunc);
}
}
}
//Test PosInfIntervalRange's front.
unittest
{
version(testStdDateTime)
{
auto range = PosInfInterval!Date(Date(2010, 7, 4)).fwdRange(everyDayOfWeek!Date(DayOfWeek.wed));
_assertPred!"=="(range.front, Date(2010, 7, 4));
auto poppedRange = PosInfInterval!Date(Date(2010, 7, 4)).fwdRange(everyDayOfWeek!Date(DayOfWeek.wed), PopFirst.yes);
_assertPred!"=="(poppedRange.front, Date(2010, 7, 7));
const cRange = PosInfInterval!Date(Date(2010, 7, 4)).fwdRange(everyDayOfWeek!Date(DayOfWeek.fri));
static assert(__traits(compiles, cRange.front));
}
}
//Test PosInfIntervalRange's popFront().
unittest
{
version(testStdDateTime)
{
auto range = PosInfInterval!Date(Date(2010, 7, 4)).fwdRange(everyDayOfWeek!Date(DayOfWeek.wed), PopFirst.yes);
auto expected = range.front;
foreach(date; take(range, 79))
{
_assertPred!"=="(date, expected);
expected += dur!"days"(7);
}
const cRange = PosInfInterval!Date(Date(2010, 7, 4)).fwdRange(everyDayOfWeek!Date(DayOfWeek.fri));
static assert(!__traits(compiles, cRange.popFront()));
}
}
//Test PosInfIntervalRange's save.
unittest
{
version(testStdDateTime)
{
auto interval = PosInfInterval!Date(Date(2010, 7, 4));
auto func = everyDayOfWeek!Date(DayOfWeek.fri);
auto range = interval.fwdRange(func);
assert(range.save == range);
}
}
//Test PosInfIntervalRange's interval.
unittest
{
version(testStdDateTime)
{
auto interval = PosInfInterval!Date(Date(2010, 7, 4));
auto func = everyDayOfWeek!Date(DayOfWeek.fri);
auto range = interval.fwdRange(func);
assert(range.interval == interval);
const cRange = range;
static assert(__traits(compiles, cRange.interval));
}
}
//Test PosInfIntervalRange's func.
unittest
{
version(testStdDateTime)
{
auto interval = PosInfInterval!Date(Date(2010, 7, 4));
auto func = everyDayOfWeek!Date(DayOfWeek.fri);
auto range = interval.fwdRange(func);
assert(range.func == func);
}
}
/++
A range over a $(D NegInfInterval). It is an infinite range.
$(D NegInfIntervalRange) is only ever constructed by $(D NegInfInterval).
However, when it is constructed, it is given a function, $(D func), which
is used to generate the time points which are iterated over. $(D func)
takes a time point and returns a time point of the same type. So, for
instance, if you had a $(D NegInfInterval!Date), and you wanted to iterate
over all of the days in that interval, you would pass a function to
$(D NegInfInterval)'s $(D bwdRange) where that function took a $(D Date) and
returned a $(D Date) which was one day earlier. That function would then be
used by $(D NegInfIntervalRange)'s $(D popFront) to iterate over the
$(D Date)s in the interval - though obviously, since the range is infinite,
you would use a function such as $(D std.range.take) with it rather than
iterating over $(I all) of the dates.
As the interval goes to negative infinity, the range is always iterated over
backwards, never forwards. $(D func) must generate a time point going in
the proper direction of iteration, or a $(D DateTimeException) will be
thrown. So, the time points that $(D func) generates must be earlier in time
than the one passed to it. If it's either identical or later in time, then a
$(D DateTimeException) will be thrown.
Also note that while normally the $(D end) of an interval is excluded from
it, $(D NegInfIntervalRange) treats it as if it were included. This allows
for the same behavior as you get with $(D PosInfIntervalRange). This works
because none of $(D NegInfInterval)'s functions which care about whether
$(D end) is included or excluded are ever called by
$(D NegInfIntervalRange). $(D interval) returns a normal interval, so any
$(D NegInfInterval) functions which are called on it which care about
whether $(D end) is included or excluded will treat $(D end) as excluded.
+/
struct NegInfIntervalRange(TP)
if(isTimePoint!TP)
{
public:
/++
Params:
rhs = The $(D NegInfIntervalRange) to assign to this one.
+/
/+ref+/ NegInfIntervalRange opAssign(ref NegInfIntervalRange rhs) pure nothrow
{
_interval = rhs._interval;
_func = rhs._func;
return this;
}
/++
This is an infinite range, so it is never empty.
+/
enum bool empty = false;
/++
The first time point in the range.
+/
@property TP front() const pure nothrow
{
return _interval.end;
}
/++
Pops $(D front) from the range, using $(D func) to generate the next
time point in the range.
Throws:
$(D DateTimeException) if the generated time point is greater than
$(D front).
+/
void popFront()
{
auto end = _func(_interval.end);
_enforceCorrectDirection(end);
_interval.end = end;
}
/++
Returns a copy of $(D this).
+/
@property NegInfIntervalRange save() pure nothrow
{
return this;
}
/++
The interval that this range currently covers.
+/
@property NegInfInterval!TP interval() const pure nothrow
{
return cast(NegInfInterval!TP)_interval;
}
/++
The function used to generate the next time point in the range.
+/
TP delegate(in TP) func() pure nothrow @property
{
return _func;
}
private:
/+
Params:
interval = The interval that this range covers.
func = The function used to generate the time points which are
iterated over.
+/
this(in NegInfInterval!TP interval, TP delegate(in TP) func) pure nothrow
{
_func = func;
_interval = interval;
}
/+
Throws:
$(D DateTimeException) if $(D_PARAM newTP) is in the wrong
direction.
+/
void _enforceCorrectDirection(in TP newTP, size_t line = __LINE__) const
{
enforce(newTP < _interval._end,
new DateTimeException(format("Generated time point is before previous end: prev [%s] new [%s]",
interval._end,
newTP),
__FILE__,
line));
}
NegInfInterval!TP _interval;
TP delegate(in TP) _func;
}
//Test that NegInfIntervalRange satisfies the range predicates that it's supposed to satisfy.
unittest
{
version(testStdDateTime)
{
static assert(isInputRange!(NegInfIntervalRange!Date));
static assert(isForwardRange!(NegInfIntervalRange!Date));
static assert(isInfinite!(NegInfIntervalRange!Date));
//Commented out due to bug http://d.puremagic.com/issues/show_bug.cgi?id=4895
//static assert(!isOutputRange!(NegInfIntervalRange!Date, Date));
static assert(!isBidirectionalRange!(NegInfIntervalRange!Date));
static assert(!isRandomAccessRange!(NegInfIntervalRange!Date));
static assert(!hasSwappableElements!(NegInfIntervalRange!Date));
static assert(!hasAssignableElements!(NegInfIntervalRange!Date));
static assert(!hasLength!(NegInfIntervalRange!Date));
static assert(!hasSlicing!(NegInfIntervalRange!Date));
static assert(is(ElementType!(NegInfIntervalRange!Date) == Date));
static assert(is(ElementType!(NegInfIntervalRange!TimeOfDay) == TimeOfDay));
static assert(is(ElementType!(NegInfIntervalRange!DateTime) == DateTime));
}
}
//Test construction of NegInfIntervalRange.
unittest
{
version(testStdDateTime)
{
{
Date dateFunc(in Date date)
{
return date;
}
auto negInfInterval = NegInfInterval!Date(Date(2012, 1, 7));
auto ir = NegInfIntervalRange!Date(negInfInterval, &dateFunc);
}
{
TimeOfDay todFunc(in TimeOfDay tod)
{
return tod;
}
auto negInfInterval = NegInfInterval!TimeOfDay(TimeOfDay(14, 0, 0));
auto ir = NegInfIntervalRange!(TimeOfDay)(negInfInterval, &todFunc);
}
{
DateTime dtFunc(in DateTime dt)
{
return dt;
}
auto negInfInterval = NegInfInterval!DateTime(DateTime(2012, 1, 7, 14, 0, 0));
auto ir = NegInfIntervalRange!(DateTime)(negInfInterval, &dtFunc);
}
{
SysTime stFunc(in SysTime st)
{
return cast(SysTime)(st);
}
auto negInfInterval = NegInfInterval!SysTime(SysTime(DateTime(2012, 1, 7, 14, 0, 0)));
auto ir = NegInfIntervalRange!(SysTime)(negInfInterval, &stFunc);
}
}
}
//Test NegInfIntervalRange's front.
unittest
{
version(testStdDateTime)
{
auto range = NegInfInterval!Date(Date(2012, 1, 7)).bwdRange(everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.wed));
_assertPred!"=="(range.front, Date(2012, 1, 7));
auto poppedRange = NegInfInterval!Date(Date(2012, 1, 7)).bwdRange(everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.wed), PopFirst.yes);
_assertPred!"=="(poppedRange.front, Date(2012, 1, 4));
const cRange = NegInfInterval!Date(Date(2012, 1, 7)).bwdRange(everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.fri));
static assert(__traits(compiles, cRange.front));
}
}
//Test NegInfIntervalRange's popFront().
unittest
{
version(testStdDateTime)
{
auto range = NegInfInterval!Date(Date(2012, 1, 7)).bwdRange(everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.wed), PopFirst.yes);
auto expected = range.front;
foreach(date; take(range, 79))
{
_assertPred!"=="(date, expected);
expected += dur!"days"(-7);
}
const cRange = NegInfInterval!Date(Date(2012, 1, 7)).bwdRange(everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.fri));
static assert(!__traits(compiles, cRange.popFront()));
}
}
//Test NegInfIntervalRange's save.
unittest
{
version(testStdDateTime)
{
auto interval = NegInfInterval!Date(Date(2012, 1, 7));
auto func = everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.fri);
auto range = interval.bwdRange(func);
assert(range.save == range);
}
}
//Test NegInfIntervalRange's interval.
unittest
{
version(testStdDateTime)
{
auto interval = NegInfInterval!Date(Date(2012, 1, 7));
auto func = everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.fri);
auto range = interval.bwdRange(func);
assert(range.interval == interval);
const cRange = range;
static assert(__traits(compiles, cRange.interval));
}
}
//Test NegInfIntervalRange's func.
unittest
{
version(testStdDateTime)
{
auto interval = NegInfInterval!Date(Date(2012, 1, 7));
auto func = everyDayOfWeek!(Date, Direction.bwd)(DayOfWeek.fri);
auto range = interval.bwdRange(func);
assert(range.func == func);
}
}
//==============================================================================
// Section with time zones.
//==============================================================================
/++
Represents a time zone. It is used with $(D SysTime) to indicate the time
zone of a $(D SysTime).
+/
abstract class TimeZone
{
public:
/++
The name of the time zone per the TZ Database. This is the name used to
get a $(D TimeZone) by name with $(D TimeZone.getTimeZone).
See_Also:
$(WEB en.wikipedia.org/wiki/Tz_database, Wikipedia entry on TZ
Database)
$(WEB en.wikipedia.org/wiki/List_of_tz_database_time_zones, List of
Time Zones)
+/
@property string name() const nothrow
{
return _name;
}
/++
Typically, the abbreviation (generally 3 or 4 letters) for the time zone
when DST is $(I not) in effect (e.g. PST). It is not necessarily unique.
However, on Windows, it may be the unabbreviated name (e.g. Pacific
Standard Time). Regardless, it is not the same as name.
+/
@property string stdName() const nothrow
{
return _stdName;
}
/++
Typically, the abbreviation (generally 3 or 4 letters) for the time zone
when DST $(I is) in effect (e.g. PDT). It is not necessarily unique.
However, on Windows, it may be the unabbreviated name (e.g. Pacific
Daylight Time). Regardless, it is not the same as name.
+/
@property string dstName() const nothrow
{
return _dstName;
}
/++
Whether this time zone has Daylight Savings Time at any point in time.
Note that for some time zone types it may not have DST for current dates
but will still return true for $(D hasDST) because the time zone did at
some point have DST.
+/
@property abstract bool hasDST() const nothrow;
/++
Takes the number of hnsecs (100 ns) since midnight, January 1st, 1 A.D.
in UTC time (i.e. std time) and returns whether DST is effect in this
time zone at the given point in time.
Params:
stdTime = The UTC time that needs to be checked for DST in this time
zone.
+/
abstract bool dstInEffect(long stdTime) const nothrow;
/++
Takes the number of hnsecs (100 ns) since midnight, January 1st, 1 A.D.
in UTC time (i.e. std time) and converts it to this time zone's time.
Params:
stdTime = The UTC time that needs to be adjusted to this time zone's
time.
+/
abstract long utcToTZ(long stdTime) const nothrow;
/++
Takes the number of hnsecs (100 ns) since midnight, January 1st, 1 A.D.
in this time zone's time and converts it to UTC (i.e. std time).
Params:
adjTime = The time in this time zone that needs to be adjusted to
UTC time.
+/
abstract long tzToUTC(long adjTime) const nothrow;
/++
Returns a $(D TimeZone) with the give name per the TZ Database.
This returns a $(D PosixTimeZone) on Posix systems and a
$(D WindowsTimeZone) on Windows systems. If you want a
$(D PosixTimeZone) on Windows, then call $(D PosixTimeZone.getTimeZone)
directly and give it the location of the TZ Database time zone files on
disk.
On Windows, the given TZ Database name is converted to the corresponding
time zone name on Windows prior to calling
$(D WindowsTimeZone.getTimeZone). So, this function allows you to use
the same time zone names on both Windows and Posix systems.
See_Also:
$(WEB en.wikipedia.org/wiki/Tz_database, Wikipedia entry on TZ
Database)
$(WEB en.wikipedia.org/wiki/List_of_tz_database_time_zones, List of
Time Zones)
$(WEB unicode.org/repos/cldr-tmp/trunk/diff/supplemental/zone_tzid.html,
Windows <-> TZ Database Name Conversion Table)
Params:
name = The TZ Database name of the time zone that you're looking for.
Throws:
$(D DateTimeException) if the given time zone could not be found.
Examples:
--------------------
auto tz = TimeZone.getTimeZone("America/Los_Angeles");
--------------------
+/
static immutable(TimeZone) getTimeZone(string name)
{
version(Posix)
return PosixTimeZone.getTimeZone(name);
else version(Windows)
return WindowsTimeZone.getTimeZone(tzDatabaseNameToWindowsTZName(name));
}
//Since reading in the time zone files could be expensive, most unit tests
//are consolidated into this one unittest block which minimizes how often it
//reads a time zone file.
version(testStdDateTime) unittest
{
version(Posix) scope(exit) clearTZEnvVar();
static void testTZ(string tzName,
string stdName,
string dstName,
int utcOffset,
int dstOffset,
bool north = true)
{
scope(failure) writefln("Failed time zone: %s", tzName);
immutable tz = TimeZone.getTimeZone(tzName);
immutable hasDST = dstOffset != 0;
version(Posix)
_assertPred!"=="(tz.name, tzName);
else version(Windows)
_assertPred!"=="(tz.name, stdName);
_assertPred!"=="(tz.stdName, stdName);
_assertPred!"=="(tz.dstName, dstName);
_assertPred!"=="(tz.hasDST, hasDST);
immutable stdDate = DateTime(2010, north ? 1 : 7, 1, 6, 0, 0);
immutable dstDate = DateTime(2010, north ? 7 : 1, 1, 6, 0, 0);
auto std = SysTime(stdDate, tz);
auto dst = SysTime(dstDate, tz);
auto stdUTC = SysTime(stdDate - dur!"minutes"(utcOffset), UTC());
auto dstUTC = SysTime(stdDate - dur!"minutes"(utcOffset + dstOffset), UTC());
assert(!std.dstInEffect);
_assertPred!"=="(dst.dstInEffect, hasDST);
_assertPred!"=="(cast(DateTime)std, stdDate);
_assertPred!"=="(cast(DateTime)dst, dstDate);
_assertPred!"=="(std, stdUTC);
version(Posix)
{
setTZEnvVar(tzName);
static void testTM(in SysTime st)
{
time_t unixTime = st.toUnixTime();
tm* osTimeInfo = localtime(&unixTime);
tm ourTimeInfo = st.toTM();
_assertPred!"=="(ourTimeInfo.tm_sec, osTimeInfo.tm_sec);
_assertPred!"=="(ourTimeInfo.tm_min, osTimeInfo.tm_min);
_assertPred!"=="(ourTimeInfo.tm_hour, osTimeInfo.tm_hour);
_assertPred!"=="(ourTimeInfo.tm_min, osTimeInfo.tm_min);
_assertPred!"=="(ourTimeInfo.tm_mday, osTimeInfo.tm_mday);
_assertPred!"=="(ourTimeInfo.tm_mon, osTimeInfo.tm_mon);
_assertPred!"=="(ourTimeInfo.tm_year, osTimeInfo.tm_year);
_assertPred!"=="(ourTimeInfo.tm_wday, osTimeInfo.tm_wday);
_assertPred!"=="(ourTimeInfo.tm_yday, osTimeInfo.tm_yday);
_assertPred!"=="(ourTimeInfo.tm_isdst, osTimeInfo.tm_isdst);
_assertPred!"=="(ourTimeInfo.tm_gmtoff, osTimeInfo.tm_gmtoff);
_assertPred!"=="(to!string(ourTimeInfo.tm_zone),
to!string(osTimeInfo.tm_zone));
}
testTM(std);
testTM(dst);
//Apparently, right/ does not exist on Mac OS X. I don't know
//whether or not it exists on FreeBSD. It's rather pointless
//normally, since the Posix standard requires that leap seconds
//be ignored, so it does make some sense that right/ wouldn't
//be there, but since PosixTimeZone _does_ use leap seconds if
//the time zone file does, we'll test that functionality if the
//appropriate files exist.
if((PosixTimeZone.defaultTZDatabaseDir ~ "right/" ~ tzName).exists())
{
auto leapTZ = PosixTimeZone.getTimeZone("right/" ~ tzName);
assert(leapTZ.name == "right/" ~ tzName);
assert(leapTZ.stdName == stdName);
assert(leapTZ.dstName == dstName);
assert(leapTZ.hasDST == hasDST);
auto leapSTD = SysTime(std.stdTime, leapTZ);
auto leapDST = SysTime(dst.stdTime, leapTZ);
assert(!leapSTD.dstInEffect);
assert(leapDST.dstInEffect == hasDST);
_assertPred!"=="(leapSTD.stdTime, std.stdTime);
_assertPred!"=="(leapDST.stdTime, dst.stdTime);
//Whenever a leap second is added/removed,
//this will have to be adjusted.
enum leapDiff = convert!("seconds", "hnsecs")(24);
_assertPred!"=="(leapSTD.adjTime - leapDiff, std.adjTime);
_assertPred!"=="(leapDST.adjTime - leapDiff, dst.adjTime);
}
}
}
version(Posix)
{
version(FreeBSD) enum utcZone = "Etc/UTC";
version(linux) enum utcZone = "UTC";
version(OSX) enum utcZone = "UTC";
testTZ("America/Los_Angeles", "PST", "PDT", -8 * 60, 60);
testTZ("America/New_York", "EST", "EDT", -5 * 60, 60);
testTZ(utcZone, "UTC", "UTC", 0, 0);
testTZ("Europe/Paris", "CET", "CEST", 60, 60);
testTZ("Australia/Adelaide", "CST", "CST", 9 * 60 + 30, 60, false);
assertThrown!DateTimeException(PosixTimeZone.getTimeZone("hello_world"));
}
version(Windows)
{
testTZ("America/Los_Angeles", "Pacific Standard Time",
"Pacific Daylight Time", -8 * 60, 60);
testTZ("America/New_York", "Eastern Standard Time",
"Eastern Daylight Time", -5 * 60, 60);
testTZ("Atlantic/Reykjavik", "Greenwich Standard Time",
"Greenwich Daylight Time", 0, 0);
testTZ("Europe/Paris", "Romance Standard Time",
"Romance Daylight Time", 60, 60);
testTZ("Australia/Adelaide", "Cen. Australia Standard Time",
"Cen. Australia Daylight Time", 9 * 60 + 30, 60, false);
assertThrown!DateTimeException(WindowsTimeZone.getTimeZone("hello_world"));
}
}
/++
Returns a list of the names of the time zones installed on the system.
You can provide a sub-name to narrow down the list of time zones (which
will likely be in the thousands if you get them all). For example,
if you pass in "America" as the sub-name, then only the time zones which
begin with "America" will be returned.
On Windows, this function will convert the Windows time zone names to
the corresponding TZ Database names with
$(D windowsTZNameToTZDatabaseName). If you want the actual Windows time
zone names, use $(D WindowsTimeZone.getInstalledTZNames) directly.
Params:
subName = The first part of the time zones that you want.
Throws:
$(D FileException) on Posix systems if it fails to read from disk.
$(D DateTimeException) on Windows systems if it fails to read the
registry.
+/
static string[] getInstalledTZNames(string subName = "")
{
version(Posix)
return PosixTimeZone.getInstalledTZNames(subName);
else version(Windows)
{
auto windowsNames = WindowsTimeZone.getInstalledTZNames();
auto retval = appender!(string[])();
foreach(winName; windowsNames)
{
auto tzName = windowsTZNameToTZDatabaseName(winName);
if(tzName.startsWith(subName))
retval.put(tzName);
}
sort(retval.data);
return retval.data;
}
}
unittest
{
version(testStdDateTime)
{
static void testPZSuccess(string tzName)
{
scope(failure) writefln("TZName which threw: %s", tzName);
TimeZone.getTimeZone(tzName);
}
auto tzNames = getInstalledTZNames();
foreach(tzName; tzNames)
assertNotThrown!DateTimeException(testPZSuccess(tzName));
}
}
private:
/+
Params:
name = The TZ Database name for the time zone.
stdName = The abbreviation for the time zone during std time.
dstName = The abbreviation for the time zone during DST.
+/
this(string name, string stdName, string dstName) immutable pure
{
_name = name;
_stdName = stdName;
_dstName = dstName;
}
immutable string _name;
immutable string _stdName;
immutable string _dstName;
}
/++
A TimeZone which represents the current local time zone on
the system running your program.
This uses the underlying C calls to adjust the time rather than using
specific D code based off of system settings to calculate the time such as
$(D PosixTimeZone) and $(D WindowsTimeZone) do. That also means that it will
use whatever the current time zone is on the system, even if the system's
time zone changes while the program is running.
+/
final class LocalTime : TimeZone
{
public:
/++
$(D LocalTime) is a singleton class. $(D LocalTime) returns its only
instance.
+/
static immutable(LocalTime) opCall() pure nothrow
{
return _localTime;
}
version(StdDdoc)
{
/++
The name of the time zone per the TZ Database. This is the name used to
get a $(D TimeZone) by name with $(D TimeZone.getTimeZone).
Note that this always returns the empty string. This is because time
zones cannot be uniquely identified by the attributes given by the
OS (such as the $(D stdName) and $(D dstName)), and neither Posix
systems nor Windows systems provide an easy way to get the TZ
Database name of the local time zone.
See_Also:
$(WEB en.wikipedia.org/wiki/Tz_database, Wikipedia entry on TZ
Database)
$(WEB en.wikipedia.org/wiki/List_of_tz_database_time_zones, List
of Time Zones)
+/
@property override string name() const nothrow;
}
/++
Typically, the abbreviation (generally 3 or 4 letters) for the time zone
when DST is $(I not) in effect (e.g. PST). It is not necessarily unique.
However, on Windows, it may be the unabbreviated name (e.g. Pacific
Standard Time). Regardless, it is not the same as name.
This property is overridden because the local time of the system could
change while the program is running and we need to determine it
dynamically rather than it being fixed like it would be with most time
zones.
+/
@property override string stdName() const nothrow
{
version(Posix)
{
try
return to!string(tzname[0]);
catch(Exception e)
assert(0, "to!string(tzname[0]) failed.");
}
else version(Windows)
{
try
{
TIME_ZONE_INFORMATION tzInfo;
GetTimeZoneInformation(&tzInfo);
//Cannot use to!string() like this should, probably due to bug http://d.puremagic.com/issues/show_bug.cgi?id=5016
//return to!string(tzInfo.StandardName);
wchar[32] str;
foreach(i, ref wchar c; str)
c = tzInfo.StandardName[i];
string retval;
foreach(dchar c; str)
{
if(c == '\0')
break;
retval ~= c;
}
return retval;
}
catch(Exception e)
assert(0, "GetTimeZoneInformation() threw.");
}
}
unittest
{
version(testStdDateTime)
{
assert(LocalTime().stdName !is null);
version(Posix)
{
scope(exit) clearTZEnvVar();
setTZEnvVar("America/Los_Angeles");
_assertPred!"=="(LocalTime().stdName, "PST");
setTZEnvVar("America/New_York");
_assertPred!"=="(LocalTime().stdName, "EST");
}
}
}
/++
Typically, the abbreviation (generally 3 or 4 letters) for the time zone
when DST $(I is) in effect (e.g. PDT). It is not necessarily unique.
However, on Windows, it may be the unabbreviated name (e.g. Pacific
Daylight Time). Regardless, it is not the same as name.
This property is overridden because the local time of the system could
change while the program is running and we need to determine it
dynamically rather than it being fixed like it would be with most time
zones.
+/
@property override string dstName() const nothrow
{
version(Posix)
{
try
return to!string(tzname[1]);
catch(Exception e)
assert(0, "to!string(tzname[1]) failed.");
}
else version(Windows)
{
try
{
TIME_ZONE_INFORMATION tzInfo;
GetTimeZoneInformation(&tzInfo);
//Cannot use to!string() like this should, probably due to bug http://d.puremagic.com/issues/show_bug.cgi?id=5016
//return to!string(tzInfo.DaylightName);
wchar[32] str;
foreach(i, ref wchar c; str)
c = tzInfo.DaylightName[i];
string retval;
foreach(dchar c; str)
{
if(c == '\0')
break;
retval ~= c;
}
return retval;
}
catch(Exception e)
assert(0, "GetTimeZoneInformation() threw.");
}
}
unittest
{
version(testStdDateTime)
{
assert(LocalTime().dstName !is null);
version(Posix)
{
scope(exit) clearTZEnvVar();
setTZEnvVar("America/Los_Angeles");
_assertPred!"=="(LocalTime().dstName, "PDT");
setTZEnvVar("America/New_York");
_assertPred!"=="(LocalTime().dstName, "EDT");
}
}
}
/++
Whether this time zone has Daylight Savings Time at any point in time.
Note that for some time zone types it may not have DST for current
dates but will still return true for $(D hasDST) because the time zone
did at some point have DST.
+/
@property override bool hasDST() const nothrow
{
version(Posix)
{
static if(is(typeof(daylight)))
return cast(bool)(daylight);
else
{
try
{
auto currYear = (cast(Date)Clock.currTime()).year;
auto janOffset = SysTime(Date(currYear, 1, 4), this).stdTime -
SysTime(Date(currYear, 1, 4), UTC()).stdTime;
auto julyOffset = SysTime(Date(currYear, 7, 4), this).stdTime -
SysTime(Date(currYear, 7, 4), UTC()).stdTime;
return janOffset != julyOffset;
}
catch(Exception e)
assert(0, "Clock.currTime() threw.");
}
}
else version(Windows)
{
try
{
TIME_ZONE_INFORMATION tzInfo;
GetTimeZoneInformation(&tzInfo);
return tzInfo.DaylightDate.wMonth != 0;
}
catch(Exception e)
assert(0, "GetTimeZoneInformation() threw.");
}
}
unittest
{
version(testStdDateTime)
{
LocalTime().hasDST;
version(Posix)
{
scope(exit) clearTZEnvVar();
setTZEnvVar("America/Los_Angeles");
assert(LocalTime().hasDST);
setTZEnvVar("America/New_York");
assert(LocalTime().hasDST);
setTZEnvVar("UTC");
assert(!LocalTime().hasDST);
}
}
}
/++
Takes the number of hnsecs (100 ns) since midnight, January 1st, 1 A.D.
in UTC time (i.e. std time) and returns whether DST is in effect in this
time zone at the given point in time.
