media/formats/webm/tracks_builder.cc - chromium/src - 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.

 #include "media/formats/webm/tracks_builder.h"

 #include "base/logging.h"
 #include "media/formats/webm/webm_constants.h"

 namespace media {

 // Returns size of an integer, formatted using Matroska serialization.
 static int GetUIntMkvSize(uint64_t value) {
   if (value < 0x07FULL)
     return 1;
   if (value < 0x03FFFULL)
     return 2;
   if (value < 0x01FFFFFULL)
     return 3;
   if (value < 0x0FFFFFFFULL)
     return 4;
   if (value < 0x07FFFFFFFFULL)
     return 5;
   if (value < 0x03FFFFFFFFFFULL)
     return 6;
   if (value < 0x01FFFFFFFFFFFFULL)
     return 7;
   return 8;
 }

 // Returns the minimium size required to serialize an integer value.
 static int GetUIntSize(uint64_t value) {
   if (value < 0x0100ULL)
     return 1;
   if (value < 0x010000ULL)
     return 2;
   if (value < 0x01000000ULL)
     return 3;
   if (value < 0x0100000000ULL)
     return 4;
   if (value < 0x010000000000ULL)
     return 5;
   if (value < 0x01000000000000ULL)
     return 6;
   if (value < 0x0100000000000000ULL)
     return 7;
   return 8;
 }

 static int MasterElementSize(int element_id, int payload_size) {
   return GetUIntSize(element_id) + GetUIntMkvSize(payload_size) + payload_size;
 }

 static int UIntElementSize(int element_id, uint64_t value) {
   return GetUIntSize(element_id) + 1 + GetUIntSize(value);
 }

 static int DoubleElementSize(int element_id) {
   return GetUIntSize(element_id) + 1 + 8;
 }

 static int StringElementSize(int element_id, const std::string& value) {
  return GetUIntSize(element_id) +
         GetUIntMkvSize(value.length()) +
         value.length();
 }

 static void SerializeInt(uint8_t** buf_ptr,
                          int* buf_size_ptr,
                          int64_t value,
                          int size) {
   uint8_t*& buf = *buf_ptr;
   int& buf_size = *buf_size_ptr;

   for (int idx = 1; idx <= size; ++idx) {
     *buf++ = static_cast<uint8_t>(value >> ((size - idx) * 8));
     --buf_size;
   }
 }

 static void SerializeDouble(uint8_t** buf_ptr,
                             int* buf_size_ptr,
                             double value) {
   // Use a union to convert |value| to native endian integer bit pattern.
   union {
     double src;
     int64_t dst;
   } tmp;
   tmp.src = value;

   // Write the bytes from native endian |tmp.dst| to big-endian form in |buf|.
   SerializeInt(buf_ptr, buf_size_ptr, tmp.dst, 8);
 }

 static void WriteElementId(uint8_t** buf, int* buf_size, int element_id) {
   SerializeInt(buf, buf_size, element_id, GetUIntSize(element_id));
 }

 static void WriteUInt(uint8_t** buf, int* buf_size, uint64_t value) {
   const int size = GetUIntMkvSize(value);
   value |= (1ULL << (size * 7));  // Matroska formatting
   SerializeInt(buf, buf_size, value, size);
 }

 static void WriteMasterElement(uint8_t** buf,
                                int* buf_size,
                                int element_id,
                                int payload_size) {
   WriteElementId(buf, buf_size, element_id);
   WriteUInt(buf, buf_size, payload_size);
 }

 static void WriteUIntElement(uint8_t** buf,
                              int* buf_size,
                              int element_id,
                              uint64_t value) {
   WriteElementId(buf, buf_size, element_id);

   const int size = GetUIntSize(value);
   WriteUInt(buf, buf_size, size);

   SerializeInt(buf, buf_size, value, size);
 }

 static void WriteDoubleElement(uint8_t** buf,
                                int* buf_size,
                                int element_id,
                                double value) {
   WriteElementId(buf, buf_size, element_id);
   WriteUInt(buf, buf_size, 8);
   SerializeDouble(buf, buf_size, value);
 }

 static void WriteStringElement(uint8_t** buf_ptr,
                                int* buf_size_ptr,
                                int element_id,
                                const std::string& value) {
   uint8_t*& buf = *buf_ptr;
   int& buf_size = *buf_size_ptr;

