1
0
mirror of https://github.com/mpv-player/mpv synced 2024-12-27 17:42:17 +00:00
mpv/demux/aviheader.h

383 lines
14 KiB
C
Raw Normal View History

/*
* This file is part of MPlayer.
*
* MPlayer is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* MPlayer is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with MPlayer; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#ifndef MPLAYER_AVIHEADER_H
#define MPLAYER_AVIHEADER_H
#include <sys/types.h>
#include <stdint.h>
Remove compile time/runtime CPU detection, and drop some platforms mplayer had three ways of enabling CPU specific assembler routines: a) Enable them at compile time; crash if the CPU can't handle it. b) Enable them at compile time, but let the configure script detect your CPU. Your binary will only crash if you try to run it on a different system that has less features than yours. This was the default, I think. c) Runtime detection. The implementation of b) and c) suck. a) is not really feasible (it sucks for users). Remove all code related to this, and use libav's CPU detection instead. Now the configure script will always enable CPU specific features, and disable them at runtime if libav reports them not as available. One implication is that now the compiler is always expected to handle SSE (etc.) inline assembly at runtime, unless it's explicitly disabled. Only checks for x86 CPU specific features are kept, the rest is either unused or barely used. Get rid of all the dump -mpcu, -march etc. flags. Trust the compiler to select decent settings. Get rid of support for the following operating systems: - BSD/OS (some ancient BSD fork) - QNX (don't care) - BeOS (dead, Haiku support is still welcome) - AIX (don't care) - HP-UX (don't care) - OS/2 (dead, actual support has been removed a while ago) Remove the configure code for detecting the endianness. Instead, use the standard header <endian.h>, which can be used if _GNU_SOURCE or _BSD_SOURCE is defined. (Maybe these changes should have been in a separate commit.) Since this is a quite violent code removal orgy, and I'm testing only on x86 32 bit Linux, expect regressions.
2012-07-29 15:20:57 +00:00
#include "config.h"
#include "libavutil/common.h"
#include "compat/mpbswap.h"
#ifndef mmioFOURCC
#define mmioFOURCC( ch0, ch1, ch2, ch3 ) \
( (uint32_t)(uint8_t)(ch0) | ( (uint32_t)(uint8_t)(ch1) << 8 ) | \
( (uint32_t)(uint8_t)(ch2) << 16 ) | ( (uint32_t)(uint8_t)(ch3) << 24 ) )
#endif
/* Macro to make a TWOCC out of two characters */
#ifndef aviTWOCC
#define aviTWOCC(ch0, ch1) ((uint16_t)(uint8_t)(ch0) | ((uint16_t)(uint8_t)(ch1) << 8))
#endif
//typedef uint16_t TWOCC;
//typedef uint32_t FOURCC;
/* form types, list types, and chunk types */
#define formtypeAVI mmioFOURCC('A', 'V', 'I', ' ')
#define listtypeAVIHEADER mmioFOURCC('h', 'd', 'r', 'l')
#define ckidAVIMAINHDR mmioFOURCC('a', 'v', 'i', 'h')
#define listtypeSTREAMHEADER mmioFOURCC('s', 't', 'r', 'l')
#define ckidSTREAMHEADER mmioFOURCC('s', 't', 'r', 'h')
#define ckidSTREAMFORMAT mmioFOURCC('s', 't', 'r', 'f')
#define ckidSTREAMHANDLERDATA mmioFOURCC('s', 't', 'r', 'd')
#define ckidSTREAMNAME mmioFOURCC('s', 't', 'r', 'n')
#define listtypeAVIMOVIE mmioFOURCC('m', 'o', 'v', 'i')
#define listtypeAVIRECORD mmioFOURCC('r', 'e', 'c', ' ')
#define ckidAVINEWINDEX mmioFOURCC('i', 'd', 'x', '1')
