#pragma option push -b -a8 -pc -A- /*P_O_Push*/ //==========================================================================; // // Copyright (c) 1996 - 1997 Microsoft Corporation. All Rights Reserved. // //--------------------------------------------------------------------------; #pragma warning(disable: 4097 4511 4512 4514 4705) /*+ * * Structures and defines for the RIFF AVI file format extended to * handle very large/long files * *-=====================================================================*/ #if !defined AVIRIFF_H #define AVIRIFF_H #if !defined NUMELMS #define NUMELMS(aa) (sizeof(aa)/sizeof((aa)[0])) #endif // all structures in this file are packed on word boundaries // #include /* * heres the general layout of an AVI riff file (new format) * * RIFF (3F??????) AVI <- not more than 1 GB in size * LIST (size) hdrl * avih (0038) * LIST (size) strl * strh (0038) * strf (????) * indx (3ff8) <- size may vary, should be sector sized * LIST (size) strl * strh (0038) * strf (????) * indx (3ff8) <- size may vary, should be sector sized * LIST (size) odml * dmlh (????) * JUNK (size) <- fill to align to sector - 12 * LIST (7f??????) movi <- aligned on sector - 12 * 00dc (size) <- sector aligned * 01wb (size) <- sector aligned * ix00 (size) <- sector aligned * idx1 (00??????) <- sector aligned * RIFF (7F??????) AVIX * JUNK (size) <- fill to align to sector -12 * LIST (size) movi * 00dc (size) <- sector aligned * RIFF (7F??????) AVIX <- not more than 2GB in size * JUNK (size) <- fill to align to sector - 12 * LIST (size) movi * 00dc (size) <- sector aligned * *-===================================================================*/ // // structures for manipulating RIFF headers // #define FCC(ch4) ((((DWORD)(ch4) & 0xFF) << 24) | \ (((DWORD)(ch4) & 0xFF00) << 8) | \ (((DWORD)(ch4) & 0xFF0000) >> 8) | \ (((DWORD)(ch4) & 0xFF000000) >> 24)) typedef struct _riffchunk { FOURCC fcc; DWORD cb; } RIFFCHUNK, * LPRIFFCHUNK; typedef struct _rifflist { FOURCC fcc; DWORD cb; FOURCC fccListType; } RIFFLIST, * LPRIFFLIST; #define RIFFROUND(cb) ((cb) + ((cb)&1)) #define RIFFNEXT(pChunk) (LPRIFFCHUNK)((LPBYTE)(pChunk) \ + sizeof(RIFFCHUNK) \ + RIFFROUND(((LPRIFFCHUNK)pChunk)->cb)) // // ==================== avi header structures =========================== // // main header for the avi file (compatibility header) // #define ckidMAINAVIHEADER FCC('avih') typedef struct _avimainheader { FOURCC fcc; // 'avih' DWORD cb; // size of this structure -8 DWORD dwMicroSecPerFrame; // frame display rate (or 0L) DWORD dwMaxBytesPerSec; // max. transfer rate DWORD dwPaddingGranularity; // pad to multiples of this size; normally 2K. DWORD dwFlags; // the ever-present flags #define AVIF_HASINDEX 0x00000010 // Index at end of file? #define AVIF_MUSTUSEINDEX 0x00000020 #define AVIF_ISINTERLEAVED 0x00000100 #define AVIF_TRUSTCKTYPE 0x00000800 // Use CKType to find key frames #define AVIF_WASCAPTUREFILE 0x00010000 #define AVIF_COPYRIGHTED 0x00020000 DWORD dwTotalFrames; // # frames in first movi list DWORD dwInitialFrames; DWORD dwStreams; DWORD dwSuggestedBufferSize; DWORD dwWidth; DWORD dwHeight; DWORD dwReserved[4]; } AVIMAINHEADER; #define ckidODML FCC('odml') #define ckidAVIEXTHEADER FCC('dmlh') typedef struct _aviextheader { FOURCC fcc; // 'dmlh' DWORD cb; // size of this structure -8 DWORD dwGrandFrames; // total number of frames in the file DWORD dwFuture[61]; // to be defined later } AVIEXTHEADER; // // structure of an AVI stream header riff chunk // #define ckidSTREAMLIST FCC('strl') #ifndef ckidSTREAMHEADER #define ckidSTREAMHEADER FCC('strh') #endif typedef struct _avistreamheader { FOURCC fcc; // 'strh' DWORD cb; // size of this structure - 8 FOURCC fccType; // stream type codes #ifndef streamtypeVIDEO #define