   WriteElementId(&buf, &buf_size, element_id);

   const uint64_t size = value.length();
   WriteUInt(&buf, &buf_size, size);

   memcpy(buf, value.data(), size);
   buf += size;
   buf_size -= size;
 }

 TracksBuilder::TracksBuilder(bool allow_invalid_values)
     : allow_invalid_values_(allow_invalid_values) {}
 TracksBuilder::TracksBuilder()
     : allow_invalid_values_(false) {}
 TracksBuilder::~TracksBuilder() = default;

 void TracksBuilder::AddVideoTrack(int track_num,
                                   uint64_t track_uid,
                                   const std::string& codec_id,
                                   const std::string& name,
                                   const std::string& language,
                                   int default_duration,
                                   int video_pixel_width,
                                   int video_pixel_height) {
   AddTrackInternal(track_num, kWebMTrackTypeVideo, track_uid, codec_id, name,
                    language, default_duration, video_pixel_width,
                    video_pixel_height, -1, -1);
 }

 void TracksBuilder::AddAudioTrack(int track_num,
                                   uint64_t track_uid,
                                   const std::string& codec_id,
                                   const std::string& name,
                                   const std::string& language,
                                   int default_duration,
                                   int audio_channels,
                                   double audio_sampling_frequency) {
   AddTrackInternal(track_num, kWebMTrackTypeAudio, track_uid, codec_id, name,
                    language, default_duration, -1, -1, audio_channels,
                    audio_sampling_frequency);
 }

 void TracksBuilder::AddTextTrack(int track_num,
                                  uint64_t track_uid,
                                  const std::string& codec_id,
                                  const std::string& name,
                                  const std::string& language) {
   AddTrackInternal(track_num, kWebMTrackTypeSubtitlesOrCaptions, track_uid,
                    codec_id, name, language, -1, -1, -1, -1, -1);
 }

 std::vector<uint8_t> TracksBuilder::Finish() {
   // Allocate the storage
   std::vector<uint8_t> buffer;
   buffer.resize(GetTracksSize());

   // Populate the storage with a tracks header
   WriteTracks(&buffer[0], buffer.size());

   return buffer;
 }

 void TracksBuilder::AddTrackInternal(int track_num,
                                      int track_type,
                                      uint64_t track_uid,
                                      const std::string& codec_id,
                                      const std::string& name,
                                      const std::string& language,
                                      int default_duration,
                                      int video_pixel_width,
                                      int video_pixel_height,
                                      int audio_channels,
                                      double audio_sampling_frequency) {
   tracks_.push_back(Track(track_num, track_type, track_uid, codec_id, name,
                           language, default_duration, video_pixel_width,
                           video_pixel_height, audio_channels,
                           audio_sampling_frequency, allow_invalid_values_));
 }

 int TracksBuilder::GetTracksSize() const {
   return MasterElementSize(kWebMIdTracks, GetTracksPayloadSize());
 }

 int TracksBuilder::GetTracksPayloadSize() const {
   int payload_size = 0;

   for (auto itr = tracks_.begin(); itr != tracks_.end(); ++itr) {
     payload_size += itr->GetSize();
   }

   return payload_size;
 }

 void TracksBuilder::WriteTracks(uint8_t* buf, int buf_size) const {
   WriteMasterElement(&buf, &buf_size, kWebMIdTracks, GetTracksPayloadSize());

   for (auto itr = tracks_.begin(); itr != tracks_.end(); ++itr) {
     itr->Write(&buf, &buf_size);
   }
 }

 TracksBuilder::Track::Track(int track_num,
                             int track_type,
                             uint64_t track_uid,
                             const std::string& codec_id,
                             const std::string& name,
                             const std::string& language,
                             int default_duration,
                             int video_pixel_width,
                             int video_pixel_height,
                             int audio_channels,
                             double audio_sampling_frequency,
                             bool allow_invalid_values)
     : track_num_(track_num),
       track_type_(track_type),
       track_uid_(track_uid),
       codec_id_(codec_id),
       name_(name),
       language_(language),
       default_duration_(default_duration),
       video_pixel_width_(video_pixel_width),
       video_pixel_height_(video_pixel_height),
       audio_channels_(audio_channels),
       audio_sampling_frequency_(audio_sampling_frequency) {
   if (!allow_invalid_values) {
     CHECK_GT(track_num_, 0);
     CHECK_GT(track_type_, 0);
     CHECK_LT(track_type_, 255);
     CHECK_GT(track_uid_, 0);
     if (track_type != kWebMTrackTypeVideo &&
         track_type != kWebMTrackTypeAudio) {
       CHECK_EQ(default_duration_, -1);
     } else {
       CHECK(default_duration_ == -1 || default_duration_ > 0);
     }