Params:
stdTime = The UTC time that needs to be checked for DST in this time
zone.
+/
override bool dstInEffect(long stdTime) const nothrow
{
time_t unixTime = stdTimeToUnixTime(stdTime);
version(Posix)
{
tm* timeInfo = localtime(&unixTime);
return cast(bool)(timeInfo.tm_isdst);
}
else version(Windows)
{
//Apparently Windows isn't smart enough to deal with negative time_t.
if(unixTime >= 0)
{
tm* timeInfo = localtime(&unixTime);
if(timeInfo)
return cast(bool)(timeInfo.tm_isdst);
}
TIME_ZONE_INFORMATION tzInfo;
try
GetTimeZoneInformation(&tzInfo);
catch(Exception e)
assert(0, "The impossible happened. GetTimeZoneInformation() threw.");
return WindowsTimeZone._dstInEffect(&tzInfo, stdTime);
}
}
unittest
{
version(testStdDateTime)
{
auto currTime = Clock.currStdTime;
LocalTime().dstInEffect(currTime);
version(Posix)
{
scope(exit) clearTZEnvVar();
auto std = SysTime(DateTime(2010, 1, 1, 12, 0, 0), LocalTime());
auto dst = SysTime(DateTime(2010, 7, 1, 12, 0, 0), LocalTime());
setTZEnvVar("America/Los_Angeles");
assert(!LocalTime().dstInEffect(std.stdTime));
assert(LocalTime().dstInEffect(dst.stdTime));
assert(!std.dstInEffect);
assert(dst.dstInEffect);
setTZEnvVar("America/New_York");
assert(!LocalTime().dstInEffect(std.stdTime));
assert(LocalTime().dstInEffect(dst.stdTime));
assert(!std.dstInEffect);
assert(dst.dstInEffect);
}
}
}
/++
Returns hnsecs in the local time zone using the standard C function
calls on Posix systems and the standard Windows system calls on Windows
systems to adjust the time to the appropriate time zone from std time.
Params:
stdTime = The UTC time that needs to be adjusted to this time zone's
time.
See_Also:
$(D TimeZone.utcToTZ)
+/
override long utcToTZ(long stdTime) const nothrow
{
version(Posix)
{
time_t unixTime = stdTimeToUnixTime(stdTime);
tm* timeInfo = localtime(&unixTime);
return stdTime + convert!("seconds", "hnsecs")(timeInfo.tm_gmtoff);
}
else version(Windows)
{
TIME_ZONE_INFORMATION tzInfo;
try
GetTimeZoneInformation(&tzInfo);
catch(Exception e)
assert(0, "GetTimeZoneInformation() threw.");
return WindowsTimeZone._utcToTZ(&tzInfo, stdTime, hasDST);
}
}
unittest
{
version(testStdDateTime)
{
LocalTime().utcToTZ(0);
version(Posix)
{
scope(exit) clearTZEnvVar();
{
setTZEnvVar("America/Los_Angeles");
auto std = SysTime(Date(2010, 1, 1));
auto dst = SysTime(Date(2010, 7, 1));
_assertPred!"=="(LocalTime().utcToTZ(std.stdTime), SysTime(DateTime(2009, 12, 31, 16, 0, 0)).stdTime);
_assertPred!"=="(LocalTime().utcToTZ(dst.stdTime), SysTime(DateTime(2010, 6, 30, 17, 0, 0)).stdTime);
}
{
setTZEnvVar("America/New_York");
auto std = SysTime(Date(2010, 1, 1));
auto dst = SysTime(Date(2010, 7, 1));
_assertPred!"=="(LocalTime().utcToTZ(std.stdTime), SysTime(DateTime(2009, 12, 31, 19, 0, 0)).stdTime);
_assertPred!"=="(LocalTime().utcToTZ(dst.stdTime), SysTime(DateTime(2010, 6, 30, 20, 0, 0)).stdTime);
}
}
}
}
/++
Returns std time using the standard C function calls on Posix systems
and the standard Windows system calls on Windows systems to adjust the
time to UTC from the appropriate time zone.
See_Also:
$(D TimeZone.tzToUTC)
Params:
adjTime = The time in this time zone that needs to be adjusted to
UTC time.
+/
override long tzToUTC(long adjTime) const nothrow
{
version(Posix)
{
time_t unixTime = stdTimeToUnixTime(adjTime);
tm* timeInfo = localtime(&unixTime);
return adjTime - convert!("seconds", "hnsecs")(timeInfo.tm_gmtoff);
}
else version(Windows)
{
TIME_ZONE_INFORMATION tzInfo;
try
GetTimeZoneInformation(&tzInfo);
catch(Exception e)
assert(0, "GetTimeZoneInformation() threw.");
return WindowsTimeZone._tzToUTC(&tzInfo, adjTime, hasDST);
}
}
unittest
{
version(testStdDateTime)
{
LocalTime().tzToUTC(0);
_assertPred!"=="(LocalTime().tzToUTC(LocalTime().utcToTZ(0)), 0);
_assertPred!"=="(LocalTime().utcToTZ(LocalTime().tzToUTC(0)), 0);
version(Posix)
{
scope(exit) clearTZEnvVar();
{
setTZEnvVar("America/Los_Angeles");
auto std = SysTime(DateTime(2009, 12, 31, 16, 0, 0));
auto dst = SysTime(DateTime(2010, 6, 30, 17, 0, 0));
_assertPred!"=="(LocalTime().tzToUTC(std.stdTime), SysTime(Date(2010, 1, 1)).stdTime);
_assertPred!"=="(LocalTime().tzToUTC(dst.stdTime), SysTime(Date(2010, 7, 1)).stdTime);
}
{
setTZEnvVar("America/New_York");
auto std = SysTime(DateTime(2009, 12, 31, 19, 0, 0));
auto dst = SysTime(DateTime(2010, 6, 30, 20, 0, 0));
_assertPred!"=="(LocalTime().tzToUTC(std.stdTime), SysTime(Date(2010, 1, 1)).stdTime);
_assertPred!"=="(LocalTime().tzToUTC(dst.stdTime), SysTime(Date(2010, 7, 1)).stdTime);
}
}
}
}
private:
this() immutable pure
{
super("", "", "");
}
static immutable LocalTime _localTime;
shared static this()
{
tzset();
_localTime = new immutable(LocalTime)();
}
}
/++
A $(D TimeZone) which represents UTC.
+/
final class UTC : TimeZone
{
public:
/++
$(D UTC) is a singleton class. $(D UTC) returns its only instance.
+/
static immutable(UTC) opCall() pure nothrow
{
return _utc;
}
/++
Always returns false.
+/
@property override bool hasDST() const nothrow
{
return false;
}
/++
Always returns false.
+/
override bool dstInEffect(long stdTime) const nothrow
{
return false;
}
/++
Returns the given hnsecs without changing them at all.
Params:
stdTime = The UTC time that needs to be adjusted to this time zone's
time.
See_Also:
$(D TimeZone.utcToTZ)
+/
override long utcToTZ(long stdTime) const nothrow
{
return stdTime;
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(UTC().utcToTZ(0), 0);
version(Posix)
{
scope(exit) clearTZEnvVar();
setTZEnvVar("UTC");
auto std = SysTime(Date(2010, 1, 1));
auto dst = SysTime(Date(2010, 7, 1));
_assertPred!"=="(UTC().utcToTZ(std.stdTime), std.stdTime);
_assertPred!"=="(UTC().utcToTZ(dst.stdTime), dst.stdTime);
}
}
}
/++
Returns the given hnsecs without changing them at all.
See_Also:
$(D TimeZone.tzToUTC)
Params:
adjTime = The time in this time zone that needs to be adjusted to
UTC time.
+/
override long tzToUTC(long adjTime) const nothrow
{
return adjTime;
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(UTC().tzToUTC(0), 0);
version(Posix)
{
scope(exit) clearTZEnvVar();
setTZEnvVar("UTC");
auto std = SysTime(Date(2010, 1, 1));
auto dst = SysTime(Date(2010, 7, 1));
_assertPred!"=="(UTC().tzToUTC(std.stdTime), std.stdTime);
_assertPred!"=="(UTC().tzToUTC(dst.stdTime), dst.stdTime);
}
}
}
private:
this() immutable pure
{
super("UTC", "UTC", "UTC");
}
static immutable UTC _utc;
shared static this()
{
_utc = new immutable(UTC)();
}
}
/++
Represents a time zone with an offset (in minutes, west is negative) from
UTC but no DST.
It's primarily used as the time zone in the result of $(D SysTime)'s
$(D fromISOString), $(D fromISOExtString), and $(D fromSimpleString).
$(D name) and $(D dstName) are always the empty string since this time zone
has no DST, and while it may be meant to represent a time zone which is in
the TZ Database, obviously it's not likely to be following the exact rules
of any of the time zones in the TZ Database, so it makes no sense to set it.
+/
final class SimpleTimeZone : TimeZone
{
public:
/++
Always returns false.
+/
@property override bool hasDST() const nothrow
{
return false;
}
/++
Always returns false.
+/
override bool dstInEffect(long stdTime) const nothrow
{
return false;
}
/++
Takes the number of hnsecs (100 ns) since midnight, January 1st, 1 A.D.
in UTC time (i.e. std time) and converts it to this time zone's time.
Params:
stdTime = The UTC time that needs to be adjusted to this time zone's
time.
+/
override long utcToTZ(long stdTime) const nothrow
{
return stdTime + convert!("minutes", "hnsecs")(utcOffset);
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="((new SimpleTimeZone(-8 * 60)).utcToTZ(0), -288_000_000_000L);
_assertPred!"=="((new SimpleTimeZone(8 * 60)).utcToTZ(0), 288_000_000_000L);
_assertPred!"=="((new SimpleTimeZone(-8 * 60)).utcToTZ(54_321_234_567_890L), 54_033_234_567_890L);
auto stz = new SimpleTimeZone(-8 * 60);
const cstz = new SimpleTimeZone(-8 * 60);
static assert(__traits(compiles, stz.utcToTZ(50002)));
static assert(__traits(compiles, cstz.utcToTZ(50002)));
}
}
/++
Takes the number of hnsecs (100 ns) since midnight, January 1st, 1 A.D.
in this time zone's time and converts it to UTC (i.e. std time).
Params:
adjTime = The time in this time zone that needs to be adjusted to
UTC time.
+/
override long tzToUTC(long adjTime) const nothrow
{
return adjTime - convert!("minutes", "hnsecs")(utcOffset);
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="((new SimpleTimeZone(-8 * 60)).tzToUTC(-288_000_000_000L), 0);
_assertPred!"=="((new SimpleTimeZone(8 * 60)).tzToUTC(288_000_000_000L), 0);
_assertPred!"=="((new SimpleTimeZone(-8 * 60)).tzToUTC(54_033_234_567_890L), 54_321_234_567_890L);
auto stz = new SimpleTimeZone(-8 * 60);
const cstz = new SimpleTimeZone(-8 * 60);
static assert(__traits(compiles, stz.tzToUTC(20005)));
static assert(__traits(compiles, cstz.tzToUTC(20005)));
}
}
/++
Params:
utcOffset = This time zone's offset from UTC in minutes with west of
UTC being negative (it is added to UTC to get the
adjusted time).
stdName = The $(D stdName) for this time zone.
+/
this(int utcOffset, string stdName = "") immutable
{
//FIXME This probably needs to be changed to something like (-12 - 13).
enforce(std.math.abs(utcOffset) < 1440, new DateTimeException("Offset from UTC must be within range (-24:00 - 24:00)."));
super("", stdName, "");
this.utcOffset = utcOffset;
}
unittest
{
version(testStdDateTime)
{
auto stz = new SimpleTimeZone(-8 * 60, "PST");
_assertPred!"=="(stz.name, "");
_assertPred!"=="(stz.stdName, "PST");
_assertPred!"=="(stz.dstName, "");
_assertPred!"=="(stz.utcOffset, -8 * 60);
}
}
/++
The number of minutes the offset from UTC is (negative is west of UTC,
positive is east).
+/
immutable int utcOffset;
private:
/+
Returns a time zone as a string with an offset from UTC.
Time zone offsets will be in the form +HH:MM or -HH:MM.
Params:
utcOffset = The number of minutes offset from UTC (negative means
west).
+/
static string toISOString(int utcOffset)
{
immutable absOffset = std.math.abs(utcOffset);
enforce(absOffset < 1440, new DateTimeException("Offset from UTC must be within range (-24:00 - 24:00)."));
immutable hours = convert!("minutes", "hours")(absOffset);
immutable minutes = absOffset - convert!("hours", "minutes")(hours);
if(utcOffset < 0)
return format("-%02d:%02d", hours, minutes);
return format("+%02d:%02d", hours, minutes);
}
unittest
{
version(testStdDateTime)
{
static string testSTZInvalid(int offset)
{
return SimpleTimeZone.toISOString(offset);
}
assertThrown!DateTimeException(testSTZInvalid(1440));
assertThrown!DateTimeException(testSTZInvalid(-1440));
_assertPred!"=="(toISOString(0), "+00:00");
_assertPred!"=="(toISOString(1), "+00:01");
_assertPred!"=="(toISOString(10), "+00:10");
_assertPred!"=="(toISOString(59), "+00:59");
_assertPred!"=="(toISOString(60), "+01:00");
_assertPred!"=="(toISOString(90), "+01:30");
_assertPred!"=="(toISOString(120), "+02:00");
_assertPred!"=="(toISOString(480), "+08:00");
_assertPred!"=="(toISOString(1439), "+23:59");
_assertPred!"=="(toISOString(-1), "-00:01");
_assertPred!"=="(toISOString(-10), "-00:10");
_assertPred!"=="(toISOString(-59), "-00:59");
_assertPred!"=="(toISOString(-60), "-01:00");
_assertPred!"=="(toISOString(-90), "-01:30");
_assertPred!"=="(toISOString(-120), "-02:00");
_assertPred!"=="(toISOString(-480), "-08:00");
_assertPred!"=="(toISOString(-1439), "-23:59");
}
}
/+
Takes a time zone as a string with an offset from UTC and returns a
$(D SimpleTimeZone) which matches.
The accepted formats for time zone offsets
are +H, -H, +HH, -HH, +H:MM, -H:MM, +HH:MM, and -HH:MM.
Params:
isoString = A string which represents a time zone in the ISO format.
+/
static immutable(SimpleTimeZone) fromISOString(S)(S isoString)
if(isSomeString!(S))
{
auto dstr = to!dstring(strip(isoString));
enforce(dstr.startsWith("-") || dstr.startsWith("+"), new DateTimeException("Invalid ISO String"));
auto sign = dstr.startsWith("-") ? -1 : 1;
dstr.popFront();
enforce(!dstr.empty, new DateTimeException("Invalid ISO String"));
immutable colon = dstr.stds_indexOf(":");
dstring hoursStr;
dstring minutesStr;
if(colon != -1)
{
hoursStr = dstr[0 .. colon];
minutesStr = dstr[colon + 1 .. $];
enforce(minutesStr.length == 2, new DateTimeException(format("Invalid ISO String: %s", dstr)));
}
else
hoursStr = dstr;
enforce(!canFind!(not!isDigit)(hoursStr), new DateTimeException(format("Invalid ISO String: %s", dstr)));
enforce(!canFind!(not!isDigit)(minutesStr), new DateTimeException(format("Invalid ISO String: %s", dstr)));
immutable hours = to!int(hoursStr);
immutable minutes = minutesStr.empty ? 0 : to!int(minutesStr);
return new SimpleTimeZone(sign * cast(int)(convert!("hours", "minutes")(hours) + minutes));
}
unittest
{
version(testStdDateTime)
{
assertThrown!DateTimeException(SimpleTimeZone.fromISOString(""));
assertThrown!DateTimeException(SimpleTimeZone.fromISOString("Z"));
assertThrown!DateTimeException(SimpleTimeZone.fromISOString("-"));
assertThrown!DateTimeException(SimpleTimeZone.fromISOString("+"));
assertThrown!DateTimeException(SimpleTimeZone.fromISOString("-:"));
assertThrown!DateTimeException(SimpleTimeZone.fromISOString("+:"));
assertThrown!DateTimeException(SimpleTimeZone.fromISOString("-1:"));
assertThrown!DateTimeException(SimpleTimeZone.fromISOString("+1:"));
assertThrown!DateTimeException(SimpleTimeZone.fromISOString("1"));
assertThrown!DateTimeException(SimpleTimeZone.fromISOString("-24:00"));
assertThrown!DateTimeException(SimpleTimeZone.fromISOString("+24:00"));
assertThrown!DateTimeException(SimpleTimeZone.fromISOString("+1:0"));
_assertPred!"=="(SimpleTimeZone.fromISOString("+00:00").utcOffset, (new SimpleTimeZone(0)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("+00:01").utcOffset, (new SimpleTimeZone(1)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("+00:10").utcOffset, (new SimpleTimeZone(10)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("+00:59").utcOffset, (new SimpleTimeZone(59)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("+01:00").utcOffset, (new SimpleTimeZone(60)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("+01:30").utcOffset, (new SimpleTimeZone(90)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("+02:00").utcOffset, (new SimpleTimeZone(120)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("+08:00").utcOffset, (new SimpleTimeZone(480)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("+23:59").utcOffset, (new SimpleTimeZone(1439)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("-00:01").utcOffset, (new SimpleTimeZone(-1)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("-00:10").utcOffset, (new SimpleTimeZone(-10)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("-00:59").utcOffset, (new SimpleTimeZone(-59)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("-01:00").utcOffset, (new SimpleTimeZone(-60)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("-01:30").utcOffset, (new SimpleTimeZone(-90)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("-02:00").utcOffset, (new SimpleTimeZone(-120)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("-08:00").utcOffset, (new SimpleTimeZone(-480)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("-23:59").utcOffset, (new SimpleTimeZone(-1439)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("+0").utcOffset, (new SimpleTimeZone(0)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("+1").utcOffset, (new SimpleTimeZone(60)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("+2").utcOffset, (new SimpleTimeZone(120)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("+23").utcOffset, (new SimpleTimeZone(1380)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("+2").utcOffset, (new SimpleTimeZone(120)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("+0").utcOffset, (new SimpleTimeZone(0)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("+1").utcOffset, (new SimpleTimeZone(60)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("+2").utcOffset, (new SimpleTimeZone(120)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("+23").utcOffset, (new SimpleTimeZone(1380)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("+1:00").utcOffset, (new SimpleTimeZone(60)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("+1:01").utcOffset, (new SimpleTimeZone(61)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("-0").utcOffset, (new SimpleTimeZone(0)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("-1").utcOffset, (new SimpleTimeZone(-60)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("-2").utcOffset, (new SimpleTimeZone(-120)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("-23").utcOffset, (new SimpleTimeZone(-1380)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("-1:00").utcOffset, (new SimpleTimeZone(-60)).utcOffset);
_assertPred!"=="(SimpleTimeZone.fromISOString("-1:01").utcOffset, (new SimpleTimeZone(-61)).utcOffset);
}
}
//Test that converting from an ISO string to a SimpleTimeZone to an ISO String works properly.
unittest
{
version(testStdDateTime)
{
static void testSTZ(in string isoString, int expectedOffset, size_t line = __LINE__)
{
auto stz = SimpleTimeZone.fromISOString(isoString);
_assertPred!"=="(stz.utcOffset, expectedOffset, "", __FILE__, line);
auto result = SimpleTimeZone.toISOString(stz.utcOffset);
_assertPred!"=="(result, isoString, "", __FILE__, line);
}
testSTZ("+00:00", 0);
testSTZ("+00:01", 1);
testSTZ("+00:10", 10);
testSTZ("+00:59", 59);
testSTZ("+01:00", 60);
testSTZ("+01:30", 90);
testSTZ("+02:00", 120);
testSTZ("+08:00", 480);
testSTZ("+08:00", 480);
testSTZ("+23:59", 1439);
testSTZ("-00:01", -1);
testSTZ("-00:10", -10);
testSTZ("-00:59", -59);
testSTZ("-01:00", -60);
testSTZ("-01:30", -90);
testSTZ("-02:00", -120);
testSTZ("-08:00", -480);
testSTZ("-08:00", -480);
testSTZ("-23:59", -1439);
}
}
}
/++
Represents a time zone from a TZ Database time zone file. Files from the TZ
database are how Posix systems hold their time zone information.
Unfortunately, Windows does not use the TZ Database. You can, however, use
$(D PosixTimeZone) (which reads its information from the TZ Database files
on disk) on Windows if you provide the TZ Database files
( $(WEB elsie.nci.nih.gov/pub/, Repository with the TZ Database files (tzdata)) )
yourself and tell $(D PosixTimeZone.getTimeZone) where the directory holding
them is.
To get a $(D PosixTimeZone), either call $(D PosixTimeZone.getTimeZone)
(which will allow you to specify the location the time zone files) or call
$(D TimeZone.getTimeZone) (which will give you a $(D PosixTimeZone) on Posix
systems and a $(D WindowsTimeZone) on Windows systems).
Note:
Unless your system's local time zone deals with leap seconds (which is
highly unlikely), then only way that you will get a time zone which
takes leap seconds into account is if you use $(D PosixTimeZone) with a
time zone whose name starts with "right/". Those time zone files do
include leap seconds, and $(D PosixTimeZone) will take them into account
(though posix systems which use a "right/" time zone as their local time
zone will $(I not) take leap seconds into account even though they're
in the file).
See_Also:
$(WEB en.wikipedia.org/wiki/Tz_database, Wikipedia entry on TZ Database)
$(WEB en.wikipedia.org/wiki/List_of_tz_database_time_zones, List of Time
Zones)
+/
final class PosixTimeZone : TimeZone
{
public:
/++
Whether this time zone has Daylight Savings Time at any point in time.
Note that for some time zone types it may not have DST for current
dates but will still return true for $(D hasDST) because the time zone
did at some point have DST.
+/
@property override bool hasDST() const nothrow
{
return _hasDST;
}
/++
Takes the number of hnsecs (100 ns) since midnight, January 1st, 1 A.D.
in UTC time (i.e. std time) and returns whether DST is in effect in this
time zone at the given point in time.
Params:
stdTime = The UTC time that needs to be checked for DST in this time
zone.
+/
override bool dstInEffect(long stdTime) const nothrow
{
assert(!_transitions.empty);
try
{
immutable unixTime = stdTimeToUnixTime(stdTime);
if(_transitions.front.timeT >= unixTime)
return _transitions.front.ttInfo.isDST;
auto found = std.algorithm.countUntil!"b < a.timeT"(cast(Transition[])_transitions, unixTime);
if(found == -1)
return _transitions.back.ttInfo.isDST;
auto transition = found == 0 ? _transitions[0] : _transitions[found - 1];
return transition.ttInfo.isDST;
}
catch(Exception e)
assert(0, format("Nothing in calculateLeapSeconds() should be throwing. Caught Exception: %s", e));
}
/++
Takes the number of hnsecs (100 ns) since midnight, January 1st, 1 A.D.
in UTC time (i.e. std time) and converts it to this time zone's time.
Params:
stdTime = The UTC time that needs to be adjusted to this time zone's
time.
+/
override long utcToTZ(long stdTime) const nothrow
{
assert(!_transitions.empty);
try
{
immutable leapSecs = calculateLeapSeconds(stdTime);
immutable unixTime = stdTimeToUnixTime(stdTime);
if(_transitions.front.timeT >= unixTime)
return stdTime + convert!("seconds", "hnsecs")(_transitions.front.ttInfo.utcOffset + leapSecs);
auto found = std.algorithm.countUntil!"b < a.timeT"(cast(Transition[])_transitions, unixTime);
if(found == -1)
return stdTime + convert!("seconds", "hnsecs")(_transitions.back.ttInfo.utcOffset + leapSecs);
auto transition = found == 0 ? _transitions[0] : _transitions[found - 1];
return stdTime + convert!("seconds", "hnsecs")(transition.ttInfo.utcOffset + leapSecs);
}
catch(Exception e)
assert(0, format("Nothing in calculateLeapSeconds() should be throwing. Caught Exception: %s", e));
}
/++
Takes the number of hnsecs (100 ns) since midnight, January 1st, 1 A.D.
in this time zone's time and converts it to UTC (i.e. std time).
Params:
adjTime = The time in this time zone that needs to be adjusted to
UTC time.
+/
override long tzToUTC(long adjTime) const nothrow
{
assert(!_transitions.empty);
try
{
immutable leapSecs = calculateLeapSeconds(adjTime);
immutable unixTime = stdTimeToUnixTime(adjTime);
if(_transitions.front.timeT >= unixTime)
return adjTime - convert!("seconds", "hnsecs")(_transitions.front.ttInfo.utcOffset + leapSecs);
//Okay, casting is a hack, but countUntil shouldn't be changing it,
//and it would be too inefficient to have to keep duping it every
//time we have to calculate the time. Hopefully, countUntil will
//properly support immutable ranges at some point.
auto found = std.algorithm.countUntil!"b < a.timeT"(cast(Transition[])_transitions, unixTime);
if(found == -1)
return adjTime - convert!("seconds", "hnsecs")(_transitions.back.ttInfo.utcOffset + leapSecs);
auto transition = found == 0 ? _transitions[0] : _transitions[found - 1];
return adjTime - convert!("seconds", "hnsecs")(transition.ttInfo.utcOffset + leapSecs);
}
catch(Exception e)
assert(0, format("Nothing in calculateLeapSeconds() should be throwing. Caught Exception: %s", e));
}
version(Posix)
{
/++
The default directory where the TZ Database files are. It's empty
for Windows, since Windows doesn't have them.
+/
enum defaultTZDatabaseDir = "/usr/share/zoneinfo/";
}
else version(Windows)
{
/++ The default directory where the TZ Database files are. It's empty
for Windows, since Windows doesn't have them.
+/
enum defaultTZDatabaseDir = "";
}
/++
Returns a $(D TimeZone) with the give name per the TZ Database. The time
zone information is fetched from the TZ Database time zone files in the
given directory.
See_Also:
$(WEB en.wikipedia.org/wiki/Tz_database, Wikipedia entry on TZ
Database)
$(WEB en.wikipedia.org/wiki/List_of_tz_database_time_zones, List of
Time Zones)
Params:
name = The TZ Database name of the time zone that you're
looking for.
tzDatabaseDir = The directory where the TZ Database files are
located. Because these files are not located on
Windows systems, you will need to provide them
yourself and give their location here if you wish to
use $(D PosixTimeZone)s.
Throws:
$(D DateTimeException) if the given time zone could not be found or
$(D FileException) if the TZ Database file could not be opened.
