third_party/libwebm/source/mkvparser_sample.cc - cobalt - Git at Google

 // Copyright (c) 2010 The WebM 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.
 //
 // This sample application demonstrates how to use the Matroska parser
 // library, which allows clients to handle a Matroska format file.
 #include <cstdio>
 #include <cstdlib>
 #include <memory>
 #include <new>

 #include "mkvparser/mkvparser.h"
 #include "mkvparser/mkvreader.h"

 namespace {
 const wchar_t* utf8towcs(const char* str) {
   if (str == NULL)
     return NULL;

   // TODO: this probably requires that the locale be
   // configured somehow:

   const size_t size = mbstowcs(NULL, str, 0);

   if (size == 0 || size == static_cast<size_t>(-1))
     return NULL;

   wchar_t* const val = new (std::nothrow) wchar_t[size + 1];
   if (val == NULL)
     return NULL;

   mbstowcs(val, str, size);
   val[size] = L'\0';

   return val;
 }

 bool InputHasCues(const mkvparser::Segment* const segment) {
   const mkvparser::Cues* const cues = segment->GetCues();
   if (cues == NULL)
     return false;

   while (!cues->DoneParsing())
     cues->LoadCuePoint();

   const mkvparser::CuePoint* const cue_point = cues->GetFirst();
   if (cue_point == NULL)
     return false;

   return true;
 }

 bool MasteringMetadataValuePresent(double value) {
   return value != mkvparser::MasteringMetadata::kValueNotPresent;
 }

 bool ColourValuePresent(long long value) {
   return value != mkvparser::Colour::kValueNotPresent;
 }
 }  // namespace

 int main(int argc, char* argv[]) {
   if (argc == 1) {
     printf("Mkv Parser Sample Application\n");
     printf("  Usage: %s <input file> \n", argv[0]);
     return EXIT_FAILURE;
   }

   mkvparser::MkvReader reader;

   if (reader.Open(argv[1])) {
     printf("\n Filename is invalid or error while opening.\n");
     return EXIT_FAILURE;
   }

   int maj, min, build, rev;

   mkvparser::GetVersion(maj, min, build, rev);
   printf("\t\t libwebm version: %d.%d.%d.%d\n", maj, min, build, rev);

   long long pos = 0;

   mkvparser::EBMLHeader ebmlHeader;

   long long ret = ebmlHeader.Parse(&reader, pos);
   if (ret < 0) {
     printf("\n EBMLHeader::Parse() failed.");
     return EXIT_FAILURE;
   }

   printf("\t\t\t    EBML Header\n");
   printf("\t\tEBML Version\t\t: %lld\n", ebmlHeader.m_version);
   printf("\t\tEBML MaxIDLength\t: %lld\n", ebmlHeader.m_maxIdLength);
   printf("\t\tEBML MaxSizeLength\t: %lld\n", ebmlHeader.m_maxSizeLength);
   printf("\t\tDoc Type\t\t: %s\n", ebmlHeader.m_docType);
   printf("\t\tPos\t\t\t: %lld\n", pos);

   typedef mkvparser::Segment seg_t;
   seg_t* pSegment_;

   ret = seg_t::CreateInstance(&reader, pos, pSegment_);
   if (ret) {
     printf("\n Segment::CreateInstance() failed.");
     return EXIT_FAILURE;
   }

   const std::unique_ptr<seg_t> pSegment(pSegment_);

   ret = pSegment->Load();
   if (ret < 0) {
     printf("\n Segment::Load() failed.");
     return EXIT_FAILURE;
   }

   const mkvparser::SegmentInfo* const pSegmentInfo = pSegment->GetInfo();
   if (pSegmentInfo == NULL) {
     printf("\n Segment::GetInfo() failed.");
     return EXIT_FAILURE;
   }

   const long long timeCodeScale = pSegmentInfo->GetTimeCodeScale();
   const long long duration_ns = pSegmentInfo->GetDuration();

   const char* const pTitle_ = pSegmentInfo->GetTitleAsUTF8();
   const wchar_t* const pTitle = utf8towcs(pTitle_);

   const char* const pMuxingApp_ = pSegmentInfo->GetMuxingAppAsUTF8();
   const wchar_t* const pMuxingApp = utf8towcs(pMuxingApp_);

   const char* const pWritingApp_ = pSegmentInfo->GetWritingAppAsUTF8();
   const wchar_t* const pWritingApp = utf8towcs(pWritingApp_);

   printf("\n");
   printf("\t\t\t   Segment Info\n");
   printf("\t\tTimeCodeScale\t\t: %lld \n", timeCodeScale);
   printf("\t\tDuration\t\t: %lld\n", duration_ns);