     if (track_type == kWebMTrackTypeVideo) {
       CHECK_GT(video_pixel_width_, 0);
       CHECK_GT(video_pixel_height_, 0);
     } else {
       CHECK_EQ(video_pixel_width_, -1);
       CHECK_EQ(video_pixel_height_, -1);
     }

     if (track_type == kWebMTrackTypeAudio) {
       CHECK_GT(audio_channels_, 0);
       CHECK_GT(audio_sampling_frequency_, 0.0);
     } else {
       CHECK_EQ(audio_channels_, -1);
       CHECK_EQ(audio_sampling_frequency_, -1.0);
     }
   }
 }

 TracksBuilder::Track::Track(const Track& other) = default;

 int TracksBuilder::Track::GetSize() const {
   return MasterElementSize(kWebMIdTrackEntry, GetPayloadSize());
 }

 int TracksBuilder::Track::GetVideoPayloadSize() const {
   int payload_size = 0;

   if (video_pixel_width_ >= 0)
     payload_size += UIntElementSize(kWebMIdPixelWidth, video_pixel_width_);
   if (video_pixel_height_ >= 0)
     payload_size += UIntElementSize(kWebMIdPixelHeight, video_pixel_height_);

   return payload_size;
 }

 int TracksBuilder::Track::GetAudioPayloadSize() const {
   int payload_size = 0;

   if (audio_channels_ >= 0)
     payload_size += UIntElementSize(kWebMIdChannels, audio_channels_);
   if (audio_sampling_frequency_ >= 0)
     payload_size += DoubleElementSize(kWebMIdSamplingFrequency);

   return payload_size;
 }

 int TracksBuilder::Track::GetPayloadSize() const {
   int size = 0;

   size += UIntElementSize(kWebMIdTrackNumber, track_num_);
   size += UIntElementSize(kWebMIdTrackType, track_type_);
   size += UIntElementSize(kWebMIdTrackUID, track_uid_);

   if (default_duration_ >= 0)
     size += UIntElementSize(kWebMIdDefaultDuration, default_duration_);

   if (!codec_id_.empty())
     size += StringElementSize(kWebMIdCodecID, codec_id_);

   if (!name_.empty())
     size += StringElementSize(kWebMIdName, name_);

   if (!language_.empty())
     size += StringElementSize(kWebMIdLanguage, language_);

   if (GetVideoPayloadSize() > 0) {
     size += MasterElementSize(kWebMIdVideo, GetVideoPayloadSize());
   }

   if (GetAudioPayloadSize() > 0) {
     size += MasterElementSize(kWebMIdAudio, GetAudioPayloadSize());
   }

   return size;
 }

 void TracksBuilder::Track::Write(uint8_t** buf, int* buf_size) const {
   WriteMasterElement(buf, buf_size, kWebMIdTrackEntry, GetPayloadSize());

   WriteUIntElement(buf, buf_size, kWebMIdTrackNumber, track_num_);
   WriteUIntElement(buf, buf_size, kWebMIdTrackType, track_type_);
   WriteUIntElement(buf, buf_size, kWebMIdTrackUID, track_uid_);

   if (default_duration_ >= 0)
     WriteUIntElement(buf, buf_size, kWebMIdDefaultDuration, default_duration_);

   if (!codec_id_.empty())
     WriteStringElement(buf, buf_size, kWebMIdCodecID, codec_id_);

   if (!name_.empty())
     WriteStringElement(buf, buf_size, kWebMIdName, name_);

   if (!language_.empty())
     WriteStringElement(buf, buf_size, kWebMIdLanguage, language_);

   if (GetVideoPayloadSize() > 0) {
     WriteMasterElement(buf, buf_size, kWebMIdVideo, GetVideoPayloadSize());

     if (video_pixel_width_ >= 0)
       WriteUIntElement(buf, buf_size, kWebMIdPixelWidth, video_pixel_width_);

     if (video_pixel_height_ >= 0)
       WriteUIntElement(buf, buf_size, kWebMIdPixelHeight, video_pixel_height_);
   }

   if (GetAudioPayloadSize() > 0) {
     WriteMasterElement(buf, buf_size, kWebMIdAudio, GetAudioPayloadSize());

     if (audio_channels_ >= 0)
       WriteUIntElement(buf, buf_size, kWebMIdChannels, audio_channels_);

     if (audio_sampling_frequency_ >= 0) {
       WriteDoubleElement(buf, buf_size, kWebMIdSamplingFrequency,
           audio_sampling_frequency_);
     }
   }
 }

 }  // namespace media
	// 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.

