variablespeed/jni/ring_buffer.cc - platform/frameworks/ex - Git at Google

 /*
  * Copyright (C) 2011 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #include "ring_buffer.h"

 #include <algorithm>

 #include "integral_types.h"

 namespace video_editing {

 void RingBuffer::Init(int size, int num_channels, int num_readers) {
   size_ = size;
   num_channels_ = num_channels;
   num_readers_ = num_readers;
   temp_read_buffer_size_ = 1024;
   initialized_ = true;
   Reset();
 }

 RingBuffer::RingBuffer()
     : initialized_(false), samples_(NULL),
       num_readers_(0), temp_read_buffer_(NULL) {
 }

 RingBuffer::~RingBuffer() {
   delete[] samples_;
   delete[] temp_read_buffer_;
 }

 void RingBuffer::Reset() {
   delete[] samples_;
   samples_ = new float[size_ * num_channels_];
   memset(samples_, 0,
          size_ * num_channels_ * sizeof(samples_[0]));

   temp_read_buffer_size_ = 1024;
   delete[] temp_read_buffer_;
   temp_read_buffer_ = new float[temp_read_buffer_size_ * num_channels_];
   memset(temp_read_buffer_, 0,
          temp_read_buffer_size_ * num_channels_ * sizeof(samples_[0]));
   readers_.clear();
   for (int i = 0; i < num_readers_; ++i) {
     readers_.push_back(0LL);
   }
   head_logical_ = 0LL;
   head_ = 0;
 }

 int RingBuffer::available(int reader) const {
   return head_logical_ - readers_[reader];
 }

 int RingBuffer::overhead() const {
   int64 tail = GetTail();
   return tail + size_ - head_logical_;
 }

 int64 RingBuffer::GetTail() const {
   return *std::min_element(readers_.begin(), readers_.end());
 }

 int64 RingBuffer::Tell(int reader) const {
   return readers_[reader];
 }

 void RingBuffer::Seek(int reader, int64 position) {
   readers_[reader] = position;
 }

 void RingBuffer::Write(const float* samples, int num_frames) {
   if (!num_frames) {
     return;
   }
   if (head_ + num_frames <= size_) {
     memcpy(samples_ + head_ * num_channels_, samples,
            num_frames * num_channels_ * sizeof(samples[0]));
     head_ += num_frames;
   } else {
     int overhead = size_ - head_;
     memcpy(samples_ + head_ * num_channels_, samples,
            num_channels_ * overhead * sizeof(samples[0]));
     head_ = num_frames - overhead;
     memcpy(samples_, samples + overhead * num_channels_,
            num_channels_ * head_ * sizeof(samples[0]));
   }
   head_logical_ += num_frames;
 }

 void RingBuffer::Copy(int reader, float* destination, int num_frames) const {
   int pos = Tell(reader) % size_;
   if (pos + num_frames <= size_) {
     memcpy(destination, samples_ + pos * num_channels_,
            num_channels_ * num_frames * sizeof(destination[0]));
   } else {
     int wrapped = size_ - pos;
     memcpy(destination, samples_ + pos * num_channels_,
            num_channels_ * wrapped * sizeof(destination[0]));
     int remaining = num_frames - wrapped;
     memcpy(destination + wrapped * num_channels_, samples_,
            num_channels_ * remaining * sizeof(destination[0]));
   }
 }

 float* RingBuffer::GetPointer(int reader, int num_frames) {
   int pos = Tell(reader) % size_;
   if (pos + num_frames <= size_) {
     return samples_ + pos * num_channels_;
   } else {
     if (num_frames > temp_read_buffer_size_) {
       temp_read_buffer_size_ = num_frames;
       delete[] temp_read_buffer_;
       temp_read_buffer_ =
           new float[temp_read_buffer_size_ * num_channels_];  // NOLINT
     }
     Copy(reader, temp_read_buffer_, num_frames);
     return temp_read_buffer_;
   }
 }

 void RingBuffer::MergeBack(int reader, const float* source, int num_frames) {
   // If the source pointer is not the temporary buffer,
   // data updates were performed in place, so there is nothing to do.
   // Otherwise, copy samples from the temp buffer back to the ring buffer.
   if (source == temp_read_buffer_) {
     int pos = Tell(reader) % size_;
     if (pos + num_frames <= size_) {
       memcpy(samples_ + (pos * num_channels_), source,
              num_channels_ * num_frames * sizeof(source[0]));
     } else {
       int wrapped = size_ - pos;
       memcpy(samples_ + (pos * num_channels_), source,
              num_channels_ * wrapped * sizeof(source[0]));
       int remaining = num_frames - wrapped;
       memcpy(samples_, source + (wrapped * num_channels_),
              num_channels_ * remaining * sizeof(source[0]));
     }
   }
 }

