src/cobalt/media/base/audio_fifo.cc - cobalt - Git at Google

 // Copyright (c) 2012 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 "cobalt/media/base/audio_fifo.h"

 #include "base/logging.h"
 #include "starboard/memory.h"

 namespace cobalt {
 namespace media {

 // Given current position in the FIFO, the maximum number of elements in the
 // FIFO and the size of the input; this method provides two output results:
 // |size| and |wrap_size|. These two results can then be utilized for memcopy
 // operations to and from the FIFO.
 // Under "normal" circumstances, |size| will be equal to |in_size| and
 // |wrap_size| will be zero. This case corresponding to the non-wrapping case
 // where we have not yet reached the "edge" of the FIFO. If |pos| + |in_size|
 // exceeds the total size of the FIFO, we must wrap around and start reusing
 // a part the allocated memory. The size of this part is given by |wrap_size|.
 static void GetSizes(int pos, int max_size, int in_size, int* size,
                      int* wrap_size) {
   if (pos + in_size > max_size) {
     // Wrapping is required => derive size of each segment.
     *size = max_size - pos;
     *wrap_size = in_size - *size;
   } else {
     // Wrapping is not required.
     *size = in_size;
     *wrap_size = 0;
   }
 }

 // Updates the read/write position with |step| modulo the maximum number of
 // elements in the FIFO to ensure that the position counters wraps around at
 // the endpoint.
 static int UpdatePos(int pos, int step, int max_size) {
   return ((pos + step) % max_size);
 }

 AudioFifo::AudioFifo(int channels, int frames)
     : audio_bus_(AudioBus::Create(channels, frames)),
       max_frames_(frames),
       frames_pushed_(0),
       frames_consumed_(0),
       read_pos_(0),
       write_pos_(0) {}

 AudioFifo::~AudioFifo() {}

 int AudioFifo::frames() const {
   int delta = frames_pushed_ - frames_consumed_;
   return delta;
 }

 void AudioFifo::Push(const AudioBus* source) {
   DCHECK(source);
   DCHECK_EQ(source->channels(), audio_bus_->channels());

   // Ensure that there is space for the new data in the FIFO.
   const int source_size = source->frames();
   CHECK_LE(source_size + frames(), max_frames_);

   // Figure out if wrapping is needed and if so what segment sizes we need
   // when adding the new audio bus content to the FIFO.
   int append_size = 0;
   int wrap_size = 0;
   GetSizes(write_pos_, max_frames(), source_size, &append_size, &wrap_size);

   // Copy all channels from the source to the FIFO. Wrap around if needed.
   for (int ch = 0; ch < source->channels(); ++ch) {
     float* dest = audio_bus_->channel(ch);
     const float* src = source->channel(ch);

     // Append part of (or the complete) source to the FIFO.
     SbMemoryCopy(&dest[write_pos_], &src[0], append_size * sizeof(src[0]));
     if (wrap_size > 0) {
       // Wrapping is needed: copy remaining part from the source to the FIFO.
       SbMemoryCopy(&dest[0], &src[append_size], wrap_size * sizeof(src[0]));
     }
   }

   frames_pushed_ += source_size;
   DCHECK_LE(frames(), max_frames());
   write_pos_ = UpdatePos(write_pos_, source_size, max_frames());
 }

 void AudioFifo::Consume(AudioBus* destination, int start_frame,
                         int frames_to_consume) {
   DCHECK(destination);
   DCHECK_EQ(destination->channels(), audio_bus_->channels());

   // It is not possible to ask for more data than what is available in the FIFO.
   CHECK_LE(frames_to_consume, frames());

   // A copy from the FIFO to |destination| will only be performed if the
   // allocated memory in |destination| is sufficient.
   CHECK_LE(frames_to_consume + start_frame, destination->frames());

   // Figure out if wrapping is needed and if so what segment sizes we need
   // when removing audio bus content from the FIFO.
   int consume_size = 0;
   int wrap_size = 0;
   GetSizes(read_pos_, max_frames(), frames_to_consume, &consume_size,
            &wrap_size);

   // For all channels, remove the requested amount of data from the FIFO
   // and copy the content to the destination. Wrap around if needed.
   for (int ch = 0; ch < destination->channels(); ++ch) {
     float* dest = destination->channel(ch);
     const float* src = audio_bus_->channel(ch);

     // Copy a selected part of the FIFO to the destination.
     SbMemoryCopy(&dest[start_frame], &src[read_pos_],
                  consume_size * sizeof(src[0]));
     if (wrap_size > 0) {
       // Wrapping is needed: copy remaining part to the destination.
       SbMemoryCopy(&dest[consume_size + start_frame], &src[0],
                    wrap_size * sizeof(src[0]));
     }
   }

   frames_consumed_ += frames_to_consume;
   read_pos_ = UpdatePos(read_pos_, frames_to_consume, max_frames());
 }

 void AudioFifo::Clear() {
   frames_pushed_ = 0;
   frames_consumed_ = 0;
   read_pos_ = 0;
   write_pos_ = 0;
 }