	#include "media/formats/webm/tracks_builder.h"

	#include "base/logging.h"
	#include "media/formats/webm/webm_constants.h"

	namespace media {

	// Returns size of an integer, formatted using Matroska serialization.
	static int GetUIntMkvSize(uint64_t value) {
	if (value < 0x07FULL)
	return 1;
	if (value < 0x03FFFULL)
	return 2;
	if (value < 0x01FFFFFULL)
	return 3;
	if (value < 0x0FFFFFFFULL)
	return 4;
	if (value < 0x07FFFFFFFFULL)
	return 5;
	if (value < 0x03FFFFFFFFFFULL)
	return 6;
	if (value < 0x01FFFFFFFFFFFFULL)
	return 7;
	return 8;
	}

	// Returns the minimium size required to serialize an integer value.
	static int GetUIntSize(uint64_t value) {
	if (value < 0x0100ULL)
	return 1;
	if (value < 0x010000ULL)
	return 2;
	if (value < 0x01000000ULL)
	return 3;
	if (value < 0x0100000000ULL)
	return 4;
	if (value < 0x010000000000ULL)
	return 5;
	if (value < 0x01000000000000ULL)
	return 6;
	if (value < 0x0100000000000000ULL)
	return 7;
	return 8;
	}

	static int MasterElementSize(int element_id, int payload_size) {
	return GetUIntSize(element_id) + GetUIntMkvSize(payload_size) + payload_size;
	}

	static int UIntElementSize(int element_id, uint64_t value) {
	return GetUIntSize(element_id) + 1 + GetUIntSize(value);
	}

	static int DoubleElementSize(int element_id) {
	return GetUIntSize(element_id) + 1 + 8;
	}

	static int StringElementSize(int element_id, const std::string& value) {
	return GetUIntSize(element_id) +
	GetUIntMkvSize(value.length()) +
	value.length();
	}

	static void SerializeInt(uint8_t** buf_ptr,
	int* buf_size_ptr,
	int64_t value,
	int size) {
	uint8_t& buf = buf_ptr;
	int& buf_size = *buf_size_ptr;

	for (int idx = 1; idx <= size; ++idx) {
	buf++ = static_cast<uint8_t>(value >> ((size - idx) 8));
	--buf_size;
	}
	}

	static void SerializeDouble(uint8_t** buf_ptr,
	int* buf_size_ptr,
	double value) {
	// Use a union to convert \|value\| to native endian integer bit pattern.
	union {
	double src;
	int64_t dst;
	} tmp;
	tmp.src = value;

	// Write the bytes from native endian \|tmp.dst\| to big-endian form in \|buf\|.
	SerializeInt(buf_ptr, buf_size_ptr, tmp.dst, 8);
	}

	static void WriteElementId(uint8_t** buf, int* buf_size, int element_id) {
	SerializeInt(buf, buf_size, element_id, GetUIntSize(element_id));
	}

	static void WriteUInt(uint8_t** buf, int* buf_size, uint64_t value) {
	const int size = GetUIntMkvSize(value);
	value \|= (1ULL << (size * 7)); // Matroska formatting
	SerializeInt(buf, buf_size, value, size);
	}

	static void WriteMasterElement(uint8_t** buf,
	int* buf_size,
	int element_id,
	int payload_size) {
	WriteElementId(buf, buf_size, element_id);
	WriteUInt(buf, buf_size, payload_size);
	}

	static void WriteUIntElement(uint8_t** buf,
	int* buf_size,
	int element_id,
	uint64_t value) {
	WriteElementId(buf, buf_size, element_id);

	const int size = GetUIntSize(value);
	WriteUInt(buf, buf_size, size);

	SerializeInt(buf, buf_size, value, size);
	}

	static void WriteDoubleElement(uint8_t** buf,
	int* buf_size,
	int element_id,
	double value) {
	WriteElementId(buf, buf_size, element_id);
	WriteUInt(buf, buf_size, 8);
	SerializeDouble(buf, buf_size, value);
	}

	static void WriteStringElement(uint8_t** buf_ptr,
	int* buf_size_ptr,
	int element_id,
	const std::string& value) {
	uint8_t& buf = buf_ptr;
	int& buf_size = *buf_size_ptr;

