media/base/audio_buffer_queue.cc - chromium/src - Git at Google

 // Copyright 2013 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "media/base/audio_buffer_queue.h"

 #include <algorithm>

 #include "base/logging.h"
 #include "media/base/audio_bus.h"

 namespace media {

 AudioBufferQueue::AudioBufferQueue() { Clear(); }
 AudioBufferQueue::~AudioBufferQueue() = default;

 void AudioBufferQueue::Clear() {
   buffers_.clear();
   front_buffer_offset_ = 0;
   frames_ = 0;
 }

 void AudioBufferQueue::Append(const scoped_refptr<AudioBuffer>& buffer_in) {
   // Add the buffer to the queue. Inserting into deque invalidates all
   // iterators, so point to the first buffer.
   buffers_.push_back(buffer_in);

   // Update the |frames_| counter since we have added frames.
   frames_ += buffer_in->frame_count();
   CHECK_GT(frames_, 0);  // make sure it doesn't overflow.
 }

 int AudioBufferQueue::ReadFrames(int frames,
                                  int dest_frame_offset,
                                  AudioBus* dest) {
   DCHECK_GE(dest->frames(), frames + dest_frame_offset);
   return InternalRead(frames, true, 0, dest_frame_offset, dest);
 }

 int AudioBufferQueue::PeekFrames(int frames,
                                  int source_frame_offset,
                                  int dest_frame_offset,
                                  AudioBus* dest) {
   DCHECK_GE(dest->frames(), frames);
   return InternalRead(
       frames, false, source_frame_offset, dest_frame_offset, dest);
 }

 void AudioBufferQueue::SeekFrames(int frames) {
   // Perform seek only if we have enough bytes in the queue.
   CHECK_LE(frames, frames_);
   int taken = InternalRead(frames, true, 0, 0, NULL);
   DCHECK_EQ(taken, frames);
 }

 int AudioBufferQueue::InternalRead(int frames,
                                    bool advance_position,
                                    int source_frame_offset,
                                    int dest_frame_offset,
                                    AudioBus* dest) {
   if (buffers_.empty())
     return 0;

   if (buffers_.front()->IsBitstreamFormat()) {
     // For compressed bitstream formats, a partial compressed audio frame is
     // less useful, since it can't generate any PCM frame out of it. Also, we
     // want to keep the granularity as fine as possible so that discarding a
     // small chunk of PCM frames is still possible. Thus, we only transfer a
     // complete AudioBuffer at a time.
     DCHECK(!dest_frame_offset ||
            dest_frame_offset == dest->GetBitstreamFrames());
     DCHECK(!source_frame_offset);

     scoped_refptr<AudioBuffer> buffer = buffers_.front();
     int taken = buffer->frame_count();

     // if |dest| is NULL, there's no need to copy.
     if (dest)
       buffer->ReadFrames(buffer->frame_count(), 0, dest_frame_offset, dest);

     if (advance_position) {
       // Update the appropriate values since |taken| frames have been copied
       // out.
       frames_ -= taken;
       DCHECK_GE(frames_, 0);

       // Remove any buffers before the current buffer as there is no going
       // backwards.
       buffers_.pop_front();
     }

     return taken;
   }

   // Counts how many frames are actually read from the buffer queue.
   int taken = 0;
   BufferQueue::iterator current_buffer = buffers_.begin();
   int current_buffer_offset = front_buffer_offset_;

   int frames_to_skip = source_frame_offset;
   while (taken < frames) {
     // |current_buffer| is valid since the first time this buffer is appended
     // with data. Make sure there is data to be processed.
     if (current_buffer == buffers_.end())
       break;

     scoped_refptr<AudioBuffer> buffer = *current_buffer;

     int remaining_frames_in_buffer =
         buffer->frame_count() - current_buffer_offset;

     if (frames_to_skip > 0) {
       // If there are frames to skip, do it first. May need to skip into
       // subsequent buffers.
       int skipped = std::min(remaining_frames_in_buffer, frames_to_skip);
       current_buffer_offset += skipped;
       frames_to_skip -= skipped;
     } else {
       // Find the right amount to copy from the current buffer. We shall copy no
       // more than |frames| frames in total and each single step copies no more
       // than the current buffer size.
       int copied = std::min(frames - taken, remaining_frames_in_buffer);

       // if |dest| is NULL, there's no need to copy.
       if (dest) {
         buffer->ReadFrames(
             copied, current_buffer_offset, dest_frame_offset + taken, dest);
       }

       // Increase total number of frames copied, which regulates when to end
       // this loop.
       taken += copied;

       // We have read |copied| frames from the current buffer. Advance the
       // offset.
       current_buffer_offset += copied;
     }

     // Has the buffer has been consumed?
     if (current_buffer_offset == buffer->frame_count()) {
       // If we are at the last buffer, no more data to be copied, so stop.
       BufferQueue::iterator next = current_buffer + 1;
       if (next == buffers_.end())
         break;

       // Advances the iterator.
       current_buffer = next;
       current_buffer_offset = 0;
     }
   }

   if (advance_position) {
     // Update the appropriate values since |taken| frames have been copied out.
     frames_ -= taken;
     DCHECK_GE(frames_, 0);

     // Remove any buffers before the current buffer as there is no going
     // backwards.
     buffers_.erase(buffers_.begin(), current_buffer);
     front_buffer_offset_ = current_buffer_offset;
   }

   return taken;
 }

 }  // namespace media
	// Copyright 2013 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "media/base/audio_buffer_queue.h"