/*
** Stream types for the <fccType> field of the stream header.
*/
#define streamtypeVIDEO mmioFOURCC('v', 'i', 'd', 's')
#define streamtypeAUDIO mmioFOURCC('a', 'u', 'd', 's')
#define streamtypeMIDI mmioFOURCC('m', 'i', 'd', 's')
#define streamtypeTEXT mmioFOURCC('t', 'x', 't', 's')
/* Basic chunk types */
#define cktypeDIBbits aviTWOCC('d', 'b')
#define cktypeDIBcompressed aviTWOCC('d', 'c')
#define cktypePALchange aviTWOCC('p', 'c')
#define cktypeWAVEbytes aviTWOCC('w', 'b')
/* Chunk id to use for extra chunks for padding. */
#define ckidAVIPADDING mmioFOURCC('J', 'U', 'N', 'K')
/* flags for use in <dwFlags> in AVIFileHdr */
#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
typedef struct
{
uint32_t dwMicroSecPerFrame; // frame display rate (or 0L)
uint32_t dwMaxBytesPerSec; // max. transfer rate
uint32_t dwPaddingGranularity; // pad to multiples of this
// size; normally 2K.
uint32_t dwFlags; // the ever-present flags
uint32_t dwTotalFrames; // # frames in file
uint32_t dwInitialFrames;
uint32_t dwStreams;
uint32_t dwSuggestedBufferSize;
uint32_t dwWidth;
uint32_t dwHeight;
uint32_t dwReserved[4];
} MainAVIHeader;
typedef struct rectangle_t {
short left;
short top;
short right;
short bottom;
} rectangle_t;
typedef struct {
uint32_t fccType;
uint32_t fccHandler;
uint32_t dwFlags; /* Contains AVITF_* flags */
uint16_t wPriority;
uint16_t wLanguage;
uint32_t dwInitialFrames;
uint32_t dwScale;
uint32_t dwRate; /* dwRate / dwScale == samples/second */
uint32_t dwStart;
uint32_t dwLength; /* In units above... */
uint32_t dwSuggestedBufferSize;
uint32_t dwQuality;
uint32_t dwSampleSize;
rectangle_t rcFrame;
} AVIStreamHeader;
/* Flags for index */
#define AVIIF_LIST 0x00000001L // chunk is a 'LIST'
#define AVIIF_KEYFRAME 0x00000010L // this frame is a key frame.
#define AVIIF_NOTIME 0x00000100L // this frame doesn't take any time
#define AVIIF_COMPUSE 0x0FFF0000L // these bits are for compressor use
#ifndef FOURCC_RIFF
#define FOURCC_RIFF mmioFOURCC('R', 'I', 'F', 'F')
#define FOURCC_LIST mmioFOURCC('L', 'I', 'S', 'T')
#endif
typedef struct
{
uint32_t ckid;
uint32_t dwFlags;
uint32_t dwChunkOffset; // Position of chunk
uint32_t dwChunkLength; // Length of chunk
} AVIINDEXENTRY;
typedef struct avisuperindex_entry {
uint64_t qwOffset; // absolute file offset
uint32_t dwSize; // size of index chunk at this offset
uint32_t dwDuration; // time span in stream ticks
} avisuperindex_entry;
typedef struct avistdindex_entry {
uint32_t dwOffset; // qwBaseOffset + this is absolute file offset
uint32_t dwSize; // bit 31 is set if this is NOT a keyframe
} avistdindex_entry;
// Standard index
typedef struct __attribute__((packed)) avistdindex_chunk {
char fcc[4]; // ix##
uint32_t dwSize; // size of this chunk
uint16_t wLongsPerEntry; // must be sizeof(aIndex[0])/sizeof(DWORD)
uint8_t bIndexSubType; // must be 0
uint8_t bIndexType; // must be AVI_INDEX_OF_CHUNKS
uint32_t nEntriesInUse; // first unused entry
char dwChunkId[4]; // '##dc' or '##db' or '##wb' etc..
uint64_t qwBaseOffset; // all dwOffsets in aIndex array are relative to this
uint32_t dwReserved3; // must be 0
avistdindex_entry *aIndex; // the actual frames
} avistdindex_chunk;
// Base Index Form 'indx'
typedef struct avisuperindex_chunk {
char fcc[4];
uint32_t dwSize; // size of this chunk
uint16_t wLongsPerEntry; // size of each entry in aIndex array (must be 4*4 for us)
uint8_t bIndexSubType; // future use. must be 0
uint8_t bIndexType; // one of AVI_INDEX_* codes
uint32_t nEntriesInUse; // index of first unused member in aIndex array
char dwChunkId[4]; // fcc of what is indexed
uint32_t dwReserved[3]; // meaning differs for each index type/subtype.
