postgresql/contrib/intarray/_int_tool.c

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2023-05-09 21:11:15 +00:00
/*
* contrib/intarray/_int_tool.c
*/
#include "postgres.h"
#include <limits.h>
#include "_int.h"
#include "catalog/pg_type.h"
#include "lib/qunique.h"
/* arguments are assumed sorted & unique-ified */
bool
inner_int_contains(ArrayType *a, ArrayType *b)
{
int na,
nb;
int i,
j,
n;
int *da,
*db;
na = ARRNELEMS(a);
nb = ARRNELEMS(b);
da = ARRPTR(a);
db = ARRPTR(b);
i = j = n = 0;
while (i < na && j < nb)
{
if (da[i] < db[j])
i++;
else if (da[i] == db[j])
{
n++;
i++;
j++;
}
else
break; /* db[j] is not in da */
}
return (n == nb);
}
/* arguments are assumed sorted */
bool
inner_int_overlap(ArrayType *a, ArrayType *b)
{
int na,
nb;
int i,
j;
int *da,
*db;
na = ARRNELEMS(a);
nb = ARRNELEMS(b);
da = ARRPTR(a);
db = ARRPTR(b);
i = j = 0;
while (i < na && j < nb)
{
if (da[i] < db[j])
i++;
else if (da[i] == db[j])
return true;
else
j++;
}
return false;
}
ArrayType *
inner_int_union(ArrayType *a, ArrayType *b)
{
ArrayType *r = NULL;
CHECKARRVALID(a);
CHECKARRVALID(b);
if (ARRISEMPTY(a) && ARRISEMPTY(b))
return new_intArrayType(0);
if (ARRISEMPTY(a))
r = copy_intArrayType(b);
if (ARRISEMPTY(b))
r = copy_intArrayType(a);
if (!r)
{
int na = ARRNELEMS(a),
nb = ARRNELEMS(b);
int *da = ARRPTR(a),
*db = ARRPTR(b);
int i,
j,
*dr;
r = new_intArrayType(na + nb);
dr = ARRPTR(r);
/* union */
i = j = 0;
while (i < na && j < nb)
{
if (da[i] == db[j])
{
*dr++ = da[i++];
j++;
}
else if (da[i] < db[j])
*dr++ = da[i++];
else
*dr++ = db[j++];
}
while (i < na)
*dr++ = da[i++];
while (j < nb)
*dr++ = db[j++];
r = resize_intArrayType(r, dr - ARRPTR(r));
}
if (ARRNELEMS(r) > 1)
r = _int_unique(r);
return r;
}
ArrayType *
inner_int_inter(ArrayType *a, ArrayType *b)
{
ArrayType *r;
int na,
nb;
int *da,
*db,
*dr;
int i,
j,
k;
if (ARRISEMPTY(a) || ARRISEMPTY(b))
return new_intArrayType(0);
na = ARRNELEMS(a);
nb = ARRNELEMS(b);
da = ARRPTR(a);
db = ARRPTR(b);
r = new_intArrayType(Min(na, nb));
dr = ARRPTR(r);
i = j = k = 0;
while (i < na && j < nb)
{
if (da[i] < db[j])
i++;
else if (da[i] == db[j])
{
if (k == 0 || dr[k - 1] != db[j])
dr[k++] = db[j];
i++;
j++;
}
else
j++;
}
if (k == 0)
{
pfree(r);
return new_intArrayType(0);
}
else
return resize_intArrayType(r, k);
}
void
rt__int_size(ArrayType *a, float *size)
{
*size = (float) ARRNELEMS(a);
}
/* qsort_arg comparison function for isort() */
static int
isort_cmp(const void *a, const void *b, void *arg)
{
int32 aval = *((const int32 *) a);
int32 bval = *((const int32 *) b);
if (aval < bval)
return -1;
if (aval > bval)
return 1;
/*
* Report if we have any duplicates. If there are equal keys, qsort must
* compare them at some point, else it wouldn't know whether one should go
* before or after the other.