	WriteElementId(&buf, &buf_size, element_id);

	const uint64_t size = value.length();
	WriteUInt(&buf, &buf_size, size);

	memcpy(buf, value.data(), size);
	buf += size;
	buf_size -= size;
	}

	TracksBuilder::TracksBuilder(bool allow_invalid_values)
	: allow_invalid_values_(allow_invalid_values) {}
	TracksBuilder::TracksBuilder()
	: allow_invalid_values_(false) {}
	TracksBuilder::~TracksBuilder() = default;

	void TracksBuilder::AddVideoTrack(int track_num,
	uint64_t track_uid,
	const std::string& codec_id,
	const std::string& name,
	const std::string& language,
	int default_duration,
	int video_pixel_width,
	int video_pixel_height) {
	AddTrackInternal(track_num, kWebMTrackTypeVideo, track_uid, codec_id, name,
	language, default_duration, video_pixel_width,
	video_pixel_height, -1, -1);
	}

	void TracksBuilder::AddAudioTrack(int track_num,
	uint64_t track_uid,
	const std::string& codec_id,
	const std::string& name,
	const std::string& language,
	int default_duration,
	int audio_channels,
	double audio_sampling_frequency) {
	AddTrackInternal(track_num, kWebMTrackTypeAudio, track_uid, codec_id, name,
	language, default_duration, -1, -1, audio_channels,
	audio_sampling_frequency);
	}

	void TracksBuilder::AddTextTrack(int track_num,
	uint64_t track_uid,
	const std::string& codec_id,
	const std::string& name,
	const std::string& language) {
	AddTrackInternal(track_num, kWebMTrackTypeSubtitlesOrCaptions, track_uid,
	codec_id, name, language, -1, -1, -1, -1, -1);
	}

	std::vector<uint8_t> TracksBuilder::Finish() {
	// Allocate the storage
	std::vector<uint8_t> buffer;
	buffer.resize(GetTracksSize());

	// Populate the storage with a tracks header
	WriteTracks(&buffer[0], buffer.size());

	return buffer;
	}

	void TracksBuilder::AddTrackInternal(int track_num,
	int track_type,
	uint64_t track_uid,
	const std::string& codec_id,
	const std::string& name,
	const std::string& language,
	int default_duration,
	int video_pixel_width,
	int video_pixel_height,
	int audio_channels,
	double audio_sampling_frequency) {
	tracks_.push_back(Track(track_num, track_type, track_uid, codec_id, name,
	language, default_duration, video_pixel_width,
	video_pixel_height, audio_channels,
	audio_sampling_frequency, allow_invalid_values_));
	}

	int TracksBuilder::GetTracksSize() const {
	return MasterElementSize(kWebMIdTracks, GetTracksPayloadSize());
	}

	int TracksBuilder::GetTracksPayloadSize() const {
	int payload_size = 0;

	for (auto itr = tracks_.begin(); itr != tracks_.end(); ++itr) {
	payload_size += itr->GetSize();
	}

	return payload_size;
	}

	void TracksBuilder::WriteTracks(uint8_t* buf, int buf_size) const {
	WriteMasterElement(&buf, &buf_size, kWebMIdTracks, GetTracksPayloadSize());

	for (auto itr = tracks_.begin(); itr != tracks_.end(); ++itr) {
	itr->Write(&buf, &buf_size);
	}
	}

	TracksBuilder::Track::Track(int track_num,
	int track_type,
	uint64_t track_uid,
	const std::string& codec_id,
	const std::string& name,
	const std::string& language,
	int default_duration,
	int video_pixel_width,
	int video_pixel_height,
	int audio_channels,
	double audio_sampling_frequency,
	bool allow_invalid_values)
	: track_num_(track_num),
	track_type_(track_type),
	track_uid_(track_uid),
	codec_id_(codec_id),
	name_(name),
	language_(language),
	default_duration_(default_duration),
	video_pixel_width_(video_pixel_width),
	video_pixel_height_(video_pixel_height),
	audio_channels_(audio_channels),
	audio_sampling_frequency_(audio_sampling_frequency) {
	if (!allow_invalid_values) {
	CHECK_GT(track_num_, 0);
	CHECK_GT(track_type_, 0);
	CHECK_LT(track_type_, 255);
	CHECK_GT(track_uid_, 0);
	if (track_type != kWebMTrackTypeVideo &&
	track_type != kWebMTrackTypeAudio) {
	CHECK_EQ(default_duration_, -1);
	} else {
	CHECK(default_duration_ == -1 \|\| default_duration_ > 0);
	}

	if (track_type == kWebMTrackTypeVideo) {
	CHECK_GT(video_pixel_width_, 0);
	CHECK_GT(video_pixel_height_, 0);
	} else {
	CHECK_EQ(video_pixel_width_, -1);
	CHECK_EQ(video_pixel_height_, -1);
	}

	if (track_type == kWebMTrackTypeAudio) {
	CHECK_GT(audio_channels_, 0);
	CHECK_GT(audio_sampling_frequency_, 0.0);
	} else {
	CHECK_EQ(audio_channels_, -1);
	CHECK_EQ(audio_sampling_frequency_, -1.0);
	}
	}
	}

