tg2sip/libtgvoip/webrtc_dsp/api/array_view.h

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Squashed 'libtgvoip/' changes from 6053cf5..cfd62e6 cfd62e6 Why did it change the OS X project 3a58a16 2.4.3 c4a48b3 Updated OS X project 564eada Fix #63 4f64e2e fixes 0c732e2 fixes 12e76ed better logging f015b79 Merge pull request #62 from xvitaly/big-endian a1df90f Set preferred audio session parameters on iOS 59a975b Fixes 8fd89fc Fixes, mic level testing and volume adjustment 243acfa Backported WebRTC upstream patch with Big Endian support. fed3bb7 Detect when proxy does not support UDP and persist that across calls a7546d4 Merge commit '6d03dd9ae4bf48d7344341cdd2d055ebd3a6a42e' into public 6d03dd9 version 69adf70 Use server config for APM + iOS crash fix 0b42ec8 Update iOS project f1b9e63 packet logging beeea45 I apparently still suck at C++ memory management 24fceba Update project 7f54b91 crash fix f85ce99 Save more data in data saving mode f4c4f79 Collect packet stats and accept json string for server config 78e584c New protocol version: optimized packet size 8cf9177 Fixed build on iOS 9dd089d fixed build on android 5caaaaf Updated WebRTC APM cc0cf35 fixed deadlock 02f4835 Rearranged VoIPController methods and added sections 912f73d Updated OS X project 39376df Fixed audio glitches on Windows dfe1f03 Updated project 81daf3f fix 296187a Merge pull request #58 from telegramdesktop/tdesktop 44956ac Merge pull request #57 from UnigramDev/public fb0a2b0 Fix build for Linux. d6cf1b7 Updated UWP wrapper 0f06289 Merge branch 'public' of github.com:grishka/libtgvoip into public dcfad91 Fix #54 162f447 Merge pull request #56 from telegramdesktop/tdesktop a7ee511 Merge remote-tracking branch 'origin/tdesktop' into HEAD 467b148 Removed unused files b1a0b3d 2.3 9b292fd Fix warning in Xcode 10. 8d8522a Merge pull request #53 from UnigramDev/public 646f7d6 Merge branch 'public' into public 14d782b Fixes 68acf59 Added GetSignalBarsCount and GetConnectionState to CXWrapper 761c586 Added GetStats to CXWrapper f643b02 Prevent crash if UWP WASAPI devices aren't found b2ac10e Fixed UWP project 9a1ec51 Fixed build for Windows Phone, fixed some warnings 4aea54f fix git-subtree-dir: libtgvoip git-subtree-split: cfd62e66a825348ac51f49e5d20bf8827fef7a38
2019-02-06 18:22:38 +00:00
/*
* Copyright 2015 The WebRTC Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#ifndef API_ARRAY_VIEW_H_
#define API_ARRAY_VIEW_H_
#include <algorithm>
#include <array>
#include <type_traits>
#include "rtc_base/checks.h"
#include "rtc_base/type_traits.h"
namespace rtc {
// tl;dr: rtc::ArrayView is the same thing as gsl::span from the Guideline
// Support Library.
//
// Many functions read from or write to arrays. The obvious way to do this is
// to use two arguments, a pointer to the first element and an element count:
//
// bool Contains17(const int* arr, size_t size) {
// for (size_t i = 0; i < size; ++i) {
// if (arr[i] == 17)
// return true;
// }
// return false;
// }
//
// This is flexible, since it doesn't matter how the array is stored (C array,
// std::vector, rtc::Buffer, ...), but it's error-prone because the caller has
// to correctly specify the array length:
//
// Contains17(arr, arraysize(arr)); // C array
// Contains17(arr.data(), arr.size()); // std::vector
// Contains17(arr, size); // pointer + size
// ...
//
// It's also kind of messy to have two separate arguments for what is
// conceptually a single thing.
//
// Enter rtc::ArrayView<T>. It contains a T pointer (to an array it doesn't
// own) and a count, and supports the basic things you'd expect, such as
// indexing and iteration. It allows us to write our function like this:
//
// bool Contains17(rtc::ArrayView<const int> arr) {
// for (auto e : arr) {
// if (e == 17)
// return true;
// }
// return false;
// }
//
// And even better, because a bunch of things will implicitly convert to
// ArrayView, we can call it like this:
//
// Contains17(arr); // C array
// Contains17(arr); // std::vector
// Contains17(rtc::ArrayView<int>(arr, size)); // pointer + size
// Contains17(nullptr); // nullptr -> empty ArrayView
// ...
