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#ifndef MKVPARSER_HPP
#define MKVPARSER_HPP
#include <cstdlib>
#include <cstdio>
namespace mkvparser
{
const int E_FILE_FORMAT_INVALID = -2;
const int E_BUFFER_NOT_FULL = -3;
class IMkvReader
{
public:
virtual int Read(long long position, long length, unsigned char* buffer) = 0;
virtual int Length(long long* total, long long* available) = 0;
protected:
virtual ~IMkvReader();
};
long long GetUIntLength(IMkvReader*, long long, long&);
long long ReadUInt(IMkvReader*, long long, long&);
long long SyncReadUInt(IMkvReader*, long long pos, long long stop, long&);
long long UnserializeUInt(IMkvReader*, long long pos, long long size);
float Unserialize4Float(IMkvReader*, long long);
double Unserialize8Double(IMkvReader*, long long);
short Unserialize2SInt(IMkvReader*, long long);
signed char Unserialize1SInt(IMkvReader*, long long);
bool Match(IMkvReader*, long long&, unsigned long, long long&);
bool Match(IMkvReader*, long long&, unsigned long, char*&);
bool Match(IMkvReader*, long long&, unsigned long,unsigned char*&,
size_t *optionalSize = NULL);
bool Match(IMkvReader*, long long&, unsigned long, double&);
bool Match(IMkvReader*, long long&, unsigned long, short&);
struct EBMLHeader
{
EBMLHeader();
~EBMLHeader();
long long m_version;
long long m_readVersion;
long long m_maxIdLength;
long long m_maxSizeLength;
char* m_docType;
long long m_docTypeVersion;
long long m_docTypeReadVersion;
long long Parse(IMkvReader*, long long&);
};
class Segment;
class Track;
class Cluster;
class Block
{
Block(const Block&);
Block& operator=(const Block&);
public:
const long long m_start;
const long long m_size;
Block(long long start, long long size, IMkvReader*);
unsigned long GetTrackNumber() const;
long long GetTimeCode(Cluster*) const; //absolute, but not scaled
long long GetTime(Cluster*) const; //absolute, and scaled (nanosecond units)
bool IsKey() const;
void SetKey(bool);
long GetSize() const;
long Read(IMkvReader*, unsigned char*) const;
private:
long long m_track; //Track::Number()
short m_timecode; //relative to cluster
unsigned char m_flags;
long long m_frameOff;
long m_frameSize;
};
class BlockEntry
{
BlockEntry(const BlockEntry&);
BlockEntry& operator=(const BlockEntry&);
public:
virtual ~BlockEntry();
virtual bool EOS() const = 0;
virtual Cluster* GetCluster() const = 0;
virtual size_t GetIndex() const = 0;
virtual const Block* GetBlock() const = 0;
virtual bool IsBFrame() const = 0;
protected:
BlockEntry();
};
class SimpleBlock : public BlockEntry
{
SimpleBlock(const SimpleBlock&);
SimpleBlock& operator=(const SimpleBlock&);
public:
SimpleBlock(Cluster*, size_t, long long start, long long size);
bool EOS() const;
Cluster* GetCluster() const;
size_t GetIndex() const;
const Block* GetBlock() const;
bool IsBFrame() const;
protected:
Cluster* const m_pCluster;
const size_t m_index;
Block m_block;
};
class BlockGroup : public BlockEntry
{
BlockGroup(const BlockGroup&);
BlockGroup& operator=(const BlockGroup&);
public:
BlockGroup(Cluster*, size_t, long long, long long);
~BlockGroup();
bool EOS() const;
Cluster* GetCluster() const;
size_t GetIndex() const;
const Block* GetBlock() const;
bool IsBFrame() const;
short GetPrevTimeCode() const; //relative to block's time
short GetNextTimeCode() const; //as above
protected:
Cluster* const m_pCluster;
const size_t m_index;
private:
BlockGroup(Cluster*, size_t, unsigned long);
void ParseBlock(long long start, long long size);
short m_prevTimeCode;
short m_nextTimeCode;
//TODO: the Matroska spec says you can have multiple blocks within the
//same block group, with blocks ranked by priority (the flag bits).
//For now we just cache a single block.
#if 0
typedef std::deque<Block*> blocks_t;
blocks_t m_blocks; //In practice should contain only a single element.