Examples:
--------------------
auto tz = PosixTimeZone.getTimeZone("America/Los_Angeles");
assert(tz.name == "America/Los_Angeles");
assert(tz.stdName == "PST");
assert(tz.dstName == "PDT");
--------------------
+/
//TODO make it possible for tzDatabaseDir to be gzipped tar file rather than an uncompressed
// directory.
static immutable(PosixTimeZone) getTimeZone(string name, string tzDatabaseDir = defaultTZDatabaseDir)
{
name = strip(name);
enforce(tzDatabaseDir.exists, new DateTimeException(format("Directory %s does not exist.", tzDatabaseDir)));
enforce(tzDatabaseDir.isDir, new DateTimeException(format("%s is not a directory.", tzDatabaseDir)));
version(Posix)
auto file = tzDatabaseDir ~ name;
else version(Windows)
auto file = tzDatabaseDir ~ replace(strip(name), "/", sep);
enforce(file.exists, new DateTimeException(format("File %s does not exist.", file)));
enforce(file.isFile, new DateTimeException(format("%s is not a file.", file)));
auto tzFile = File(file);
immutable gmtZone = file.canFind("GMT");
try
{
_enforceValidTZFile(readVal!(char[])(tzFile, 4) == "TZif");
immutable char tzFileVersion = readVal!char(tzFile);
_enforceValidTZFile(tzFileVersion == '\0' || tzFileVersion == '2');
{
auto zeroBlock = readVal!(ubyte[])(tzFile, 15);
bool allZeroes = true;
foreach(val; zeroBlock)
{
if(val != 0)
{
allZeroes = false;
break;
}
}
_enforceValidTZFile(allZeroes);
}
//The number of UTC/local indicators stored in the file.
auto tzh_ttisgmtcnt = readVal!int(tzFile);
//The number of standard/wall indicators stored in the file.
auto tzh_ttisstdcnt = readVal!int(tzFile);
//The number of leap seconds for which data is stored in the file.
auto tzh_leapcnt = readVal!int(tzFile);
//The number of "transition times" for which data is stored in the file.
auto tzh_timecnt = readVal!int(tzFile);
//The number of "local time types" for which data is stored in the file (must not be zero).
auto tzh_typecnt = readVal!int(tzFile);
_enforceValidTZFile(tzh_typecnt != 0);
//The number of characters of "timezone abbreviation strings" stored in the file.
auto tzh_charcnt = readVal!int(tzFile);
//time_ts where DST transitions occur.
auto transitionTimeTs = new long[](tzh_timecnt);
foreach(ref transition; transitionTimeTs)
transition = readVal!int(tzFile);
//Indices into ttinfo structs indicating the changes
//to be made at the corresponding DST transition.
auto ttInfoIndices = new ubyte[](tzh_timecnt);
foreach(ref ttInfoIndex; ttInfoIndices)
ttInfoIndex = readVal!ubyte(tzFile);
//ttinfos which give info on DST transitions.
auto tempTTInfos = new TempTTInfo[](tzh_typecnt);
foreach(ref ttInfo; tempTTInfos)
ttInfo = readVal!TempTTInfo(tzFile);
//The array of time zone abbreviation characters.
auto tzAbbrevChars = readVal!(char[])(tzFile, tzh_charcnt);
auto leapSeconds = new LeapSecond[](tzh_leapcnt);
foreach(ref leapSecond; leapSeconds)
{
//The time_t when the leap second occurs.
auto timeT = readVal!int(tzFile);
//The total number of leap seconds to be applied after
//the corresponding leap second.
auto total = readVal!int(tzFile);
leapSecond = LeapSecond(timeT, total);
}
//Indicate whether each corresponding DST transition were specified
//in standard time or wall clock time.
auto transitionIsStd = new bool[](tzh_ttisstdcnt);
foreach(ref isStd; transitionIsStd)
isStd = readVal!bool(tzFile);
//Indicate whether each corresponding DST transition associated with
//local time types are specified in UTC or local time.
auto transitionInUTC = new bool[](tzh_ttisgmtcnt);
foreach(ref inUTC; transitionInUTC)
inUTC = readVal!bool(tzFile);
_enforceValidTZFile(!tzFile.eof());
//If version 2, the information is duplicated in 64-bit.
if(tzFileVersion == '2')
{
_enforceValidTZFile(readVal!(char[])(tzFile, 4) == "TZif");
_enforceValidTZFile(readVal!(char)(tzFile) == '2');
{
auto zeroBlock = readVal!(ubyte[])(tzFile, 15);
bool allZeroes = true;
foreach(val; zeroBlock)
{
if(val != 0)
{
allZeroes = false;
break;
}
}
_enforceValidTZFile(allZeroes);
}
//The number of UTC/local indicators stored in the file.
tzh_ttisgmtcnt = readVal!int(tzFile);
//The number of standard/wall indicators stored in the file.
tzh_ttisstdcnt = readVal!int(tzFile);
//The number of leap seconds for which data is stored in the file.
tzh_leapcnt = readVal!int(tzFile);
//The number of "transition times" for which data is stored in the file.
tzh_timecnt = readVal!int(tzFile);
//The number of "local time types" for which data is stored in the file (must not be zero).
tzh_typecnt = readVal!int(tzFile);
_enforceValidTZFile(tzh_typecnt != 0);
//The number of characters of "timezone abbreviation strings" stored in the file.
tzh_charcnt = readVal!int(tzFile);
//time_ts where DST transitions occur.
transitionTimeTs = new long[](tzh_timecnt);
foreach(ref transition; transitionTimeTs)
transition = readVal!long(tzFile);
//Indices into ttinfo structs indicating the changes
//to be made at the corresponding DST transition.
ttInfoIndices = new ubyte[](tzh_timecnt);
foreach(ref ttInfoIndex; ttInfoIndices)
ttInfoIndex = readVal!ubyte(tzFile);
//ttinfos which give info on DST transitions.
tempTTInfos = new TempTTInfo[](tzh_typecnt);
foreach(ref ttInfo; tempTTInfos)
ttInfo = readVal!TempTTInfo(tzFile);
//The array of time zone abbreviation characters.
tzAbbrevChars = readVal!(char[])(tzFile, tzh_charcnt);
leapSeconds = new LeapSecond[](tzh_leapcnt);
foreach(ref leapSecond; leapSeconds)
{
//The time_t when the leap second occurs.
auto timeT = readVal!long(tzFile);
//The total number of leap seconds to be applied after
//the corresponding leap second.
auto total = readVal!int(tzFile);
leapSecond = LeapSecond(timeT, total);
}
//Indicate whether each corresponding DST transition were specified
//in standard time or wall clock time.
transitionIsStd = new bool[](tzh_ttisstdcnt);
foreach(ref isStd; transitionIsStd)
isStd = readVal!bool(tzFile);
//Indicate whether each corresponding DST transition associated with
//local time types are specified in UTC or local time.
transitionInUTC = new bool[](tzh_ttisgmtcnt);
foreach(ref inUTC; transitionInUTC)
inUTC = readVal!bool(tzFile);
}
_enforceValidTZFile(tzFile.readln().strip().empty());
auto posixEnvStr = tzFile.readln().strip();
_enforceValidTZFile(tzFile.readln().strip().empty());
_enforceValidTZFile(tzFile.eof());
auto transitionTypes = new TransitionType*[](tempTTInfos.length);
foreach(i, ref ttype; transitionTypes)
{
bool isStd = false;
if(i < transitionIsStd.length && !transitionIsStd.empty)
isStd = transitionIsStd[i];
bool inUTC = false;
if(i < transitionInUTC.length && !transitionInUTC.empty)
inUTC = transitionInUTC[i];
ttype = new TransitionType(isStd, inUTC);
}
auto ttInfos = new immutable(TTInfo)*[](tempTTInfos.length);
foreach(i, ref ttInfo; ttInfos)
{
auto tempTTInfo = tempTTInfos[i];
if(gmtZone)
tempTTInfo.tt_gmtoff = -tempTTInfo.tt_gmtoff;
auto abbrevChars = tzAbbrevChars[tempTTInfo.tt_abbrind .. $];
string abbrev = abbrevChars[0 .. abbrevChars.stds_indexOf("\0")].idup;
ttInfo = new immutable(TTInfo)(tempTTInfos[i], abbrev);
}
auto tempTransitions = new TempTransition[](transitionTimeTs.length);
foreach(i, ref tempTransition; tempTransitions)
{
immutable ttiIndex = ttInfoIndices[i];
auto transitionTimeT = transitionTimeTs[i];
auto ttype = transitionTypes[ttiIndex];
auto ttInfo = ttInfos[ttiIndex];
tempTransition = TempTransition(transitionTimeT, ttInfo, ttype);
}
if(tempTransitions.empty)
{
_enforceValidTZFile(ttInfos.length == 1 && transitionTypes.length == 1);
tempTransitions ~= TempTransition(0, ttInfos[0], transitionTypes[0]);
}
sort!"a.timeT < b.timeT"(tempTransitions);
sort!"a.timeT < b.timeT"(leapSeconds);
auto transitions = new Transition[](tempTransitions.length);
foreach(i, ref transition; transitions)
{
auto tempTransition = tempTransitions[i];
auto transitionTimeT = tempTransition.timeT;
auto ttInfo = tempTransition.ttInfo;
auto ttype = tempTransition.ttype;
_enforceValidTZFile(i == 0 || transitionTimeT > tempTransitions[i - 1].timeT);
transition = Transition(transitionTimeT, ttInfo);
}
string stdName;
string dstName;
bool hasDST = false;
foreach(transition; retro(transitions))
{
auto ttInfo = transition.ttInfo;
if(ttInfo.isDST)
{
if(dstName.empty)
dstName = ttInfo.abbrev;
hasDST = true;
}
else
{
if(stdName.empty)
stdName = ttInfo.abbrev;
}
if(!stdName.empty && !dstName.empty)
break;
}
return new PosixTimeZone(transitions.idup, leapSeconds.idup, name, stdName, dstName, hasDST);
}
catch(DateTimeException dte)
throw dte;
catch(Exception e)
throw new DateTimeException("Not a valid TZ data file", __FILE__, __LINE__, e);
}
/++
Returns a list of the names of the time zones installed on the system.
You can provide a sub-name to narrow down the list of time zones (which
will likely be in the thousands if you get them all). For example,
if you pass in "America" as the sub-name, then only the time zones which
begin with "America" will be returned.
Params:
subName = The first part of the time zones that you want.
Throws:
$(D FileException) if it fails to read from disk.
+/
static string[] getInstalledTZNames(string subName = "", string tzDatabaseDir = defaultTZDatabaseDir)
{
version(Posix)
subName = strip(subName);
else version(Windows)
subName = replace(strip(subName), "/", sep);
if(!tzDatabaseDir.endsWith(sep))
tzDatabaseDir ~= sep;
enforce(tzDatabaseDir.exists, new DateTimeException(format("Directory %s does not exist.", tzDatabaseDir)));
enforce(tzDatabaseDir.isDir, new DateTimeException(format("%s is not a directory.", tzDatabaseDir)));
auto timezones = appender!(string[])();
foreach(DirEntry dentry; dirEntries(tzDatabaseDir, SpanMode.depth))
{
if(dentry.isFile)
{
auto tzName = dentry.name[tzDatabaseDir.length .. $];
if(!tzName.getExt().empty() ||
!tzName.startsWith(subName) ||
tzName == "+VERSION")
{
continue;
}
timezones.put(tzName);
}
}
sort(timezones.data);
return timezones.data;
}
unittest
{
version(testStdDateTime)
{
version(Posix)
{
static void testPTZSuccess(string tzName)
{
scope(failure) writefln("TZName which threw: %s", tzName);
PosixTimeZone.getTimeZone(tzName);
}
static void testPTZFailure(string tzName)
{
scope(success) writefln("TZName which was supposed to throw: %s", tzName);
PosixTimeZone.getTimeZone(tzName);
}
auto tzNames = getInstalledTZNames();
foreach(tzName; tzNames)
assertNotThrown!DateTimeException(testPTZSuccess(tzName));
foreach(DirEntry dentry; dirEntries(defaultTZDatabaseDir, SpanMode.depth))
{
if(dentry.isFile)
{
auto tzName = dentry.name[defaultTZDatabaseDir.length .. $];
if(!canFind(tzNames, tzName))
assertThrown!DateTimeException(testPTZFailure(tzName));
}
}
}
}
}
private:
/+
Holds information on when a time transition occures (usually a
transition to or from DST) as well as a pointer to the $(D TTInfo) which
holds information on the utc offset passed the transition.
+/
struct Transition
{
this(long timeT, immutable (TTInfo)* ttInfo)
{
this.timeT = timeT;
this.ttInfo = ttInfo;
}
long timeT;
immutable (TTInfo)* ttInfo;
}
/+
Holds information on when a leap second occurs.
+/
struct LeapSecond
{
this(long timeT, int total)
{
this.timeT = timeT;
this.total = total;
}
long timeT;
int total;
}
/+
Holds information on the utc offset after a transition as well as
whether DST is in effect after that transition.
+/
struct TTInfo
{
this(in TempTTInfo tempTTInfo, string abbrev) immutable
{
utcOffset = tempTTInfo.tt_gmtoff;
isDST = tempTTInfo.tt_isdst;
this.abbrev = abbrev;
}
immutable int utcOffset; /// Offset from UTC.
immutable bool isDST; /// Whether DST is in effect.
immutable string abbrev; /// The current abbreviation for the time zone.
}
/+
Struct used to hold information relating to $(D TTInfo) while organizing
the time zone information prior to putting it in its final form.
+/
struct TempTTInfo
{
this(int gmtOff, bool isDST, ubyte abbrInd)
{
tt_gmtoff = gmtOff;
tt_isdst = isDST;
tt_abbrind = abbrInd;
}
int tt_gmtoff;
bool tt_isdst;
ubyte tt_abbrind;
}
/+
Struct used to hold information relating to $(D Transition) while
organizing the time zone information prior to putting it in its final
form.
+/
struct TempTransition
{
this(long timeT, immutable (TTInfo)* ttInfo, TransitionType* ttype)
{
this.timeT = timeT;
this.ttInfo = ttInfo;
this.ttype = ttype;
}
long timeT;
immutable (TTInfo)* ttInfo;
TransitionType* ttype;
}
/+
Struct used to hold information relating to $(D Transition) and
$(D TTInfo) while organizing the time zone information prior to putting
it in its final form.
+/
struct TransitionType
{
this(bool isStd, bool inUTC)
{
this.isStd = isStd;
this.inUTC = inUTC;
}
/// Whether the transition is in std time (as opposed to wall clock time).
bool isStd;
/// Whether the transition is in UTC (as opposed to local time).
bool inUTC;
}
/+
Reads an int from a TZ file.
+/
static T readVal(T)(ref File tzFile)
if(is(T == int))
{
T[1] buff;
_enforceValidTZFile(!tzFile.eof());
tzFile.rawRead(buff);
return cast(int)ntohl(buff[0]);
}
/+
Reads a long from a TZ file.
+/
static T readVal(T)(ref File tzFile)
if(is(T == long))
{
T[1] buff;
_enforceValidTZFile(!tzFile.eof());
tzFile.rawRead(buff);
return cast(long)ntoh64(buff[0]);
}
/+
Reads an array of values from a TZ file.
+/
static T readVal(T)(ref File tzFile, size_t length)
if(isArray!T)
{
auto buff = new T(length);
_enforceValidTZFile(!tzFile.eof());
tzFile.rawRead(buff);
return buff;
}
/+
Reads a $(D TempTTInfo) from a TZ file.
+/
static T readVal(T)(ref File tzFile)
if(is(T == TempTTInfo))
{
return TempTTInfo(readVal!int(tzFile),
readVal!bool(tzFile),
readVal!ubyte(tzFile));
}
/+
Reads a value from a TZ file.
+/
static T readVal(T)(ref File tzFile)
if(!is(T == int) &&
!is(T == long) &&
!is(T == char[]) &&
!is(T == TempTTInfo))
{
T[1] buff;
_enforceValidTZFile(!tzFile.eof());
tzFile.rawRead(buff);
return buff[0];
}
/+
64 bit version of $(D ntoh). Unfortunately, for some reason, most
systems provide only 16 and 32 bit versions of this, so we need to
provide it ourselves. We really should declare a version of this in core
somewhere.
+/
static ulong ntoh64(ulong val)
{
static if(endian == Endian.LittleEndian)
return endianSwap64(val);
else
return val;
}
/+
Swaps the endianness of a 64-bit value. We really should declare a
version of this in core somewhere.
+/
static ulong endianSwap64(ulong val)
{
return ((val & 0xff00000000000000UL) >> 56) |
((val & 0x00ff000000000000UL) >> 40) |
((val & 0x0000ff0000000000UL) >> 24) |
((val & 0x000000ff00000000UL) >> 8) |
((val & 0x00000000ff000000UL) << 8) |
((val & 0x0000000000ff0000UL) << 24) |
((val & 0x000000000000ff00UL) << 40) |
((val & 0x00000000000000ffUL) << 56);
}
/+
Throws:
$(D DateTimeException) if $(D result) is false.
+/
static void _enforceValidTZFile(bool result, size_t line = __LINE__)
{
if(!result)
throw new DateTimeException("Not a valid tzdata file.", __FILE__, line);
}
int calculateLeapSeconds(long stdTime) const nothrow
{
try
{
if(_leapSeconds.empty)
return 0;
immutable unixTime = stdTimeToUnixTime(stdTime);
if(_leapSeconds.front.timeT >= unixTime)
return 0;
//Okay, casting is a hack, but countUntil shouldn't be changing it,
//and it would be too inefficient to have to keep duping it every
//time we have to calculate the time. Hopefully, countUntil will
//properly support immutable ranges at some point.
auto found = std.algorithm.countUntil!"b < a.timeT"(cast(LeapSecond[])_leapSeconds, unixTime);
if(found == -1)
return _leapSeconds.back.total;
auto leapSecond = found == 0 ? _leapSeconds[0] : _leapSeconds[found - 1];
return leapSecond.total;
}
catch(Exception e)
assert(0, format("Nothing in calculateLeapSeconds() should be throwing. Caught Exception: %s", e));
}
this(immutable Transition[] transitions,
immutable LeapSecond[] leapSeconds,
string name,
string stdName,
string dstName,
bool hasDST) immutable
{
if(dstName.empty && !stdName.empty)
dstName = stdName;
else if(stdName.empty && !dstName.empty)
stdName = dstName;
super(name, stdName, dstName);
if(!transitions.empty)
{
foreach(i, transition; transitions[0 .. $-1])
_enforceValidTZFile(transition.timeT < transitions[i + 1].timeT);
}
foreach(i, leapSecond; leapSeconds)
_enforceValidTZFile(i == leapSeconds.length - 1 || leapSecond.timeT < leapSeconds[i + 1].timeT);
_transitions = transitions;
_leapSeconds = leapSeconds;
_hasDST = hasDST;
}
/// List of times when the utc offset changes.
immutable Transition[] _transitions;
/// List of leap second occurrences.
immutable LeapSecond[] _leapSeconds;
/// Whether DST is in effect for this time zone at any point in time.
immutable bool _hasDST;
}
version(StdDdoc)
{
/++
$(BLUE This class is Windows-Only.)
Represents a time zone from the Windows registry. Unfortunately, Windows
does not use the TZ Database. You can, however, use $(D PosixTimeZone)
(which reads its information from the TZ Database files on disk) on
Windows if you provide the TZ Database files
( $(WEB ftp://elsie.nci.nih.gov/pub/,
Repository with the TZ Database files (tzdata)) )
yourself and tell $(D PosixTimeZone.getTimeZone) where the directory
holding them is.
The TZ Dabatase files and Windows are not likely to always match,
particularly for historical dates, so if you want complete consistency
between Posix and Windows, then you should provide the appropriate
TZ Database files on Windows and use $(D PosixTimeZone). But as
$(D WindowsTimeZone) uses the Windows functions, $(D WindowsTimeZone)
is more likely to match the behavior of other Windows programs.
$(D WindowsTimeZone) should be fine for most programs.
$(D WindowsTimeZone) does not exist on Posix systems.
To get a $(D WindowsTimeZone), either call
$(D WindowsTimeZone.getTimeZone) or call $(D TimeZone.getTimeZone)
(which will give you a $(D PosixTimeZone) on Posix systems and a
$(D WindowsTimeZone) on Windows systems).
+/
final class WindowsTimeZone : TimeZone
{
public:
/++
Whether this time zone has Daylight Savings Time at any point in
time. Note that for some time zone types it may not have DST for
current dates but will still return true for $(D hasDST) because the
time zone did at some point have DST.
+/
@property override bool hasDST() const nothrow;
/++
Takes the number of hnsecs (100 ns) since midnight, January 1st,
1 A.D. in UTC time (i.e. std time) and returns whether DST is in
effect in this time zone at the given point in time.
Params:
stdTime = The UTC time that needs to be checked for DST in this
time zone.
+/
override bool dstInEffect(long stdTime) const nothrow;
/++
Takes the number of hnsecs (100 ns) since midnight, January 1st,
1 A.D. in UTC time (i.e. std time) and converts it to this time
zone's time.
Params:
stdTime = The UTC time that needs to be adjusted to this time
zone's time.
+/
override long utcToTZ(long stdTime) const nothrow;
/++
Takes the number of hnsecs (100 ns) since midnight, January 1st,
1 A.D. in this time zone's time and converts it to UTC (i.e. std
time).
Params:
adjTime = The time in this time zone that needs to be adjusted
to UTC time.
+/
override long tzToUTC(long adjTime) const nothrow;
/++
Returns a $(D TimeZone) with the given name per the Windows time
zone names. The time zone information is fetched from the Windows
registry.
See_Also:
$(WEB en.wikipedia.org/wiki/Tz_database, Wikipedia entry on TZ
Database)
$(WEB en.wikipedia.org/wiki/List_of_tz_database_time_zones, List
of Time Zones)
Params:
name = The TZ Database name of the time zone that you're looking
for.
Throws:
$(D DateTimeException) if the given time zone could not be
found.
Examples:
--------------------
auto tz = TimeZone.getTimeZone("America/Los_Angeles");
--------------------
+/
static immutable(WindowsTimeZone) getTimeZone(string name);
/++
Returns a list of the names of the time zones installed on the
system.
+/
static string[] getInstalledTZNames();
private:
version(Windows) {}
else
alias void* TIME_ZONE_INFORMATION;
static bool _dstInEffect(const TIME_ZONE_INFORMATION* tzInfo, long stdTime) nothrow;
static long _utcToTZ(const TIME_ZONE_INFORMATION* tzInfo, long stdTime, bool hasDST) nothrow;
static long _tzToUTC(const TIME_ZONE_INFORMATION* tzInfo, long adjTime, bool hasDST) nothrow;
this() immutable pure
{
super("", "", "");
}
}
}
else version(Windows)
{
//Should be in core.sys.windows.windows, but for some reason it isn't.
extern(Windows)
{
export LONG RegQueryValueExA(HKEY hKey, LPCSTR name, LPDWORD reserved, LPDWORD type, LPBYTE data, LPDWORD count);
struct REG_TZI_FORMAT
{
LONG Bias;
LONG StandardBias;
LONG DaylightBias;
SYSTEMTIME StandardDate;
SYSTEMTIME DaylightDate;
}
}
final class WindowsTimeZone : TimeZone
{
public:
@property override bool hasDST() const nothrow
{
return _tzInfo.DaylightDate.wMonth != 0;
}
override bool dstInEffect(long stdTime) const nothrow
{
return _dstInEffect(&_tzInfo, stdTime);
}
override long utcToTZ(long stdTime) const nothrow
{
return _utcToTZ(&_tzInfo, stdTime, hasDST);
}
override long tzToUTC(long adjTime) const nothrow
{
return _tzToUTC(&_tzInfo, adjTime, hasDST);
}
static immutable(WindowsTimeZone) getTimeZone(string name)
{
auto keyStr = "Software\\Microsoft\\Windows NT\\CurrentVersion\\Time Zones\0";
HKEY baseKey;
{
auto result = RegOpenKeyExA(HKEY_LOCAL_MACHINE, keyStr.ptr, 0, KEY_READ, &baseKey);
if(result != ERROR_SUCCESS)
throw new DateTimeException(format("Failed to open registry. Error: %s", result));
}
scope(exit) RegCloseKey(baseKey);
char[1024] keyName;
auto nameLen = keyName.length;
int result;
for(DWORD index = 0;
(result = RegEnumKeyExA(baseKey, index, keyName.ptr, &nameLen, null, null, null, null)) != ERROR_NO_MORE_ITEMS;
++index, nameLen = keyName.length)
{
if(result == ERROR_SUCCESS)
{
HKEY tzKey;
if(RegOpenKeyExA(baseKey, keyName.ptr, 0, KEY_READ, &tzKey) == ERROR_SUCCESS)
{
scope(exit) RegCloseKey(tzKey);
char[1024] strVal;
auto strValLen = strVal.length;
bool queryStringValue(string name, size_t lineNum = __LINE__)
{
strValLen = strVal.length;
return RegQueryValueExA(tzKey, name.ptr, null, null, cast(ubyte*)strVal.ptr, &strValLen) == ERROR_SUCCESS;
}
if(to!string(keyName.ptr) == name)
{
if(queryStringValue("Std\0"))
{
//Cannot use to!wstring(char*), probably due to bug http://d.puremagic.com/issues/show_bug.cgi?id=5016
static wstring conv(char* cstr, size_t strValLen)
{
cstr[strValLen - 1] = '\0';
string retval;
for(;; ++cstr)
{
if(*cstr == '\0')
break;
retval ~= *cstr;
}
return to!wstring(retval);
}
//auto stdName = to!wstring(strVal.ptr);
auto stdName = conv(strVal.ptr, strValLen);
if(queryStringValue("Dlt\0"))
{
//auto dstName = to!wstring(strVal.ptr);
auto dstName = conv(strVal.ptr, strValLen);
enum tzi = "TZI\0";
REG_TZI_FORMAT binVal;
auto binValLen = REG_TZI_FORMAT.sizeof;
if(RegQueryValueExA(tzKey, tzi.ptr, null, null, cast(ubyte*)&binVal, &binValLen) == ERROR_SUCCESS)
{
TIME_ZONE_INFORMATION tzInfo;
auto stdNameLen = stdName.length > 32 ? 32 : stdName.length;
auto dstNameLen = dstName.length > 32 ? 32 : dstName.length;
tzInfo.Bias = binVal.Bias;
tzInfo.StandardName[0 .. stdNameLen] = stdName[0 .. stdNameLen];
tzInfo.StandardName[stdNameLen .. $] = '\0';
tzInfo.StandardDate = binVal.StandardDate;
tzInfo.StandardBias = binVal.StandardBias;
tzInfo.DaylightName[0 .. dstNameLen] = dstName[0 .. dstNameLen];
tzInfo.DaylightName[dstNameLen .. $] = '\0';
tzInfo.DaylightDate = binVal.DaylightDate;
tzInfo.DaylightBias = binVal.DaylightBias;
return new WindowsTimeZone(name, tzInfo);
}
}
}
}
}
}
}
throw new DateTimeException(format("Failed to find time zone: %s", name));
}
static string[] getInstalledTZNames()
{
auto timezones = appender!(string[])();
auto keyStr = "Software\\Microsoft\\Windows NT\\CurrentVersion\\Time Zones";
HKEY baseKey;
{
auto result = RegOpenKeyExA(HKEY_LOCAL_MACHINE, keyStr.ptr, 0, KEY_READ, &baseKey);
if(result != ERROR_SUCCESS)
throw new DateTimeException(format("Failed to open registry. Error: %s", result));
}
scope(exit) RegCloseKey(baseKey);
char[1024] keyName;
auto nameLen = keyName.length;
int result;
for(DWORD index = 0;
(result = RegEnumKeyExA(baseKey, index, keyName.ptr, &nameLen, null, null, null, null)) != ERROR_NO_MORE_ITEMS;
++index, nameLen = keyName.length)
{
if(result == ERROR_SUCCESS)
timezones.put(to!string(keyName.ptr));
}
sort(timezones.data);
return timezones.data;
}
unittest
{
version(testStdDateTime)
{
static void testWTZSuccess(string tzName)
{
scope(failure) writefln("TZName which threw: %s", tzName);
WindowsTimeZone.getTimeZone(tzName);
}
auto tzNames = getInstalledTZNames();
foreach(tzName; tzNames)
assertNotThrown!DateTimeException(testWTZSuccess(tzName));
}
}
private:
static bool _dstInEffect(const TIME_ZONE_INFORMATION* tzInfo, long stdTime) nothrow
{
try
{
if(tzInfo.DaylightDate.wMonth == 0)
return false;
auto utcDateTime = cast(DateTime)SysTime(stdTime, UTC());
//The limits of what SystemTimeToTZSpecificLocalTime will accept.
if(utcDateTime.year < 1601)
{
if(utcDateTime.month == Month.feb && utcDateTime.day == 29)
utcDateTime.day = 28;
utcDateTime.year = 1601;
}
else if(utcDateTime.year > 30_827)
{
if(utcDateTime.month == Month.feb && utcDateTime.day == 29)
utcDateTime.day = 28;
utcDateTime.year = 30_827;
}
//SystemTimeToTZSpecificLocalTime doesn't act correctly at the
//beginning or end of the year (bleh). Unless some bizarre time
//zone changes DST on January 1st or December 31st, this should
//fix the problem.