	TracksBuilder::Track::Track(const Track& other) = default;

	int TracksBuilder::Track::GetSize() const {
	return MasterElementSize(kWebMIdTrackEntry, GetPayloadSize());
	}

	int TracksBuilder::Track::GetVideoPayloadSize() const {
	int payload_size = 0;

	if (video_pixel_width_ >= 0)
	payload_size += UIntElementSize(kWebMIdPixelWidth, video_pixel_width_);
	if (video_pixel_height_ >= 0)
	payload_size += UIntElementSize(kWebMIdPixelHeight, video_pixel_height_);

	return payload_size;
	}

	int TracksBuilder::Track::GetAudioPayloadSize() const {
	int payload_size = 0;

	if (audio_channels_ >= 0)
	payload_size += UIntElementSize(kWebMIdChannels, audio_channels_);
	if (audio_sampling_frequency_ >= 0)
	payload_size += DoubleElementSize(kWebMIdSamplingFrequency);

	return payload_size;
	}

	int TracksBuilder::Track::GetPayloadSize() const {
	int size = 0;

	size += UIntElementSize(kWebMIdTrackNumber, track_num_);
	size += UIntElementSize(kWebMIdTrackType, track_type_);
	size += UIntElementSize(kWebMIdTrackUID, track_uid_);

	if (default_duration_ >= 0)
	size += UIntElementSize(kWebMIdDefaultDuration, default_duration_);

	if (!codec_id_.empty())
	size += StringElementSize(kWebMIdCodecID, codec_id_);

	if (!name_.empty())
	size += StringElementSize(kWebMIdName, name_);

	if (!language_.empty())
	size += StringElementSize(kWebMIdLanguage, language_);

	if (GetVideoPayloadSize() > 0) {
	size += MasterElementSize(kWebMIdVideo, GetVideoPayloadSize());
	}

	if (GetAudioPayloadSize() > 0) {
	size += MasterElementSize(kWebMIdAudio, GetAudioPayloadSize());
	}

	return size;
	}

	void TracksBuilder::Track::Write(uint8_t** buf, int* buf_size) const {
	WriteMasterElement(buf, buf_size, kWebMIdTrackEntry, GetPayloadSize());

	WriteUIntElement(buf, buf_size, kWebMIdTrackNumber, track_num_);
	WriteUIntElement(buf, buf_size, kWebMIdTrackType, track_type_);
	WriteUIntElement(buf, buf_size, kWebMIdTrackUID, track_uid_);

	if (default_duration_ >= 0)
	WriteUIntElement(buf, buf_size, kWebMIdDefaultDuration, default_duration_);

	if (!codec_id_.empty())
	WriteStringElement(buf, buf_size, kWebMIdCodecID, codec_id_);

	if (!name_.empty())
	WriteStringElement(buf, buf_size, kWebMIdName, name_);

	if (!language_.empty())
	WriteStringElement(buf, buf_size, kWebMIdLanguage, language_);

	if (GetVideoPayloadSize() > 0) {
	WriteMasterElement(buf, buf_size, kWebMIdVideo, GetVideoPayloadSize());

	if (video_pixel_width_ >= 0)
	WriteUIntElement(buf, buf_size, kWebMIdPixelWidth, video_pixel_width_);

	if (video_pixel_height_ >= 0)
	WriteUIntElement(buf, buf_size, kWebMIdPixelHeight, video_pixel_height_);
	}

	if (GetAudioPayloadSize() > 0) {
	WriteMasterElement(buf, buf_size, kWebMIdAudio, GetAudioPayloadSize());

	if (audio_channels_ >= 0)
	WriteUIntElement(buf, buf_size, kWebMIdChannels, audio_channels_);

	if (audio_sampling_frequency_ >= 0) {
	WriteDoubleElement(buf, buf_size, kWebMIdSamplingFrequency,
	audio_sampling_frequency_);
	}
	}
	}

	} // namespace media