streamtypeVIDEO FCC('vids') #define streamtypeAUDIO FCC('auds') #define streamtypeMIDI FCC('mids') #define streamtypeTEXT FCC('txts') #endif FOURCC fccHandler; DWORD dwFlags; #define AVISF_DISABLED 0x00000001 #define AVISF_VIDEO_PALCHANGES 0x00010000 WORD wPriority; WORD wLanguage; DWORD dwInitialFrames; DWORD dwScale; DWORD dwRate; // dwRate/dwScale is stream tick rate in ticks/sec DWORD dwStart; DWORD dwLength; DWORD dwSuggestedBufferSize; DWORD dwQuality; DWORD dwSampleSize; struct { short int left; short int top; short int right; short int bottom; } rcFrame; } AVISTREAMHEADER; // // structure of an AVI stream format chunk // #ifndef ckidSTREAMFORMAT #define ckidSTREAMFORMAT FCC('strf') #endif // // avi stream formats are different for each stream type // // BITMAPINFOHEADER for video streams // WAVEFORMATEX or PCMWAVEFORMAT for audio streams // nothing for text streams // nothing for midi streams #pragma warning(disable:4200) // // structure of old style AVI index // #define ckidAVIOLDINDEX FCC('idx1') typedef struct _avioldindex { FOURCC fcc; // 'idx1' DWORD cb; // size of this structure -8 struct _avioldindex_entry { DWORD dwChunkId; DWORD dwFlags; #ifndef AVIIF_LIST #define AVIIF_LIST 0x00000001 #define AVIIF_KEYFRAME 0x00000010 #endif #define AVIIF_NO_TIME 0x00000100 #define AVIIF_COMPRESSOR 0x0FFF0000 // unused? DWORD dwOffset; // offset of riff chunk header for the data DWORD dwSize; // size of the data (excluding riff header size) } aIndex[]; // size of this array } AVIOLDINDEX; // // ============ structures for timecode in an AVI file ================= // #ifndef TIMECODE_DEFINED #define TIMECODE_DEFINED // defined // timecode time structure // typedef union _timecode { struct { WORD wFrameRate; WORD wFrameFract; LONG cFrames; }; DWORDLONG qw; } TIMECODE; #endif // TIMECODE_DEFINED #define TIMECODE_RATE_30DROP 0 // this MUST be zero // struct for all the SMPTE timecode info // typedef struct _timecodedata { TIMECODE time; DWORD dwSMPTEflags; DWORD dwUser; } TIMECODEDATA; // dwSMPTEflags masks/values // #define TIMECODE_SMPTE_BINARY_GROUP 0x07 #define TIMECODE_SMPTE_COLOR_FRAME 0x08 // // ============ structures for new style AVI indexes ================= // // index type codes // #define AVI_INDEX_OF_INDEXES 0x00 #define AVI_INDEX_OF_CHUNKS 0x01 #define AVI_INDEX_OF_TIMED_CHUNKS 0x02 #define AVI_INDEX_OF_SUB_2FIELD 0x03 #define AVI_INDEX_IS_DATA 0x80 // index subtype codes // #define AVI_INDEX_SUB_DEFAULT 0x00 // INDEX_OF_CHUNKS subtype codes // #define AVI_INDEX_SUB_2FIELD 0x01 // meta structure of all avi indexes // typedef struct _avimetaindex { FOURCC fcc; UINT cb; WORD wLongsPerEntry; BYTE bIndexSubType; BYTE bIndexType; DWORD nEntriesInUse; DWORD dwChunkId; DWORD dwReserved[3]; DWORD adwIndex[]; } AVIMETAINDEX; #define STDINDEXSIZE 0x4000 #define NUMINDEX(wLongsPerEntry) ((STDINDEXSIZE-32)/4/(wLongsPerEntry)) #define NUMINDEXFILL(wLongsPerEntry) ((STDINDEXSIZE/4) - NUMINDEX(wLongsPerEntry)) // structure of a super index (INDEX_OF_INDEXES) // #define ckidAVISUPERINDEX FCC('indx') typedef struct _avisuperindex { FOURCC fcc; // 'indx' UINT cb; // size of this structure WORD wLongsPerEntry; // ==4 BYTE bIndexSubType; // ==0 (frame index) or AVI_INDEX_SUB_2FIELD BYTE bIndexType; // ==AVI_INDEX_OF_INDEXES DWORD nEntriesInUse; // offset of next unused entry in aIndex DWORD dwChunkId; // chunk ID of chunks being indexed, (i.e. RGB8) DWORD dwReserved[3]; // must be 0 struct _avisuperindex_entry { DWORDLONG qwOffset; // 64 bit offset to sub index chunk DWORD dwSize; // 32 bit size of sub index chunk DWORD dwDuration; // time span of subindex chunk (in stream ticks) } aIndex[NUMINDEX(4)]; } AVISUPERINDEX; #define Valid_SUPERINDEX(pi) (*(DWORD *)(&((pi)->wLongsPerEntry)) == (4 | (AVI_INDEX_OF_INDEXES << 24))) // struct of a standard index (AVI_INDEX_OF_CHUNKS) // typedef struct _avistdindex_entry { DWORD dwOffset; // 32 bit offset to data (points to data, not riff header) DWORD dwSize; // 31 bit size of data (does not include size of riff header), bit 31 is deltaframe bit } AVISTDINDEX_ENTRY; #define AVISTDINDEX_DELTAFRAME ( 0x80000000) // Delta frames have the high bit set #define AVISTDINDEX_SIZEMASK (~0x80000000) typedef struct _avistdindex { FOURCC fcc; // 'indx' or '##ix' UINT cb; // size of this structure WORD wLongsPerEntry; // ==2 BYTE bIndexSubType; // ==0 BYTE bIndexType; // ==AVI_INDEX_OF_CHUNKS DWORD nEntriesInUse; // offset of next unused entry in aIndex DWORD dwChunkId; // chunk ID of chunks being indexed, (i.e. RGB8) DWORDLONG qwBaseOffset; // base offset that all index intries are relative to DWORD dwReserved_3; // must be 0 AVISTDINDEX_ENTRY aIndex[NUMINDEX(2)]; } AVISTDINDEX; // struct of a time variant standard index (AVI_INDEX_OF_TIMED_CHUNKS) // typedef struct _avitimedindex_entry { DWORD dwOffset; // 32 bit offset to data (points to data, not riff header) DWORD dwSize; // 31 bit size of data (does not include size of riff header) (high bit is deltaframe bit) DWORD dwDuration; // how much time the chunk should be played (in stream ticks) } AVITIMEDINDEX_ENTRY; typedef struct _avitimedindex { FOURCC fcc; // 'indx' or '##ix' UINT cb; // size of this structure WORD wLongsPerEntry; // ==3 BYTE bIndexSubType; // ==0 BYTE bIndexType; // ==AVI_INDEX_OF_TIMED_CHUNKS DWORD nEntriesInUse; // offset of next unused entry in aIndex DWORD dwChunkId; // chunk ID of chunks being indexed, (i.e. RGB8) DWORDLONG qwBaseOffset; // base offset that all index intries are relative to DWORD dwReserved_3; // must be 0 AVITIMEDINDEX_ENTRY aIndex[NUMINDEX(3)]; DWORD adwTrailingFill[NUMINDEXFILL(3)]; // to align struct to correct size } AVITIMEDINDEX; // structure of a timecode stream // typedef struct _avitimecodeindex { FOURCC fcc; // 'indx' or '##ix' UINT cb; // size of this structure WORD wLongsPerEntry; // ==4 BYTE bIndexSubType; // ==0 BYTE bIndexType; // ==AVI_INDEX_IS_DATA DWORD nEntriesInUse; // offset of next unused entry in aIndex DWORD dwChunkId; // 'time' DWORD dwReserved[3]; // must be 0 TIMECODEDATA aIndex[NUMINDEX(sizeof(TIMECODEDATA)/sizeof(LONG))]; } AVITIMECODEINDEX; // structure of a timecode discontinuity list (when wLongsPerEntry == 7) // typedef struct _avitcdlindex_entry { DWORD dwTick; // stream tick time that maps to this timecode value TIMECODE time; DWORD dwSMPTEflags; DWORD dwUser; TCHAR szReelId[12]; } AVITCDLINDEX_ENTRY; typedef struct _avitcdlindex { FOURCC fcc; // 'indx' or '##ix' UINT cb; // size of this structure WORD wLongsPerEntry; // ==7 (must be 4 or more all 'tcdl' indexes BYTE bIndexSubType; // ==0 BYTE bIndexType; // ==AVI_INDEX_IS_DATA DWORD nEntriesInUse; // offset of next unused entry in aIndex DWORD dwChunkId; // 'tcdl' DWORD dwReserved[3]; // must be 0 AVITCDLINDEX_ENTRY aIndex[NUMINDEX(7)]; DWORD adwTrailingFill[NUMINDEXFILL(7)]; // to align struct to correct size } AVITCDLINDEX; typedef struct _avifieldindex_chunk { FOURCC fcc; // 'ix##' DWORD cb; // size of this structure WORD wLongsPerEntry; // must be 3 (size of each entry in // aIndex array) BYTE bIndexSubType; // AVI_INDEX_2FIELD BYTE bIndexType; // AVI_INDEX_OF_CHUNKS DWORD nEntriesInUse; // DWORD dwChunkId; // '##dc' or '##db' DWORDLONG qwBaseOffset; // offsets in aIndex array are relative to this DWORD dwReserved3; // must be 0 struct _avifieldindex_entry { DWORD dwOffset; DWORD dwSize; // size of all fields // (bit 31 set for NON-keyframes) DWORD dwOffsetField2; // offset to second field } aIndex[ ]; } AVIFIELDINDEX, * PAVIFIELDINDEX; #include #endif #pragma option pop /*P_O_Pop*/