if(utcDateTime.month == Month.jan)
{
if(utcDateTime.day == 1)
utcDateTime.day = 2;
}
else if(utcDateTime.month == Month.dec && utcDateTime.day == 31)
utcDateTime.day = 30;
SYSTEMTIME utcTime = void;
SYSTEMTIME otherTime = void;
utcTime.wYear = utcDateTime.year;
utcTime.wMonth = utcDateTime.month;
utcTime.wDay = utcDateTime.day;
utcTime.wHour = utcDateTime.hour;
utcTime.wMinute = utcDateTime.minute;
utcTime.wSecond = utcDateTime.second;
utcTime.wMilliseconds = 0;
immutable result = SystemTimeToTzSpecificLocalTime(cast(TIME_ZONE_INFORMATION*)tzInfo,
&utcTime,
&otherTime);
assert(result);
immutable otherDateTime = DateTime(otherTime.wYear,
otherTime.wMonth,
otherTime.wDay,
otherTime.wHour,
otherTime.wMinute,
otherTime.wSecond);
immutable diff = utcDateTime - otherDateTime;
immutable minutes = diff.total!"minutes"() - tzInfo.Bias;
if(minutes == tzInfo.DaylightBias)
return true;
assert(minutes == tzInfo.StandardBias);
return false;
}
catch(Exception e)
assert(0, "DateTime's constructor threw.");
}
version(testStdDateTime) unittest
{
TIME_ZONE_INFORMATION tzInfo;
GetTimeZoneInformation(&tzInfo);
foreach(year; [1600, 1601, 30_827, 30_828])
WindowsTimeZone._dstInEffect(&tzInfo, SysTime(DateTime(year, 1, 1)).stdTime);
}
static long _utcToTZ(const TIME_ZONE_INFORMATION* tzInfo, long stdTime, bool hasDST) nothrow
{
if(hasDST && WindowsTimeZone._dstInEffect(tzInfo, stdTime))
return stdTime - convert!("minutes", "hnsecs")(tzInfo.Bias + tzInfo.DaylightBias);
return stdTime - convert!("minutes", "hnsecs")(tzInfo.Bias + tzInfo.StandardBias);
}
static long _tzToUTC(const TIME_ZONE_INFORMATION* tzInfo, long adjTime, bool hasDST) nothrow
{
if(hasDST)
{
try
{
bool dstInEffectForLocalDateTime(DateTime localDateTime)
{
//The limits of what SystemTimeToTZSpecificLocalTime will accept.
if(localDateTime.year < 1601)
{
if(localDateTime.month == Month.feb && localDateTime.day == 29)
localDateTime.day = 28;
localDateTime.year = 1601;
}
else if(localDateTime.year > 30_827)
{
if(localDateTime.month == Month.feb && localDateTime.day == 29)
localDateTime.day = 28;
localDateTime.year = 30_827;
}
//SystemTimeToTZSpecificLocalTime doesn't act correctly at the
//beginning or end of the year (bleh). Unless some bizarre time
//zone changes DST on January 1st or December 31st, this should
//fix the problem.
if(localDateTime.month == Month.jan)
{
if(localDateTime.day == 1)
localDateTime.day = 2;
}
else if(localDateTime.month == Month.dec && localDateTime.day == 31)
localDateTime.day = 30;
SYSTEMTIME utcTime = void;
SYSTEMTIME localTime = void;
localTime.wYear = localDateTime.year;
localTime.wMonth = localDateTime.month;
localTime.wDay = localDateTime.day;
localTime.wHour = localDateTime.hour;
localTime.wMinute = localDateTime.minute;
localTime.wSecond = localDateTime.second;
localTime.wMilliseconds = 0;
immutable result = SystemTimeToTzSpecificLocalTime(cast(TIME_ZONE_INFORMATION*)tzInfo,
&localTime,
&utcTime);
assert(result);
immutable utcDateTime = DateTime(utcTime.wYear,
utcTime.wMonth,
utcTime.wDay,
utcTime.wHour,
utcTime.wMinute,
utcTime.wSecond);
immutable diff = localDateTime - utcDateTime;
immutable minutes = diff.total!"minutes"() - tzInfo.Bias;
if(minutes == tzInfo.DaylightBias)
return true;
assert(minutes == tzInfo.StandardBias);
return false;
}
auto localDateTime = cast(DateTime)SysTime(adjTime, UTC());
auto localDateTimeBefore = localDateTime - dur!"hours"(1);
auto localDateTimeAfter = localDateTime + dur!"hours"(1);
auto dstInEffectNow = dstInEffectForLocalDateTime(localDateTime);
auto dstInEffectBefore = dstInEffectForLocalDateTime(localDateTimeBefore);
auto dstInEffectAfter = dstInEffectForLocalDateTime(localDateTimeAfter);
bool isDST;
if(dstInEffectBefore && dstInEffectNow && dstInEffectAfter)
isDST = true;
else if(!dstInEffectBefore && !dstInEffectNow && !dstInEffectAfter)
isDST = false;
else if((!dstInEffectBefore && dstInEffectAfter) ||
(dstInEffectBefore && !dstInEffectAfter))
{
isDST = dstInEffectNow;
}
else
assert(0, "Bad Logic.");
if(isDST)
return adjTime + convert!("minutes", "hnsecs")(tzInfo.Bias + tzInfo.DaylightBias);
}
catch(Exception e)
assert(0, "SysTime's constructor threw.");
}
return adjTime + convert!("minutes", "hnsecs")(tzInfo.Bias + tzInfo.StandardBias);
}
this(string name, TIME_ZONE_INFORMATION tzInfo) immutable
{
//Cannot use to!string(wchar*), probably due to bug http://d.puremagic.com/issues/show_bug.cgi?id=5016
static string conv(wchar* wcstr)
{
wcstr[31] = '\0';
wstring retval;
for(;; ++wcstr)
{
if(*wcstr == '\0')
break;
retval ~= *wcstr;
}
return to!string(retval);
}
//super(name, to!string(tzInfo.StandardName.ptr), to!string(tzInfo.DaylightName.ptr));
super(name, conv(tzInfo.StandardName.ptr), conv(tzInfo.DaylightName.ptr));
_tzInfo = tzInfo;
}
TIME_ZONE_INFORMATION _tzInfo;
}
}
version(StdDdoc)
{
/++
$(BLUE This function is Posix-Only.)
Allows you to set the local time zone on Posix systems with the TZ
database name by setting the TZ environment variable.
Unfortunately, there is no way to do it on Windows using the TZ
database name, so this function only exists on Posix systems.
+/
void setTZEnvVar(string tzDatabaseName);
/++
$(BLUE This function is Posix-Only.)
Clears the TZ environment variable.
+/
void clearTZEnvVar();
}
else version(Posix)
{
void setTZEnvVar(string tzDatabaseName) nothrow
{
try
{
auto value = PosixTimeZone.defaultTZDatabaseDir ~ tzDatabaseName ~ "\0";
setenv("TZ", value.ptr, 1);
tzset();
}
catch(Exception e)
assert(0, "The impossible happened. setenv or tzset threw.");
}
void clearTZEnvVar() nothrow
{
try
{
unsetenv("TZ");
tzset();
}
catch(Exception e)
assert(0, "The impossible happened. unsetenv or tzset threw.");
}
}
/++
Converts the given TZ Database name to the corresponding Windows time zone
name.
Note that in a few cases, a TZ Dabatase name corresponds to two different
Windows time zone names. So, while in most cases converting from one to the
other and back again will result in the same time zone name that you started
with, in a few cases, you will get a different name.
Also, there are far more TZ Database names than Windows time zones, so some
of the more exotic TZ Database names don't have corresponding Windows time
zone names.
See_Also:
$(WEB unicode.org/repos/cldr-tmp/trunk/diff/supplemental/zone_tzid.html,
Windows <-> TZ Database Name Conversion Table)
Params:
tzName = The TZ Database name to convert.
Throws:
$(D DateTimeException) if the given $(D_PARAM tzName) cannot be
converted.
+/
string tzDatabaseNameToWindowsTZName(string tzName)
{
switch(tzName)
{
case "Africa/Cairo": return "Egypt Standard Time";
case "Africa/Casablanca": return "Morocco Standard Time";
case "Africa/Johannesburg": return "South Africa Standard Time";
case "Africa/Lagos": return "W. Central Africa Standard Time";
case "Africa/Nairobi": return "E. Africa Standard Time";
case "Africa/Windhoek": return "Namibia Standard Time";
case "America/Anchorage": return "Alaskan Standard Time";
case "America/Asuncion": return "Paraguay Standard Time";
case "America/Bogota": return "SA Pacific Standard Time";
case "America/Buenos_Aires": return "Argentina Standard Time";
case "America/Caracas": return "Venezuela Standard Time";
case "America/Cayenne": return "SA Eastern Standard Time";
case "America/Chicago": return "Central Standard Time";
case "America/Chihuahua": return "Mountain Standard Time (Mexico)";
case "America/Cuiaba": return "Central Brazilian Standard Time";
case "America/Denver": return "Mountain Standard Time";
case "America/Godthab": return "Greenland Standard Time";
case "America/Guatemala": return "Central America Standard Time";
case "America/Halifax": return "Atlantic Standard Time";
case "America/La_Paz": return "SA Western Standard Time";
case "America/Los_Angeles": return "Pacific Standard Time";
case "America/Mexico_City": return "Central Standard Time (Mexico)";
case "America/Montevideo": return "Montevideo Standard Time";
case "America/New_York": return "Eastern Standard Time";
case "America/Phoenix": return "US Mountain Standard Time";
case "America/Regina": return "Canada Central Standard Time";
case "America/Santa_Isabel": return "Pacific Standard Time (Mexico)";
case "America/Santiago": return "Pacific SA Standard Time";
case "America/Sao_Paulo": return "E. South America Standard Time";
case "America/St_Johns": return "Newfoundland Standard Time";
case "Asia/Almaty": return "Central Asia Standard Time";
case "Asia/Amman": return "Jordan Standard Time";
case "Asia/Baghdad": return "Arabic Standard Time";
case "Asia/Baku": return "Azerbaijan Standard Time";
case "Asia/Bangkok": return "SE Asia Standard Time";
case "Asia/Beirut": return "Middle East Standard Time";
case "Asia/Calcutta": return "India Standard Time";
case "Asia/Colombo": return "Sri Lanka Standard Time";
case "Asia/Damascus": return "Syria Standard Time";
case "Asia/Dhaka": return "Bangladesh Standard Time";
case "Asia/Dubai": return "Arabian Standard Time";
case "Asia/Irkutsk": return "North Asia East Standard Time";
case "Asia/Jerusalem": return "Israel Standard Time";
case "Asia/Kabul": return "Afghanistan Standard Time";
case "Asia/Kamchatka": return "Kamchatka Standard Time";
case "Asia/Karachi": return "Pakistan Standard Time";
case "Asia/Katmandu": return "Nepal Standard Time";
case "Asia/Krasnoyarsk": return "North Asia Standard Time";
case "Asia/Magadan": return "Magadan Standard Time";
case "Asia/Novosibirsk": return "N. Central Asia Standard Time";
case "Asia/Rangoon": return "Myanmar Standard Time";
case "Asia/Riyadh": return "Arab Standard Time";
case "Asia/Seoul": return "Korea Standard Time";
case "Asia/Shanghai": return "China Standard Time";
case "Asia/Singapore": return "Singapore Standard Time";
case "Asia/Taipei": return "Taipei Standard Time";
case "Asia/Tashkent": return "West Asia Standard Time";
case "Asia/Tbilisi": return "Georgian Standard Time";
case "Asia/Tehran": return "Iran Standard Time";
case "Asia/Tokyo": return "Tokyo Standard Time";
case "Asia/Ulaanbaatar": return "Ulaanbaatar Standard Time";
case "Asia/Vladivostok": return "Vladivostok Standard Time";
case "Asia/Yakutsk": return "Yakutsk Standard Time";
case "Asia/Yekaterinburg": return "Ekaterinburg Standard Time";
case "Asia/Yerevan": return "Caucasus Standard Time";
case "Atlantic/Azores": return "Azores Standard Time";
case "Atlantic/Cape_Verde": return "Cape Verde Standard Time";
case "Atlantic/Reykjavik": return "Greenwich Standard Time";
case "Australia/Adelaide": return "Cen. Australia Standard Time";
case "Australia/Brisbane": return "E. Australia Standard Time";
case "Australia/Darwin": return "AUS Central Standard Time";
case "Australia/Hobart": return "Tasmania Standard Time";
case "Australia/Perth": return "W. Australia Standard Time";
case "Australia/Sydney": return "AUS Eastern Standard Time";
case "Etc/GMT-12": return "UTC+12";
case "Etc/GMT": return "UTC";
case "Etc/GMT+11": return "UTC-11";
case "Etc/GMT+12": return "Dateline Standard Time";
case "Etc/GMT+2": return "Mid-Atlantic Standard Time";
case "Etc/GMT+5": return "US Eastern Standard Time";
case "Europe/Berlin": return "W. Europe Standard Time";
case "Europe/Budapest": return "Central Europe Standard Time";
case "Europe/Istanbul": return "GTB Standard Time";
case "Europe/Kiev": return "FLE Standard Time";
case "Europe/London": return "GMT Standard Time";
case "Europe/Minsk": return "E. Europe Standard Time";
case "Europe/Moscow": return "Russian Standard Time";
case "Europe/Paris": return "Romance Standard Time";
case "Europe/Warsaw": return "Central European Standard Time";
case "Indian/Mauritius": return "Mauritius Standard Time";
case "Pacific/Apia": return "Samoa Standard Time";
case "Pacific/Auckland": return "New Zealand Standard Time";
case "Pacific/Fiji": return "Fiji Standard Time";
case "Pacific/Guadalcanal": return "Central Pacific Standard Time";
case "Pacific/Honolulu": return "Hawaiian Standard Time";
case "Pacific/Port_Moresby": return "West Pacific Standard Time";
case "Pacific/Tongatapu": return "Tonga Standard Time";
default:
throw new DateTimeException(format("Could not find Windows time zone name for: %s.", tzName));
}
}
unittest
{
version(testStdDateTime)
{
version(Windows)
{
static void testTZSuccess(string tzName)
{
scope(failure) writefln("TZName which threw: %s", tzName);
tzDatabaseNameToWindowsTZName(tzName);
}
auto timeZones = TimeZone.getInstalledTZNames();
foreach(tzname; timeZones)
assertNotThrown!DateTimeException(testTZSuccess(tzname));
}
}
}
/++
Converts the given Windows time zone name to a corresponding TZ Database
name.
See_Also:
$(WEB unicode.org/repos/cldr-tmp/trunk/diff/supplemental/zone_tzid.html,
Windows <-> TZ Database Name Conversion Table)
Params:
tzName = The TZ Database name to convert.
Throws:
$(D DateTimeException) if the given $(D_PARAM tzName) cannot be
converted.
+/
string windowsTZNameToTZDatabaseName(string tzName)
{
switch(tzName)
{
case "AUS Central Standard Time": return "Australia/Darwin";
case "AUS Eastern Standard Time": return "Australia/Sydney";
case "Afghanistan Standard Time": return "Asia/Kabul";
case "Alaskan Standard Time": return "America/Anchorage";
case "Arab Standard Time": return "Asia/Riyadh";
case "Arabian Standard Time": return "Asia/Dubai";
case "Arabic Standard Time": return "Asia/Baghdad";
case "Argentina Standard Time": return "America/Buenos_Aires";
case "Armenian Standard Time": return "Asia/Yerevan";
case "Atlantic Standard Time": return "America/Halifax";
case "Azerbaijan Standard Time": return "Asia/Baku";
case "Azores Standard Time": return "Atlantic/Azores";
case "Bangladesh Standard Time": return "Asia/Dhaka";
case "Canada Central Standard Time": return "America/Regina";
case "Cape Verde Standard Time": return "Atlantic/Cape_Verde";
case "Caucasus Standard Time": return "Asia/Yerevan";
case "Cen. Australia Standard Time": return "Australia/Adelaide";
case "Central America Standard Time": return "America/Guatemala";
case "Central Asia Standard Time": return "Asia/Almaty";
case "Central Brazilian Standard Time": return "America/Cuiaba";
case "Central Europe Standard Time": return "Europe/Budapest";
case "Central European Standard Time": return "Europe/Warsaw";
case "Central Pacific Standard Time": return "Pacific/Guadalcanal";
case "Central Standard Time": return "America/Chicago";
case "Central Standard Time (Mexico)": return "America/Mexico_City";
case "China Standard Time": return "Asia/Shanghai";
case "Dateline Standard Time": return "Etc/GMT+12";
case "E. Africa Standard Time": return "Africa/Nairobi";
case "E. Australia Standard Time": return "Australia/Brisbane";
case "E. Europe Standard Time": return "Europe/Minsk";
case "E. South America Standard Time": return "America/Sao_Paulo";
case "Eastern Standard Time": return "America/New_York";
case "Egypt Standard Time": return "Africa/Cairo";
case "Ekaterinburg Standard Time": return "Asia/Yekaterinburg";
case "FLE Standard Time": return "Europe/Kiev";
case "Fiji Standard Time": return "Pacific/Fiji";
case "GMT Standard Time": return "Europe/London";
case "GTB Standard Time": return "Europe/Istanbul";
case "Georgian Standard Time": return "Asia/Tbilisi";
case "Greenland Standard Time": return "America/Godthab";
case "Greenwich Standard Time": return "Atlantic/Reykjavik";
case "Hawaiian Standard Time": return "Pacific/Honolulu";
case "India Standard Time": return "Asia/Calcutta";
case "Iran Standard Time": return "Asia/Tehran";
case "Israel Standard Time": return "Asia/Jerusalem";
case "Jordan Standard Time": return "Asia/Amman";
case "Kamchatka Standard Time": return "Asia/Kamchatka";
case "Korea Standard Time": return "Asia/Seoul";
case "Magadan Standard Time": return "Asia/Magadan";
case "Mauritius Standard Time": return "Indian/Mauritius";
case "Mexico Standard Time": return "America/Mexico_City";
case "Mexico Standard Time 2": return "America/Chihuahua";
case "Mid-Atlantic Standard Time": return "Etc/GMT+2";
case "Middle East Standard Time": return "Asia/Beirut";
case "Montevideo Standard Time": return "America/Montevideo";
case "Morocco Standard Time": return "Africa/Casablanca";
case "Mountain Standard Time": return "America/Denver";
case "Mountain Standard Time (Mexico)": return "America/Chihuahua";
case "Myanmar Standard Time": return "Asia/Rangoon";
case "N. Central Asia Standard Time": return "Asia/Novosibirsk";
case "Namibia Standard Time": return "Africa/Windhoek";
case "Nepal Standard Time": return "Asia/Katmandu";
case "New Zealand Standard Time": return "Pacific/Auckland";
case "Newfoundland Standard Time": return "America/St_Johns";
case "North Asia East Standard Time": return "Asia/Irkutsk";
case "North Asia Standard Time": return "Asia/Krasnoyarsk";
case "Pacific SA Standard Time": return "America/Santiago";
case "Pacific Standard Time": return "America/Los_Angeles";
case "Pacific Standard Time (Mexico)": return "America/Santa_Isabel";
case "Pakistan Standard Time": return "Asia/Karachi";
case "Paraguay Standard Time": return "America/Asuncion";
case "Romance Standard Time": return "Europe/Paris";
case "Russian Standard Time": return "Europe/Moscow";
case "SA Eastern Standard Time": return "America/Cayenne";
case "SA Pacific Standard Time": return "America/Bogota";
case "SA Western Standard Time": return "America/La_Paz";
case "SE Asia Standard Time": return "Asia/Bangkok";
case "Samoa Standard Time": return "Pacific/Apia";
case "Singapore Standard Time": return "Asia/Singapore";
case "South Africa Standard Time": return "Africa/Johannesburg";
case "Sri Lanka Standard Time": return "Asia/Colombo";
case "Syria Standard Time": return "Asia/Damascus";
case "Taipei Standard Time": return "Asia/Taipei";
case "Tasmania Standard Time": return "Australia/Hobart";
case "Tokyo Standard Time": return "Asia/Tokyo";
case "Tonga Standard Time": return "Pacific/Tongatapu";
case "US Eastern Standard Time": return "Etc/GMT+5";
case "US Mountain Standard Time": return "America/Phoenix";
case "UTC": return "Etc/GMT";
case "UTC+12": return "Etc/GMT-12";
case "UTC-02": return "Etc/GMT+2";
case "UTC-11": return "Etc/GMT+11";
case "Ulaanbaatar Standard Time": return "Asia/Ulaanbaatar";
case "Venezuela Standard Time": return "America/Caracas";
case "Vladivostok Standard Time": return "Asia/Vladivostok";
case "W. Australia Standard Time": return "Australia/Perth";
case "W. Central Africa Standard Time": return "Africa/Lagos";
case "W. Europe Standard Time": return "Europe/Berlin";
case "West Asia Standard Time": return "Asia/Tashkent";
case "West Pacific Standard Time": return "Pacific/Port_Moresby";
case "Yakutsk Standard Time": return "Asia/Yakutsk";
default:
throw new DateTimeException(format("Could not find TZ Database name for: %s.", tzName));
}
}
unittest
{
version(testStdDateTime)
{
version(Windows)
{
static void testTZSuccess(string tzName)
{
scope(failure) writefln("TZName which threw: %s", tzName);
windowsTZNameToTZDatabaseName(tzName);
}
auto timeZones = WindowsTimeZone.getInstalledTZNames();
foreach(tzname; timeZones)
assertNotThrown!DateTimeException(testTZSuccess(tzname));
}
}
}
//==============================================================================
// Section with StopWatch and Benchmark Code.
//==============================================================================
/++
$(D StopWatch) measures time as precisely as possible.
This class uses a high-performance counter. On Windows systems, it uses
$(D QueryPerformanceCounter), and on Posix systems, it uses
$(D clock_gettime) if available, and $(D gettimeofday) otherwise.
But the precision of $(D StopWatch) differs from system to system. It is
impossible to for it to be the same from system to system since the precision
of the system clock varies from system to system, and other system-dependent
and situation-dependent stuff (such as the overhead of a context switch
between threads) can also affect $(D StopWatch)'s accuracy.
Examples:
--------------------
void foo()
{
StopWatch sw;
enum n = 100;
TickDuration[n] times;
TickDuration last = TickDuration.from!"seconds"(0);
foreach(i; 0..n)
{
sw.start(); //start/resume mesuring.
foreach(unused; 0..1_000_000)
bar();
sw.stop(); //stop/pause measuring.
//Return value of peek() after having stopped are the always same.
writeln((i + 1) * 1_000_000, " times done, lap time: ",
sw.peek().msecs, "[ms]");
times[i] = sw.peek() - last;
last = sw.peek();
}
real sum = 0;
// When you want to know the number of seconds,
// you can use properties of TickDuration.
// (seconds, mseconds, useconds, hnsecs)
foreach(t; times)
sum += t.hnsecs;
writeln("Average time: ", sum/n, " hnsecs");
}
--------------------
+/
@safe struct StopWatch
{
public:
//Verify Example
@safe unittest
{
void writeln(S...)(S args){}
static void bar() {}
StopWatch sw;
enum n = 100;
TickDuration[n] times;
TickDuration last = TickDuration.from!"seconds"(0);
foreach(i; 0..n)
{
sw.start(); //start/resume mesuring.
foreach(unused; 0..1_000_000)
bar();
sw.stop(); //stop/pause measuring.
//Return value of peek() after having stopped are the always same.
writeln((i + 1) * 1_000_000, " times done, lap time: ",
sw.peek().msecs, "[ms]");
times[i] = sw.peek() - last;
last = sw.peek();
}
real sum = 0;
// When you want to know the number of seconds,
// you can use properties of TickDuration.
// (seconds, mseconds, useconds, hnsecs)
foreach(t; times)
sum += t.hnsecs;
writeln("Average time: ", sum/n, " hnsecs");
}
/++
Auto start with constructor.
+/
this(AutoStart autostart)
{
if(autostart)
start();
}
version(testStdDateTime) @safe unittest
{
auto sw = StopWatch(AutoStart.yes);
sw.stop();
}
///
bool opEquals(const ref StopWatch rhs) const pure nothrow
{
return _timeStart == rhs._timeStart &&
_timeMeasured == rhs._timeMeasured;
}
/++
Resets the stop watch.
+/
void reset()
{
if(_flagStarted)
{
// Set current system time if StopWatch is measuring.
_timeStart = Clock.currSystemTick;
}
else
{
// Set zero if StopWatch is not measuring.
_timeStart.length = 0;
}
_timeMeasured.length = 0;
}
version(testStdDateTime) @safe unittest
{
StopWatch sw;
sw.start();
sw.stop();
sw.reset();
assert(sw.peek().to!("seconds", real) == 0);
}
/++
Starts the stop watch.
+/
void start()
{
assert(!_flagStarted);
StopWatch sw;
_flagStarted = true;
_timeStart = Clock.currSystemTick;
}
version(testStdDateTime) @safe unittest
{
StopWatch sw;
sw.start();
auto t1 = sw.peek();
bool doublestart = true;
try
sw.start();
catch(AssertError e)
doublestart = false;
assert(!doublestart);
sw.stop();
assert((t1 - sw.peek()).to!("seconds", real) <= 0);
}
/++
Stops the stop watch.
+/
void stop()
{
assert(_flagStarted);
_flagStarted = false;
_timeMeasured += Clock.currSystemTick - _timeStart;
}
version(testStdDateTime) @safe unittest
{
StopWatch sw;
sw.start();
sw.stop();
auto t1 = sw.peek();
bool doublestop = true;
try
sw.stop();
catch(AssertError e)
doublestop = false;
assert(!doublestop);
assert((t1 - sw.peek()).to!("seconds", real) == 0);
}
/++
Peek at the amount of time which has passed since the stop watch was
started.
+/
TickDuration peek() const
{
if(_flagStarted)
return Clock.currSystemTick - _timeStart + _timeMeasured;
return _timeMeasured;
}
version(testStdDateTime) @safe unittest
{
StopWatch sw;
sw.start();
auto t1 = sw.peek();
sw.stop();
auto t2 = sw.peek();
auto t3 = sw.peek();
assert(t1 <= t2);
assert(t2 == t3);
}
private:
// true if observing.
bool _flagStarted = false;
// TickDuration at the time of StopWatch starting measurement.
TickDuration _timeStart;
// Total time that StopWatch ran.
TickDuration _timeMeasured;
}
// workaround for bug4886
@safe size_t lengthof(aliases...)() pure nothrow
{
return aliases.length;
}
/++
Benchmarks code for speed assessment and comparison.
Params:
fun = aliases of callable objects (e.g. function names). Each should
take no arguments.
n = The number of times each function is to be executed.
Returns:
The amount of time (as a $(CXREF time, TickDuration)) that it took to
call each function $(D n) times. The first value is the length of time
that it took to call $(D fun[0]) $(D n) times. The second value is the
length of time it took to call $(D fun[1]) $(D n) times. Etc.