//
// ArrayView<T> stores both a pointer and a size, but you may also use
// ArrayView<T, N>, which has a size that's fixed at compile time (which means
// it only has to store the pointer).
//
// One important point is that ArrayView<T> and ArrayView<const T> are
// different types, which allow and don't allow mutation of the array elements,
// respectively. The implicit conversions work just like you'd hope, so that
// e.g. vector<int> will convert to either ArrayView<int> or ArrayView<const
// int>, but const vector<int> will convert only to ArrayView<const int>.
// (ArrayView itself can be the source type in such conversions, so
// ArrayView<int> will convert to ArrayView<const int>.)
//
// Note: ArrayView is tiny (just a pointer and a count if variable-sized, just
// a pointer if fix-sized) and trivially copyable, so it's probably cheaper to
// pass it by value than by const reference.
namespace impl {
// Magic constant for indicating that the size of an ArrayView is variable
// instead of fixed.
enum : std::ptrdiff_t { kArrayViewVarSize = -4711 };
// Base class for ArrayViews of fixed nonzero size.
template <typename T, std::ptrdiff_t Size>
class ArrayViewBase {
static_assert(Size > 0, "ArrayView size must be variable or non-negative");
public:
ArrayViewBase(T* data, size_t size) : data_(data) {}
static constexpr size_t size() { return Size; }
static constexpr bool empty() { return false; }
T* data() const { return data_; }
protected:
static constexpr bool fixed_size() { return true; }
private:
T* data_;
};
// Specialized base class for ArrayViews of fixed zero size.
template <typename T>
class ArrayViewBase<T, 0> {
public:
explicit ArrayViewBase(T* data, size_t size) {}
static constexpr size_t size() { return 0; }
static constexpr bool empty() { return true; }
T* data() const { return nullptr; }
protected:
static constexpr bool fixed_size() { return true; }
};
// Specialized base class for ArrayViews of variable size.
template <typename T>
class ArrayViewBase<T, impl::kArrayViewVarSize> {
public:
ArrayViewBase(T* data, size_t size)
: data_(size == 0 ? nullptr : data), size_(size) {}
size_t size() const { return size_; }
bool empty() const { return size_ == 0; }
T* data() const { return data_; }
protected:
static constexpr bool fixed_size() { return false; }
private:
T* data_;
size_t size_;
};
} // namespace impl
template <typename T, std::ptrdiff_t Size = impl::kArrayViewVarSize>
class ArrayView final : public impl::ArrayViewBase<T, Size> {
public:
using value_type = T;
using const_iterator = const T*;
// Construct an ArrayView from a pointer and a length.
template <typename U>
ArrayView(U* data, size_t size)
: impl::ArrayViewBase<T, Size>::ArrayViewBase(data, size) {
RTC_DCHECK_EQ(size == 0 ? nullptr : data, this->data());
RTC_DCHECK_EQ(size, this->size());
RTC_DCHECK_EQ(!this->data(),
this->size() == 0); // data is null iff size == 0.
}
// Construct an empty ArrayView. Note that fixed-size ArrayViews of size > 0
// cannot be empty.
ArrayView() : ArrayView(nullptr, 0) {}
ArrayView(std::nullptr_t) // NOLINT
: ArrayView() {}
ArrayView(std::nullptr_t, size_t size)
: ArrayView(static_cast<T*>(nullptr), size) {
static_assert(Size == 0 || Size == impl::kArrayViewVarSize, "");
RTC_DCHECK_EQ(0, size);
}
// Construct an ArrayView from a C-style array.
template <typename U, size_t N>
ArrayView(U (&array)[N]) // NOLINT
: ArrayView(array, N) {
static_assert(Size == N || Size == impl::kArrayViewVarSize,
"Array size must match ArrayView size");
}
// (Only if size is fixed.) Construct a fixed size ArrayView<T, N> from a
// non-const std::array instance. For an ArrayView with variable size, the
// used ctor is ArrayView(U& u) instead.