 }  // namespace media
 }  // namespace cobalt
	// Copyright (c) 2012 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 "cobalt/media/base/audio_fifo.h"

	#include "base/logging.h"
	#include "starboard/memory.h"

	namespace cobalt {
	namespace media {

	// Given current position in the FIFO, the maximum number of elements in the
	// FIFO and the size of the input; this method provides two output results:
	// \|size\| and \|wrap_size\|. These two results can then be utilized for memcopy
	// operations to and from the FIFO.
	// Under "normal" circumstances, \|size\| will be equal to \|in_size\| and
	// \|wrap_size\| will be zero. This case corresponding to the non-wrapping case
	// where we have not yet reached the "edge" of the FIFO. If \|pos\| + \|in_size\|
	// exceeds the total size of the FIFO, we must wrap around and start reusing
	// a part the allocated memory. The size of this part is given by \|wrap_size\|.
	static void GetSizes(int pos, int max_size, int in_size, int* size,
	int* wrap_size) {
	if (pos + in_size > max_size) {
	// Wrapping is required => derive size of each segment.
	*size = max_size - pos;
	wrap_size = in_size - size;
	} else {
	// Wrapping is not required.
	*size = in_size;
	*wrap_size = 0;
	}
	}

	// Updates the read/write position with \|step\| modulo the maximum number of
	// elements in the FIFO to ensure that the position counters wraps around at
	// the endpoint.
	static int UpdatePos(int pos, int step, int max_size) {
	return ((pos + step) % max_size);
	}

	AudioFifo::AudioFifo(int channels, int frames)
	: audio_bus_(AudioBus::Create(channels, frames)),
	max_frames_(frames),
	frames_pushed_(0),
	frames_consumed_(0),
	read_pos_(0),
	write_pos_(0) {}

	AudioFifo::~AudioFifo() {}

	int AudioFifo::frames() const {
	int delta = frames_pushed_ - frames_consumed_;
	return delta;
	}

	void AudioFifo::Push(const AudioBus* source) {
	DCHECK(source);
	DCHECK_EQ(source->channels(), audio_bus_->channels());

	// Ensure that there is space for the new data in the FIFO.
	const int source_size = source->frames();
	CHECK_LE(source_size + frames(), max_frames_);

	// Figure out if wrapping is needed and if so what segment sizes we need
	// when adding the new audio bus content to the FIFO.
	int append_size = 0;
	int wrap_size = 0;
	GetSizes(write_pos_, max_frames(), source_size, &append_size, &wrap_size);

	// Copy all channels from the source to the FIFO. Wrap around if needed.
	for (int ch = 0; ch < source->channels(); ++ch) {
	float* dest = audio_bus_->channel(ch);
	const float* src = source->channel(ch);

	// Append part of (or the complete) source to the FIFO.
	SbMemoryCopy(&dest[write_pos_], &src[0], append_size * sizeof(src[0]));
	if (wrap_size > 0) {
	// Wrapping is needed: copy remaining part from the source to the FIFO.
	SbMemoryCopy(&dest[0], &src[append_size], wrap_size * sizeof(src[0]));
	}
	}

	frames_pushed_ += source_size;
	DCHECK_LE(frames(), max_frames());
	write_pos_ = UpdatePos(write_pos_, source_size, max_frames());
	}

	void AudioFifo::Consume(AudioBus* destination, int start_frame,
	int frames_to_consume) {
	DCHECK(destination);
	DCHECK_EQ(destination->channels(), audio_bus_->channels());

	// It is not possible to ask for more data than what is available in the FIFO.
	CHECK_LE(frames_to_consume, frames());

	// A copy from the FIFO to \|destination\| will only be performed if the
	// allocated memory in \|destination\| is sufficient.
	CHECK_LE(frames_to_consume + start_frame, destination->frames());

	// Figure out if wrapping is needed and if so what segment sizes we need
	// when removing audio bus content from the FIFO.
	int consume_size = 0;
	int wrap_size = 0;
	GetSizes(read_pos_, max_frames(), frames_to_consume, &consume_size,
	&wrap_size);

	// For all channels, remove the requested amount of data from the FIFO
	// and copy the content to the destination. Wrap around if needed.
	for (int ch = 0; ch < destination->channels(); ++ch) {
	float* dest = destination->channel(ch);
	const float* src = audio_bus_->channel(ch);

	// Copy a selected part of the FIFO to the destination.
	SbMemoryCopy(&dest[start_frame], &src[read_pos_],
	consume_size * sizeof(src[0]));
	if (wrap_size > 0) {
	// Wrapping is needed: copy remaining part to the destination.
	SbMemoryCopy(&dest[consume_size + start_frame], &src[0],
	wrap_size * sizeof(src[0]));
	}
	}

	frames_consumed_ += frames_to_consume;
	read_pos_ = UpdatePos(read_pos_, frames_to_consume, max_frames());
	}

	void AudioFifo::Clear() {
	frames_pushed_ = 0;
	frames_consumed_ = 0;
	read_pos_ = 0;
	write_pos_ = 0;
	}

	} // namespace media
	} // namespace cobalt