   const double duration_sec = double(duration_ns) / 1000000000;
   printf("\t\tDuration(secs)\t\t: %7.3lf\n", duration_sec);

   if (pTitle == NULL)
     printf("\t\tTrack Name\t\t: NULL\n");
   else {
     printf("\t\tTrack Name\t\t: %ls\n", pTitle);
     delete[] pTitle;
   }

   if (pMuxingApp == NULL)
     printf("\t\tMuxing App\t\t: NULL\n");
   else {
     printf("\t\tMuxing App\t\t: %ls\n", pMuxingApp);
     delete[] pMuxingApp;
   }

   if (pWritingApp == NULL)
     printf("\t\tWriting App\t\t: NULL\n");
   else {
     printf("\t\tWriting App\t\t: %ls\n", pWritingApp);
     delete[] pWritingApp;
   }

   // pos of segment payload
   printf("\t\tPosition(Segment)\t: %lld\n", pSegment->m_start);

   // size of segment payload
   printf("\t\tSize(Segment)\t\t: %lld\n", pSegment->m_size);

   const mkvparser::Tracks* pTracks = pSegment->GetTracks();

   unsigned long track_num = 0;
   const unsigned long num_tracks = pTracks->GetTracksCount();

   printf("\n\t\t\t   Track Info\n");

   while (track_num != num_tracks) {
     const mkvparser::Track* const pTrack =
         pTracks->GetTrackByIndex(track_num++);

     if (pTrack == NULL)
       continue;

     const long trackType = pTrack->GetType();
     const long trackNumber = pTrack->GetNumber();
     const unsigned long long trackUid = pTrack->GetUid();
     const wchar_t* const pTrackName = utf8towcs(pTrack->GetNameAsUTF8());

     printf("\t\tTrack Type\t\t: %ld\n", trackType);
     printf("\t\tTrack Number\t\t: %ld\n", trackNumber);
     printf("\t\tTrack Uid\t\t: %lld\n", trackUid);

     if (pTrackName == NULL)
       printf("\t\tTrack Name\t\t: NULL\n");
     else {
       printf("\t\tTrack Name\t\t: %ls \n", pTrackName);
       delete[] pTrackName;
     }

     const char* const pCodecId = pTrack->GetCodecId();

     if (pCodecId == NULL)
       printf("\t\tCodec Id\t\t: NULL\n");
     else
       printf("\t\tCodec Id\t\t: %s\n", pCodecId);

     size_t codec_private_size = 0;
     if (pTrack->GetCodecPrivate(codec_private_size)) {
       printf("\t\tCodec private length: %u bytes\n",
              static_cast<unsigned int>(codec_private_size));
     }

     const char* const pCodecName_ = pTrack->GetCodecNameAsUTF8();
     const wchar_t* const pCodecName = utf8towcs(pCodecName_);

     if (pCodecName == NULL)
       printf("\t\tCodec Name\t\t: NULL\n");
     else {
       printf("\t\tCodec Name\t\t: %ls\n", pCodecName);
       delete[] pCodecName;
     }

     if (trackType == mkvparser::Track::kVideo) {
       const mkvparser::VideoTrack* const pVideoTrack =
           static_cast<const mkvparser::VideoTrack*>(pTrack);

       const long long width = pVideoTrack->GetWidth();
       printf("\t\tVideo Width\t\t: %lld\n", width);

       const long long height = pVideoTrack->GetHeight();
       printf("\t\tVideo Height\t\t: %lld\n", height);

       const double rate = pVideoTrack->GetFrameRate();
       printf("\t\tVideo Rate\t\t: %f\n", rate);

