2017-04-09 18:14:33 +02:00
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/*
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* Copyright (c) 2014 The WebRTC project authors. All Rights Reserved.
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*
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* Use of this source code is governed by a BSD-style license
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* that can be found in the LICENSE file in the root of the source
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* tree. An additional intellectual property rights grant can be found
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* in the file PATENTS. All contributing project authors may
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* be found in the AUTHORS file in the root of the source tree.
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*/
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2018-11-21 19:22:31 +01:00
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#ifndef COMMON_AUDIO_CHANNEL_BUFFER_H_
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#define COMMON_AUDIO_CHANNEL_BUFFER_H_
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2017-04-09 18:14:33 +02:00
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#include <string.h>
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#include <memory>
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2018-11-21 19:22:31 +01:00
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#include "common_audio/include/audio_util.h"
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#include "rtc_base/checks.h"
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#include "rtc_base/gtest_prod_util.h"
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2017-04-09 18:14:33 +02:00
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namespace webrtc {
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// Helper to encapsulate a contiguous data buffer, full or split into frequency
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// bands, with access to a pointer arrays of the deinterleaved channels and
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// bands. The buffer is zero initialized at creation.
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//
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// The buffer structure is showed below for a 2 channel and 2 bands case:
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//
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// |data_|:
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// { [ --- b1ch1 --- ] [ --- b2ch1 --- ] [ --- b1ch2 --- ] [ --- b2ch2 --- ] }
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//
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// The pointer arrays for the same example are as follows:
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//
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// |channels_|:
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// { [ b1ch1* ] [ b1ch2* ] [ b2ch1* ] [ b2ch2* ] }
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//
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// |bands_|:
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// { [ b1ch1* ] [ b2ch1* ] [ b1ch2* ] [ b2ch2* ] }
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template <typename T>
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class ChannelBuffer {
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public:
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ChannelBuffer(size_t num_frames, size_t num_channels, size_t num_bands = 1)
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: data_(new T[num_frames * num_channels]()),
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channels_(new T*[num_channels * num_bands]),
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bands_(new T*[num_channels * num_bands]),
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num_frames_(num_frames),
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num_frames_per_band_(num_frames / num_bands),
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num_allocated_channels_(num_channels),
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num_channels_(num_channels),
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num_bands_(num_bands) {
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for (size_t i = 0; i < num_allocated_channels_; ++i) {
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for (size_t j = 0; j < num_bands_; ++j) {
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channels_[j * num_allocated_channels_ + i] =
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&data_[i * num_frames_ + j * num_frames_per_band_];
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bands_[i * num_bands_ + j] = channels_[j * num_allocated_channels_ + i];
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}
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}
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}
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// Returns a pointer array to the full-band channels (or lower band channels).
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// Usage:
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// channels()[channel][sample].
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// Where:
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// 0 <= channel < |num_allocated_channels_|
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// 0 <= sample < |num_frames_|
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T* const* channels() { return channels(0); }
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const T* const* channels() const { return channels(0); }
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// Returns a pointer array to the channels for a specific band.
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// Usage:
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// channels(band)[channel][sample].
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// Where:
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// 0 <= band < |num_bands_|
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// 0 <= channel < |num_allocated_channels_|
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// 0 <= sample < |num_frames_per_band_|
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const T* const* channels(size_t band) const {
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RTC_DCHECK_LT(band, num_bands_);
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return &channels_[band * num_allocated_channels_];
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}
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T* const* channels(size_t band) {
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const ChannelBuffer<T>* t = this;
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return const_cast<T* const*>(t->channels(band));
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}
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// Returns a pointer array to the bands for a specific channel.
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// Usage:
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// bands(channel)[band][sample].
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// Where:
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// 0 <= channel < |num_channels_|
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// 0 <= band < |num_bands_|
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// 0 <= sample < |num_frames_per_band_|
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const T* const* bands(size_t channel) const {
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RTC_DCHECK_LT(channel, num_channels_);
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RTC_DCHECK_GE(channel, 0);
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return &bands_[channel * num_bands_];
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}
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T* const* bands(size_t channel) {
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const ChannelBuffer<T>* t = this;
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return const_cast<T* const*>(t->bands(channel));
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}
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// Sets the |slice| pointers to the |start_frame| position for each channel.
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// Returns |slice| for convenience.
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const T* const* Slice(T** slice, size_t start_frame) const {
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RTC_DCHECK_LT(start_frame, num_frames_);
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for (size_t i = 0; i < num_channels_; ++i)
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slice[i] = &channels_[i][start_frame];
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return slice;
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}
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T** Slice(T** slice, size_t start_frame) {
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const ChannelBuffer<T>* t = this;
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return const_cast<T**>(t->Slice(slice, start_frame));
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}
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size_t num_frames() const { return num_frames_; }
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size_t num_frames_per_band() const { return num_frames_per_band_; }
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size_t num_channels() const { return num_channels_; }
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size_t num_bands() const { return num_bands_; }
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size_t size() const { return num_frames_ * num_allocated_channels_; }
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void set_num_channels(size_t num_channels) {
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RTC_DCHECK_LE(num_channels, num_allocated_channels_);
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num_channels_ = num_channels;
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}
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void SetDataForTesting(const T* data, size_t size) {
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RTC_CHECK_EQ(size, this->size());
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memcpy(data_.get(), data, size * sizeof(*data));
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}
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private:
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std::unique_ptr<T[]> data_;
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std::unique_ptr<T* []> channels_;
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std::unique_ptr<T* []> bands_;
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const size_t num_frames_;
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const size_t num_frames_per_band_;
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// Number of channels the internal buffer holds.
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const size_t num_allocated_channels_;
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// Number of channels the user sees.
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size_t num_channels_;
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const size_t num_bands_;
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};
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// One int16_t and one float ChannelBuffer that are kept in sync. The sync is
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// broken when someone requests write access to either ChannelBuffer, and
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// reestablished when someone requests the outdated ChannelBuffer. It is
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// therefore safe to use the return value of ibuf_const() and fbuf_const()
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// until the next call to ibuf() or fbuf(), and the return value of ibuf() and
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// fbuf() until the next call to any of the other functions.
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class IFChannelBuffer {
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public:
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IFChannelBuffer(size_t num_frames, size_t num_channels, size_t num_bands = 1);
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~IFChannelBuffer();
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ChannelBuffer<int16_t>* ibuf();
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ChannelBuffer<float>* fbuf();
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const ChannelBuffer<int16_t>* ibuf_const() const;
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const ChannelBuffer<float>* fbuf_const() const;
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size_t num_frames() const { return ibuf_.num_frames(); }
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size_t num_frames_per_band() const { return ibuf_.num_frames_per_band(); }
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size_t num_channels() const {
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return ivalid_ ? ibuf_.num_channels() : fbuf_.num_channels();
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}
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void set_num_channels(size_t num_channels) {
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ibuf_.set_num_channels(num_channels);
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fbuf_.set_num_channels(num_channels);
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}
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size_t num_bands() const { return ibuf_.num_bands(); }
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private:
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void RefreshF() const;
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void RefreshI() const;
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mutable bool ivalid_;
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mutable ChannelBuffer<int16_t> ibuf_;
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mutable bool fvalid_;
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mutable ChannelBuffer<float> fbuf_;
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};
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} // namespace webrtc
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2018-11-21 19:22:31 +01:00
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#endif // COMMON_AUDIO_CHANNEL_BUFFER_H_
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