	#include <algorithm>

	#include "base/logging.h"
	#include "media/base/audio_bus.h"

	namespace media {

	AudioBufferQueue::AudioBufferQueue() { Clear(); }
	AudioBufferQueue::~AudioBufferQueue() = default;

	void AudioBufferQueue::Clear() {
	buffers_.clear();
	front_buffer_offset_ = 0;
	frames_ = 0;
	}

	void AudioBufferQueue::Append(const scoped_refptr<AudioBuffer>& buffer_in) {
	// Add the buffer to the queue. Inserting into deque invalidates all
	// iterators, so point to the first buffer.
	buffers_.push_back(buffer_in);

	// Update the \|frames_\| counter since we have added frames.
	frames_ += buffer_in->frame_count();
	CHECK_GT(frames_, 0); // make sure it doesn't overflow.
	}

	int AudioBufferQueue::ReadFrames(int frames,
	int dest_frame_offset,
	AudioBus* dest) {
	DCHECK_GE(dest->frames(), frames + dest_frame_offset);
	return InternalRead(frames, true, 0, dest_frame_offset, dest);
	}

	int AudioBufferQueue::PeekFrames(int frames,
	int source_frame_offset,
	int dest_frame_offset,
	AudioBus* dest) {
	DCHECK_GE(dest->frames(), frames);
	return InternalRead(
	frames, false, source_frame_offset, dest_frame_offset, dest);
	}

	void AudioBufferQueue::SeekFrames(int frames) {
	// Perform seek only if we have enough bytes in the queue.
	CHECK_LE(frames, frames_);
	int taken = InternalRead(frames, true, 0, 0, NULL);
	DCHECK_EQ(taken, frames);
	}

	int AudioBufferQueue::InternalRead(int frames,
	bool advance_position,
	int source_frame_offset,
	int dest_frame_offset,
	AudioBus* dest) {
	if (buffers_.empty())
	return 0;

	if (buffers_.front()->IsBitstreamFormat()) {
	// For compressed bitstream formats, a partial compressed audio frame is
	// less useful, since it can't generate any PCM frame out of it. Also, we
	// want to keep the granularity as fine as possible so that discarding a
	// small chunk of PCM frames is still possible. Thus, we only transfer a
	// complete AudioBuffer at a time.
	DCHECK(!dest_frame_offset \|\|
	dest_frame_offset == dest->GetBitstreamFrames());
	DCHECK(!source_frame_offset);

	scoped_refptr<AudioBuffer> buffer = buffers_.front();
	int taken = buffer->frame_count();

	// if \|dest\| is NULL, there's no need to copy.
	if (dest)
	buffer->ReadFrames(buffer->frame_count(), 0, dest_frame_offset, dest);

	if (advance_position) {
	// Update the appropriate values since \|taken\| frames have been copied
	// out.
	frames_ -= taken;
	DCHECK_GE(frames_, 0);

	// Remove any buffers before the current buffer as there is no going
	// backwards.
	buffers_.pop_front();
	}

	return taken;
	}

	// Counts how many frames are actually read from the buffer queue.
	int taken = 0;
	BufferQueue::iterator current_buffer = buffers_.begin();
	int current_buffer_offset = front_buffer_offset_;

	int frames_to_skip = source_frame_offset;
	while (taken < frames) {
	// \|current_buffer\| is valid since the first time this buffer is appended
	// with data. Make sure there is data to be processed.
	if (current_buffer == buffers_.end())
	break;

	scoped_refptr<AudioBuffer> buffer = *current_buffer;

	int remaining_frames_in_buffer =
	buffer->frame_count() - current_buffer_offset;

	if (frames_to_skip > 0) {
	// If there are frames to skip, do it first. May need to skip into
	// subsequent buffers.
	int skipped = std::min(remaining_frames_in_buffer, frames_to_skip);
	current_buffer_offset += skipped;
	frames_to_skip -= skipped;
	} else {
	// Find the right amount to copy from the current buffer. We shall copy no
	// more than \|frames\| frames in total and each single step copies no more
	// than the current buffer size.
	int copied = std::min(frames - taken, remaining_frames_in_buffer);

	// if \|dest\| is NULL, there's no need to copy.
	if (dest) {
	buffer->ReadFrames(
	copied, current_buffer_offset, dest_frame_offset + taken, dest);
	}

	// Increase total number of frames copied, which regulates when to end
	// this loop.
	taken += copied;

	// We have read \|copied\| frames from the current buffer. Advance the
	// offset.
	current_buffer_offset += copied;
	}

	// Has the buffer has been consumed?
	if (current_buffer_offset == buffer->frame_count()) {
	// If we are at the last buffer, no more data to be copied, so stop.
	BufferQueue::iterator next = current_buffer + 1;
	if (next == buffers_.end())
	break;

	// Advances the iterator.
	current_buffer = next;
	current_buffer_offset = 0;
	}
	}

	if (advance_position) {
	// Update the appropriate values since \|taken\| frames have been copied out.
	frames_ -= taken;
	DCHECK_GE(frames_, 0);

	// Remove any buffers before the current buffer as there is no going
	// backwards.
	buffers_.erase(buffers_.begin(), current_buffer);
	front_buffer_offset_ = current_buffer_offset;
	}

	return taken;
	}

	} // namespace media