       const mkvparser::Colour* const colour = pVideoTrack->GetColour();
       if (colour) {
         printf("\t\tVideo Colour:\n");
         if (ColourValuePresent(colour->matrix_coefficients))
           printf("\t\t\tMatrixCoefficients: %lld\n",
                  colour->matrix_coefficients);
         if (ColourValuePresent(colour->bits_per_channel))
           printf("\t\t\tBitsPerChannel: %lld\n", colour->bits_per_channel);
         if (ColourValuePresent(colour->chroma_subsampling_horz))
           printf("\t\t\tChromaSubsamplingHorz: %lld\n",
                  colour->chroma_subsampling_horz);
         if (ColourValuePresent(colour->chroma_subsampling_vert))
           printf("\t\t\tChromaSubsamplingVert: %lld\n",
                  colour->chroma_subsampling_vert);
         if (ColourValuePresent(colour->cb_subsampling_horz))
           printf("\t\t\tCbSubsamplingHorz: %lld\n",
                  colour->cb_subsampling_horz);
         if (ColourValuePresent(colour->cb_subsampling_vert))
           printf("\t\t\tCbSubsamplingVert: %lld\n",
                  colour->cb_subsampling_vert);
         if (ColourValuePresent(colour->chroma_siting_horz))
           printf("\t\t\tChromaSitingHorz: %lld\n", colour->chroma_siting_horz);
         if (ColourValuePresent(colour->chroma_siting_vert))
           printf("\t\t\tChromaSitingVert: %lld\n", colour->chroma_siting_vert);
         if (ColourValuePresent(colour->range))
           printf("\t\t\tRange: %lld\n", colour->range);
         if (ColourValuePresent(colour->transfer_characteristics))
           printf("\t\t\tTransferCharacteristics: %lld\n",
                  colour->transfer_characteristics);
         if (ColourValuePresent(colour->primaries))
           printf("\t\t\tPrimaries: %lld\n", colour->primaries);
         if (ColourValuePresent(colour->max_cll))
           printf("\t\t\tMaxCLL: %lld\n", colour->max_cll);
         if (ColourValuePresent(colour->max_fall))
           printf("\t\t\tMaxFALL: %lld\n", colour->max_fall);
         if (colour->mastering_metadata) {
           const mkvparser::MasteringMetadata* const mm =
               colour->mastering_metadata;
           printf("\t\t\tMastering Metadata:\n");
           if (MasteringMetadataValuePresent(mm->luminance_max))
             printf("\t\t\t\tLuminanceMax: %f\n", mm->luminance_max);
           if (MasteringMetadataValuePresent(mm->luminance_min))
             printf("\t\t\t\tLuminanceMin: %f\n", mm->luminance_min);
           if (mm->r) {
             printf("\t\t\t\t\tPrimaryRChromaticityX: %f\n", mm->r->x);
             printf("\t\t\t\t\tPrimaryRChromaticityY: %f\n", mm->r->y);
           }
           if (mm->g) {
             printf("\t\t\t\t\tPrimaryGChromaticityX: %f\n", mm->g->x);
             printf("\t\t\t\t\tPrimaryGChromaticityY: %f\n", mm->g->y);
           }
           if (mm->b) {
             printf("\t\t\t\t\tPrimaryBChromaticityX: %f\n", mm->b->x);
             printf("\t\t\t\t\tPrimaryBChromaticityY: %f\n", mm->b->y);
           }
           if (mm->white_point) {
             printf("\t\t\t\t\tWhitePointChromaticityX: %f\n",
                    mm->white_point->x);
             printf("\t\t\t\t\tWhitePointChromaticityY: %f\n",
                    mm->white_point->y);
           }
         }
       }

       const mkvparser::Projection* const projection =
           pVideoTrack->GetProjection();
       if (projection) {
         printf("\t\tVideo Projection:\n");
         if (projection->type != mkvparser::Projection::kTypeNotPresent)
           printf("\t\t\tProjectionType: %d\n",
                  static_cast<int>(projection->type));
         if (projection->private_data) {
           printf("\t\t\tProjectionPrivate: %u bytes\n",
                  static_cast<unsigned int>(projection->private_data_length));
         }
         if (projection->pose_yaw != mkvparser::Projection::kValueNotPresent)
           printf("\t\t\tProjectionPoseYaw: %f\n", projection->pose_yaw);
         if (projection->pose_pitch != mkvparser::Projection::kValueNotPresent)
           printf("\t\t\tProjectionPosePitch: %f\n", projection->pose_pitch);
         if (projection->pose_roll != mkvparser::Projection::kValueNotPresent)
           printf("\t\t\tProjectionPosePitch: %f\n", projection->pose_roll);
       }
     }

     if (trackType == mkvparser::Track::kAudio) {
       const mkvparser::AudioTrack* const pAudioTrack =
           static_cast<const mkvparser::AudioTrack*>(pTrack);

       const long long channels = pAudioTrack->GetChannels();
       printf("\t\tAudio Channels\t\t: %lld\n", channels);

       const long long bitDepth = pAudioTrack->GetBitDepth();
       printf("\t\tAudio BitDepth\t\t: %lld\n", bitDepth);

       const double sampleRate = pAudioTrack->GetSamplingRate();
       printf("\t\tAddio Sample Rate\t: %.3f\n", sampleRate);

       const long long codecDelay = pAudioTrack->GetCodecDelay();
       printf("\t\tAudio Codec Delay\t\t: %lld\n", codecDelay);