Examples:
--------------------
int a;
void f0() {}
void f1() {auto b = a;}
void f2() {auto b = to!(string)(a);}
auto r = benchmark!(f0, f1, f2)(10_000_000);
writefln("Milliseconds to call fun[0] n times: %s", r[0].to!("msecs", int));
--------------------
+/
@safe TickDuration[lengthof!(fun)()] benchmark(fun...)(uint n)
if(areAllSafe!fun)
{
TickDuration[lengthof!(fun)()] result;
StopWatch sw;
sw.start();
foreach(i, unused; fun)
{
sw.reset();
foreach(j; 0 .. n)
fun[i]();
result[i] = sw.peek();
}
return result;
}
/++ Ditto +/
TickDuration[lengthof!(fun)()] benchmark(fun...)(uint times)
if(!areAllSafe!fun)
{
TickDuration[lengthof!(fun)()] result;
StopWatch sw;
sw.start();
foreach(i, unused; fun)
{
sw.reset();
foreach(j; 0 .. times)
fun[i]();
result[i] = sw.peek();
}
return result;
}
//Verify Examples.
version(testStdDateTime) unittest
{
void writefln(S...)(S args){}
int a;
void f0() {}
void f1() {auto b = a;}
void f2() {auto b = to!(string)(a);}
auto r = benchmark!(f0, f1, f2)(10_000_000);
writefln("Milliseconds to call fun[0] n times: %s", r[0].to!("msecs", int));
}
version(testStdDateTime) @safe unittest
{
int a;
void f0() {}
//void f1() {auto b = to!(string)(a);}
void f2() {auto b = (a);}
auto r = benchmark!(f0, f2)(100);
}
/++
Return value of benchmark with two functions comparing.
+/
@safe struct ComparingBenchmarkResult
{
/++
Evaluation value
This returns the evaluation value of performance as the ratio of
baseFunc's time over targetFunc's time. If performance is high, this
returns a high value.
+/
@property real point() const pure nothrow
{
return _baseTime.length / cast(const real)_targetTime.length;
}
/++
The time required of the base function
+/
@property public TickDuration baseTime() const pure nothrow
{
return _baseTime;
}
/++
The time required of the target function
+/
@property public TickDuration targetTime() const pure nothrow
{
return _targetTime;
}
private:
this(TickDuration baseTime, TickDuration targetTime) pure nothrow
{
_baseTime = baseTime;
_targetTime = targetTime;
}
TickDuration _baseTime;
TickDuration _targetTime;
}
/++
Benchmark with two functions comparing.
Params:
baseFunc = The function to become the base of the speed.
targetFunc = The function that wants to measure speed.
times = The number of times each function is to be executed.
Examples:
--------------------
void f1() {
// ...
}
void f2() {
// ...
}
void main() {
auto b = comparingBenchmark!(f1, f2, 0x80);
writeln(b.point);
}
--------------------
+/
@safe ComparingBenchmarkResult comparingBenchmark(alias baseFunc,
alias targetFunc,
int times = 0xfff)()
if(isSafe!baseFunc && isSafe!targetFunc)
{
auto t = benchmark!(baseFunc, targetFunc)(times);
return ComparingBenchmarkResult(t[0], t[1]);
}
/++ Ditto +/
ComparingBenchmarkResult comparingBenchmark(alias baseFunc,
alias targetFunc,
int times = 0xfff)()
if(!isSafe!baseFunc || !isSafe!targetFunc)
{
auto t = benchmark!(baseFunc, targetFunc)(times);
return ComparingBenchmarkResult(t[0], t[1]);
}
version(testStdDateTime) @safe unittest
{
void f1x() {}
void f2x() {}
@safe void f1o() {}
@safe void f2o() {}
auto b1 = comparingBenchmark!(f1o, f2o, 1); // OK
//static auto b2 = comparingBenchmark!(f1x, f2x, 1); // NG
}
version(testStdDateTime) unittest
{
void f1x() {}
void f2x() {}
@safe void f1o() {}
@safe void f2o() {}
auto b1 = comparingBenchmark!(f1o, f2o, 1); // OK
auto b2 = comparingBenchmark!(f1x, f2x, 1); // OK
}
//==============================================================================
// Section with public helper functions and templates.
//==============================================================================
/++
$(RED Scheduled for deprecation. This is only here to help
transition code which uses std.date to using std.datetime.)
Returns a $(D d_time) for the given $(D SysTime).
+/
long sysTimeToDTime(in SysTime sysTime)
{
return convert!("hnsecs", "msecs")(sysTime.stdTime - 621355968000000000L);
}
version(testStdDateTime) unittest
{
_assertPred!"=="(sysTimeToDTime(SysTime(DateTime(1970, 1, 1), UTC())),
0);
_assertPred!"=="(sysTimeToDTime(SysTime(DateTime(1970, 1, 1), FracSec.from!"msecs"(1), UTC())),
1);
_assertPred!"=="(sysTimeToDTime(SysTime(DateTime(1969, 12, 31, 23, 59, 59), FracSec.from!"msecs"(999), UTC())),
-1);
_assertPred!"=="(sysTimeToDTime(SysTime(DateTime(1970, 1, 2), UTC())),
86_400_000);
_assertPred!"=="(sysTimeToDTime(SysTime(DateTime(1969, 12, 31), UTC())),
-86_400_000);
}
/++
$(RED Scheduled for deprecation. This is only here to help
transition code which uses std.date to using std.datetime.)
Returns a $(D SysTime) for the given $(D d_time).
+/
SysTime dTimeToSysTime(long dTime, immutable TimeZone tz = null)
{
immutable hnsecs = convert!("msecs", "hnsecs")(dTime) + 621355968000000000L;
return SysTime(hnsecs, tz);
}
version(testStdDateTime) unittest
{
_assertPred!"=="(dTimeToSysTime(0),
SysTime(DateTime(1970, 1, 1), UTC()));
_assertPred!"=="(dTimeToSysTime(1),
SysTime(DateTime(1970, 1, 1), FracSec.from!"msecs"(1), UTC()));
_assertPred!"=="(dTimeToSysTime(-1),
SysTime(DateTime(1969, 12, 31, 23, 59, 59), FracSec.from!"msecs"(999), UTC()));
_assertPred!"=="(dTimeToSysTime(86_400_000),
SysTime(DateTime(1970, 1, 2), UTC()));
_assertPred!"=="(dTimeToSysTime(-86_400_000),
SysTime(DateTime(1969, 12, 31), UTC()));
}
/++
Returns the absolute value of a duration.
+/
D abs(D)(D duration)
if(is(Unqual!D == Duration) ||
is(Unqual!D == TickDuration))
{
static if(is(Unqual!D == Duration))
return dur!"hnsecs"(std.math.abs(duration.total!"hnsecs"()));
else static if(is(Unqual!D == TickDuration))
return TickDuration(std.math.abs(duration.length));
else
static assert(0);
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(abs(dur!"msecs"(5)), dur!"msecs"(5));
_assertPred!"=="(abs(dur!"msecs"(-5)), dur!"msecs"(5));
_assertPred!"=="(abs(TickDuration(17)), TickDuration(17));
_assertPred!"=="(abs(TickDuration(-17)), TickDuration(17));
}
}
/++
Whether the given type defines all of the necessary functions for it to
function as a time point.
+/
template isTimePoint(T)
{
enum isTimePoint = hasMin!T &&
hasMax!T &&
hasOverloadedOpBinaryWithDuration!T &&
hasOverloadedOpAssignWithDuration!T &&
hasOverloadedOpBinaryWithSelf!T;
}
unittest
{
version(testStdDateTime)
{
static assert(isTimePoint!(Date));
static assert(isTimePoint!(DateTime));
static assert(isTimePoint!(TimeOfDay));
static assert(isTimePoint!(SysTime));
static assert(isTimePoint!(const Date));
static assert(isTimePoint!(const DateTime));
static assert(isTimePoint!(const TimeOfDay));
static assert(isTimePoint!(const SysTime));
static assert(isTimePoint!(immutable Date));
static assert(isTimePoint!(immutable DateTime));
static assert(isTimePoint!(immutable TimeOfDay));
static assert(isTimePoint!(immutable SysTime));
}
}
/++
Whether the given Gregorian Year is a leap year.
Params:
year = The year to to be tested.
+/
static bool yearIsLeapYear(int year) pure nothrow
{
if(year % 400 == 0)
return true;
if(year % 100 == 0)
return false;
return year % 4 == 0;
}
version(testStdDateTime) unittest
{
foreach(year; [1, 2, 3, 5, 6, 7, 100, 200, 300, 500, 600, 700, 1998, 1999,
2001, 2002, 2003, 2005, 2006, 2007, 2009, 2010, 2011])
{
assert(!yearIsLeapYear(year), format("year: %s.", year));
assert(!yearIsLeapYear(-year), format("year: %s.", year));
}
foreach(year; [0, 4, 8, 400, 800, 1600, 1996, 2000, 2004, 2008, 2012])
{
assert(yearIsLeapYear(year), format("year: %s.", year));
assert(yearIsLeapYear(-year), format("year: %s.", year));
}
}
/++
Converts a $(D time_t) (which uses midnight, January 1st, 1970 UTC as its
epoch and seconds as its units) to std time (which uses midnight,
January 1st, 1 A.D. UTC and hnsecs as its units).
Params:
unixTime = The $(D time_t) to convert.
+/
long unixTimeToStdTime(time_t unixTime) pure nothrow
{
return 621_355_968_000_000_000L + convert!("seconds", "hnsecs")(unixTime);
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(unixTimeToStdTime(0), 621_355_968_000_000_000L); //Midnight, January 1st, 1970
_assertPred!"=="(unixTimeToStdTime(86_400), 621_355_968_000_000_000L + 864_000_000_000L); //Midnight, January 2nd, 1970
_assertPred!"=="(unixTimeToStdTime(-86_400), 621_355_968_000_000_000L - 864_000_000_000L); //Midnight, December 31st, 1969
_assertPred!"=="(unixTimeToStdTime(0), (Date(1970, 1, 1) - Date(1, 1, 1)).total!"hnsecs");
_assertPred!"=="(unixTimeToStdTime(0), (DateTime(1970, 1, 1) - DateTime(1, 1, 1)).total!"hnsecs");
}
}
/++
Converts std time (which uses midnight, January 1st, 1 A.D. UTC as its epoch
and hnsecs as its units) to $(D time_t) (which uses midnight, January 1st,
1970 UTC as its epoch and seconds as its units). If $(D time_t) is 32 bits,
rather than 64, and the result can't fit in a 32-bit value, then the closest
value that can be held in 32 bits will be used (so $(D time_t.max) if it
goes over and $(D time_t.min) if it goes under).
Note:
While Windows systems require that $(D time_t) be non-negative (in spite
of $(D time_t) being signed), this function still returns negative
numbers on Windows, since it's more flexible to allow negative time_t
for those who need it. So, if you're on Windows and are using the
standard C functions or Win32 API functions which take a $(D time_t),
you may want to check whether the return value of
$(D stdTimeToUnixTime) is non-negative.
Params:
stdTime = The std time to convert.
+/
time_t stdTimeToUnixTime(long stdTime) pure nothrow
{
immutable unixTime = convert!("hnsecs", "seconds")(stdTime - 621_355_968_000_000_000L);
static if(time_t.sizeof >= long.sizeof)
return cast(time_t)unixTime;
else
{
if(unixTime > 0)
{
if(unixTime > time_t.max)
return time_t.max;
return cast(time_t)unixTime;
}
if(unixTime < time_t.min)
return time_t.min;
return cast(time_t)unixTime;
}
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(stdTimeToUnixTime(621_355_968_000_000_000L), 0); //Midnight, January 1st, 1970
_assertPred!"=="(stdTimeToUnixTime(621_355_968_000_000_000L + 864_000_000_000L), 86_400); //Midnight, January 2nd, 1970
_assertPred!"=="(stdTimeToUnixTime(621_355_968_000_000_000L - 864_000_000_000L), -86_400); //Midnight, December 31st, 1969
_assertPred!"=="(stdTimeToUnixTime((Date(1970, 1, 1) - Date(1, 1, 1)).total!"hnsecs"), 0);
_assertPred!"=="(stdTimeToUnixTime((DateTime(1970, 1, 1) - DateTime(1, 1, 1)).total!"hnsecs"), 0);
}
}
version(StdDdoc)
{
version(Windows) {}
else
{
alias void* SYSTEMTIME;
alias void* FILETIME;
}
/++
$(BLUE This function is Windows-Only.)
Converts a $(D SYSTEMTIME) struct to a $(D SysTime).
Params:
st = The $(D SYSTEMTIME) struct to convert.
tz = The time zone that the time in the $(D SYSTEMTIME) struct is
assumed to be (if the $(D SYSTEMTIME) was supplied by a Windows
system call, the $(D SYSTEMTIME) will either be in local time
or UTC, depending on the call).
Throws:
$(D DateTimeException) if the given $(D SYSTEMTIME) will not fit in
a $(D SysTime), which is highly unlikely to happen given that
$(D SysTime.max) is in 29,228 A.D. and the maximum $(D SYSTEMTIME)
is in 30,827 A.D.
+/
SysTime SYSTEMTIMEToSysTime(const SYSTEMTIME* st, immutable TimeZone tz = LocalTime());
/++
$(BLUE This function is Windows-Only.)
Converts a $(D SysTime) to a $(D SYSTEMTIME) struct.
The $(D SYSTEMTIME) which is returned will be set using the given
$(D SysTime)'s time zone, so if you want the $(D SYSTEMTIME) to be in
UTC, set the $(D SysTime)'s time zone to UTC.
Params:
sysTime = The $(D SysTime) to convert.
Throws:
$(D DateTimeException) if the given $(D SysTime) will not fit in a
$(D SYSTEMTIME). This will only happen if the $(D SysTime)'s date is
prior to 1601 A.D.
+/
SYSTEMTIME SysTimeToSYSTEMTIME(in SysTime sysTime);
/++
$(BLUE This function is Windows-Only.)
Converts a $(D FILETIME) struct to a $(D SysTime).
Params:
ft = The $(D FILETIME) struct to convert.
tz = The time zone that the $(D SysTime) will be in ($(D FILETIME)s
are in UTC).
Throws:
$(D DateTimeException) if the given $(D FILETIME) will not fit in a
$(D SysTime) or if the $(D FILETIME) cannot be converted to a
$(D SYSTEMTIME).
+/
SysTime FILETIMEToSysTime(const FILETIME* ft, immutable TimeZone tz = LocalTime());
/++
$(BLUE This function is Windows-Only.)
Converts a $(D SysTime) to a $(D FILETIME) struct.
$(D FILETIME)s are always in UTC.
Params:
sysTime = The $(D SysTime) to convert.
Throws:
$(D DateTimeException) if the given $(D SysTime) will not fit in a
$(D FILETIME).
+/
FILETIME SysTimeToFILETIME(SysTime sysTime);
}
else version(Windows)
{
SysTime SYSTEMTIMEToSysTime(const SYSTEMTIME* st, immutable TimeZone tz = LocalTime())
{
const max = SysTime.max;
static void throwLaterThanMax()
{
throw new DateTimeException("The given SYSTEMTIME is for a date greater than SysTime.max.");
}
if(st.wYear > max.year)
throwLaterThanMax();
else if(st.wYear == max.year)
{
if(st.wMonth > max.month)
throwLaterThanMax();
else if(st.wMonth == max.month)
{
if(st.wDay > max.day)
throwLaterThanMax();
else if(st.wDay == max.day)
{
if(st.wHour > max.hour)
throwLaterThanMax();
else if(st.wHour == max.hour)
{
if(st.wMinute > max.minute)
throwLaterThanMax();
else if(st.wMinute == max.minute)
{
if(st.wSecond > max.second)
throwLaterThanMax();
else if(st.wSecond == max.second)
{
if(st.wMilliseconds > max.fracSec.msecs)
throwLaterThanMax();
}
}
}
}
}
}
auto dt = DateTime(st.wYear, st.wMonth, st.wDay,
st.wHour, st.wMinute, st.wSecond);
return SysTime(dt, FracSec.from!"msecs"(st.wMilliseconds), tz);
}
unittest
{
version(testStdDateTime)
{
auto sysTime = Clock.currTime(UTC());
SYSTEMTIME st = void;
GetSystemTime(&st);
auto converted = SYSTEMTIMEToSysTime(&st, UTC());
_assertPred!"<="(abs((converted - sysTime)),
dur!"seconds"(2));
}
}
SYSTEMTIME SysTimeToSYSTEMTIME(in SysTime sysTime)
{
immutable dt = cast(DateTime)sysTime;
if(dt.year < 1601)
throw new DateTimeException("SYSTEMTIME cannot hold dates prior to the year 1601.");
SYSTEMTIME st;
st.wYear = dt.year;
st.wMonth = dt.month;
st.wDayOfWeek = dt.dayOfWeek;
st.wDay = dt.day;
st.wHour = dt.hour;
st.wMinute = dt.minute;
st.wSecond = dt.second;
st.wMilliseconds = cast(ushort)sysTime.fracSec.msecs;
return st;
}
unittest
{
version(testStdDateTime)
{
SYSTEMTIME st = void;
GetSystemTime(&st);
auto sysTime = SYSTEMTIMEToSysTime(&st, UTC());
SYSTEMTIME result = SysTimeToSYSTEMTIME(sysTime);
_assertPred!"=="(st.wYear, result.wYear);
_assertPred!"=="(st.wMonth, result.wMonth);
_assertPred!"=="(st.wDayOfWeek, result.wDayOfWeek);
_assertPred!"=="(st.wDay, result.wDay);
_assertPred!"=="(st.wHour, result.wHour);
_assertPred!"=="(st.wMinute, result.wMinute);
_assertPred!"=="(st.wSecond, result.wSecond);
_assertPred!"=="(st.wMilliseconds, result.wMilliseconds);
}
}
SysTime FILETIMEToSysTime(const FILETIME* ft, immutable TimeZone tz = LocalTime())
{
SYSTEMTIME st = void;
if(!FileTimeToSystemTime(ft, &st))
throw new DateTimeException("FileTimeToSystemTime() failed.");
auto sysTime = SYSTEMTIMEToSysTime(&st, UTC());
sysTime.timezone = tz;
return sysTime;
}
unittest
{
version(testStdDateTime)
{
auto sysTime = Clock.currTime(UTC());
SYSTEMTIME st = void;
GetSystemTime(&st);
FILETIME ft = void;
SystemTimeToFileTime(&st, &ft);
auto converted = FILETIMEToSysTime(&ft);
_assertPred!"<="(abs((converted - sysTime)),
dur!"seconds"(2));
}
}
FILETIME SysTimeToFILETIME(SysTime sysTime)
{
SYSTEMTIME st = SysTimeToSYSTEMTIME(sysTime.toUTC());
FILETIME ft = void;
SystemTimeToFileTime(&st, &ft);
return ft;
}
unittest
{
version(testStdDateTime)
{
SYSTEMTIME st = void;
GetSystemTime(&st);
FILETIME ft = void;
SystemTimeToFileTime(&st, &ft);
auto sysTime = FILETIMEToSysTime(&ft, UTC());
FILETIME result = SysTimeToFILETIME(sysTime);
_assertPred!"=="(ft.dwLowDateTime, result.dwLowDateTime);
_assertPred!"=="(ft.dwHighDateTime, result.dwHighDateTime);
}
}
}
/++
Type representing the DOS file date/time format.
+/
typedef uint DosFileTime;
/++
Converts from DOS file date/time to $(D SysTime).
Params:
dft = The DOS file time to convert.
tz = The time zone which the DOS file time is assumed to be in.
Throws:
$(D DateTimeException) if the $(D DosFileTime) is invalid.
+/
SysTime DosFileTimeToSysTime(DosFileTime dft, immutable TimeZone tz = LocalTime())
{
uint dt = cast(uint)dft;
if(dt == 0)
throw new DateTimeException("Invalid DosFileTime.");
int year = ((dt >> 25) & 0x7F) + 1980;
int month = ((dt >> 21) & 0x0F); // 1..12
int dayOfMonth = ((dt >> 16) & 0x1F); // 1..31
int hour = (dt >> 11) & 0x1F; // 0..23
int minute = (dt >> 5) & 0x3F; // 0..59
int second = (dt << 1) & 0x3E; // 0..58 (in 2 second increments)
SysTime sysTime = void;
try
return SysTime(DateTime(year, month, dayOfMonth, hour, minute, second), tz);
catch(DateTimeException dte)
throw new DateTimeException("Invalid DosFileTime", __FILE__, __LINE__, dte);
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(DosFileTimeToSysTime(0b00000000001000010000000000000000),
SysTime(DateTime(1980, 1, 1, 0, 0, 0)));
_assertPred!"=="(DosFileTimeToSysTime(0b11111111100111111011111101111101),
SysTime(DateTime(2107, 12, 31, 23, 59, 58)));
_assertPred!"=="(DosFileTimeToSysTime(0x3E3F8456),
SysTime(DateTime(2011, 1, 31, 16, 34, 44)));
}
}
/++
Converts from $(D SysTime) to DOS file date/time.
Params:
sysTime = The $(D SysTime) to convert.
Throws:
$(D DateTimeException) if the given $(D SysTime) cannot be converted to
a $(D DosFileTime).
+/
DosFileTime SysTimeToDosFileTime(SysTime sysTime)
{
auto dateTime = cast(DateTime)sysTime;
if(dateTime.year < 1980)
throw new DateTimeException("DOS File Times cannot hold dates prior to 1980.");
if(dateTime.year > 2107)
throw new DateTimeException("DOS File Times cannot hold dates passed 2107.");
uint retval = 0;
retval = (dateTime.year - 1980) << 25;
retval |= (dateTime.month & 0x0F) << 21;
retval |= (dateTime.day & 0x1F) << 16;
retval |= (dateTime.hour & 0x1F) << 11;
retval |= (dateTime.minute & 0x3F) << 5;
retval |= (dateTime.second >> 1) & 0x1F;
return cast(DosFileTime)retval;
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(SysTimeToDosFileTime(SysTime(DateTime(1980, 1, 1, 0, 0, 0))),
0b00000000001000010000000000000000);
_assertPred!"=="(SysTimeToDosFileTime(SysTime(DateTime(2107, 12, 31, 23, 59, 58))),
0b11111111100111111011111101111101);
_assertPred!"=="(SysTimeToDosFileTime(SysTime(DateTime(2011, 1, 31, 16, 34, 44))),
0x3E3F8456);
}
}
/++
Whether all of the given strings are valid units of time.
$(D "nsecs") is not considered a valid unit of time. Nothing in std.datetime
can handle precision greater than hnsecs, and the few functions in core.time
which deal with "nsecs" deal with it explicitly.
+/
bool validTimeUnits(string[] units...)
{
foreach(str; units)
{
if(!canFind(timeStrings.dup, str))
return false;
}
return true;
}
/++
Compares two time unit strings. $(D "years") are the largest units and
$(D "hnsecs") are the smallest.
Returns:
$(TABLE
$(TR $(TD this &lt; rhs) $(TD &lt; 0))
$(TR $(TD this == rhs) $(TD 0))
$(TR $(TD this &gt; rhs) $(TD &gt; 0))
)
Throws:
$(D DateTimeException) if either of the given strings is not a valid
time unit string.
+/
int cmpTimeUnits(string lhs, string rhs)
{
auto tstrings = timeStrings.dup;
immutable indexOfLHS = std.algorithm.countUntil(tstrings, lhs);
immutable indexOfRHS = std.algorithm.countUntil(tstrings, rhs);
enforce(indexOfLHS != -1, format("%s is not a valid TimeString", lhs));
enforce(indexOfRHS != -1, format("%s is not a valid TimeString", rhs));
if(indexOfLHS < indexOfRHS)
return -1;
if(indexOfLHS > indexOfRHS)
return 1;
return 0;
}
unittest
{
version(testStdDateTime)
{
foreach(i, outerUnits; timeStrings)
{
_assertPred!"=="(cmpTimeUnits(outerUnits, outerUnits), 0);
//For some reason, $ won't compile.
foreach(innerUnits; timeStrings[i+1 .. timeStrings.length])
_assertPred!"=="(cmpTimeUnits(outerUnits, innerUnits), -1);
}
foreach(i, outerUnits; timeStrings)
{
foreach(innerUnits; timeStrings[0 .. i])
_assertPred!"=="(cmpTimeUnits(outerUnits, innerUnits), 1);
}
}
}
/++
Compares two time unit strings at compile time. $(D "years") are the largest
units and $(D "hnsecs") are the smallest.
This template is used instead of $(D cmpTimeUnits) because exceptions
can't be thrown at compile time and $(D cmpTimeUnits) must enforce that
the strings it's given are valid time unit strings. This template uses a
template constraint instead.
Returns:
$(TABLE
$(TR $(TD this &lt; rhs) $(TD &lt; 0))
$(TR $(TD this == rhs) $(TD 0))
$(TR $(TD this &gt; rhs) $(TD &gt; 0))
)
+/
template CmpTimeUnits(string lhs, string rhs)
if(validTimeUnits(lhs, rhs))
{
enum CmpTimeUnits = cmpTimeUnitsCTFE(lhs, rhs);
}
/+
Helper function for $(D CmpTimeUnits).
+/
private int cmpTimeUnitsCTFE(string lhs, string rhs)
{
auto tstrings = timeStrings.dup;
immutable indexOfLHS = std.algorithm.countUntil(tstrings, lhs);
immutable indexOfRHS = std.algorithm.countUntil(tstrings, rhs);
if(indexOfLHS < indexOfRHS)
return -1;
if(indexOfLHS > indexOfRHS)
return 1;
return 0;
}
unittest
{
version(testStdDateTime)
{
static string genTest(size_t index)
{
auto currUnits = timeStrings[index];
auto test = `_assertPred!"=="(CmpTimeUnits!("` ~ currUnits ~ `", "` ~ currUnits ~ `"), 0); `;
//For some reason, $ won't compile.
foreach(units; timeStrings[index + 1 .. timeStrings.length])
test ~= `_assertPred!"=="(CmpTimeUnits!("` ~ currUnits ~ `", "` ~ units ~ `"), -1); `;
foreach(units; timeStrings[0 .. index])
test ~= `_assertPred!"=="(CmpTimeUnits!("` ~ currUnits ~ `", "` ~ units ~ `"), 1); `;
return test;
}
mixin(genTest(0));
mixin(genTest(1));
mixin(genTest(2));
mixin(genTest(3));
mixin(genTest(4));
mixin(genTest(5));
mixin(genTest(6));
mixin(genTest(7));
mixin(genTest(8));
mixin(genTest(9));
}
}
/++
Returns whether the given value is valid for the given unit type when in a
time point. Naturally, a duration is not held to a particular range, but
the values in a time point are (e.g. a month must be in the range of
1 - 12 inclusive).
Params:
units = The units of time to validate.
value = The number to validate.
Examples:
--------------------
assert(valid!"hours"(12));
assert(!valid!"hours"(32));
assert(valid!"months"(12));
assert(!valid!"months"(13));
--------------------
+/
bool valid(string units)(int value) pure nothrow
if(units == "months" ||
units == "hours" ||
units == "minutes" ||
units == "seconds")
{
static if(units == "months")
return value >= Month.jan && value <= Month.dec;
else static if(units == "hours")
return value >= 0 && value <= TimeOfDay.maxHour;
else static if(units == "minutes")
return value >= 0 && value <= TimeOfDay.maxMinute;
else static if(units == "seconds")
return value >= 0 && value <= TimeOfDay.maxSecond;
}
unittest
{
version(testStdDateTime)
{
//Verify Examples.
assert(valid!"hours"(12));
assert(!valid!"hours"(32));
assert(valid!"months"(12));
assert(!valid!"months"(13));
}
}
/++
Returns whether the given day is valid for the given year and month.
Params:
units = The units of time to validate.
year = The year of the day to validate.
month = The month of the day to validate.
day = The day to validate.
+/
bool valid(string units)(int year, int month, int day) pure nothrow
if(units == "days")
{
return day > 0 && day <= maxDay(year, month);
}
/++
Params:
units = The units of time to validate.
value = The number to validate.
file = The file that the $(D DateTimeException) will list if thrown.
line = The line number that the $(D DateTimeException) will list if
thrown.
Throws:
$(D DateTimeException) if $(D valid!units(value)) is false.