*/
*((bool *) arg) = true;
return 0;
}
/* Sort the given data (len >= 2). Return true if any duplicates found */
bool
isort(int32 *a, int len)
{
bool r = false;
qsort_arg(a, len, sizeof(int32), isort_cmp, (void *) &r);
return r;
}
/* Create a new int array with room for "num" elements */
ArrayType *
new_intArrayType(int num)
{
ArrayType *r;
int nbytes;
/* if no elements, return a zero-dimensional array */
if (num <= 0)
{
Assert(num == 0);
r = construct_empty_array(INT4OID);
return r;
}
nbytes = ARR_OVERHEAD_NONULLS(1) + sizeof(int) * num;
r = (ArrayType *) palloc0(nbytes);
SET_VARSIZE(r, nbytes);
ARR_NDIM(r) = 1;
r->dataoffset = 0; /* marker for no null bitmap */
ARR_ELEMTYPE(r) = INT4OID;
ARR_DIMS(r)[0] = num;
ARR_LBOUND(r)[0] = 1;
return r;
}
ArrayType *
resize_intArrayType(ArrayType *a, int num)
{
int nbytes;
int i;
/* if no elements, return a zero-dimensional array */
if (num <= 0)
{
Assert(num == 0);
a = construct_empty_array(INT4OID);
return a;
}
if (num == ARRNELEMS(a))
return a;
nbytes = ARR_DATA_OFFSET(a) + sizeof(int) * num;
a = (ArrayType *) repalloc(a, nbytes);
SET_VARSIZE(a, nbytes);
/* usually the array should be 1-D already, but just in case ... */
for (i = 0; i < ARR_NDIM(a); i++)
{
ARR_DIMS(a)[i] = num;
num = 1;
}
return a;
}
ArrayType *
copy_intArrayType(ArrayType *a)
{
ArrayType *r;
int n = ARRNELEMS(a);
r = new_intArrayType(n);
memcpy(ARRPTR(r), ARRPTR(a), n * sizeof(int32));
return r;
}
/* num for compressed key */
int
internal_size(int *a, int len)
{
int i;
int64 size = 0;
for (i = 0; i < len; i += 2)
{
if (!i || a[i] != a[i - 1]) /* do not count repeated range */
size += (int64) (a[i + 1]) - (int64) (a[i]) + 1;
}
if (size > (int64) INT_MAX || size < (int64) INT_MIN)
return -1; /* overflow */
return (int) size;
}
/* unique-ify elements of r in-place ... r must be sorted already */
ArrayType *
_int_unique(ArrayType *r)
{
int num = ARRNELEMS(r);
bool duplicates_found; /* not used */
num = qunique_arg(ARRPTR(r), num, sizeof(int), isort_cmp,
&duplicates_found);
return resize_intArrayType(r, num);
}
void
gensign(BITVECP sign, int *a, int len, int siglen)
{
int i;
/* we assume that the sign vector is previously zeroed */
for (i = 0; i < len; i++)
{
HASH(sign, *a, siglen);
a++;
}
}
int32
intarray_match_first(ArrayType *a, int32 elem)
{
int32 *aa,
c,
i;
CHECKARRVALID(a);
c = ARRNELEMS(a);
aa = ARRPTR(a);
for (i = 0; i < c; i++)
if (aa[i] == elem)
return (i + 1);
return 0;
}
ArrayType *
intarray_add_elem(ArrayType *a, int32 elem)
{
ArrayType *result;
int32 *r;
int32 c;
CHECKARRVALID(a);
c = ARRNELEMS(a);
result = new_intArrayType(c + 1);
r = ARRPTR(result);
if (c > 0)
memcpy(r, ARRPTR(a), c * sizeof(int32));
r[c] = elem;
return result;
}
ArrayType *
intarray_concat_arrays(ArrayType *a, ArrayType *b)
{
ArrayType *result;
int32 ac = ARRNELEMS(a);
int32 bc = ARRNELEMS(b);
CHECKARRVALID(a);
CHECKARRVALID(b);
result = new_intArrayType(ac + bc);
if (ac)
memcpy(ARRPTR(result), ARRPTR(a), ac * sizeof(int32));
if (bc)
memcpy(ARRPTR(result) + ac, ARRPTR(b), bc * sizeof(int32));
return result;
}
ArrayType *
int_to_intset(int32 n)
{
ArrayType *result;
int32 *aa;
result = new_intArrayType(1);
aa = ARRPTR(result);
aa[0] = n;
return result;
}
int
compASC(const void *a, const void *b)
{
if (*(const int32 *) a == *(const int32 *) b)
return 0;
return (*(const int32 *) a > *(const int32 *) b) ? 1 : -1;
}
int
compDESC(const void *a, const void *b)
{
if (*(const int32 *) a == *(const int32 *) b)
return 0;
return (*(const int32 *) a < *(const int32 *) b) ? 1 : -1;
}