       const long long seekPreRoll = pAudioTrack->GetSeekPreRoll();
       printf("\t\tAudio Seek Pre Roll\t\t: %lld\n", seekPreRoll);
     }
   }

   printf("\n\n\t\t\t   Cluster Info\n");
   const unsigned long clusterCount = pSegment->GetCount();

   printf("\t\tCluster Count\t: %ld\n\n", clusterCount);

   if (clusterCount == 0) {
     printf("\t\tSegment has no clusters.\n");
     return EXIT_FAILURE;
   }

   const mkvparser::Cluster* pCluster = pSegment->GetFirst();

   while (pCluster != NULL && !pCluster->EOS()) {
     const long long timeCode = pCluster->GetTimeCode();
     printf("\t\tCluster Time Code\t: %lld\n", timeCode);

     const long long time_ns = pCluster->GetTime();
     printf("\t\tCluster Time (ns)\t: %lld\n", time_ns);

     const mkvparser::BlockEntry* pBlockEntry;

     long status = pCluster->GetFirst(pBlockEntry);

     if (status < 0)  // error
     {
       printf("\t\tError parsing first block of cluster\n");
       fflush(stdout);
       return EXIT_FAILURE;
     }

     while (pBlockEntry != NULL && !pBlockEntry->EOS()) {
       const mkvparser::Block* const pBlock = pBlockEntry->GetBlock();
       const long long trackNum = pBlock->GetTrackNumber();
       const unsigned long tn = static_cast<unsigned long>(trackNum);
       const mkvparser::Track* const pTrack = pTracks->GetTrackByNumber(tn);

       if (pTrack == NULL)
         printf("\t\t\tBlock\t\t:UNKNOWN TRACK TYPE\n");
       else {
         const long long trackType = pTrack->GetType();
         const int frameCount = pBlock->GetFrameCount();
         const long long time_ns = pBlock->GetTime(pCluster);
         const long long discard_padding = pBlock->GetDiscardPadding();

         printf("\t\t\tBlock\t\t:%s,%s,%15lld,%lld\n",
                (trackType == mkvparser::Track::kVideo) ? "V" : "A",
                pBlock->IsKey() ? "I" : "P", time_ns, discard_padding);

         for (int i = 0; i < frameCount; ++i) {
           const mkvparser::Block::Frame& theFrame = pBlock->GetFrame(i);
           const long size = theFrame.len;
           const long long offset = theFrame.pos;
           printf("\t\t\t %15ld,%15llx\n", size, offset);
         }
       }

       status = pCluster->GetNext(pBlockEntry, pBlockEntry);

       if (status < 0) {
         printf("\t\t\tError parsing next block of cluster\n");
         fflush(stdout);
         return EXIT_FAILURE;
       }
     }

     pCluster = pSegment->GetNext(pCluster);
   }

   if (InputHasCues(pSegment.get())) {
     // Walk them.
     const mkvparser::Cues* const cues = pSegment->GetCues();
     const mkvparser::CuePoint* cue = cues->GetFirst();
     int cue_point_num = 1;

     printf("\t\tCues\n");
     do {
       for (track_num = 0; track_num < num_tracks; ++track_num) {
         const mkvparser::Track* const track =
             pTracks->GetTrackByIndex(track_num);
         const mkvparser::CuePoint::TrackPosition* const track_pos =
             cue->Find(track);

         if (track_pos != NULL) {
           const char track_type =
               (track->GetType() == mkvparser::Track::kVideo) ? 'V' : 'A';
           printf(
               "\t\t\tCue Point %4d Track %3lu(%c) Time %14lld "
               "Block %4lld Pos %8llx\n",
               cue_point_num, track->GetNumber(), track_type,
               cue->GetTime(pSegment.get()), track_pos->m_block,
               track_pos->m_pos);
         }
       }

       cue = cues->GetNext(cue);
       ++cue_point_num;
     } while (cue != NULL);
   }

   const mkvparser::Tags* const tags = pSegment->GetTags();
   if (tags && tags->GetTagCount() > 0) {
     printf("\t\tTags\n");
     for (int i = 0; i < tags->GetTagCount(); ++i) {
       const mkvparser::Tags::Tag* const tag = tags->GetTag(i);
       printf("\t\t\tTag\n");
       for (int j = 0; j < tag->GetSimpleTagCount(); j++) {
         const mkvparser::Tags::SimpleTag* const simple_tag =
             tag->GetSimpleTag(j);
         printf("\t\t\t\tSimple Tag \"%s\" Value \"%s\"\n",
                simple_tag->GetTagName(), simple_tag->GetTagString());
       }
     }
   }

   fflush(stdout);
   return EXIT_SUCCESS;
 }
	// Copyright (c) 2010 The WebM 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.
	//
	// This sample application demonstrates how to use the Matroska parser
	// library, which allows clients to handle a Matroska format file.
	#include <cstdio>
	#include <cstdlib>
	#include <memory>
	#include <new>