#else
Block* m_pBlock;
#endif
};
class Track
{
Track(const Track&);
Track& operator=(const Track&);
public:
Segment* const m_pSegment;
virtual ~Track();
long long GetType() const;
unsigned long GetNumber() const;
const char* GetNameAsUTF8() const;
const char* GetCodecNameAsUTF8() const;
const char* GetCodecId() const;
const unsigned char* GetCodecPrivate(
size_t *optionalSize = NULL) const;
const BlockEntry* GetEOS() const;
struct Settings
{
long long start;
long long size;
};
struct Info
{
long long type;
long long number;
long long uid;
char* nameAsUTF8;
char* codecId;
unsigned char* codecPrivate;
size_t codecPrivateSize;
char* codecNameAsUTF8;
Settings settings;
Info();
void Clear();
};
long GetFirst(const BlockEntry*&) const;
long GetNext(const BlockEntry* pCurr, const BlockEntry*& pNext) const;
virtual bool VetEntry(const BlockEntry*) const = 0;
protected:
Track(Segment*, const Info&);
const Info m_info;
class EOSBlock : public BlockEntry
{
public:
EOSBlock();
bool EOS() const;
Cluster* GetCluster() const;
size_t GetIndex() const;
const Block* GetBlock() const;
bool IsBFrame() const;
};
EOSBlock m_eos;
};
class VideoTrack : public Track
{
VideoTrack(const VideoTrack&);
VideoTrack& operator=(const VideoTrack&);
public:
VideoTrack(Segment*, const Info&);
long long GetWidth() const;
long long GetHeight() const;
double GetFrameRate() const;
bool VetEntry(const BlockEntry*) const;
private:
long long m_width;
long long m_height;
double m_rate;
};
class AudioTrack : public Track
{
AudioTrack(const AudioTrack&);
AudioTrack& operator=(const AudioTrack&);
public:
AudioTrack(Segment*, const Info&);
double GetSamplingRate() const;
long long GetChannels() const;
long long GetBitDepth() const;
bool VetEntry(const BlockEntry*) const;
private:
double m_rate;
long long m_channels;
long long m_bitDepth;
};
class Tracks
{
Tracks(const Tracks&);
Tracks& operator=(const Tracks&);
public:
Segment* const m_pSegment;
const long long m_start;
const long long m_size;
Tracks(Segment*, long long start, long long size);
virtual ~Tracks();
Track* GetTrackByNumber(unsigned long tn) const;
Track* GetTrackByIndex(unsigned long idx) const;
private:
Track** m_trackEntries;
Track** m_trackEntriesEnd;
void ParseTrackEntry(long long, long long, Track*&);
public:
unsigned long GetTracksCount() const;
};
class SegmentInfo
{
SegmentInfo(const SegmentInfo&);
SegmentInfo& operator=(const SegmentInfo&);
public:
Segment* const m_pSegment;
const long long m_start;
const long long m_size;
SegmentInfo(Segment*, long long start, long long size);
~SegmentInfo();
long long GetTimeCodeScale() const;
long long GetDuration() const; //scaled
const char* GetMuxingAppAsUTF8() const;
const char* GetWritingAppAsUTF8() const;
const char* GetTitleAsUTF8() const;
private:
long long m_timecodeScale;
double m_duration;
char* m_pMuxingAppAsUTF8;
char* m_pWritingAppAsUTF8;
char* m_pTitleAsUTF8;
};
class Cluster
{
Cluster(const Cluster&);
Cluster& operator=(const Cluster&);
public:
Segment* const m_pSegment;
const size_t m_index;
public:
static Cluster* Parse(Segment*, size_t, long long off);
Cluster(); //EndOfStream
~Cluster();
bool EOS() const;
long long GetTimeCode(); //absolute, but not scaled
long long GetTime(); //absolute, and scaled (nanosecond units)
const BlockEntry* GetFirst();
const BlockEntry* GetLast();
const BlockEntry* GetNext(const BlockEntry*) const;
const BlockEntry* GetEntry(const Track*);
protected:
Cluster(Segment*, size_t, long long off);
private:
long long m_start;
long long m_size;
long long m_timecode;
BlockEntry** m_pEntries;
size_t m_entriesCount;
void Load();
void LoadBlockEntries();
void ParseBlockGroup(long long, long long, size_t);
void ParseSimpleBlock(long long, long long, size_t);
};
class Segment
{
Segment(const Segment&);
Segment& operator=(const Segment&);
private:
Segment(IMkvReader*, long long pos, long long size);
public:
IMkvReader* const m_pReader;
const long long m_start; //posn of segment payload
const long long m_size; //size of segment payload
Cluster m_eos; //TODO: make private?
static long long CreateInstance(IMkvReader*, long long, Segment*&);
~Segment();
//for big-bang loading (source filter)
long Load();
//for incremental loading (splitter)
long long Unparsed() const;
long long ParseHeaders();
long ParseCluster(Cluster*&, long long& newpos) const;
bool AddCluster(Cluster*, long long);
Tracks* GetTracks() const;
const SegmentInfo* const GetInfo() const;
long long GetDuration() const;
//NOTE: this turned out to be too inefficient.
//long long Load(long long time_nanoseconds);
Cluster* GetFirst();
Cluster* GetLast();
unsigned long GetCount() const;
Cluster* GetNext(const Cluster*);
Cluster* GetCluster(long long time_nanoseconds);
private:
long long m_pos; //absolute file posn; what has been consumed so far
SegmentInfo* m_pInfo;
Tracks* m_pTracks;
Cluster** m_clusters;
size_t m_clusterCount;
void ParseSeekHead(long long pos, long long size, size_t*);
void ParseSeekEntry(long long pos, long long size, size_t*);
void ParseSecondarySeekHead(long long off, size_t*);
};
} //end namespace mkvparser
#endif //MKVPARSER_HPP
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