// 0 if unused
avisuperindex_entry *aIndex; // position of ix## chunks
avistdindex_chunk *stdidx; // the actual std indices
} avisuperindex_chunk;
typedef struct {
uint32_t CompressedBMHeight;
uint32_t CompressedBMWidth;
uint32_t ValidBMHeight;
uint32_t ValidBMWidth;
uint32_t ValidBMXOffset;
uint32_t ValidBMYOffset;
uint32_t VideoXOffsetInT;
uint32_t VideoYValidStartLine;
} VIDEO_FIELD_DESC;
typedef struct {
uint32_t VideoFormatToken;
uint32_t VideoStandard;
uint32_t dwVerticalRefreshRate;
uint32_t dwHTotalInT;
uint32_t dwVTotalInLines;
uint32_t dwFrameAspectRatio;
uint32_t dwFrameWidthInPixels;
uint32_t dwFrameHeightInLines;
uint32_t nbFieldPerFrame;
VIDEO_FIELD_DESC FieldInfo[2];
} VideoPropHeader;
typedef enum {
FORMAT_UNKNOWN,
FORMAT_PAL_SQUARE,
FORMAT_PAL_CCIR_601,
FORMAT_NTSC_SQUARE,
FORMAT_NTSC_CCIR_601,
} VIDEO_FORMAT;
typedef enum {
STANDARD_UNKNOWN,
STANDARD_PAL,
STANDARD_NTSC,
STANDARD_SECAM
} VIDEO_STANDARD;
#define MAKE_AVI_ASPECT(a, b) (((a)<<16)|(b))
#define GET_AVI_ASPECT(a) ((float)((a)>>16)/(float)((a)&0xffff))
/*
* Some macros to swap little endian structures read from an AVI file
* into machine endian format
*/
Remove compile time/runtime CPU detection, and drop some platforms mplayer had three ways of enabling CPU specific assembler routines: a) Enable them at compile time; crash if the CPU can't handle it. b) Enable them at compile time, but let the configure script detect your CPU. Your binary will only crash if you try to run it on a different system that has less features than yours. This was the default, I think. c) Runtime detection. The implementation of b) and c) suck. a) is not really feasible (it sucks for users). Remove all code related to this, and use libav's CPU detection instead. Now the configure script will always enable CPU specific features, and disable them at runtime if libav reports them not as available. One implication is that now the compiler is always expected to handle SSE (etc.) inline assembly at runtime, unless it's explicitly disabled. Only checks for x86 CPU specific features are kept, the rest is either unused or barely used. Get rid of all the dump -mpcu, -march etc. flags. Trust the compiler to select decent settings. Get rid of support for the following operating systems: - BSD/OS (some ancient BSD fork) - QNX (don't care) - BeOS (dead, Haiku support is still welcome) - AIX (don't care) - HP-UX (don't care) - OS/2 (dead, actual support has been removed a while ago) Remove the configure code for detecting the endianness. Instead, use the standard header <endian.h>, which can be used if _GNU_SOURCE or _BSD_SOURCE is defined. (Maybe these changes should have been in a separate commit.) Since this is a quite violent code removal orgy, and I'm testing only on x86 32 bit Linux, expect regressions.