	#include "mkvparser/mkvparser.h"
	#include "mkvparser/mkvreader.h"

	namespace {
	const wchar_t* utf8towcs(const char* str) {
	if (str == NULL)
	return NULL;

	// TODO: this probably requires that the locale be
	// configured somehow:

	const size_t size = mbstowcs(NULL, str, 0);

	if (size == 0 \|\| size == static_cast<size_t>(-1))
	return NULL;

	wchar_t* const val = new (std::nothrow) wchar_t[size + 1];
	if (val == NULL)
	return NULL;

	mbstowcs(val, str, size);
	val[size] = L'\0';

	return val;
	}

	bool InputHasCues(const mkvparser::Segment* const segment) {
	const mkvparser::Cues* const cues = segment->GetCues();
	if (cues == NULL)
	return false;

	while (!cues->DoneParsing())
	cues->LoadCuePoint();

	const mkvparser::CuePoint* const cue_point = cues->GetFirst();
	if (cue_point == NULL)
	return false;

	return true;
	}

	bool MasteringMetadataValuePresent(double value) {
	return value != mkvparser::MasteringMetadata::kValueNotPresent;
	}

	bool ColourValuePresent(long long value) {
	return value != mkvparser::Colour::kValueNotPresent;
	}
	} // namespace

	int main(int argc, char* argv[]) {
	if (argc == 1) {
	printf("Mkv Parser Sample Application\n");
	printf(" Usage: %s <input file> \n", argv[0]);
	return EXIT_FAILURE;
	}

	mkvparser::MkvReader reader;

	if (reader.Open(argv[1])) {
	printf("\n Filename is invalid or error while opening.\n");
	return EXIT_FAILURE;
	}

	int maj, min, build, rev;

	mkvparser::GetVersion(maj, min, build, rev);
	printf("\t\t libwebm version: %d.%d.%d.%d\n", maj, min, build, rev);

	long long pos = 0;

	mkvparser::EBMLHeader ebmlHeader;

	long long ret = ebmlHeader.Parse(&reader, pos);
	if (ret < 0) {
	printf("\n EBMLHeader::Parse() failed.");
	return EXIT_FAILURE;
	}

	printf("\t\t\t EBML Header\n");
	printf("\t\tEBML Version\t\t: %lld\n", ebmlHeader.m_version);
	printf("\t\tEBML MaxIDLength\t: %lld\n", ebmlHeader.m_maxIdLength);
	printf("\t\tEBML MaxSizeLength\t: %lld\n", ebmlHeader.m_maxSizeLength);
	printf("\t\tDoc Type\t\t: %s\n", ebmlHeader.m_docType);
	printf("\t\tPos\t\t\t: %lld\n", pos);

	typedef mkvparser::Segment seg_t;
	seg_t* pSegment_;

	ret = seg_t::CreateInstance(&reader, pos, pSegment_);
	if (ret) {
	printf("\n Segment::CreateInstance() failed.");
	return EXIT_FAILURE;
	}

	const std::unique_ptr<seg_t> pSegment(pSegment_);

	ret = pSegment->Load();
	if (ret < 0) {
	printf("\n Segment::Load() failed.");
	return EXIT_FAILURE;
	}

	const mkvparser::SegmentInfo* const pSegmentInfo = pSegment->GetInfo();
	if (pSegmentInfo == NULL) {
	printf("\n Segment::GetInfo() failed.");
	return EXIT_FAILURE;
	}

	const long long timeCodeScale = pSegmentInfo->GetTimeCodeScale();
	const long long duration_ns = pSegmentInfo->GetDuration();

	const char* const pTitle_ = pSegmentInfo->GetTitleAsUTF8();
	const wchar_t* const pTitle = utf8towcs(pTitle_);

	const char* const pMuxingApp_ = pSegmentInfo->GetMuxingAppAsUTF8();
	const wchar_t* const pMuxingApp = utf8towcs(pMuxingApp_);

	const char* const pWritingApp_ = pSegmentInfo->GetWritingAppAsUTF8();
	const wchar_t* const pWritingApp = utf8towcs(pWritingApp_);

	printf("\n");
	printf("\t\t\t Segment Info\n");
	printf("\t\tTimeCodeScale\t\t: %lld \n", timeCodeScale);
	printf("\t\tDuration\t\t: %lld\n", duration_ns);

