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blender-archive/source/blender/avi/intern/avi.c

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Initial revision
2002-10-12 11:37:38 +00:00
/**
* avi.c
*
* This is external code.
*
* $Id$
*
* ***** BEGIN GPL/BL DUAL LICENSE BLOCK *****
*
* This program 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. The Blender
* Foundation also sells licenses for use in proprietary software under
* the Blender License. See http://www.blender.org/BL/ for information
* about this.
*
* This program 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 this program; if not, write to the Free Software Foundation,
* Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*
* The Original Code is Copyright (C) 2001-2002 by NaN Holding BV.
* All rights reserved.
*
* The Original Code is: all of this file.
*
* Contributor(s): none yet.
*
* ***** END GPL/BL DUAL LICENSE BLOCK *****
*
*/
#include <stdlib.h>
#include <string.h>
#include <stdarg.h>
#include <stdio.h>
#include <ctype.h>
#include "AVI_avi.h"
#include "avi_intern.h"
#include "endian.h"
updated .c files to include: #ifdef HAVE_CONFIG_H #include <config.h> #endif Just need to finish cpp files now :) Kent -- mein@cs.umn.edu
2002-11-25 12:02:15 +00:00
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
Initial revision
2002-10-12 11:37:38 +00:00
static int AVI_DEBUG=0;
static char DEBUG_FCC[4];
#define DEBUG(x) if(AVI_DEBUG) printf("AVI DEBUG: " x);
/* local functions */
char *fcc_to_char (unsigned int fcc);
char *tcc_to_char (unsigned int tcc);
/* implemetation */
unsigned int GET_FCC (FILE *fp) {
unsigned char tmp[4];
tmp[0] = getc(fp);
tmp[1] = getc(fp);
tmp[2] = getc(fp);
tmp[3] = getc(fp);
return FCC (tmp);
}
unsigned int GET_TCC (FILE *fp) {
char tmp[5];
tmp[0] = getc(fp);
tmp[1] = getc(fp);
tmp[2] = 0;
tmp[3] = 0;
return FCC (tmp);
}
char *fcc_to_char (unsigned int fcc) {
DEBUG_FCC[0]= (fcc)&0177;
DEBUG_FCC[1]= (fcc>>8)&0177;
DEBUG_FCC[2]= (fcc>>16)&0177;
DEBUG_FCC[3]= (fcc>>24)&0177;
return DEBUG_FCC;
}
char *tcc_to_char (unsigned int tcc) {
DEBUG_FCC[0]= (tcc)&0177;
DEBUG_FCC[1]= (tcc>>8)&0177;
DEBUG_FCC[2]= 0;
DEBUG_FCC[3]= 0;
return DEBUG_FCC;
}
int AVI_get_stream (AviMovie *movie, int avist_type, int stream_num) {
int cur_stream;
if (movie == NULL)
return -AVI_ERROR_OPTION;
for (cur_stream=0; cur_stream < movie->header->Streams; cur_stream++) {
if (movie->streams[cur_stream].sh.Type == avist_type) {
if (stream_num == 0)
return cur_stream;
else
stream_num--;
}
}
return -AVI_ERROR_FOUND;
}
static int fcc_get_stream (int fcc) {
char fccs[4];
fccs[0] = fcc;
fccs[1] = fcc>>8;
fccs[2] = fcc>>16;
fccs[3] = fcc>>24;
return 10*(fccs[0]-'0') + (fccs[1]-'0');
}
static int fcc_is_data (int fcc) {
char fccs[4];
fccs[0] = fcc;
fccs[1] = fcc>>8;
fccs[2] = fcc>>16;
fccs[3] = fcc>>24;
if (!isdigit (fccs[0]) || !isdigit (fccs[1]) || (fccs[2] != 'd' && fccs[2] != 'w'))
return 0;
if (fccs[3] != 'b' && fccs[3] != 'c')
return 0;
return 1;
}
AviError AVI_print_error (AviError in_error) {
int error;
if ((int) in_error < 0)
error = -in_error;
else
error = in_error;
switch (error) {
case AVI_ERROR_NONE:
break;
case AVI_ERROR_COMPRESSION:
printf ("AVI ERROR: compressed in an unsupported format\n");
break;
case AVI_ERROR_OPEN:
printf ("AVI ERROR: could not open file\n");
break;
case AVI_ERROR_READING:
printf ("AVI ERROR: could not read from file\n");
break;
case AVI_ERROR_WRITING:
printf ("AVI ERROR: could not write to file\n");
break;
case AVI_ERROR_FORMAT:
printf ("AVI ERROR: file is in an illegal or unrecognized format\n");
break;
case AVI_ERROR_ALLOC:
printf ("AVI ERROR: error encountered while allocating memory\n");
break;
case AVI_ERROR_OPTION:
printf ("AVI ERROR: program made illegal request\n");
break;
case AVI_ERROR_FOUND:
printf ("AVI ERROR: movie did not contain expected item\n");
break;
default:
break;
}
return in_error;
}
void AVI_set_debug (int mode) {
AVI_DEBUG= mode;
}
int AVI_is_avi (char *name) {
FILE *fp;
int ret;
fp = fopen (name, "rb");
if (fp == NULL)
return 0;
if (GET_FCC (fp) != FCC("RIFF") ||
!GET_FCC (fp) ||
GET_FCC (fp) != FCC("AVI ")) {
ret = 0;
} else {
ret = 1;
}
fclose(fp);
return ret;
}
AviError AVI_open_movie (char *name, AviMovie *movie) {