2012-07-29 15:20:57 +00:00
#if BYTE_ORDER == BIG_ENDIAN
#define le2me_MainAVIHeader(h) { \
(h)->dwMicroSecPerFrame = le2me_32((h)->dwMicroSecPerFrame); \
(h)->dwMaxBytesPerSec = le2me_32((h)->dwMaxBytesPerSec); \
(h)->dwPaddingGranularity = le2me_32((h)->dwPaddingGranularity); \
(h)->dwFlags = le2me_32((h)->dwFlags); \
(h)->dwTotalFrames = le2me_32((h)->dwTotalFrames); \
(h)->dwInitialFrames = le2me_32((h)->dwInitialFrames); \
(h)->dwStreams = le2me_32((h)->dwStreams); \
(h)->dwSuggestedBufferSize = le2me_32((h)->dwSuggestedBufferSize); \
(h)->dwWidth = le2me_32((h)->dwWidth); \
(h)->dwHeight = le2me_32((h)->dwHeight); \
}
#define le2me_AVIStreamHeader(h) { \
(h)->fccType = le2me_32((h)->fccType); \
(h)->fccHandler = le2me_32((h)->fccHandler); \
(h)->dwFlags = le2me_32((h)->dwFlags); \
(h)->wPriority = le2me_16((h)->wPriority); \
(h)->wLanguage = le2me_16((h)->wLanguage); \
(h)->dwInitialFrames = le2me_32((h)->dwInitialFrames); \
(h)->dwScale = le2me_32((h)->dwScale); \
(h)->dwRate = le2me_32((h)->dwRate); \
(h)->dwStart = le2me_32((h)->dwStart); \
(h)->dwLength = le2me_32((h)->dwLength); \
(h)->dwSuggestedBufferSize = le2me_32((h)->dwSuggestedBufferSize); \
(h)->dwQuality = le2me_32((h)->dwQuality); \
(h)->dwSampleSize = le2me_32((h)->dwSampleSize); \
le2me_RECT(&(h)->rcFrame); \
}
#define le2me_RECT(h) { \
(h)->left = le2me_16((h)->left); \
(h)->top = le2me_16((h)->top); \
(h)->right = le2me_16((h)->right); \
(h)->bottom = le2me_16((h)->bottom); \
}
#define le2me_BITMAPINFOHEADER(h) { \
(h)->biSize = le2me_32((h)->biSize); \
(h)->biWidth = le2me_32((h)->biWidth); \
(h)->biHeight = le2me_32((h)->biHeight); \
(h)->biPlanes = le2me_16((h)->biPlanes); \
(h)->biBitCount = le2me_16((h)->biBitCount); \
(h)->biCompression = le2me_32((h)->biCompression); \
(h)->biSizeImage = le2me_32((h)->biSizeImage); \
(h)->biXPelsPerMeter = le2me_32((h)->biXPelsPerMeter); \
(h)->biYPelsPerMeter = le2me_32((h)->biYPelsPerMeter); \
(h)->biClrUsed = le2me_32((h)->biClrUsed); \
(h)->biClrImportant = le2me_32((h)->biClrImportant); \
}
#define le2me_WAVEFORMATEX(h) { \
(h)->wFormatTag = le2me_16((h)->wFormatTag); \
(h)->nChannels = le2me_16((h)->nChannels); \
(h)->nSamplesPerSec = le2me_32((h)->nSamplesPerSec); \
(h)->nAvgBytesPerSec = le2me_32((h)->nAvgBytesPerSec); \
(h)->nBlockAlign = le2me_16((h)->nBlockAlign); \
(h)->wBitsPerSample = le2me_16((h)->wBitsPerSample); \
(h)->cbSize = le2me_16((h)->cbSize); \
}
#define le2me_AVIINDEXENTRY(h) { \
(h)->ckid = le2me_32((h)->ckid); \
(h)->dwFlags = le2me_32((h)->dwFlags); \
(h)->dwChunkOffset = le2me_32((h)->dwChunkOffset); \
(h)->dwChunkLength = le2me_32((h)->dwChunkLength); \
}
#define le2me_AVISTDIDXCHUNK(h) {\
char c; \
c = (h)->fcc[0]; (h)->fcc[0] = (h)->fcc[3]; (h)->fcc[3] = c; \
c = (h)->fcc[1]; (h)->fcc[1] = (h)->fcc[2]; (h)->fcc[2] = c; \
(h)->dwSize = le2me_32((h)->dwSize); \