	const double duration_sec = double(duration_ns) / 1000000000;
	printf("\t\tDuration(secs)\t\t: %7.3lf\n", duration_sec);

	if (pTitle == NULL)
	printf("\t\tTrack Name\t\t: NULL\n");
	else {
	printf("\t\tTrack Name\t\t: %ls\n", pTitle);
	delete[] pTitle;
	}

	if (pMuxingApp == NULL)
	printf("\t\tMuxing App\t\t: NULL\n");
	else {
	printf("\t\tMuxing App\t\t: %ls\n", pMuxingApp);
	delete[] pMuxingApp;
	}

	if (pWritingApp == NULL)
	printf("\t\tWriting App\t\t: NULL\n");
	else {
	printf("\t\tWriting App\t\t: %ls\n", pWritingApp);
	delete[] pWritingApp;
	}

	// pos of segment payload
	printf("\t\tPosition(Segment)\t: %lld\n", pSegment->m_start);

	// size of segment payload
	printf("\t\tSize(Segment)\t\t: %lld\n", pSegment->m_size);

	const mkvparser::Tracks* pTracks = pSegment->GetTracks();

	unsigned long track_num = 0;
	const unsigned long num_tracks = pTracks->GetTracksCount();

	printf("\n\t\t\t Track Info\n");

	while (track_num != num_tracks) {
	const mkvparser::Track* const pTrack =
	pTracks->GetTrackByIndex(track_num++);

	if (pTrack == NULL)
	continue;

	const long trackType = pTrack->GetType();
	const long trackNumber = pTrack->GetNumber();
	const unsigned long long trackUid = pTrack->GetUid();
	const wchar_t* const pTrackName = utf8towcs(pTrack->GetNameAsUTF8());

	printf("\t\tTrack Type\t\t: %ld\n", trackType);
	printf("\t\tTrack Number\t\t: %ld\n", trackNumber);
	printf("\t\tTrack Uid\t\t: %lld\n", trackUid);

	if (pTrackName == NULL)
	printf("\t\tTrack Name\t\t: NULL\n");
	else {
	printf("\t\tTrack Name\t\t: %ls \n", pTrackName);
	delete[] pTrackName;
	}

	const char* const pCodecId = pTrack->GetCodecId();

	if (pCodecId == NULL)
	printf("\t\tCodec Id\t\t: NULL\n");
	else
	printf("\t\tCodec Id\t\t: %s\n", pCodecId);

	size_t codec_private_size = 0;
	if (pTrack->GetCodecPrivate(codec_private_size)) {
	printf("\t\tCodec private length: %u bytes\n",
	static_cast<unsigned int>(codec_private_size));
	}

	const char* const pCodecName_ = pTrack->GetCodecNameAsUTF8();
	const wchar_t* const pCodecName = utf8towcs(pCodecName_);

	if (pCodecName == NULL)
	printf("\t\tCodec Name\t\t: NULL\n");
	else {
	printf("\t\tCodec Name\t\t: %ls\n", pCodecName);
	delete[] pCodecName;
	}

	if (trackType == mkvparser::Track::kVideo) {
	const mkvparser::VideoTrack* const pVideoTrack =
	static_cast<const mkvparser::VideoTrack*>(pTrack);

	const long long width = pVideoTrack->GetWidth();
	printf("\t\tVideo Width\t\t: %lld\n", width);

	const long long height = pVideoTrack->GetHeight();
	printf("\t\tVideo Height\t\t: %lld\n", height);

	const double rate = pVideoTrack->GetFrameRate();
	printf("\t\tVideo Rate\t\t: %f\n", rate);