+/
void enforceValid(string units)(int value, string file = __FILE__, size_t line = __LINE__) pure
if(units == "months" ||
units == "hours" ||
units == "minutes" ||
units == "seconds")
{
static if(units == "months")
{
if(!valid!units(value))
throw new DateTimeException(numToString(value) ~ " is not a valid month of the year.", file, line);
}
else static if(units == "hours")
{
if(!valid!units(value))
throw new DateTimeException(numToString(value) ~ " is not a valid hour of the day.", file, line);
}
else static if(units == "minutes")
{
if(!valid!units(value))
throw new DateTimeException(numToString(value) ~ " is not a valid minute of an hour.", file, line);
}
else static if(units == "seconds")
{
if(!valid!units(value))
throw new DateTimeException(numToString(value) ~ " is not a valid second of a minute.", file, line);
}
}
/++
Params:
units = The units of time to validate.
year = The year of the day to validate.
month = The month of the day to validate.
day = The day to validate.
file = The file that the $(D DateTimeException) will list if thrown.
line = The line number that the $(D DateTimeException) will list if
thrown.
Throws:
$(D DateTimeException) if $(D valid!"days"(year, month, day)) is false.
+/
void enforceValid(string units)(int year, Month month, int day, string file = __FILE__, size_t line = __LINE__) pure
if(units == "days")
{
if(!valid!"days"(year, month, day))
{
throw new DateTimeException(numToString(day) ~
" is not a valid day in " ~
monthToString(month) ~
" in " ~
numToString(year), file, line);
}
}
/++
Returns the number of months from the current months of the year to the
given month of the year. If they are the same, then the result is 0.
Params:
currMonth = The current month of the year.
month = The month of the year to get the number of months to.
+/
static int monthsToMonth(int currMonth, int month) pure
{
enforceValid!"months"(currMonth);
enforceValid!"months"(month);
if(currMonth == month)
return 0;
if(currMonth < month)
return month - currMonth;
return (Month.dec - currMonth) + month;
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(monthsToMonth(Month.jan, Month.jan), 0);
_assertPred!"=="(monthsToMonth(Month.jan, Month.feb), 1);
_assertPred!"=="(monthsToMonth(Month.jan, Month.mar), 2);
_assertPred!"=="(monthsToMonth(Month.jan, Month.apr), 3);
_assertPred!"=="(monthsToMonth(Month.jan, Month.may), 4);
_assertPred!"=="(monthsToMonth(Month.jan, Month.jun), 5);
_assertPred!"=="(monthsToMonth(Month.jan, Month.jul), 6);
_assertPred!"=="(monthsToMonth(Month.jan, Month.aug), 7);
_assertPred!"=="(monthsToMonth(Month.jan, Month.sep), 8);
_assertPred!"=="(monthsToMonth(Month.jan, Month.oct), 9);
_assertPred!"=="(monthsToMonth(Month.jan, Month.nov), 10);
_assertPred!"=="(monthsToMonth(Month.jan, Month.dec), 11);
_assertPred!"=="(monthsToMonth(Month.may, Month.jan), 8);
_assertPred!"=="(monthsToMonth(Month.may, Month.feb), 9);
_assertPred!"=="(monthsToMonth(Month.may, Month.mar), 10);
_assertPred!"=="(monthsToMonth(Month.may, Month.apr), 11);
_assertPred!"=="(monthsToMonth(Month.may, Month.may), 0);
_assertPred!"=="(monthsToMonth(Month.may, Month.jun), 1);
_assertPred!"=="(monthsToMonth(Month.may, Month.jul), 2);
_assertPred!"=="(monthsToMonth(Month.may, Month.aug), 3);
_assertPred!"=="(monthsToMonth(Month.may, Month.sep), 4);
_assertPred!"=="(monthsToMonth(Month.may, Month.oct), 5);
_assertPred!"=="(monthsToMonth(Month.may, Month.nov), 6);
_assertPred!"=="(monthsToMonth(Month.may, Month.dec), 7);
_assertPred!"=="(monthsToMonth(Month.oct, Month.jan), 3);
_assertPred!"=="(monthsToMonth(Month.oct, Month.feb), 4);
_assertPred!"=="(monthsToMonth(Month.oct, Month.mar), 5);
_assertPred!"=="(monthsToMonth(Month.oct, Month.apr), 6);
_assertPred!"=="(monthsToMonth(Month.oct, Month.may), 7);
_assertPred!"=="(monthsToMonth(Month.oct, Month.jun), 8);
_assertPred!"=="(monthsToMonth(Month.oct, Month.jul), 9);
_assertPred!"=="(monthsToMonth(Month.oct, Month.aug), 10);
_assertPred!"=="(monthsToMonth(Month.oct, Month.sep), 11);
_assertPred!"=="(monthsToMonth(Month.oct, Month.oct), 0);
_assertPred!"=="(monthsToMonth(Month.oct, Month.nov), 1);
_assertPred!"=="(monthsToMonth(Month.oct, Month.dec), 2);
_assertPred!"=="(monthsToMonth(Month.dec, Month.jan), 1);
_assertPred!"=="(monthsToMonth(Month.dec, Month.feb), 2);
_assertPred!"=="(monthsToMonth(Month.dec, Month.mar), 3);
_assertPred!"=="(monthsToMonth(Month.dec, Month.apr), 4);
_assertPred!"=="(monthsToMonth(Month.dec, Month.may), 5);
_assertPred!"=="(monthsToMonth(Month.dec, Month.jun), 6);
_assertPred!"=="(monthsToMonth(Month.dec, Month.jul), 7);
_assertPred!"=="(monthsToMonth(Month.dec, Month.aug), 8);
_assertPred!"=="(monthsToMonth(Month.dec, Month.sep), 9);
_assertPred!"=="(monthsToMonth(Month.dec, Month.oct), 10);
_assertPred!"=="(monthsToMonth(Month.dec, Month.nov), 11);
_assertPred!"=="(monthsToMonth(Month.dec, Month.dec), 0);
}
}
/++
Returns the number of days from the current day of the week to the given
day of the week. If they are the same, then the result is 0.
Params:
currDoW = The current day of the week.
dow = The day of the week to get the number of days to.
+/
static int daysToDayOfWeek(DayOfWeek currDoW, DayOfWeek dow) pure nothrow
{
if(currDoW == dow)
return 0;
if(currDoW < dow)
return dow - currDoW;
return (DayOfWeek.sat - currDoW) + dow + 1;
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.sun, DayOfWeek.sun), 0);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.sun, DayOfWeek.mon), 1);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.sun, DayOfWeek.tue), 2);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.sun, DayOfWeek.wed), 3);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.sun, DayOfWeek.thu), 4);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.sun, DayOfWeek.fri), 5);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.sun, DayOfWeek.sat), 6);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.mon, DayOfWeek.sun), 6);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.mon, DayOfWeek.mon), 0);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.mon, DayOfWeek.tue), 1);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.mon, DayOfWeek.wed), 2);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.mon, DayOfWeek.thu), 3);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.mon, DayOfWeek.fri), 4);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.mon, DayOfWeek.sat), 5);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.tue, DayOfWeek.sun), 5);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.tue, DayOfWeek.mon), 6);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.tue, DayOfWeek.tue), 0);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.tue, DayOfWeek.wed), 1);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.tue, DayOfWeek.thu), 2);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.tue, DayOfWeek.fri), 3);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.tue, DayOfWeek.sat), 4);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.wed, DayOfWeek.sun), 4);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.wed, DayOfWeek.mon), 5);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.wed, DayOfWeek.tue), 6);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.wed, DayOfWeek.wed), 0);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.wed, DayOfWeek.thu), 1);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.wed, DayOfWeek.fri), 2);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.wed, DayOfWeek.sat), 3);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.thu, DayOfWeek.sun), 3);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.thu, DayOfWeek.mon), 4);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.thu, DayOfWeek.tue), 5);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.thu, DayOfWeek.wed), 6);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.thu, DayOfWeek.thu), 0);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.thu, DayOfWeek.fri), 1);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.thu, DayOfWeek.sat), 2);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.fri, DayOfWeek.sun), 2);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.fri, DayOfWeek.mon), 3);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.fri, DayOfWeek.tue), 4);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.fri, DayOfWeek.wed), 5);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.fri, DayOfWeek.thu), 6);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.fri, DayOfWeek.fri), 0);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.fri, DayOfWeek.sat), 1);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.sat, DayOfWeek.sun), 1);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.sat, DayOfWeek.mon), 2);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.sat, DayOfWeek.tue), 3);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.sat, DayOfWeek.wed), 4);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.sat, DayOfWeek.thu), 5);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.sat, DayOfWeek.fri), 6);
_assertPred!"=="(daysToDayOfWeek(DayOfWeek.sat, DayOfWeek.sat), 0);
}
}
version(StdDdoc)
{
/++
Function for starting to a stop watch time when the function is called
and stopping it when its return value goes out of scope and is destroyed.
When the value that is returned by this function is destroyed,
$(D func) will run. $(D func) is a unary function that takes a
$(CXREF TickDuration).
Examples:
--------------------
writeln("benchmark start!");
{
auto mt = measureTime!((a){assert(a.seconds);});
doSomething();
}
writeln("benchmark end!");
--------------------
+/
auto measureTime(alias func)();
}
else
{
@safe auto measureTime(alias func)()
if(isSafe!func)
{
struct Result
{
private StopWatch _sw = void;
this(AutoStart as)
{
_sw = StopWatch(as);
}
~this()
{
unaryFun!(func)(_sw.peek());
}
}
return Result(AutoStart.yes);
}
auto measureTime(alias func)()
if(!isSafe!func)
{
struct Result
{
private StopWatch _sw = void;
this(AutoStart as)
{
_sw = StopWatch(as);
}
~this()
{
unaryFun!(func)(_sw.peek());
}
}
return Result(AutoStart.yes);
}
}
version(testStdDateTime) @safe unittest
{
@safe static void func(TickDuration td)
{
assert(td.to!("seconds", real) <>= 0);
}
auto mt = measureTime!(func)();
/+
with (measureTime!((a){assert(a.seconds);}))
{
// doSomething();
// @@@BUG@@@ doesn't work yet.
}
+/
}
version(testStdDateTime) unittest
{
static void func(TickDuration td)
{
assert(td.to!("seconds", real) <>= 0);
}
auto mt = measureTime!(func)();
/+
with (measureTime!((a){assert(a.seconds);}))
{
// doSomething();
// @@@BUG@@@ doesn't work yet.
}
+/
}
//==============================================================================
// Private Section.
//==============================================================================
private:
//==============================================================================
// Section with private enums and constants.
//==============================================================================
enum daysInYear = 365; /// The number of days in a non-leap year.
enum daysInLeapYear = 366; /// The numbef or days in a leap year.
enum daysIn4Years = daysInYear * 3 + daysInLeapYear; /// Number of days in 4 years.
enum daysIn100Years = daysIn4Years * 25 - 1; /// The number of days in 100 years.
enum daysIn400Years = daysIn100Years * 4 + 1; /// The number of days in 400 years.
//==============================================================================
// Section with private helper functions and templates.
//==============================================================================
/+
Template to help with converting between time units.
+/
template hnsecsPer(string units)
if(CmpTimeUnits!(units, "months") < 0)
{
static if(units == "hnsecs")
enum hnsecsPer = 1L;
else static if(units == "usecs")
enum hnsecsPer = 10L;
else static if(units == "msecs")
enum hnsecsPer = 1000 * hnsecsPer!"usecs";
else static if(units == "seconds")
enum hnsecsPer = 1000 * hnsecsPer!"msecs";
else static if(units == "minutes")
enum hnsecsPer = 60 * hnsecsPer!"seconds";
else static if(units == "hours")
enum hnsecsPer = 60 * hnsecsPer!"minutes";
else static if(units == "days")
enum hnsecsPer = 24 * hnsecsPer!"hours";
else static if(units == "weeks")
enum hnsecsPer = 7 * hnsecsPer!"days";
}
/+
Splits out a particular unit from hnsecs and gives you the value for that
unit and the remaining hnsecs. It really shouldn't be used unless unless
all units larger than the given units have already been split out.
Params:
units = The units to split out.
hnsecs = The current total hnsecs. Upon returning, it is the hnsecs left
after splitting out the given units.
Returns:
The number of the given units from converting hnsecs to those units.
Examples:
--------------------
auto hnsecs = 2595000000007L;
immutable days = splitUnitsFromHNSecs!"days"(hnsecs);
assert(days == 3);
assert(hnsecs == 3000000007);
immutable minutes = splitUnitsFromHNSecs!"minutes"(hnsecs);
assert(minutes == 5);
assert(hnsecs == 7);
--------------------
+/
long splitUnitsFromHNSecs(string units)(ref long hnsecs) pure nothrow
if(validTimeUnits(units) &&
CmpTimeUnits!(units, "months") < 0)
{
immutable value = convert!("hnsecs", units)(hnsecs);
hnsecs -= convert!(units, "hnsecs")(value);
return value;
}
unittest
{
version(testStdDateTime)
{
//Verify Example.
auto hnsecs = 2595000000007L;
immutable days = splitUnitsFromHNSecs!"days"(hnsecs);
assert(days == 3);
assert(hnsecs == 3000000007);
immutable minutes = splitUnitsFromHNSecs!"minutes"(hnsecs);
assert(minutes == 5);
assert(hnsecs == 7);
}
}
/+
This function is used to split out the units without getting the remaining
hnsecs.
See_Also:
splitUnitsFromHNSecs()
Params:
units = The units to split out.
hnsecs = The current total hnsecs.
Returns:
The split out value.
Examples:
--------------------
auto hnsecs = 2595000000007L;
immutable days = getUnitsFromHNSecs!"days"(hnsecs);
assert(days == 3);
assert(hnsecs == 2595000000007L);
--------------------
+/
long getUnitsFromHNSecs(string units)(long hnsecs) pure nothrow
if(validTimeUnits(units) &&
CmpTimeUnits!(units, "months") < 0)
{
return convert!("hnsecs", units)(hnsecs);
}
unittest
{
version(testStdDateTime)
{
//Verify Example.
auto hnsecs = 2595000000007L;
immutable days = getUnitsFromHNSecs!"days"(hnsecs);
assert(days == 3);
assert(hnsecs == 2595000000007L);
}
}
/+
This function is used to split out the units without getting the units but
just the remaining hnsecs.
See_Also:
splitUnitsFromHNSecs()
Params:
units = The units to split out.
hnsecs = The current total hnsecs.
Returns:
The remaining hnsecs.
Examples:
--------------------
auto hnsecs = 2595000000007L;
auto returned = removeUnitsFromHNSecs!"days"(hnsecs);
assert(returned == 3000000007);
assert(hnsecs == 2595000000007L);
--------------------
+/
long removeUnitsFromHNSecs(string units)(long hnsecs) pure nothrow
if(validTimeUnits(units) &&
CmpTimeUnits!(units, "months") < 0)
{
immutable value = convert!("hnsecs", units)(hnsecs);
return hnsecs - convert!(units, "hnsecs")(value);
}
unittest
{
version(testStdDateTime)
{
//Verify Example.
auto hnsecs = 2595000000007L;
auto returned = removeUnitsFromHNSecs!"days"(hnsecs);
assert(returned == 3000000007);
assert(hnsecs == 2595000000007L);
}
}
/+
The maximum valid Day in the given month in the given year.
Params:
year = The year to get the day for.
month = The month of the Gregorian Calendar to get the day for.
+/
static ubyte maxDay(int year, int month) pure nothrow
in
{
assert(valid!"months"(month));
}
body
{
switch(month)
{
case Month.jan, Month.mar, Month.may, Month.jul, Month.aug, Month.oct, Month.dec:
return 31;
case Month.feb:
return yearIsLeapYear(year) ? 29 : 28;
case Month.apr, Month.jun, Month.sep, Month.nov:
return 30;
default:
assert(0, "Invalid month.");
}
}
unittest
{
version(testStdDateTime)
{
//Test A.D.
_assertPred!"=="(maxDay(1999, 1), 31);
_assertPred!"=="(maxDay(1999, 2), 28);
_assertPred!"=="(maxDay(1999, 3), 31);
_assertPred!"=="(maxDay(1999, 4), 30);
_assertPred!"=="(maxDay(1999, 5), 31);
_assertPred!"=="(maxDay(1999, 6), 30);
_assertPred!"=="(maxDay(1999, 7), 31);
_assertPred!"=="(maxDay(1999, 8), 31);
_assertPred!"=="(maxDay(1999, 9), 30);
_assertPred!"=="(maxDay(1999, 10), 31);
_assertPred!"=="(maxDay(1999, 11), 30);
_assertPred!"=="(maxDay(1999, 12), 31);
_assertPred!"=="(maxDay(2000, 1), 31);
_assertPred!"=="(maxDay(2000, 2), 29);
_assertPred!"=="(maxDay(2000, 3), 31);
_assertPred!"=="(maxDay(2000, 4), 30);
_assertPred!"=="(maxDay(2000, 5), 31);
_assertPred!"=="(maxDay(2000, 6), 30);
_assertPred!"=="(maxDay(2000, 7), 31);
_assertPred!"=="(maxDay(2000, 8), 31);
_assertPred!"=="(maxDay(2000, 9), 30);
_assertPred!"=="(maxDay(2000, 10), 31);
_assertPred!"=="(maxDay(2000, 11), 30);
_assertPred!"=="(maxDay(2000, 12), 31);
//Test B.C.
_assertPred!"=="(maxDay(-1999, 1), 31);
_assertPred!"=="(maxDay(-1999, 2), 28);
_assertPred!"=="(maxDay(-1999, 3), 31);
_assertPred!"=="(maxDay(-1999, 4), 30);
_assertPred!"=="(maxDay(-1999, 5), 31);
_assertPred!"=="(maxDay(-1999, 6), 30);
_assertPred!"=="(maxDay(-1999, 7), 31);
_assertPred!"=="(maxDay(-1999, 8), 31);
_assertPred!"=="(maxDay(-1999, 9), 30);
_assertPred!"=="(maxDay(-1999, 10), 31);
_assertPred!"=="(maxDay(-1999, 11), 30);
_assertPred!"=="(maxDay(-1999, 12), 31);
_assertPred!"=="(maxDay(-2000, 1), 31);
_assertPred!"=="(maxDay(-2000, 2), 29);
_assertPred!"=="(maxDay(-2000, 3), 31);
_assertPred!"=="(maxDay(-2000, 4), 30);
_assertPred!"=="(maxDay(-2000, 5), 31);
_assertPred!"=="(maxDay(-2000, 6), 30);
_assertPred!"=="(maxDay(-2000, 7), 31);
_assertPred!"=="(maxDay(-2000, 8), 31);
_assertPred!"=="(maxDay(-2000, 9), 30);
_assertPred!"=="(maxDay(-2000, 10), 31);
_assertPred!"=="(maxDay(-2000, 11), 30);
_assertPred!"=="(maxDay(-2000, 12), 31);
}
}
/+
Returns the day of the week for the given day of the Gregorian Calendar.
Params:
day = The day of the Gregorian Calendar for which to get the day of
the week.
+/
DayOfWeek getDayOfWeek(int day) pure nothrow
{
//January 1st, 1 A.D. was a Monday
if(day >= 0)
return cast(DayOfWeek)(day % 7);
else
{
immutable dow = cast(DayOfWeek)((day % 7) + 7);
if(dow == 7)
return DayOfWeek.sun;
else
return dow;
}
}
unittest
{
version(testStdDateTime)
{
//Test A.D.
_assertPred!"=="(getDayOfWeek(SysTime(Date(1, 1, 1)).dayOfGregorianCal), DayOfWeek.mon);
_assertPred!"=="(getDayOfWeek(SysTime(Date(1, 1, 2)).dayOfGregorianCal), DayOfWeek.tue);
_assertPred!"=="(getDayOfWeek(SysTime(Date(1, 1, 3)).dayOfGregorianCal), DayOfWeek.wed);
_assertPred!"=="(getDayOfWeek(SysTime(Date(1, 1, 4)).dayOfGregorianCal), DayOfWeek.thu);
_assertPred!"=="(getDayOfWeek(SysTime(Date(1, 1, 5)).dayOfGregorianCal), DayOfWeek.fri);
_assertPred!"=="(getDayOfWeek(SysTime(Date(1, 1, 6)).dayOfGregorianCal), DayOfWeek.sat);
_assertPred!"=="(getDayOfWeek(SysTime(Date(1, 1, 7)).dayOfGregorianCal), DayOfWeek.sun);
_assertPred!"=="(getDayOfWeek(SysTime(Date(1, 1, 8)).dayOfGregorianCal), DayOfWeek.mon);
_assertPred!"=="(getDayOfWeek(SysTime(Date(1, 1, 9)).dayOfGregorianCal), DayOfWeek.tue);
_assertPred!"=="(getDayOfWeek(SysTime(Date(2, 1, 1)).dayOfGregorianCal), DayOfWeek.tue);
_assertPred!"=="(getDayOfWeek(SysTime(Date(3, 1, 1)).dayOfGregorianCal), DayOfWeek.wed);
_assertPred!"=="(getDayOfWeek(SysTime(Date(4, 1, 1)).dayOfGregorianCal), DayOfWeek.thu);
_assertPred!"=="(getDayOfWeek(SysTime(Date(5, 1, 1)).dayOfGregorianCal), DayOfWeek.sat);
_assertPred!"=="(getDayOfWeek(SysTime(Date(2000, 1, 1)).dayOfGregorianCal), DayOfWeek.sat);
_assertPred!"=="(getDayOfWeek(SysTime(Date(2010, 8, 22)).dayOfGregorianCal), DayOfWeek.sun);
_assertPred!"=="(getDayOfWeek(SysTime(Date(2010, 8, 23)).dayOfGregorianCal), DayOfWeek.mon);
_assertPred!"=="(getDayOfWeek(SysTime(Date(2010, 8, 24)).dayOfGregorianCal), DayOfWeek.tue);
_assertPred!"=="(getDayOfWeek(SysTime(Date(2010, 8, 25)).dayOfGregorianCal), DayOfWeek.wed);
_assertPred!"=="(getDayOfWeek(SysTime(Date(2010, 8, 26)).dayOfGregorianCal), DayOfWeek.thu);
_assertPred!"=="(getDayOfWeek(SysTime(Date(2010, 8, 27)).dayOfGregorianCal), DayOfWeek.fri);
_assertPred!"=="(getDayOfWeek(SysTime(Date(2010, 8, 28)).dayOfGregorianCal), DayOfWeek.sat);
_assertPred!"=="(getDayOfWeek(SysTime(Date(2010, 8, 29)).dayOfGregorianCal), DayOfWeek.sun);
//Test B.C.
_assertPred!"=="(getDayOfWeek(SysTime(Date(0, 12, 31)).dayOfGregorianCal), DayOfWeek.sun);
_assertPred!"=="(getDayOfWeek(SysTime(Date(0, 12, 30)).dayOfGregorianCal), DayOfWeek.sat);
_assertPred!"=="(getDayOfWeek(SysTime(Date(0, 12, 29)).dayOfGregorianCal), DayOfWeek.fri);
_assertPred!"=="(getDayOfWeek(SysTime(Date(0, 12, 28)).dayOfGregorianCal), DayOfWeek.thu);
_assertPred!"=="(getDayOfWeek(SysTime(Date(0, 12, 27)).dayOfGregorianCal), DayOfWeek.wed);
_assertPred!"=="(getDayOfWeek(SysTime(Date(0, 12, 26)).dayOfGregorianCal), DayOfWeek.tue);
_assertPred!"=="(getDayOfWeek(SysTime(Date(0, 12, 25)).dayOfGregorianCal), DayOfWeek.mon);
_assertPred!"=="(getDayOfWeek(SysTime(Date(0, 12, 24)).dayOfGregorianCal), DayOfWeek.sun);
_assertPred!"=="(getDayOfWeek(SysTime(Date(0, 12, 23)).dayOfGregorianCal), DayOfWeek.sat);
}
}
/+
Returns the string representation of the given month.
Params:
useLongName = Whether the long or short version of the month name should
be used.
plural = Whether the string should be plural or not.
Throws:
$(D DateTimeException) if the given month is not a valid month.
+/
string monthToString(Month month, bool useLongName = true) pure
{
if(useLongName == true)
{
switch(month)
{
case Month.jan:
return "January";
case Month.feb:
return "February";
case Month.mar:
return "March";
case Month.apr:
return "April";
case Month.may:
return "May";
case Month.jun:
return "June";
case Month.jul:
return "July";
case Month.aug:
return "August";
case Month.sep:
return "September";
case Month.oct:
return "October";
case Month.nov:
return "November";
case Month.dec:
return "December";
default:
throw new DateTimeException("Invalid month: " ~ numToString(month));
}
}
else
{
switch(month)
{
case Month.jan:
return "Jan";
case Month.feb:
return "Feb";
case Month.mar:
return "Mar";
case Month.apr:
return "Apr";
case Month.may:
return "May";
case Month.jun:
return "Jun";
case Month.jul:
return "Jul";
case Month.aug:
return "Aug";
case Month.sep:
return "Sep";
case Month.oct:
return "Oct";
case Month.nov:
return "Nov";
case Month.dec:
return "Dec";
default:
throw new DateTimeException("Invalid month: " ~ numToString(month));
}
}
}
unittest
{
version(testStdDateTime)
{
static void testMTSInvalid(Month month, bool useLongName)
{
monthToString(month, useLongName);
}
assertThrown!DateTimeException(testMTSInvalid(cast(Month)0, true));
assertThrown!DateTimeException(testMTSInvalid(cast(Month)0, false));
assertThrown!DateTimeException(testMTSInvalid(cast(Month)13, true));
assertThrown!DateTimeException(testMTSInvalid(cast(Month)13, false));
_assertPred!"=="(monthToString(Month.jan), "January");
_assertPred!"=="(monthToString(Month.feb), "February");
_assertPred!"=="(monthToString(Month.mar), "March");
_assertPred!"=="(monthToString(Month.apr), "April");
_assertPred!"=="(monthToString(Month.may), "May");
_assertPred!"=="(monthToString(Month.jun), "June");
_assertPred!"=="(monthToString(Month.jul), "July");
_assertPred!"=="(monthToString(Month.aug), "August");
_assertPred!"=="(monthToString(Month.sep), "September");
_assertPred!"=="(monthToString(Month.oct), "October");
_assertPred!"=="(monthToString(Month.nov), "November");
_assertPred!"=="(monthToString(Month.dec), "December");
_assertPred!"=="(monthToString(Month.jan, false), "Jan");
_assertPred!"=="(monthToString(Month.feb, false), "Feb");
_assertPred!"=="(monthToString(Month.mar, false), "Mar");
_assertPred!"=="(monthToString(Month.apr, false), "Apr");
_assertPred!"=="(monthToString(Month.may, false), "May");
_assertPred!"=="(monthToString(Month.jun, false), "Jun");
_assertPred!"=="(monthToString(Month.jul, false), "Jul");
_assertPred!"=="(monthToString(Month.aug, false), "Aug");
_assertPred!"=="(monthToString(Month.sep, false), "Sep");
_assertPred!"=="(monthToString(Month.oct, false), "Oct");
_assertPred!"=="(monthToString(Month.nov, false), "Nov");
_assertPred!"=="(monthToString(Month.dec, false), "Dec");
}
}
/+
Returns the Month corresponding to the given string. Casing is ignored.
Params:
monthStr = The string representation of the month to get the Month for.
Throws:
$(D DateTimeException) if the given month is not a valid month string.