(h)->wLongsPerEntry = le2me_16((h)->wLongsPerEntry); \
(h)->nEntriesInUse = le2me_32((h)->nEntriesInUse); \
c = (h)->dwChunkId[0]; (h)->dwChunkId[0] = (h)->dwChunkId[3]; (h)->dwChunkId[3] = c; \
c = (h)->dwChunkId[1]; (h)->dwChunkId[1] = (h)->dwChunkId[2]; (h)->dwChunkId[2] = c; \
(h)->qwBaseOffset = le2me_64((h)->qwBaseOffset); \
(h)->dwReserved3 = le2me_32((h)->dwReserved3); \
}
#define le2me_AVISTDIDXENTRY(h) {\
(h)->dwOffset = le2me_32((h)->dwOffset); \
(h)->dwSize = le2me_32((h)->dwSize); \
}
#define le2me_VideoPropHeader(h) { \
(h)->VideoFormatToken = le2me_32((h)->VideoFormatToken); \
(h)->VideoStandard = le2me_32((h)->VideoStandard); \
(h)->dwVerticalRefreshRate = le2me_32((h)->dwVerticalRefreshRate); \
(h)->dwHTotalInT = le2me_32((h)->dwHTotalInT); \
(h)->dwVTotalInLines = le2me_32((h)->dwVTotalInLines); \
(h)->dwFrameAspectRatio = le2me_32((h)->dwFrameAspectRatio); \
(h)->dwFrameWidthInPixels = le2me_32((h)->dwFrameWidthInPixels); \
(h)->dwFrameHeightInLines = le2me_32((h)->dwFrameHeightInLines); \
(h)->nbFieldPerFrame = le2me_32((h)->nbFieldPerFrame); \
}
#define le2me_VIDEO_FIELD_DESC(h) { \
(h)->CompressedBMHeight = le2me_32((h)->CompressedBMHeight); \
(h)->CompressedBMWidth = le2me_32((h)->CompressedBMWidth); \
(h)->ValidBMHeight = le2me_32((h)->ValidBMHeight); \
(h)->ValidBMWidth = le2me_32((h)->ValidBMWidth); \
(h)->ValidBMXOffset = le2me_32((h)->ValidBMXOffset); \
(h)->ValidBMYOffset = le2me_32((h)->ValidBMYOffset); \
(h)->VideoXOffsetInT = le2me_32((h)->VideoXOffsetInT); \
(h)->VideoYValidStartLine = le2me_32((h)->VideoYValidStartLine); \
}
#else
#define le2me_MainAVIHeader(h) /**/
#define le2me_AVIStreamHeader(h) /**/
#define le2me_RECT(h) /**/
#define le2me_BITMAPINFOHEADER(h) /**/
#define le2me_WAVEFORMATEX(h) /**/
#define le2me_AVIINDEXENTRY(h) /**/
#define le2me_AVISTDIDXCHUNK(h) /**/
#define le2me_AVISTDIDXENTRY(h) /**/
#define le2me_VideoPropHeader(h) /**/
#define le2me_VIDEO_FIELD_DESC(h) /**/
#endif
typedef struct {
// index stuff:
void* idx;
int idx_size;
int64_t idx_pos;
int64_t idx_pos_a;
int64_t idx_pos_v;
int64_t idx_offset; // ennyit kell hozzaadni az index offset ertekekhez
// bps-based PTS stuff:
int video_pack_no;
int audio_block_size;
int64_t audio_block_no;
// interleaved PTS stuff:
int skip_video_frames;
int audio_streams;
float avi_audio_pts;
float avi_video_pts;
float pts_correction;
unsigned int pts_corr_bytes;
unsigned char pts_corrected;
unsigned char pts_has_video;
unsigned int numberofframes;
avisuperindex_chunk *suidx;
int suidx_size;
int isodml;
int warned_unaligned;
} avi_priv_t;
#define AVI_PRIV ((avi_priv_t*)(demuxer->priv))
#define AVI_IDX_OFFSET(x) ((((uint64_t)(x)->dwFlags&0xffff0000)<<16)+(x)->dwChunkOffset)
struct demuxer;
void read_avi_header(struct demuxer *demuxer, int index_mode);
#endif /* MPLAYER_AVIHEADER_H */