	const mkvparser::Colour* const colour = pVideoTrack->GetColour();
	if (colour) {
	printf("\t\tVideo Colour:\n");
	if (ColourValuePresent(colour->matrix_coefficients))
	printf("\t\t\tMatrixCoefficients: %lld\n",
	colour->matrix_coefficients);
	if (ColourValuePresent(colour->bits_per_channel))
	printf("\t\t\tBitsPerChannel: %lld\n", colour->bits_per_channel);
	if (ColourValuePresent(colour->chroma_subsampling_horz))
	printf("\t\t\tChromaSubsamplingHorz: %lld\n",
	colour->chroma_subsampling_horz);
	if (ColourValuePresent(colour->chroma_subsampling_vert))
	printf("\t\t\tChromaSubsamplingVert: %lld\n",
	colour->chroma_subsampling_vert);
	if (ColourValuePresent(colour->cb_subsampling_horz))
	printf("\t\t\tCbSubsamplingHorz: %lld\n",
	colour->cb_subsampling_horz);
	if (ColourValuePresent(colour->cb_subsampling_vert))
	printf("\t\t\tCbSubsamplingVert: %lld\n",
	colour->cb_subsampling_vert);
	if (ColourValuePresent(colour->chroma_siting_horz))
	printf("\t\t\tChromaSitingHorz: %lld\n", colour->chroma_siting_horz);
	if (ColourValuePresent(colour->chroma_siting_vert))
	printf("\t\t\tChromaSitingVert: %lld\n", colour->chroma_siting_vert);
	if (ColourValuePresent(colour->range))
	printf("\t\t\tRange: %lld\n", colour->range);
	if (ColourValuePresent(colour->transfer_characteristics))
	printf("\t\t\tTransferCharacteristics: %lld\n",
	colour->transfer_characteristics);
	if (ColourValuePresent(colour->primaries))
	printf("\t\t\tPrimaries: %lld\n", colour->primaries);
	if (ColourValuePresent(colour->max_cll))
	printf("\t\t\tMaxCLL: %lld\n", colour->max_cll);
	if (ColourValuePresent(colour->max_fall))
	printf("\t\t\tMaxFALL: %lld\n", colour->max_fall);
	if (colour->mastering_metadata) {
	const mkvparser::MasteringMetadata* const mm =
	colour->mastering_metadata;
	printf("\t\t\tMastering Metadata:\n");
	if (MasteringMetadataValuePresent(mm->luminance_max))
	printf("\t\t\t\tLuminanceMax: %f\n", mm->luminance_max);
	if (MasteringMetadataValuePresent(mm->luminance_min))
	printf("\t\t\t\tLuminanceMin: %f\n", mm->luminance_min);
	if (mm->r) {
	printf("\t\t\t\t\tPrimaryRChromaticityX: %f\n", mm->r->x);
	printf("\t\t\t\t\tPrimaryRChromaticityY: %f\n", mm->r->y);
	}
	if (mm->g) {
	printf("\t\t\t\t\tPrimaryGChromaticityX: %f\n", mm->g->x);
	printf("\t\t\t\t\tPrimaryGChromaticityY: %f\n", mm->g->y);
	}
	if (mm->b) {
	printf("\t\t\t\t\tPrimaryBChromaticityX: %f\n", mm->b->x);
	printf("\t\t\t\t\tPrimaryBChromaticityY: %f\n", mm->b->y);
	}
	if (mm->white_point) {
	printf("\t\t\t\t\tWhitePointChromaticityX: %f\n",
	mm->white_point->x);
	printf("\t\t\t\t\tWhitePointChromaticityY: %f\n",
	mm->white_point->y);
	}
	}
	}

	const mkvparser::Projection* const projection =
	pVideoTrack->GetProjection();
	if (projection) {
	printf("\t\tVideo Projection:\n");
	if (projection->type != mkvparser::Projection::kTypeNotPresent)
	printf("\t\t\tProjectionType: %d\n",
	static_cast<int>(projection->type));
	if (projection->private_data) {
	printf("\t\t\tProjectionPrivate: %u bytes\n",
	static_cast<unsigned int>(projection->private_data_length));
	}
	if (projection->pose_yaw != mkvparser::Projection::kValueNotPresent)
	printf("\t\t\tProjectionPoseYaw: %f\n", projection->pose_yaw);
	if (projection->pose_pitch != mkvparser::Projection::kValueNotPresent)
	printf("\t\t\tProjectionPosePitch: %f\n", projection->pose_pitch);
	if (projection->pose_roll != mkvparser::Projection::kValueNotPresent)
	printf("\t\t\tProjectionPosePitch: %f\n", projection->pose_roll);
	}
	}

	if (trackType == mkvparser::Track::kAudio) {
	const mkvparser::AudioTrack* const pAudioTrack =
	static_cast<const mkvparser::AudioTrack*>(pTrack);

	const long long channels = pAudioTrack->GetChannels();
	printf("\t\tAudio Channels\t\t: %lld\n", channels);

	const long long bitDepth = pAudioTrack->GetBitDepth();
	printf("\t\tAudio BitDepth\t\t: %lld\n", bitDepth);

	const double sampleRate = pAudioTrack->GetSamplingRate();
	printf("\t\tAddio Sample Rate\t: %.3f\n", sampleRate);

	const long long codecDelay = pAudioTrack->GetCodecDelay();
	printf("\t\tAudio Codec Delay\t\t: %lld\n", codecDelay);