+/
Month monthFromString(string monthStr)
{
switch(toLower(monthStr))
{
case "january":
case "jan":
return Month.jan;
case "february":
case "feb":
return Month.feb;
case "march":
case "mar":
return Month.mar;
case "april":
case "apr":
return Month.apr;
case "may":
return Month.may;
case "june":
case "jun":
return Month.jun;
case "july":
case "jul":
return Month.jul;
case "august":
case "aug":
return Month.aug;
case "september":
case "sep":
return Month.sep;
case "october":
case "oct":
return Month.oct;
case "november":
case "nov":
return Month.nov;
case "december":
case "dec":
return Month.dec;
default:
throw new DateTimeException(format("Invalid month %s", monthStr));
}
}
unittest
{
version(testStdDateTime)
{
static void testMFSInvalid(string monthStr)
{
monthFromString(monthStr);
}
assertThrown!DateTimeException(testMFSInvalid("Ja"));
assertThrown!DateTimeException(testMFSInvalid("Janu"));
assertThrown!DateTimeException(testMFSInvalid("Januar"));
assertThrown!DateTimeException(testMFSInvalid("Januarys"));
assertThrown!DateTimeException(testMFSInvalid("JJanuary"));
_assertPred!"=="(monthFromString(monthToString(Month.jan)), Month.jan);
_assertPred!"=="(monthFromString(monthToString(Month.feb)), Month.feb);
_assertPred!"=="(monthFromString(monthToString(Month.mar)), Month.mar);
_assertPred!"=="(monthFromString(monthToString(Month.apr)), Month.apr);
_assertPred!"=="(monthFromString(monthToString(Month.may)), Month.may);
_assertPred!"=="(monthFromString(monthToString(Month.jun)), Month.jun);
_assertPred!"=="(monthFromString(monthToString(Month.jul)), Month.jul);
_assertPred!"=="(monthFromString(monthToString(Month.aug)), Month.aug);
_assertPred!"=="(monthFromString(monthToString(Month.sep)), Month.sep);
_assertPred!"=="(monthFromString(monthToString(Month.oct)), Month.oct);
_assertPred!"=="(monthFromString(monthToString(Month.nov)), Month.nov);
_assertPred!"=="(monthFromString(monthToString(Month.dec)), Month.dec);
_assertPred!"=="(monthFromString(monthToString(Month.jan, false)), Month.jan);
_assertPred!"=="(monthFromString(monthToString(Month.feb, false)), Month.feb);
_assertPred!"=="(monthFromString(monthToString(Month.mar, false)), Month.mar);
_assertPred!"=="(monthFromString(monthToString(Month.apr, false)), Month.apr);
_assertPred!"=="(monthFromString(monthToString(Month.may, false)), Month.may);
_assertPred!"=="(monthFromString(monthToString(Month.jun, false)), Month.jun);
_assertPred!"=="(monthFromString(monthToString(Month.jul, false)), Month.jul);
_assertPred!"=="(monthFromString(monthToString(Month.aug, false)), Month.aug);
_assertPred!"=="(monthFromString(monthToString(Month.sep, false)), Month.sep);
_assertPred!"=="(monthFromString(monthToString(Month.oct, false)), Month.oct);
_assertPred!"=="(monthFromString(monthToString(Month.nov, false)), Month.nov);
_assertPred!"=="(monthFromString(monthToString(Month.dec, false)), Month.dec);
_assertPred!"=="(monthFromString("JANUARY"), Month.jan);
_assertPred!"=="(monthFromString("JAN"), Month.jan);
_assertPred!"=="(monthFromString("january"), Month.jan);
_assertPred!"=="(monthFromString("jan"), Month.jan);
_assertPred!"=="(monthFromString("jaNuary"), Month.jan);
_assertPred!"=="(monthFromString("jaN"), Month.jan);
_assertPred!"=="(monthFromString("jaNuaRy"), Month.jan);
_assertPred!"=="(monthFromString("jAn"), Month.jan);
}
}
/+
The time units which are one step smaller than the given units.
Examples:
--------------------
assert(nextSmallerTimeUnits!"years" == "months");
assert(nextSmallerTimeUnits!"usecs" == "hnsecs");
--------------------
+/
template nextSmallerTimeUnits(string units)
if(validTimeUnits(units) &&
timeStrings.front != units)
{
enum nextSmallerTimeUnits = timeStrings[std.algorithm.countUntil(timeStrings.dup, units) - 1];
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(nextSmallerTimeUnits!"months", "weeks");
_assertPred!"=="(nextSmallerTimeUnits!"weeks", "days");
_assertPred!"=="(nextSmallerTimeUnits!"days", "hours");
_assertPred!"=="(nextSmallerTimeUnits!"hours", "minutes");
_assertPred!"=="(nextSmallerTimeUnits!"minutes", "seconds");
_assertPred!"=="(nextSmallerTimeUnits!"seconds", "msecs");
_assertPred!"=="(nextSmallerTimeUnits!"msecs", "usecs");
static assert(!__traits(compiles, nextSmallerTimeUnits!"hnsecs"));
//Verify Examples.
assert(nextSmallerTimeUnits!"years" == "months");
assert(nextSmallerTimeUnits!"usecs" == "hnsecs");
}
}
/+
The time units which are one step larger than the given units.
Examples:
--------------------
assert(nextLargerTimeUnits!"months" == "years");
assert(nextLargerTimeUnits!"hnsecs" == "usecs");
--------------------
+/
template nextLargerTimeUnits(string units)
if(validTimeUnits(units) &&
timeStrings.back != units)
{
enum nextLargerTimeUnits = timeStrings[std.algorithm.countUntil(timeStrings.dup, units) + 1];
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(nextLargerTimeUnits!"usecs", "msecs");
_assertPred!"=="(nextLargerTimeUnits!"msecs", "seconds");
_assertPred!"=="(nextLargerTimeUnits!"seconds", "minutes");
_assertPred!"=="(nextLargerTimeUnits!"minutes", "hours");
_assertPred!"=="(nextLargerTimeUnits!"hours", "days");
_assertPred!"=="(nextLargerTimeUnits!"days", "weeks");
_assertPred!"=="(nextLargerTimeUnits!"weeks", "months");
static assert(!__traits(compiles, nextLargerTimeUnits!"years"));
//Verify Examples.
assert(nextLargerTimeUnits!"months" == "years");
assert(nextLargerTimeUnits!"hnsecs" == "usecs");
}
}
/+
Returns the given hnsecs as an ISO string of fractional seconds.
+/
static string fracSecToISOString(int hnsecs) nothrow
in
{
assert(hnsecs >= 0);
}
body
{
try
{
string isoString = format(".%07d", hnsecs);
while(isoString.endsWith("0"))
isoString.popBack();
if(isoString.length == 1)
return "";
return isoString;
}
catch(Exception e)
assert(0, "format() threw.");
}
unittest
{
version(testStdDateTime)
{
_assertPred!"=="(fracSecToISOString(0), "");
_assertPred!"=="(fracSecToISOString(1), ".0000001");
_assertPred!"=="(fracSecToISOString(10), ".000001");
_assertPred!"=="(fracSecToISOString(100), ".00001");
_assertPred!"=="(fracSecToISOString(1000), ".0001");
_assertPred!"=="(fracSecToISOString(10_000), ".001");
_assertPred!"=="(fracSecToISOString(100_000), ".01");
_assertPred!"=="(fracSecToISOString(1_000_000), ".1");
_assertPred!"=="(fracSecToISOString(1_000_001), ".1000001");
_assertPred!"=="(fracSecToISOString(1_001_001), ".1001001");
_assertPred!"=="(fracSecToISOString(1_071_601), ".1071601");
_assertPred!"=="(fracSecToISOString(1_271_641), ".1271641");
_assertPred!"=="(fracSecToISOString(9_999_999), ".9999999");
_assertPred!"=="(fracSecToISOString(9_999_990), ".999999");
_assertPred!"=="(fracSecToISOString(9_999_900), ".99999");
_assertPred!"=="(fracSecToISOString(9_999_000), ".9999");
_assertPred!"=="(fracSecToISOString(9_990_000), ".999");
_assertPred!"=="(fracSecToISOString(9_900_000), ".99");
_assertPred!"=="(fracSecToISOString(9_000_000), ".9");
_assertPred!"=="(fracSecToISOString(999), ".0000999");
_assertPred!"=="(fracSecToISOString(9990), ".000999");
_assertPred!"=="(fracSecToISOString(99_900), ".00999");
_assertPred!"=="(fracSecToISOString(999_000), ".0999");
}
}
/+
Returns a FracSec corresponding to to the given ISO string of
fractional seconds.
+/
static FracSec fracSecFromISOString(S)(in S isoString)
if(isSomeString!S)
{
if(isoString.empty)
return FracSec.from!"hnsecs"(0);
auto dstr = to!dstring(isoString);
enforce(dstr.startsWith("."), new DateTimeException("Invalid ISO String"));
dstr.popFront();
enforce(!dstr.empty && dstr.length <= 7, new DateTimeException("Invalid ISO String"));
enforce(!canFind!(not!isDigit)(dstr), new DateTimeException("Invalid ISO String"));
dchar[7] fullISOString;
foreach(i, ref dchar c; fullISOString)
{
if(i < dstr.length)
c = dstr[i];
else
c = '0';
}
return FracSec.from!"hnsecs"(to!int(fullISOString[]));
}
unittest
{
version(testStdDateTime)
{
static void testFSInvalid(string isoString)
{
fracSecFromISOString(isoString);
}
assertThrown!DateTimeException(testFSInvalid("."));
assertThrown!DateTimeException(testFSInvalid("0."));
assertThrown!DateTimeException(testFSInvalid("0"));
assertThrown!DateTimeException(testFSInvalid("0000000"));
assertThrown!DateTimeException(testFSInvalid(".00000000"));
assertThrown!DateTimeException(testFSInvalid(".00000001"));
assertThrown!DateTimeException(testFSInvalid("T"));
assertThrown!DateTimeException(testFSInvalid("T."));
assertThrown!DateTimeException(testFSInvalid(".T"));
_assertPred!"=="(fracSecFromISOString(""), FracSec.from!"hnsecs"(0));
_assertPred!"=="(fracSecFromISOString(".0000001"), FracSec.from!"hnsecs"(1));
_assertPred!"=="(fracSecFromISOString(".000001"), FracSec.from!"hnsecs"(10));
_assertPred!"=="(fracSecFromISOString(".00001"), FracSec.from!"hnsecs"(100));
_assertPred!"=="(fracSecFromISOString(".0001"), FracSec.from!"hnsecs"(1000));
_assertPred!"=="(fracSecFromISOString(".001"), FracSec.from!"hnsecs"(10_000));
_assertPred!"=="(fracSecFromISOString(".01"), FracSec.from!"hnsecs"(100_000));
_assertPred!"=="(fracSecFromISOString(".1"), FracSec.from!"hnsecs"(1_000_000));
_assertPred!"=="(fracSecFromISOString(".1000001"), FracSec.from!"hnsecs"(1_000_001));
_assertPred!"=="(fracSecFromISOString(".1001001"), FracSec.from!"hnsecs"(1_001_001));
_assertPred!"=="(fracSecFromISOString(".1071601"), FracSec.from!"hnsecs"(1_071_601));
_assertPred!"=="(fracSecFromISOString(".1271641"), FracSec.from!"hnsecs"(1_271_641));
_assertPred!"=="(fracSecFromISOString(".9999999"), FracSec.from!"hnsecs"(9_999_999));
_assertPred!"=="(fracSecFromISOString(".9999990"), FracSec.from!"hnsecs"(9_999_990));
_assertPred!"=="(fracSecFromISOString(".999999"), FracSec.from!"hnsecs"(9_999_990));
_assertPred!"=="(fracSecFromISOString(".9999900"), FracSec.from!"hnsecs"(9_999_900));
_assertPred!"=="(fracSecFromISOString(".99999"), FracSec.from!"hnsecs"(9_999_900));
_assertPred!"=="(fracSecFromISOString(".9999000"), FracSec.from!"hnsecs"(9_999_000));
_assertPred!"=="(fracSecFromISOString(".9999"), FracSec.from!"hnsecs"(9_999_000));
_assertPred!"=="(fracSecFromISOString(".9990000"), FracSec.from!"hnsecs"(9_990_000));
_assertPred!"=="(fracSecFromISOString(".999"), FracSec.from!"hnsecs"(9_990_000));
_assertPred!"=="(fracSecFromISOString(".9900000"), FracSec.from!"hnsecs"(9_900_000));
_assertPred!"=="(fracSecFromISOString(".9900"), FracSec.from!"hnsecs"(9_900_000));
_assertPred!"=="(fracSecFromISOString(".99"), FracSec.from!"hnsecs"(9_900_000));
_assertPred!"=="(fracSecFromISOString(".9000000"), FracSec.from!"hnsecs"(9_000_000));
_assertPred!"=="(fracSecFromISOString(".9"), FracSec.from!"hnsecs"(9_000_000));
_assertPred!"=="(fracSecFromISOString(".0000999"), FracSec.from!"hnsecs"(999));
_assertPred!"=="(fracSecFromISOString(".0009990"), FracSec.from!"hnsecs"(9990));
_assertPred!"=="(fracSecFromISOString(".000999"), FracSec.from!"hnsecs"(9990));
_assertPred!"=="(fracSecFromISOString(".0099900"), FracSec.from!"hnsecs"(99_900));
_assertPred!"=="(fracSecFromISOString(".00999"), FracSec.from!"hnsecs"(99_900));
_assertPred!"=="(fracSecFromISOString(".0999000"), FracSec.from!"hnsecs"(999_000));
_assertPred!"=="(fracSecFromISOString(".0999"), FracSec.from!"hnsecs"(999_000));
}
}
/+
Whether the given type defines the static property min which returns the
minimum value for the type.
+/
template hasMin(T)
{
enum hasMin = __traits(hasMember, T, "min") &&
__traits(isStaticFunction, T.min) &&
is(ReturnType!(T.min) == Unqual!T) &&
(functionAttributes!(T.min) & FunctionAttribute.PROPERTY) &&
(functionAttributes!(T.min) & FunctionAttribute.NOTHROW);
//(functionAttributes!(T.min) & FunctionAttribute.PURE); //Ideally this would be the case, but SysTime's min() can't currently be pure.
}
unittest
{
version(testStdDateTime)
{
static assert(hasMin!(Date));
static assert(hasMin!(TimeOfDay));
static assert(hasMin!(DateTime));
static assert(hasMin!(SysTime));
static assert(hasMin!(const Date));
static assert(hasMin!(const TimeOfDay));
static assert(hasMin!(const DateTime));
static assert(hasMin!(const SysTime));
static assert(hasMin!(immutable Date));
static assert(hasMin!(immutable TimeOfDay));
static assert(hasMin!(immutable SysTime));
}
}
/+
Whether the given type defines the static property max which returns the
maximum value for the type.
+/
template hasMax(T)
{
enum hasMax = __traits(hasMember, T, "max") &&
__traits(isStaticFunction, T.max) &&
is(ReturnType!(T.max) == Unqual!T) &&
(functionAttributes!(T.max) & FunctionAttribute.PROPERTY) &&
(functionAttributes!(T.max) & FunctionAttribute.NOTHROW);
//(functionAttributes!(T.max) & FunctionAttribute.PURE); //Ideally this would be the case, but SysTime's max() can't currently be pure.
}
unittest
{
version(testStdDateTime)
{
static assert(hasMax!(Date));
static assert(hasMax!(TimeOfDay));
static assert(hasMax!(DateTime));
static assert(hasMax!(SysTime));
static assert(hasMax!(const Date));
static assert(hasMax!(const TimeOfDay));
static assert(hasMax!(const DateTime));
static assert(hasMax!(const SysTime));
static assert(hasMax!(immutable Date));
static assert(hasMax!(immutable TimeOfDay));
static assert(hasMax!(immutable DateTime));
static assert(hasMax!(immutable SysTime));
}
}
/+
Whether the given type defines the overloaded opBinary operators that a time
point is supposed to define which work with time durations. Namely:
$(TABLE
$(TR $(TD TimePoint opBinary"+"(duration)))
$(TR $(TD TimePoint opBinary"-"(duration)))
)
+/
template hasOverloadedOpBinaryWithDuration(T)
{
enum hasOverloadedOpBinaryWithDuration = __traits(compiles, T.init + dur!"days"(5)) &&
is(typeof(T.init + dur!"days"(5)) == Unqual!T) &&
__traits(compiles, T.init - dur!"days"(5)) &&
is(typeof(T.init - dur!"days"(5)) == Unqual!T) &&
__traits(compiles, T.init + TickDuration.from!"hnsecs"(5)) &&
is(typeof(T.init + TickDuration.from!"hnsecs"(5)) == Unqual!T) &&
__traits(compiles, T.init - TickDuration.from!"hnsecs"(5)) &&
is(typeof(T.init - TickDuration.from!"hnsecs"(5)) == Unqual!T);
}
unittest
{
version(testStdDateTime)
{
static assert(hasOverloadedOpBinaryWithDuration!(Date));
static assert(hasOverloadedOpBinaryWithDuration!(TimeOfDay));
static assert(hasOverloadedOpBinaryWithDuration!(DateTime));
static assert(hasOverloadedOpBinaryWithDuration!(SysTime));
static assert(hasOverloadedOpBinaryWithDuration!(const Date));
static assert(hasOverloadedOpBinaryWithDuration!(const TimeOfDay));
static assert(hasOverloadedOpBinaryWithDuration!(const DateTime));
static assert(hasOverloadedOpBinaryWithDuration!(const SysTime));
static assert(hasOverloadedOpBinaryWithDuration!(immutable Date));
static assert(hasOverloadedOpBinaryWithDuration!(immutable TimeOfDay));
static assert(hasOverloadedOpBinaryWithDuration!(immutable DateTime));
static assert(hasOverloadedOpBinaryWithDuration!(immutable SysTime));
}
}
/+
Whether the given type defines the overloaded opOpAssign operators that a time point is supposed
to define. Namely:
$(TABLE
$(TR $(TD TimePoint opOpAssign"+"(duration)))
$(TR $(TD TimePoint opOpAssign"-"(duration)))
)
+/
template hasOverloadedOpAssignWithDuration(T)
{
enum hasOverloadedOpAssignWithDuration = __traits(compiles, T.init += dur!"days"(5)) &&
is(typeof(T.init += dur!"days"(5)) == Unqual!T) &&
__traits(compiles, T.init -= dur!"days"(5)) &&
is(typeof(T.init -= dur!"days"(5)) == Unqual!T) &&
__traits(compiles, T.init += TickDuration.from!"hnsecs"(5)) &&
is(typeof(T.init += TickDuration.from!"hnsecs"(5)) == Unqual!T) &&
__traits(compiles, T.init -= TickDuration.from!"hnsecs"(5)) &&
is(typeof(T.init -= TickDuration.from!"hnsecs"(5)) == Unqual!T);
}
unittest
{
version(testStdDateTime)
{
static assert(hasOverloadedOpAssignWithDuration!(Date));
static assert(hasOverloadedOpAssignWithDuration!(TimeOfDay));
static assert(hasOverloadedOpAssignWithDuration!(DateTime));
static assert(hasOverloadedOpAssignWithDuration!(SysTime));
static assert(hasOverloadedOpAssignWithDuration!(const Date));
static assert(hasOverloadedOpAssignWithDuration!(const TimeOfDay));
static assert(hasOverloadedOpAssignWithDuration!(const DateTime));
static assert(hasOverloadedOpAssignWithDuration!(const SysTime));
static assert(hasOverloadedOpAssignWithDuration!(immutable Date));
static assert(hasOverloadedOpAssignWithDuration!(immutable TimeOfDay));
static assert(hasOverloadedOpAssignWithDuration!(immutable DateTime));
static assert(hasOverloadedOpAssignWithDuration!(immutable SysTime));
}
}
/+
Whether the given type defines the overloaded opBinary operator that a time point is supposed
to define which works with itself. Namely:
$(TABLE
$(TR $(TD duration opBinary"-"(Date)))
)
+/
template hasOverloadedOpBinaryWithSelf(T)
{
enum hasOverloadedOpBinaryWithSelf = __traits(compiles, T.init - T.init) &&
is(Unqual!(typeof(T.init - T.init)) == Duration);
}
unittest
{
version(testStdDateTime)
{
static assert(hasOverloadedOpBinaryWithSelf!(Date));
static assert(hasOverloadedOpBinaryWithSelf!(TimeOfDay));
static assert(hasOverloadedOpBinaryWithSelf!(DateTime));
static assert(hasOverloadedOpBinaryWithSelf!(SysTime));
static assert(hasOverloadedOpBinaryWithSelf!(const Date));
static assert(hasOverloadedOpBinaryWithSelf!(const TimeOfDay));
static assert(hasOverloadedOpBinaryWithSelf!(const DateTime));
static assert(hasOverloadedOpBinaryWithSelf!(const SysTime));
static assert(hasOverloadedOpBinaryWithSelf!(immutable Date));
static assert(hasOverloadedOpBinaryWithSelf!(immutable TimeOfDay));
static assert(hasOverloadedOpBinaryWithSelf!(immutable DateTime));
static assert(hasOverloadedOpBinaryWithSelf!(immutable SysTime));
}
}
/+
Unfortunately, to!string() is not pure, so here's a way to convert
a number to a string which is. Once to!string() is properly pure
(like it hopefully will be at some point), this function should
be removed in favor of using to!string().
+/
string numToString(long value) pure nothrow
{
try
{
immutable negative = value < 0;
char[25] str;
size_t i = str.length;
if(negative)
value = -value;
while(1)
{
char digit = cast(char)('0' + value % 10);
value /= 10;
str[--i] = digit;
assert(i > 0);
if(value == 0)
break;
}
if(negative)
return "-" ~ str[i .. $].idup;
else
return str[i .. $].idup;
}
catch(Exception e)
assert(0, "Something threw when nothing can throw.");
}
/+
A temporary replacement for Rebindable!() until bug http://d.puremagic.com/issues/show_bug.cgi?id=4977
is fixed.
+/
template DTRebindable(T) if (is(T == class) || is(T == interface) || isArray!(T))
{
static if(!is(T X == const(U), U) && !is(T X == immutable(U), U))
{
alias T DTRebindable;
}
else static if(isArray!(T))
{
alias const(ElementType!(T))[] DTRebindable;
}
else
{
struct DTRebindable
{
private union
{
T original;
U stripped;
}
void opAssign(T another) pure nothrow
{
stripped = cast(U) another;
}
void opAssign(DTRebindable another) pure nothrow
{
stripped = another.stripped;
}
static if(is(T == const U))
{
// safely assign immutable to const
void opAssign(DTRebindable!(immutable U) another) pure nothrow
{
stripped = another.stripped;
}
}
this(T initializer) pure nothrow
{
opAssign(initializer);
}
@property ref T get() pure nothrow
{
return original;
}
@property ref T get() const pure nothrow
{
return original;
}
alias get this;
T opDot() pure nothrow
{
return original;
}
T opDot() const pure nothrow
{
return original;
}
}
}
}
version(unittest)
{
//Variables to help in testing.
Duration currLocalDiffFromUTC;
immutable (TimeZone)[] testTZs;
//All of these helper arrays are sorted in ascending order.
auto testYearsBC = [-1999, -1200, -600, -4, -1, 0];
auto testYearsAD = [1, 4, 1000, 1999, 2000, 2012];
//I'd use a Tuple, but I get forward reference errors if I try.
struct MonthDay
{
Month month;
short day;
this(int m, short d)
{
month = cast(Month)m;
day = d;
}
}
MonthDay[] testMonthDays = [MonthDay(1, 1),
MonthDay(1, 2),
MonthDay(3, 17),
MonthDay(7, 4),
MonthDay(10, 27),
MonthDay(12, 30),
MonthDay(12, 31)];
auto testDays = [1, 2, 9, 10, 16, 20, 25, 28, 29, 30, 31];
auto testTODs = [TimeOfDay(0, 0, 0),
TimeOfDay(0, 0, 1),
TimeOfDay(0, 1, 0),
TimeOfDay(1, 0, 0),
TimeOfDay(13, 13, 13),
TimeOfDay(23, 59, 59)];
auto testHours = [0, 1, 12, 22, 23];
auto testMinSecs = [0, 1, 30, 58, 59];
//Throwing exceptions is incredibly expensive, so we want to use a smaller
//set of values for tests using assertThrown.
auto testTODsThrown = [TimeOfDay(0, 0, 0),
TimeOfDay(13, 13, 13),
TimeOfDay(23, 59, 59)];
Date[] testDatesBC;
Date[] testDatesAD;
DateTime[] testDateTimesBC;
DateTime[] testDateTimesAD;
FracSec[] testFracSecs;
SysTime[] testSysTimesBC;
SysTime[] testSysTimesAD;
//I'd use a Tuple, but I get forward reference errors if I try.