template <typename U,
size_t N,
typename std::enable_if<
Size == static_cast<std::ptrdiff_t>(N)>::type* = nullptr>
ArrayView(std::array<U, N>& u) // NOLINT
: ArrayView(u.data(), u.size()) {}
// (Only if size is fixed.) Construct a fixed size ArrayView<T, N> where T is
// const from a const(expr) std::array instance. For an ArrayView with
// variable size, the used ctor is ArrayView(U& u) instead.
template <typename U,
size_t N,
typename std::enable_if<
Size == static_cast<std::ptrdiff_t>(N)>::type* = nullptr>
ArrayView(const std::array<U, N>& u) // NOLINT
: ArrayView(u.data(), u.size()) {}
// (Only if size is fixed.) Construct an ArrayView from any type U that has a
// static constexpr size() method whose return value is equal to Size, and a
// data() method whose return value converts implicitly to T*. In particular,
// this means we allow conversion from ArrayView<T, N> to ArrayView<const T,
// N>, but not the other way around. We also don't allow conversion from
// ArrayView<T> to ArrayView<T, N>, or from ArrayView<T, M> to ArrayView<T,
// N> when M != N.
template <
typename U,
typename std::enable_if<Size != impl::kArrayViewVarSize &&
HasDataAndSize<U, T>::value>::type* = nullptr>
ArrayView(U& u) // NOLINT
: ArrayView(u.data(), u.size()) {
static_assert(U::size() == Size, "Sizes must match exactly");
}
// (Only if size is variable.) Construct an ArrayView from any type U that
// has a size() method whose return value converts implicitly to size_t, and
// a data() method whose return value converts implicitly to T*. In
// particular, this means we allow conversion from ArrayView<T> to
// ArrayView<const T>, but not the other way around. Other allowed
// conversions include
// ArrayView<T, N> to ArrayView<T> or ArrayView<const T>,
// std::vector<T> to ArrayView<T> or ArrayView<const T>,
// const std::vector<T> to ArrayView<const T>,
// rtc::Buffer to ArrayView<uint8_t> or ArrayView<const uint8_t>, and
// const rtc::Buffer to ArrayView<const uint8_t>.
template <
typename U,
typename std::enable_if<Size == impl::kArrayViewVarSize &&
HasDataAndSize<U, T>::value>::type* = nullptr>
ArrayView(U& u) // NOLINT
: ArrayView(u.data(), u.size()) {}
// Indexing and iteration. These allow mutation even if the ArrayView is
// const, because the ArrayView doesn't own the array. (To prevent mutation,
// use a const element type.)
T& operator[](size_t idx) const {
RTC_DCHECK_LT(idx, this->size());
RTC_DCHECK(this->data());
return this->data()[idx];
}
T* begin() const { return this->data(); }
T* end() const { return this->data() + this->size(); }
const T* cbegin() const { return this->data(); }
const T* cend() const { return this->data() + this->size(); }
ArrayView<T> subview(size_t offset, size_t size) const {
return offset < this->size()
? ArrayView<T>(this->data() + offset,
std::min(size, this->size() - offset))
: ArrayView<T>();
}
ArrayView<T> subview(size_t offset) const {
return subview(offset, this->size());
}
};
// Comparing two ArrayViews compares their (pointer,size) pairs; it does *not*
// dereference the pointers.
template <typename T, std::ptrdiff_t Size1, std::ptrdiff_t Size2>
bool operator==(const ArrayView<T, Size1>& a, const ArrayView<T, Size2>& b) {
return a.data() == b.data() && a.size() == b.size();
}
template <typename T, std::ptrdiff_t Size1, std::ptrdiff_t Size2>
bool operator!=(const ArrayView<T, Size1>& a, const ArrayView<T, Size2>& b) {
return !(a == b);
}
// Variable-size ArrayViews are the size of two pointers; fixed-size ArrayViews
// are the size of one pointer. (And as a special case, fixed-size ArrayViews
// of size 0 require no storage.)
static_assert(sizeof(ArrayView<int>) == 2 * sizeof(int*), "");
static_assert(sizeof(ArrayView<int, 17>) == sizeof(int*), "");
static_assert(std::is_empty<ArrayView<int, 0>>::value, "");
template <typename T>
inline ArrayView<T> MakeArrayView(T* data, size_t size) {
return ArrayView<T>(data, size);
}
} // namespace rtc
#endif // API_ARRAY_VIEW_H_