	const long long seekPreRoll = pAudioTrack->GetSeekPreRoll();
	printf("\t\tAudio Seek Pre Roll\t\t: %lld\n", seekPreRoll);
	}
	}

	printf("\n\n\t\t\t Cluster Info\n");
	const unsigned long clusterCount = pSegment->GetCount();

	printf("\t\tCluster Count\t: %ld\n\n", clusterCount);

	if (clusterCount == 0) {
	printf("\t\tSegment has no clusters.\n");
	return EXIT_FAILURE;
	}

	const mkvparser::Cluster* pCluster = pSegment->GetFirst();

	while (pCluster != NULL && !pCluster->EOS()) {
	const long long timeCode = pCluster->GetTimeCode();
	printf("\t\tCluster Time Code\t: %lld\n", timeCode);

	const long long time_ns = pCluster->GetTime();
	printf("\t\tCluster Time (ns)\t: %lld\n", time_ns);

	const mkvparser::BlockEntry* pBlockEntry;

	long status = pCluster->GetFirst(pBlockEntry);

	if (status < 0) // error
	{
	printf("\t\tError parsing first block of cluster\n");
	fflush(stdout);
	return EXIT_FAILURE;
	}

	while (pBlockEntry != NULL && !pBlockEntry->EOS()) {
	const mkvparser::Block* const pBlock = pBlockEntry->GetBlock();
	const long long trackNum = pBlock->GetTrackNumber();
	const unsigned long tn = static_cast<unsigned long>(trackNum);
	const mkvparser::Track* const pTrack = pTracks->GetTrackByNumber(tn);

	if (pTrack == NULL)
	printf("\t\t\tBlock\t\t:UNKNOWN TRACK TYPE\n");
	else {
	const long long trackType = pTrack->GetType();
	const int frameCount = pBlock->GetFrameCount();
	const long long time_ns = pBlock->GetTime(pCluster);
	const long long discard_padding = pBlock->GetDiscardPadding();

	printf("\t\t\tBlock\t\t:%s,%s,%15lld,%lld\n",
	(trackType == mkvparser::Track::kVideo) ? "V" : "A",
	pBlock->IsKey() ? "I" : "P", time_ns, discard_padding);

	for (int i = 0; i < frameCount; ++i) {
	const mkvparser::Block::Frame& theFrame = pBlock->GetFrame(i);
	const long size = theFrame.len;
	const long long offset = theFrame.pos;
	printf("\t\t\t %15ld,%15llx\n", size, offset);
	}
	}

	status = pCluster->GetNext(pBlockEntry, pBlockEntry);

	if (status < 0) {
	printf("\t\t\tError parsing next block of cluster\n");
	fflush(stdout);
	return EXIT_FAILURE;
	}
	}

	pCluster = pSegment->GetNext(pCluster);
	}

	if (InputHasCues(pSegment.get())) {
	// Walk them.
	const mkvparser::Cues* const cues = pSegment->GetCues();
	const mkvparser::CuePoint* cue = cues->GetFirst();
	int cue_point_num = 1;

	printf("\t\tCues\n");
	do {
	for (track_num = 0; track_num < num_tracks; ++track_num) {
	const mkvparser::Track* const track =
	pTracks->GetTrackByIndex(track_num);
	const mkvparser::CuePoint::TrackPosition* const track_pos =
	cue->Find(track);

	if (track_pos != NULL) {
	const char track_type =
	(track->GetType() == mkvparser::Track::kVideo) ? 'V' : 'A';
	printf(
	"\t\t\tCue Point %4d Track %3lu(%c) Time %14lld "
	"Block %4lld Pos %8llx\n",
	cue_point_num, track->GetNumber(), track_type,
	cue->GetTime(pSegment.get()), track_pos->m_block,
	track_pos->m_pos);
	}
	}

	cue = cues->GetNext(cue);
	++cue_point_num;
	} while (cue != NULL);
	}

	const mkvparser::Tags* const tags = pSegment->GetTags();
	if (tags && tags->GetTagCount() > 0) {
	printf("\t\tTags\n");
	for (int i = 0; i < tags->GetTagCount(); ++i) {
	const mkvparser::Tags::Tag* const tag = tags->GetTag(i);
	printf("\t\t\tTag\n");
	for (int j = 0; j < tag->GetSimpleTagCount(); j++) {
	const mkvparser::Tags::SimpleTag* const simple_tag =
	tag->GetSimpleTag(j);
	printf("\t\t\t\tSimple Tag \"%s\" Value \"%s\"\n",
	simple_tag->GetTagName(), simple_tag->GetTagString());
	}
	}
	}

	fflush(stdout);
	return EXIT_SUCCESS;
	}