modules/audio_coding/neteq/accelerate.cc - src.git - Git at Google

 /*
  *  Copyright (c) 2012 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.
  */

 #include "modules/audio_coding/neteq/accelerate.h"

 #include "common_audio/signal_processing/include/signal_processing_library.h"

 namespace webrtc {

 Accelerate::ReturnCodes Accelerate::Process(const int16_t* input,
                                             size_t input_length,
                                             bool fast_accelerate,
                                             AudioMultiVector* output,
                                             size_t* length_change_samples) {
   // Input length must be (almost) 30 ms.
   static const size_t k15ms = 120;  // 15 ms = 120 samples at 8 kHz sample rate.
   if (num_channels_ == 0 ||
       input_length / num_channels_ < (2 * k15ms - 1) * fs_mult_) {
     // Length of input data too short to do accelerate. Simply move all data
     // from input to output.
     output->PushBackInterleaved(input, input_length);
     return kError;
   }
   return TimeStretch::Process(input, input_length, fast_accelerate, output,
                               length_change_samples);
 }

 void Accelerate::SetParametersForPassiveSpeech(size_t /*len*/,
                                                int16_t* best_correlation,
                                                size_t* /*peak_index*/) const {
   // When the signal does not contain any active speech, the correlation does
   // not matter. Simply set it to zero.
   *best_correlation = 0;
 }

 Accelerate::ReturnCodes Accelerate::CheckCriteriaAndStretch(
     const int16_t* input,
     size_t input_length,
     size_t peak_index,
     int16_t best_correlation,
     bool active_speech,
     bool fast_mode,
     AudioMultiVector* output) const {
   // Check for strong correlation or passive speech.
   // Use 8192 (0.5 in Q14) in fast mode.
   const int correlation_threshold = fast_mode ? 8192 : kCorrelationThreshold;
   if ((best_correlation > correlation_threshold) || !active_speech) {
     // Do accelerate operation by overlap add.

     // Pre-calculate common multiplication with |fs_mult_|.
     // 120 corresponds to 15 ms.
     size_t fs_mult_120 = fs_mult_ * 120;

     if (fast_mode) {
       // Fit as many multiples of |peak_index| as possible in fs_mult_120.
       // TODO(henrik.lundin) Consider finding multiple correlation peaks and
       // pick the one with the longest correlation lag in this case.
       peak_index = (fs_mult_120 / peak_index) * peak_index;
     }

     assert(fs_mult_120 >= peak_index);  // Should be handled in Process().
     // Copy first part; 0 to 15 ms.
     output->PushBackInterleaved(input, fs_mult_120 * num_channels_);
     // Copy the |peak_index| starting at 15 ms to |temp_vector|.
     AudioMultiVector temp_vector(num_channels_);
     temp_vector.PushBackInterleaved(&input[fs_mult_120 * num_channels_],
                                     peak_index * num_channels_);
     // Cross-fade |temp_vector| onto the end of |output|.
     output->CrossFade(temp_vector, peak_index);
     // Copy the last unmodified part, 15 ms + pitch period until the end.
     output->PushBackInterleaved(
         &input[(fs_mult_120 + peak_index) * num_channels_],
         input_length - (fs_mult_120 + peak_index) * num_channels_);

     if (active_speech) {
       return kSuccess;
     } else {
       return kSuccessLowEnergy;
     }
   } else {
     // Accelerate not allowed. Simply move all data from decoded to outData.
     output->PushBackInterleaved(input, input_length);
     return kNoStretch;
   }
 }

 Accelerate* AccelerateFactory::Create(
     int sample_rate_hz,
     size_t num_channels,
     const BackgroundNoise& background_noise) const {
   return new Accelerate(sample_rate_hz, num_channels, background_noise);
 }

 }  // namespace webrtc
	/*
	* Copyright (c) 2012 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.
	*/

	#include "modules/audio_coding/neteq/accelerate.h"

	#include "common_audio/signal_processing/include/signal_processing_library.h"

	namespace webrtc {

	Accelerate::ReturnCodes Accelerate::Process(const int16_t* input,
	size_t input_length,
	bool fast_accelerate,
	AudioMultiVector* output,
	size_t* length_change_samples) {
	// Input length must be (almost) 30 ms.
	static const size_t k15ms = 120; // 15 ms = 120 samples at 8 kHz sample rate.
	if (num_channels_ == 0 \|\|
	input_length / num_channels_ < (2 * k15ms - 1) * fs_mult_) {
	// Length of input data too short to do accelerate. Simply move all data
	// from input to output.
	output->PushBackInterleaved(input, input_length);
	return kError;
	}
	return TimeStretch::Process(input, input_length, fast_accelerate, output,
	length_change_samples);
	}

	void Accelerate::SetParametersForPassiveSpeech(size_t /len/,
	int16_t* best_correlation,
	size_t* /peak_index/) const {
	// When the signal does not contain any active speech, the correlation does
	// not matter. Simply set it to zero.
	*best_correlation = 0;
	}

	Accelerate::ReturnCodes Accelerate::CheckCriteriaAndStretch(
	const int16_t* input,
	size_t input_length,
	size_t peak_index,
	int16_t best_correlation,
	bool active_speech,
	bool fast_mode,
	AudioMultiVector* output) const {
	// Check for strong correlation or passive speech.
	// Use 8192 (0.5 in Q14) in fast mode.
	const int correlation_threshold = fast_mode ? 8192 : kCorrelationThreshold;
	if ((best_correlation > correlation_threshold) \|\| !active_speech) {
	// Do accelerate operation by overlap add.

	// Pre-calculate common multiplication with \|fs_mult_\|.
	// 120 corresponds to 15 ms.
	size_t fs_mult_120 = fs_mult_ * 120;

	if (fast_mode) {
	// Fit as many multiples of \|peak_index\| as possible in fs_mult_120.
	// TODO(henrik.lundin) Consider finding multiple correlation peaks and
	// pick the one with the longest correlation lag in this case.
	peak_index = (fs_mult_120 / peak_index) * peak_index;
	}

	assert(fs_mult_120 >= peak_index); // Should be handled in Process().
	// Copy first part; 0 to 15 ms.
	output->PushBackInterleaved(input, fs_mult_120 * num_channels_);
	// Copy the \|peak_index\| starting at 15 ms to \|temp_vector\|.
	AudioMultiVector temp_vector(num_channels_);
	temp_vector.PushBackInterleaved(&input[fs_mult_120 * num_channels_],
	peak_index * num_channels_);
	// Cross-fade \|temp_vector\| onto the end of \|output\|.
	output->CrossFade(temp_vector, peak_index);
	// Copy the last unmodified part, 15 ms + pitch period until the end.
	output->PushBackInterleaved(
	&input[(fs_mult_120 + peak_index) * num_channels_],
	input_length - (fs_mult_120 + peak_index) * num_channels_);

	if (active_speech) {
	return kSuccess;
	} else {
	return kSuccessLowEnergy;
	}
	} else {
	// Accelerate not allowed. Simply move all data from decoded to outData.
	output->PushBackInterleaved(input, input_length);
	return kNoStretch;
	}
	}

	Accelerate* AccelerateFactory::Create(
	int sample_rate_hz,
	size_t num_channels,
	const BackgroundNoise& background_noise) const {
	return new Accelerate(sample_rate_hz, num_channels, background_noise);
	}

	} // namespace webrtc