src/cobalt/media/cast/test/utility/audio_utility.h - cobalt - Git at Google

 // Copyright 2014 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.

 #ifndef COBALT_MEDIA_CAST_TEST_UTILITY_AUDIO_UTILITY_H_
 #define COBALT_MEDIA_CAST_TEST_UTILITY_AUDIO_UTILITY_H_

 #include <memory>

 #include "base/macros.h"
 #include "media/audio/simple_sources.h"
 #include "starboard/types.h"

 namespace base {
 class TimeDelta;
 }

 namespace cobalt {
 namespace media {
 class AudioBus;
 }

 namespace cobalt {
 namespace media {
 namespace cast {

 // Produces AudioBuses of varying duration where each successive output contains
 // the continuation of a single sine wave.
 class TestAudioBusFactory {
  public:
   TestAudioBusFactory(int num_channels, int sample_rate,
                       float sine_wave_frequency, float volume);
   ~TestAudioBusFactory();

   // Creates a new AudioBus of the given |duration|, filled with the next batch
   // of sine wave samples.
   std::unique_ptr<AudioBus> NextAudioBus(const base::TimeDelta& duration);

   // A reasonable test tone.
   static const int kMiddleANoteFreq = 440;

  private:
   const int num_channels_;
   const int sample_rate_;
   const float volume_;
   SineWaveAudioSource source_;

   DISALLOW_COPY_AND_ASSIGN(TestAudioBusFactory);
 };

 // Assuming |samples| contains a single-frequency sine wave (and maybe some
 // low-amplitude noise), count the number of times the sine wave crosses
 // zero.
 //
 // Example use case: When expecting a 440 Hz tone, this can be checked using the
 // following expression:
 //
 //   abs((CountZeroCrossings(...) / seconds_per_frame / 2) - 440) <= 1
 //
 // ...where seconds_per_frame is the number of samples divided by the sampling
 // rate.  The divide by two accounts for the fact that a sine wave crosses zero
 // twice per cycle (first downwards, then upwards).  The absolute maximum
 // difference of 1 accounts for the sine wave being out of perfect phase.
 int CountZeroCrossings(const float* samples, int length);

 // Encode |timestamp| into the samples pointed to by 'samples' in a way
 // that should be decodable even after compressing/decompressing the audio.
 // Assumes 48Khz sampling rate and needs at least 240 samples. Returns
 // false if |length| of |samples| is too small. If more than 240 samples are
 // available, then the timestamp will be repeated. |sample_offset| should
 // contain how many samples has been encoded so far, so that we can make smooth
 // transitions between encoded chunks.
 // See audio_utility.cc for details on how the encoding is done.
 bool EncodeTimestamp(uint16_t timestamp, size_t sample_offset, size_t length,
                      float* samples);

 // Decode a timestamp encoded with EncodeTimestamp. Returns true if a
 // timestamp was found in |samples|.
 bool DecodeTimestamp(const float* samples, size_t length, uint16_t* timestamp);

 }  // namespace cast
 }  // namespace media
 }  // namespace cobalt

 #endif  // COBALT_MEDIA_CAST_TEST_UTILITY_AUDIO_UTILITY_H_
	// Copyright 2014 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.

	#ifndef COBALT_MEDIA_CAST_TEST_UTILITY_AUDIO_UTILITY_H_
	#define COBALT_MEDIA_CAST_TEST_UTILITY_AUDIO_UTILITY_H_

	#include <memory>

	#include "base/macros.h"
	#include "media/audio/simple_sources.h"
	#include "starboard/types.h"

	namespace base {
	class TimeDelta;
	}

	namespace cobalt {
	namespace media {
	class AudioBus;
	}

	namespace cobalt {
	namespace media {
	namespace cast {

	// Produces AudioBuses of varying duration where each successive output contains
	// the continuation of a single sine wave.
	class TestAudioBusFactory {
	public:
	TestAudioBusFactory(int num_channels, int sample_rate,
	float sine_wave_frequency, float volume);
	~TestAudioBusFactory();

	// Creates a new AudioBus of the given \|duration\|, filled with the next batch
	// of sine wave samples.
	std::unique_ptr<AudioBus> NextAudioBus(const base::TimeDelta& duration);

	// A reasonable test tone.
	static const int kMiddleANoteFreq = 440;

	private:
	const int num_channels_;
	const int sample_rate_;
	const float volume_;
	SineWaveAudioSource source_;

	DISALLOW_COPY_AND_ASSIGN(TestAudioBusFactory);
	};

	// Assuming \|samples\| contains a single-frequency sine wave (and maybe some
	// low-amplitude noise), count the number of times the sine wave crosses
	// zero.
	//
	// Example use case: When expecting a 440 Hz tone, this can be checked using the
	// following expression:
	//
	// abs((CountZeroCrossings(...) / seconds_per_frame / 2) - 440) <= 1
	//
	// ...where seconds_per_frame is the number of samples divided by the sampling
	// rate. The divide by two accounts for the fact that a sine wave crosses zero
	// twice per cycle (first downwards, then upwards). The absolute maximum
	// difference of 1 accounts for the sine wave being out of perfect phase.
	int CountZeroCrossings(const float* samples, int length);

	// Encode \|timestamp\| into the samples pointed to by 'samples' in a way
	// that should be decodable even after compressing/decompressing the audio.
	// Assumes 48Khz sampling rate and needs at least 240 samples. Returns
	// false if \|length\| of \|samples\| is too small. If more than 240 samples are
	// available, then the timestamp will be repeated. \|sample_offset\| should
	// contain how many samples has been encoded so far, so that we can make smooth
	// transitions between encoded chunks.
	// See audio_utility.cc for details on how the encoding is done.
	bool EncodeTimestamp(uint16_t timestamp, size_t sample_offset, size_t length,
	float* samples);

	// Decode a timestamp encoded with EncodeTimestamp. Returns true if a
	// timestamp was found in \|samples\|.
	bool DecodeTimestamp(const float* samples, size_t length, uint16_t* timestamp);

	} // namespace cast
	} // namespace media
	} // namespace cobalt

	#endif // COBALT_MEDIA_CAST_TEST_UTILITY_AUDIO_UTILITY_H_