 }  // namespace video_editing
	/*
	* Copyright (C) 2011 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include "ring_buffer.h"

	#include <algorithm>

	#include "integral_types.h"

	namespace video_editing {

	void RingBuffer::Init(int size, int num_channels, int num_readers) {
	size_ = size;
	num_channels_ = num_channels;
	num_readers_ = num_readers;
	temp_read_buffer_size_ = 1024;
	initialized_ = true;
	Reset();
	}

	RingBuffer::RingBuffer()
	: initialized_(false), samples_(NULL),
	num_readers_(0), temp_read_buffer_(NULL) {
	}

	RingBuffer::~RingBuffer() {
	delete[] samples_;
	delete[] temp_read_buffer_;
	}

	void RingBuffer::Reset() {
	delete[] samples_;
	samples_ = new float[size_ * num_channels_];
	memset(samples_, 0,
	size_ * num_channels_ * sizeof(samples_[0]));

	temp_read_buffer_size_ = 1024;
	delete[] temp_read_buffer_;
	temp_read_buffer_ = new float[temp_read_buffer_size_ * num_channels_];
	memset(temp_read_buffer_, 0,
	temp_read_buffer_size_ * num_channels_ * sizeof(samples_[0]));
	readers_.clear();
	for (int i = 0; i < num_readers_; ++i) {
	readers_.push_back(0LL);
	}
	head_logical_ = 0LL;
	head_ = 0;
	}

	int RingBuffer::available(int reader) const {
	return head_logical_ - readers_[reader];
	}

	int RingBuffer::overhead() const {
	int64 tail = GetTail();
	return tail + size_ - head_logical_;
	}

	int64 RingBuffer::GetTail() const {
	return *std::min_element(readers_.begin(), readers_.end());
	}

	int64 RingBuffer::Tell(int reader) const {
	return readers_[reader];
	}

	void RingBuffer::Seek(int reader, int64 position) {
	readers_[reader] = position;
	}

	void RingBuffer::Write(const float* samples, int num_frames) {
	if (!num_frames) {
	return;
	}
	if (head_ + num_frames <= size_) {
	memcpy(samples_ + head_ * num_channels_, samples,
	num_frames * num_channels_ * sizeof(samples[0]));
	head_ += num_frames;
	} else {
	int overhead = size_ - head_;
	memcpy(samples_ + head_ * num_channels_, samples,
	num_channels_ * overhead * sizeof(samples[0]));
	head_ = num_frames - overhead;
	memcpy(samples_, samples + overhead * num_channels_,
	num_channels_ * head_ * sizeof(samples[0]));
	}
	head_logical_ += num_frames;
	}

	void RingBuffer::Copy(int reader, float* destination, int num_frames) const {
	int pos = Tell(reader) % size_;
	if (pos + num_frames <= size_) {
	memcpy(destination, samples_ + pos * num_channels_,
	num_channels_ * num_frames * sizeof(destination[0]));
	} else {
	int wrapped = size_ - pos;
	memcpy(destination, samples_ + pos * num_channels_,
	num_channels_ * wrapped * sizeof(destination[0]));
	int remaining = num_frames - wrapped;
	memcpy(destination + wrapped * num_channels_, samples_,
	num_channels_ * remaining * sizeof(destination[0]));
	}
	}

	float* RingBuffer::GetPointer(int reader, int num_frames) {
	int pos = Tell(reader) % size_;
	if (pos + num_frames <= size_) {
	return samples_ + pos * num_channels_;
	} else {
	if (num_frames > temp_read_buffer_size_) {
	temp_read_buffer_size_ = num_frames;
	delete[] temp_read_buffer_;
	temp_read_buffer_ =
	new float[temp_read_buffer_size_ * num_channels_]; // NOLINT
	}
	Copy(reader, temp_read_buffer_, num_frames);
	return temp_read_buffer_;
	}
	}

	void RingBuffer::MergeBack(int reader, const float* source, int num_frames) {
	// If the source pointer is not the temporary buffer,
	// data updates were performed in place, so there is nothing to do.
	// Otherwise, copy samples from the temp buffer back to the ring buffer.
	if (source == temp_read_buffer_) {
	int pos = Tell(reader) % size_;
	if (pos + num_frames <= size_) {
	memcpy(samples_ + (pos * num_channels_), source,
	num_channels_ * num_frames * sizeof(source[0]));
	} else {
	int wrapped = size_ - pos;
	memcpy(samples_ + (pos * num_channels_), source,
	num_channels_ * wrapped * sizeof(source[0]));
	int remaining = num_frames - wrapped;
	memcpy(samples_, source + (wrapped * num_channels_),
	num_channels_ * remaining * sizeof(source[0]));
	}
	}
	}

	} // namespace video_editing