struct GregDay { int day; Date date; }
auto testGregDaysBC = [GregDay(-1_373_427, Date(-3760, 9, 7)), //Start of the Hebrew Calendar
GregDay(-735_233, Date(-2012, 1, 1)),
GregDay(-735_202, Date(-2012, 2, 1)),
GregDay(-735_175, Date(-2012, 2, 28)),
GregDay(-735_174, Date(-2012, 2, 29)),
GregDay(-735_173, Date(-2012, 3, 1)),
GregDay(-734_502, Date(-2010, 1, 1)),
GregDay(-734_472, Date(-2010, 1, 31)),
GregDay(-734_471, Date(-2010, 2, 1)),
GregDay(-734_444, Date(-2010, 2, 28)),
GregDay(-734_443, Date(-2010, 3, 1)),
GregDay(-734_413, Date(-2010, 3, 31)),
GregDay(-734_412, Date(-2010, 4, 1)),
GregDay(-734_383, Date(-2010, 4, 30)),
GregDay(-734_382, Date(-2010, 5, 1)),
GregDay(-734_352, Date(-2010, 5, 31)),
GregDay(-734_351, Date(-2010, 6, 1)),
GregDay(-734_322, Date(-2010, 6, 30)),
GregDay(-734_321, Date(-2010, 7, 1)),
GregDay(-734_291, Date(-2010, 7, 31)),
GregDay(-734_290, Date(-2010, 8, 1)),
GregDay(-734_260, Date(-2010, 8, 31)),
GregDay(-734_259, Date(-2010, 9, 1)),
GregDay(-734_230, Date(-2010, 9, 30)),
GregDay(-734_229, Date(-2010, 10, 1)),
GregDay(-734_199, Date(-2010, 10, 31)),
GregDay(-734_198, Date(-2010, 11, 1)),
GregDay(-734_169, Date(-2010, 11, 30)),
GregDay(-734_168, Date(-2010, 12, 1)),
GregDay(-734_139, Date(-2010, 12, 30)),
GregDay(-734_138, Date(-2010, 12, 31)),
GregDay(-731_215, Date(-2001, 1, 1)),
GregDay(-730_850, Date(-2000, 1, 1)),
GregDay(-730_849, Date(-2000, 1, 2)),
GregDay(-730_486, Date(-2000, 12, 30)),
GregDay(-730_485, Date(-2000, 12, 31)),
GregDay(-730_484, Date(-1999, 1, 1)),
GregDay(-694_690, Date(-1901, 1, 1)),
GregDay(-694_325, Date(-1900, 1, 1)),
GregDay(-585_118, Date(-1601, 1, 1)),
GregDay(-584_753, Date(-1600, 1, 1)),
GregDay(-584_388, Date(-1600, 12, 31)),
GregDay(-584_387, Date(-1599, 1, 1)),
GregDay(-365_972, Date(-1001, 1, 1)),
GregDay(-365_607, Date(-1000, 1, 1)),
GregDay(-183_351, Date(-501, 1, 1)),
GregDay(-182_986, Date(-500, 1, 1)),
GregDay(-182_621, Date(-499, 1, 1)),
GregDay(-146_827, Date(-401, 1, 1)),
GregDay(-146_462, Date(-400, 1, 1)),
GregDay(-146_097, Date(-400, 12, 31)),
GregDay(-110_302, Date(-301, 1, 1)),
GregDay(-109_937, Date(-300, 1, 1)),
GregDay(-73_778, Date(-201, 1, 1)),
GregDay(-73_413, Date(-200, 1, 1)),
GregDay(-38_715, Date(-105, 1, 1)),
GregDay(-37_254, Date(-101, 1, 1)),
GregDay(-36_889, Date(-100, 1, 1)),
GregDay(-36_524, Date(-99, 1, 1)),
GregDay(-36_160, Date(-99, 12, 31)),
GregDay(-35_794, Date(-97, 1, 1)),
GregDay(-18_627, Date(-50, 1, 1)),
GregDay(-18_262, Date(-49, 1, 1)),
GregDay(-3652, Date(-9, 1, 1)),
GregDay(-2191, Date(-5, 1, 1)),
GregDay(-1827, Date(-5, 12, 31)),
GregDay(-1826, Date(-4, 1, 1)),
GregDay(-1825, Date(-4, 1, 2)),
GregDay(-1462, Date(-4, 12, 30)),
GregDay(-1461, Date(-4, 12, 31)),
GregDay(-1460, Date(-3, 1, 1)),
GregDay(-1096, Date(-3, 12, 31)),
GregDay(-1095, Date(-2, 1, 1)),
GregDay(-731, Date(-2, 12, 31)),
GregDay(-730, Date(-1, 1, 1)),
GregDay(-367, Date(-1, 12, 30)),
GregDay(-366, Date(-1, 12, 31)),
GregDay(-365, Date(0, 1, 1)),
GregDay(-31, Date(0, 11, 30)),
GregDay(-30, Date(0, 12, 1)),
GregDay(-1, Date(0, 12, 30)),
GregDay(0, Date(0, 12, 31))];
auto testGregDaysAD = [GregDay(1, Date(1, 1, 1)),
GregDay(2, Date(1, 1, 2)),
GregDay(32, Date(1, 2, 1)),
GregDay(365, Date(1, 12, 31)),
GregDay(366, Date(2, 1, 1)),
GregDay(731, Date(3, 1, 1)),
GregDay(1096, Date(4, 1, 1)),
GregDay(1097, Date(4, 1, 2)),
GregDay(1460, Date(4, 12, 30)),
GregDay(1461, Date(4, 12, 31)),
GregDay(1462, Date(5, 1, 1)),
GregDay(17_898, Date(50, 1, 1)),
GregDay(35_065, Date(97, 1, 1)),
GregDay(36_160, Date(100, 1, 1)),
GregDay(36_525, Date(101, 1, 1)),
GregDay(37_986, Date(105, 1, 1)),
GregDay(72_684, Date(200, 1, 1)),
GregDay(73_049, Date(201, 1, 1)),
GregDay(109_208, Date(300, 1, 1)),
GregDay(109_573, Date(301, 1, 1)),
GregDay(145_732, Date(400, 1, 1)),
GregDay(146_098, Date(401, 1, 1)),
GregDay(182_257, Date(500, 1, 1)),
GregDay(182_622, Date(501, 1, 1)),
GregDay(364_878, Date(1000, 1, 1)),
GregDay(365_243, Date(1001, 1, 1)),
GregDay(584_023, Date(1600, 1, 1)),
GregDay(584_389, Date(1601, 1, 1)),
GregDay(693_596, Date(1900, 1, 1)),
GregDay(693_961, Date(1901, 1, 1)),
GregDay(729_755, Date(1999, 1, 1)),
GregDay(730_120, Date(2000, 1, 1)),
GregDay(730_121, Date(2000, 1, 2)),
GregDay(730_484, Date(2000, 12, 30)),
GregDay(730_485, Date(2000, 12, 31)),
GregDay(730_486, Date(2001, 1, 1)),
GregDay(733_773, Date(2010, 1, 1)),
GregDay(733_774, Date(2010, 1, 2)),
GregDay(733_803, Date(2010, 1, 31)),
GregDay(733_804, Date(2010, 2, 1)),
GregDay(733_831, Date(2010, 2, 28)),
GregDay(733_832, Date(2010, 3, 1)),
GregDay(733_862, Date(2010, 3, 31)),
GregDay(733_863, Date(2010, 4, 1)),
GregDay(733_892, Date(2010, 4, 30)),
GregDay(733_893, Date(2010, 5, 1)),
GregDay(733_923, Date(2010, 5, 31)),
GregDay(733_924, Date(2010, 6, 1)),
GregDay(733_953, Date(2010, 6, 30)),
GregDay(733_954, Date(2010, 7, 1)),
GregDay(733_984, Date(2010, 7, 31)),
GregDay(733_985, Date(2010, 8, 1)),
GregDay(734_015, Date(2010, 8, 31)),
GregDay(734_016, Date(2010, 9, 1)),
GregDay(734_045, Date(2010, 9, 30)),
GregDay(734_046, Date(2010, 10, 1)),
GregDay(734_076, Date(2010, 10, 31)),
GregDay(734_077, Date(2010, 11, 1)),
GregDay(734_106, Date(2010, 11, 30)),
GregDay(734_107, Date(2010, 12, 1)),
GregDay(734_136, Date(2010, 12, 30)),
GregDay(734_137, Date(2010, 12, 31)),
GregDay(734_503, Date(2012, 1, 1)),
GregDay(734_534, Date(2012, 2, 1)),
GregDay(734_561, Date(2012, 2, 28)),
GregDay(734_562, Date(2012, 2, 29)),
GregDay(734_563, Date(2012, 3, 1)),
GregDay(734_858, Date(2012, 12, 21))];
//I'd use a Tuple, but I get forward reference errors if I try.
struct DayOfYear { int day; MonthDay md; }
auto testDaysOfYear = [DayOfYear(1, MonthDay(1, 1)),
DayOfYear(2, MonthDay(1, 2)),
DayOfYear(3, MonthDay(1, 3)),
DayOfYear(31, MonthDay(1, 31)),
DayOfYear(32, MonthDay(2, 1)),
DayOfYear(59, MonthDay(2, 28)),
DayOfYear(60, MonthDay(3, 1)),
DayOfYear(90, MonthDay(3, 31)),
DayOfYear(91, MonthDay(4, 1)),
DayOfYear(120, MonthDay(4, 30)),
DayOfYear(121, MonthDay(5, 1)),
DayOfYear(151, MonthDay(5, 31)),
DayOfYear(152, MonthDay(6, 1)),
DayOfYear(181, MonthDay(6, 30)),
DayOfYear(182, MonthDay(7, 1)),
DayOfYear(212, MonthDay(7, 31)),
DayOfYear(213, MonthDay(8, 1)),
DayOfYear(243, MonthDay(8, 31)),
DayOfYear(244, MonthDay(9, 1)),
DayOfYear(273, MonthDay(9, 30)),
DayOfYear(274, MonthDay(10, 1)),
DayOfYear(304, MonthDay(10, 31)),
DayOfYear(305, MonthDay(11, 1)),
DayOfYear(334, MonthDay(11, 30)),
DayOfYear(335, MonthDay(12, 1)),
DayOfYear(363, MonthDay(12, 29)),
DayOfYear(364, MonthDay(12, 30)),
DayOfYear(365, MonthDay(12, 31))];
auto testDaysOfLeapYear = [DayOfYear(1, MonthDay(1, 1)),
DayOfYear(2, MonthDay(1, 2)),
DayOfYear(3, MonthDay(1, 3)),
DayOfYear(31, MonthDay(1, 31)),
DayOfYear(32, MonthDay(2, 1)),
DayOfYear(59, MonthDay(2, 28)),
DayOfYear(60, MonthDay(2, 29)),
DayOfYear(61, MonthDay(3, 1)),
DayOfYear(91, MonthDay(3, 31)),
DayOfYear(92, MonthDay(4, 1)),
DayOfYear(121, MonthDay(4, 30)),
DayOfYear(122, MonthDay(5, 1)),
DayOfYear(152, MonthDay(5, 31)),
DayOfYear(153, MonthDay(6, 1)),
DayOfYear(182, MonthDay(6, 30)),
DayOfYear(183, MonthDay(7, 1)),
DayOfYear(213, MonthDay(7, 31)),
DayOfYear(214, MonthDay(8, 1)),
DayOfYear(244, MonthDay(8, 31)),
DayOfYear(245, MonthDay(9, 1)),
DayOfYear(274, MonthDay(9, 30)),
DayOfYear(275, MonthDay(10, 1)),
DayOfYear(305, MonthDay(10, 31)),
DayOfYear(306, MonthDay(11, 1)),
DayOfYear(335, MonthDay(11, 30)),
DayOfYear(336, MonthDay(12, 1)),
DayOfYear(364, MonthDay(12, 29)),
DayOfYear(365, MonthDay(12, 30)),
DayOfYear(366, MonthDay(12, 31))];
static this()
{
currLocalDiffFromUTC = Clock.currTime(UTC()) -
Clock.currTime(LocalTime());
immutable simpleTZ = new SimpleTimeZone(cast(int)
(currLocalDiffFromUTC + dur!"hours"(2)).total!"minutes"());
immutable lt = LocalTime().utcToTZ(0);
immutable st = simpleTZ.utcToTZ(0);
auto diffs = [0, lt, st];
auto diffAA = [0 : cast(immutable TimeZone)UTC(),
lt : cast(immutable TimeZone)LocalTime(),
st : cast(immutable TimeZone)simpleTZ];
sort(diffs);
testTZs = [diffAA[diffs[0]], diffAA[diffs[1]], diffAA[diffs[2]]];
testFracSecs = [FracSec.from!"hnsecs"(0),
FracSec.from!"hnsecs"(1),
FracSec.from!"hnsecs"(5007),
FracSec.from!"hnsecs"(9999999)];
foreach(year; testYearsBC)
{
foreach(md; testMonthDays)
testDatesBC ~= Date(year, md.month, md.day);
}
foreach(year; testYearsAD)
{
foreach(md; testMonthDays)
testDatesAD ~= Date(year, md.month, md.day);
}
foreach(dt; testDatesBC)
{
foreach(tod; testTODs)
testDateTimesBC ~= DateTime(dt, tod);
}
foreach(dt; testDatesAD)
{
foreach(tod; testTODs)
testDateTimesAD ~= DateTime(dt, tod);
}
foreach(dt; testDateTimesBC)
{
foreach(tz; testTZs)
{
foreach(fs; testFracSecs)
testSysTimesBC ~= SysTime(dt, fs, tz);
}
}
foreach(dt; testDateTimesAD)
{
foreach(tz; testTZs)
{
foreach(fs; testFracSecs)
testSysTimesAD ~= SysTime(dt, fs, tz);
}
}
}
}
//==============================================================================
// Unit testing functions.
//==============================================================================
void _assertPred(string op, L, R)
(L lhs, R rhs, lazy string msg = null, string file = __FILE__, size_t line = __LINE__)
if((op == "<" ||
op == "<=" ||
op == "==" ||
op == "!=" ||
op == ">=" ||
op == ">") &&
__traits(compiles, mixin("lhs " ~ op ~ " rhs")) &&
_isPrintable!L &&
_isPrintable!R)
{
immutable result = mixin("lhs " ~ op ~ " rhs");
if(!result)
{
if(msg.empty)
throw new AssertError(format(`_assertPred!"%s" failed: [%s] is not %s [%s].`, op, lhs, op, rhs), file, line);
else
throw new AssertError(format(`_assertPred!"%s" failed: [%s] is not %s [%s]: %s`, op, lhs, op, rhs, msg), file, line);
}
}
unittest
{
version(testStdDateTime)
{
struct IntWrapper
{
int value;
this(int value)
{
this.value = value;
}
string toString()
{
return to!string(value);
}
}
//Test ==.
assertNotThrown!AssertError(_assertPred!"=="(6, 6));
assertNotThrown!AssertError(_assertPred!"=="(6, 6.0));
assertNotThrown!AssertError(_assertPred!"=="(IntWrapper(6), IntWrapper(6)));
assertThrown!AssertError(_assertPred!"=="(6, 7));
assertThrown!AssertError(_assertPred!"=="(6, 6.1));
assertThrown!AssertError(_assertPred!"=="(IntWrapper(6), IntWrapper(7)));
assertThrown!AssertError(_assertPred!"=="(IntWrapper(7), IntWrapper(6)));
_assertPred!"=="(collectExceptionMsg!AssertError(_assertPred!"=="(6, 7)),
`_assertPred!"==" failed: [6] is not == [7].`);
_assertPred!"=="(collectExceptionMsg!AssertError(_assertPred!"=="(6, 7, "It failed!")),
`_assertPred!"==" failed: [6] is not == [7]: It failed!`);
//Test !=.
assertNotThrown!AssertError(_assertPred!"!="(6, 7));
assertNotThrown!AssertError(_assertPred!"!="(6, 6.1));
assertNotThrown!AssertError(_assertPred!"!="(IntWrapper(6), IntWrapper(7)));
assertNotThrown!AssertError(_assertPred!"!="(IntWrapper(7), IntWrapper(6)));
assertThrown!AssertError(_assertPred!"!="(6, 6));
assertThrown!AssertError(_assertPred!"!="(6, 6.0));
assertThrown!AssertError(_assertPred!"!="(IntWrapper(6), IntWrapper(6)));
_assertPred!"=="(collectExceptionMsg!AssertError(_assertPred!"!="(6, 6)),
`_assertPred!"!=" failed: [6] is not != [6].`);
_assertPred!"=="(collectExceptionMsg!AssertError(_assertPred!"!="(6, 6, "It failed!")),
`_assertPred!"!=" failed: [6] is not != [6]: It failed!`);
//Test <, <=, >=, >.
assertNotThrown!AssertError(_assertPred!"<"(5, 7));
assertNotThrown!AssertError(_assertPred!"<="(5, 7));
assertNotThrown!AssertError(_assertPred!"<="(5, 5));
assertNotThrown!AssertError(_assertPred!">="(7, 7));
assertNotThrown!AssertError(_assertPred!">="(7, 5));
assertNotThrown!AssertError(_assertPred!">"(7, 5));
assertThrown!AssertError(_assertPred!"<"(7, 5));
assertThrown!AssertError(_assertPred!"<="(7, 5));
assertThrown!AssertError(_assertPred!">="(5, 7));
assertThrown!AssertError(_assertPred!">"(5, 7));
_assertPred!"=="(collectExceptionMsg!AssertError(_assertPred!"<"(7, 5)),
`_assertPred!"<" failed: [7] is not < [5].`);
_assertPred!"=="(collectExceptionMsg!AssertError(_assertPred!"<"(7, 5, "It failed!")),
`_assertPred!"<" failed: [7] is not < [5]: It failed!`);
//Verify Examples.
//Equivalent to assert(5 / 2 + 4 < 27);
_assertPred!"<"(5 / 2 + 4, 27);
//Equivalent to assert(4 <= 5);
_assertPred!"<="(4, 5);
//Equivalent to assert(1 * 2.1 == 2.1);
_assertPred!"=="(1 * 2.1, 2.1);
//Equivalent to assert("hello " ~ "world" != "goodbye world");
_assertPred!"!="("hello " ~ "world", "goodbye world");
//Equivalent to assert(14.2 >= 14);
_assertPred!">="(14.2, 14);
//Equivalent to assert(15 > 2 + 1);
_assertPred!">"(15, 2 + 1);
assert(collectExceptionMsg!AssertError(_assertPred!"=="("hello", "goodbye")) ==
`_assertPred!"==" failed: [hello] is not == [goodbye].`);
assert(collectExceptionMsg!AssertError(_assertPred!"<"(5, 2, "My test failed!")) ==
`_assertPred!"<" failed: [5] is not < [2]: My test failed!`);
}
}
void _assertPred(string func, string expected, L, R)
(L lhs, R rhs, lazy string msg = null, string file = __FILE__, size_t line = __LINE__)
if(func == "opCmp" &&
(expected == "<" ||
expected == "==" ||
expected == ">") &&
__traits(compiles, lhs.opCmp(rhs)) &&
_isPrintable!L &&
_isPrintable!R)
{
immutable result = lhs.opCmp(rhs);
static if(expected == "<")
{
if(result < 0)
return;
if(result == 0)
{
if(msg.empty)
throw new AssertError(format(`_assertPred!("opCmp", "<") failed: [%s] == [%s].`, lhs, rhs), file, line);
else
throw new AssertError(format(`_assertPred!("opCmp", "<") failed: [%s] == [%s]: %s`, lhs, rhs, msg), file, line);
}
else
{
if(msg.empty)
throw new AssertError(format(`_assertPred!("opCmp", "<") failed: [%s] > [%s].`, lhs, rhs), file, line);
else
throw new AssertError(format(`_assertPred!("opCmp", "<") failed: [%s] > [%s]: %s`, lhs, rhs, msg), file, line);
}
}
else static if(expected == "==")
{
if(result == 0)
return;
if(result < 0)
{
if(msg.empty)
throw new AssertError(format(`_assertPred!("opCmp", "==") failed: [%s] < [%s].`, lhs, rhs), file, line);
else
throw new AssertError(format(`_assertPred!("opCmp", "==") failed: [%s] < [%s]: %s`, lhs, rhs, msg), file, line);
}
else
{
if(msg.empty)
throw new AssertError(format(`_assertPred!("opCmp", "==") failed: [%s] > [%s].`, lhs, rhs), file, line);
else
throw new AssertError(format(`_assertPred!("opCmp", "==") failed: [%s] > [%s]: %s`, lhs, rhs, msg), file, line);
}
}
else static if(expected == ">")
{
if(result > 0)
return;
if(result < 0)
{
if(msg.empty)
throw new AssertError(format(`_assertPred!("opCmp", ">") failed: [%s] < [%s].`, lhs, rhs), file, line);
else
throw new AssertError(format(`_assertPred!("opCmp", ">") failed: [%s] < [%s]: %s`, lhs, rhs, msg), file, line);
}
else
{
if(msg.empty)
throw new AssertError(format(`_assertPred!("opCmp", ">") failed: [%s] == [%s].`, lhs, rhs), file, line);
else
throw new AssertError(format(`_assertPred!("opCmp", ">") failed: [%s] == [%s]: %s`, lhs, rhs, msg), file, line);
}
}
else
static assert(0);
}
void _assertPred(string op, L, R, E)
(L lhs, R rhs, E expected, lazy string msg = null, string file = __FILE__, size_t line = __LINE__)
if((op == "+=" ||
op == "-=" ||
op == "*=" ||
op == "/=" ||
op == "%=" ||
op == "^^=" ||
op == "&=" ||
op == "|=" ||
op == "^=" ||
op == "<<=" ||
op == ">>=" ||
op == ">>>=" ||
op == "~=") &&
__traits(compiles, mixin("lhs " ~ op ~ " rhs")) &&
__traits(compiles, mixin("(lhs " ~ op ~ " rhs) == expected")) &&
_isPrintable!L &&
_isPrintable!R)
{
immutable origLHSStr = to!string(lhs);
const result = mixin("lhs " ~ op ~ " rhs");
if(lhs != expected)
{
if(msg.empty)
{
throw new AssertError(format(`_assertPred!"%s" failed: After [%s] %s [%s], lhs was assigned to [%s] instead of [%s].`,
op,
origLHSStr,
op,
rhs,
lhs,
expected),
file,
line);
}
else
{
throw new AssertError(format(`_assertPred!"%s" failed: After [%s] %s [%s], lhs was assigned to [%s] instead of [%s]: %s`,
op,
origLHSStr,
op,
rhs,
lhs,
expected,
msg),
file,
line);
}
}
if(result != expected)
{
if(msg.empty)
{
throw new AssertError(format(`_assertPred!"%s" failed: Return value of [%s] %s [%s] was [%s] instead of [%s].`,
op,
origLHSStr,
op,
rhs,
result,
expected),
file,
line);
}
else
{
throw new AssertError(format(`_assertPred!"%s" failed: Return value of [%s] %s [%s] was [%s] instead of [%s]: %s`,
op,
origLHSStr,
op,
rhs,
result,
expected,
msg),
file,
line);
}
}
}
unittest
{
version(testStdDateTime)
{
assertNotThrown!AssertError(_assertPred!"+="(7, 5, 12));
assertNotThrown!AssertError(_assertPred!"-="(7, 5, 2));
assertNotThrown!AssertError(_assertPred!"*="(7, 5, 35));
assertNotThrown!AssertError(_assertPred!"/="(7, 5, 1));
assertNotThrown!AssertError(_assertPred!"%="(7, 5, 2));
assertNotThrown!AssertError(_assertPred!"^^="(7, 5, 16_807));
assertNotThrown!AssertError(_assertPred!"&="(7, 5, 5));
assertNotThrown!AssertError(_assertPred!"|="(7, 5, 7));
assertNotThrown!AssertError(_assertPred!"^="(7, 5, 2));
assertNotThrown!AssertError(_assertPred!"<<="(7, 1, 14));
assertNotThrown!AssertError(_assertPred!">>="(7, 1, 3));
assertNotThrown!AssertError(_assertPred!">>>="(-7, 1, 2_147_483_644));
assertNotThrown!AssertError(_assertPred!"~="("hello ", "world", "hello world"));
assertThrown!AssertError(_assertPred!"+="(7, 5, 0));
assertThrown!AssertError(_assertPred!"-="(7, 5, 0));
assertThrown!AssertError(_assertPred!"*="(7, 5, 0));
assertThrown!AssertError(_assertPred!"/="(7, 5, 0));
assertThrown!AssertError(_assertPred!"%="(7, 5, 0));
assertThrown!AssertError(_assertPred!"^^="(7, 5, 0));
assertThrown!AssertError(_assertPred!"&="(7, 5, 0));
assertThrown!AssertError(_assertPred!"|="(7, 5, 0));
assertThrown!AssertError(_assertPred!"^="(7, 5, 0));
assertThrown!AssertError(_assertPred!"<<="(7, 1, 0));
assertThrown!AssertError(_assertPred!">>="(7, 1, 0));
assertThrown!AssertError(_assertPred!">>>="(-7, 1, 0));
assertThrown!AssertError(_assertPred!"~="("hello ", "world", "goodbye world"));
_assertPred!"=="(collectExceptionMsg!AssertError(_assertPred!"+="(7, 5, 11)),
`_assertPred!"+=" failed: After [7] += [5], lhs was assigned to [12] instead of [11].`);
_assertPred!"=="(collectExceptionMsg!AssertError(_assertPred!"+="(7, 5, 11, "It failed!")),
`_assertPred!"+=" failed: After [7] += [5], lhs was assigned to [12] instead of [11]: It failed!`);
_assertPred!"=="(collectExceptionMsg!AssertError(_assertPred!"^^="(7, 5, 42)),
`_assertPred!"^^=" failed: After [7] ^^= [5], lhs was assigned to [16807] instead of [42].`);
_assertPred!"=="(collectExceptionMsg!AssertError(_assertPred!"^^="(7, 5, 42, "It failed!")),
`_assertPred!"^^=" failed: After [7] ^^= [5], lhs was assigned to [16807] instead of [42]: It failed!`);
_assertPred!"=="(collectExceptionMsg!AssertError(_assertPred!"~="("hello ", "world", "goodbye world")),
`_assertPred!"~=" failed: After [hello ] ~= [world], lhs was assigned to [hello world] instead of [goodbye world].`);
_assertPred!"=="(collectExceptionMsg!AssertError(_assertPred!"~="("hello ", "world", "goodbye world", "It failed!")),
`_assertPred!"~=" failed: After [hello ] ~= [world], lhs was assigned to [hello world] instead of [goodbye world]: It failed!`);
struct IntWrapper
{
int value;
this(int value)
{
this.value = value;
}
IntWrapper opOpAssign(string op)(IntWrapper rhs)
{
mixin("this.value " ~ op ~ "= rhs.value;");
return this;
}
string toString()
{
return to!string(value);
}
}
struct IntWrapper_BadAssign
{
int value;
this(int value)
{
this.value = value;
}
IntWrapper_BadAssign opOpAssign(string op)(IntWrapper_BadAssign rhs)
{
auto old = this.value;
mixin("this.value " ~ op ~ "= -rhs.value;");
return IntWrapper_BadAssign(mixin("old " ~ op ~ " rhs.value"));
}
string toString()
{
return to!string(value);
}
}
struct IntWrapper_BadReturn
{
int value;
this(int value)
{
this.value = value;
}
IntWrapper_BadReturn opOpAssign(string op)(IntWrapper_BadReturn rhs)
{
mixin("this.value " ~ op ~ "= rhs.value;");
return IntWrapper_BadReturn(rhs.value);
}
string toString()
{
return to!string(value);
}
}
assertNotThrown!AssertError(_assertPred!"+="(IntWrapper(5), IntWrapper(2), IntWrapper(7)));
assertNotThrown!AssertError(_assertPred!"*="(IntWrapper(5), IntWrapper(2), IntWrapper(10)));
assertThrown!AssertError(_assertPred!"+="(IntWrapper_BadAssign(5), IntWrapper_BadAssign(2), IntWrapper_BadAssign(7)));
assertThrown!AssertError(_assertPred!"+="(IntWrapper_BadReturn(5), IntWrapper_BadReturn(2), IntWrapper_BadReturn(7)));
assertThrown!AssertError(_assertPred!"*="(IntWrapper_BadAssign(5), IntWrapper_BadAssign(2), IntWrapper_BadAssign(10)));
assertThrown!AssertError(_assertPred!"*="(IntWrapper_BadReturn(5), IntWrapper_BadReturn(2), IntWrapper_BadReturn(10)));
_assertPred!"=="(collectExceptionMsg!AssertError(_assertPred!"+="(IntWrapper_BadAssign(5), IntWrapper_BadAssign(2), IntWrapper_BadAssign(7))),
`_assertPred!"+=" failed: After [5] += [2], lhs was assigned to [3] instead of [7].`);
_assertPred!"=="(collectExceptionMsg!AssertError(_assertPred!"+="(IntWrapper_BadAssign(5), IntWrapper_BadAssign(2), IntWrapper_BadAssign(7), "It failed!")),
`_assertPred!"+=" failed: After [5] += [2], lhs was assigned to [3] instead of [7]: It failed!`);
_assertPred!"=="(collectExceptionMsg!AssertError(_assertPred!"+="(IntWrapper_BadReturn(5), IntWrapper_BadReturn(2), IntWrapper_BadReturn(7))),
`_assertPred!"+=" failed: Return value of [5] += [2] was [2] instead of [7].`);
_assertPred!"=="(collectExceptionMsg!AssertError(_assertPred!"+="(IntWrapper_BadReturn(5), IntWrapper_BadReturn(2), IntWrapper_BadReturn(7), "It failed!")),
`_assertPred!"+=" failed: Return value of [5] += [2] was [2] instead of [7]: It failed!`);
_assertPred!"=="(collectExceptionMsg!AssertError(_assertPred!"*="(IntWrapper_BadAssign(5), IntWrapper_BadAssign(2), IntWrapper_BadAssign(10))),
`_assertPred!"*=" failed: After [5] *= [2], lhs was assigned to [-10] instead of [10].`);
_assertPred!"=="(collectExceptionMsg!AssertError(_assertPred!"*="(IntWrapper_BadAssign(5), IntWrapper_BadAssign(2), IntWrapper_BadAssign(10), "It failed!")),
`_assertPred!"*=" failed: After [5] *= [2], lhs was assigned to [-10] instead of [10]: It failed!`);
_assertPred!"=="(collectExceptionMsg!AssertError(_assertPred!"*="(IntWrapper_BadReturn(5), IntWrapper_BadReturn(2), IntWrapper_BadReturn(10))),
`_assertPred!"*=" failed: Return value of [5] *= [2] was [2] instead of [10].`);
_assertPred!"=="(collectExceptionMsg!AssertError(_assertPred!"*="(IntWrapper_BadReturn(5), IntWrapper_BadReturn(2), IntWrapper_BadReturn(10), "It failed!")),
`_assertPred!"*=" failed: Return value of [5] *= [2] was [2] instead of [10]: It failed!`);
}
}
template _isPrintable(T...)
{
static if(T.length == 0)
enum _isPrintable = true;
else static if(T.length == 1)
{
enum _isPrintable = (!isArray!(T[0]) && __traits(compiles, to!string(T[0].init))) ||
(isArray!(T[0]) && __traits(compiles, to!string(T[0].init[0])));
}
else
{
enum _isPrintable = _isPrintable!(T[0]) && _isPrintable!(T[1 .. $]);
}
}
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