int temp, fcca, size;
DEBUG("opening movie\n");
memset(movie, 0, sizeof(AviMovie));
movie->type = AVI_MOVIE_READ;
movie->fp = fopen (name, "rb");
movie->offset_table = NULL;
if (movie->fp == NULL)
return AVI_ERROR_OPEN;
if (GET_FCC (movie->fp) != FCC("RIFF") ||
!(movie->size = GET_FCC (movie->fp)))
return AVI_ERROR_FORMAT;
movie->header = (AviMainHeader *) MEM_mallocN (sizeof (AviMainHeader), "movieheader");
/* movie->header = (AviMainHeader *) malloc (sizeof (AviMainHeader)); */
if (GET_FCC (movie->fp) != FCC("AVI ") ||
GET_FCC (movie->fp) != FCC("LIST") ||
!GET_FCC (movie->fp) ||
GET_FCC (movie->fp) != FCC("hdrl") ||
(movie->header->fcc = GET_FCC (movie->fp)) != FCC("avih") ||
!(movie->header->size = GET_FCC (movie->fp))) {
DEBUG("bad initial header info\n");
return AVI_ERROR_FORMAT;
}
movie->header->MicroSecPerFrame = GET_FCC(movie->fp);
movie->header->MaxBytesPerSec = GET_FCC(movie->fp);
movie->header->PaddingGranularity = GET_FCC(movie->fp);
movie->header->Flags = GET_FCC(movie->fp);
movie->header->TotalFrames = GET_FCC(movie->fp);
movie->header->InitialFrames = GET_FCC(movie->fp);
movie->header->Streams = GET_FCC(movie->fp);
movie->header->SuggestedBufferSize = GET_FCC(movie->fp);
movie->header->Width = GET_FCC(movie->fp);
movie->header->Height = GET_FCC(movie->fp);
movie->header->Reserved[0] = GET_FCC(movie->fp);
movie->header->Reserved[1] = GET_FCC(movie->fp);
movie->header->Reserved[2] = GET_FCC(movie->fp);
movie->header->Reserved[3] = GET_FCC(movie->fp);
fseek (movie->fp, movie->header->size-14*4, SEEK_CUR);
if (movie->header->Streams < 1) {
DEBUG("streams less than 1\n");
return AVI_ERROR_FORMAT;
}
movie->streams = (AviStreamRec *) MEM_callocN (sizeof(AviStreamRec) * movie->header->Streams, "moviestreams");
/* movie->streams = (AviStreamRec *) */
/* malloc (sizeof(AviStreamRec) * movie->header->Streams); */
for (temp=0; temp < movie->header->Streams; temp++) {
if (GET_FCC(movie->fp) != FCC("LIST") ||
!GET_FCC (movie->fp) ||
GET_FCC (movie->fp) != FCC ("strl") ||
(movie->streams[temp].sh.fcc = GET_FCC (movie->fp)) != FCC ("strh") ||
!(movie->streams[temp].sh.size = GET_FCC (movie->fp))) {
DEBUG("bad stream header information\n");
return AVI_ERROR_FORMAT;
}
movie->streams[temp].sh.Type = GET_FCC (movie->fp);
movie->streams[temp].sh.Handler = GET_FCC (movie->fp);
fcca = movie->streams[temp].sh.Handler;
if (movie->streams[temp].sh.Type == FCC("vids")) {
if (fcca == FCC ("DIB ") ||
fcca == FCC ("RGB ") ||
fcca == FCC ("rgb ") ||
fcca == FCC ("RAW ") ||
fcca == 0) {
movie->streams[temp].format = AVI_FORMAT_AVI_RGB;
} else if (fcca == FCC ("mjpg")||fcca == FCC ("MJPG")) {
movie->streams[temp].format = AVI_FORMAT_MJPEG;
} else {
return AVI_ERROR_COMPRESSION;
}
}
movie->streams[temp].sh.Flags = GET_FCC (movie->fp);
movie->streams[temp].sh.Priority = GET_TCC (movie->fp);
movie->streams[temp].sh.Language = GET_TCC (movie->fp);
movie->streams[temp].sh.InitialFrames = GET_FCC (movie->fp);
movie->streams[temp].sh.Scale = GET_FCC (movie->fp);
movie->streams[temp].sh.Rate = GET_FCC (movie->fp);
movie->streams[temp].sh.Start = GET_FCC (movie->fp);
movie->streams[temp].sh.Length = GET_FCC (movie->fp);
movie->streams[temp].sh.SuggestedBufferSize = GET_FCC (movie->fp);
movie->streams[temp].sh.Quality = GET_FCC (movie->fp);
movie->streams[temp].sh.SampleSize = GET_FCC (movie->fp);
movie->streams[temp].sh.left = GET_TCC (movie->fp);
movie->streams[temp].sh.top = GET_TCC (movie->fp);
movie->streams[temp].sh.right = GET_TCC (movie->fp);
movie->streams[temp].sh.bottom = GET_TCC (movie->fp);
fseek (movie->fp, movie->streams[temp].sh.size-14*4, SEEK_CUR);
if (GET_FCC (movie->fp) != FCC("strf")) {
DEBUG("no stream format information\n");
return AVI_ERROR_FORMAT;
}
movie->streams[temp].sf_size= GET_FCC(movie->fp);
if (movie->streams[temp].sh.Type == FCC("vids")) {
if (movie->streams[temp].sf_size == sizeof(AviBitmapInfoHeader)-8) {
AviBitmapInfoHeader *bi;
movie->streams[temp].sf= MEM_mallocN(sizeof(AviBitmapInfoHeader), "streamformat");
/* movie->streams[temp].sf= malloc(sizeof(AviBitmapInfoHeader)); */
bi= (AviBitmapInfoHeader *) movie->streams[temp].sf;
bi->fcc= FCC("strf");
bi->size= movie->streams[temp].sf_size;
bi->Size= GET_FCC(movie->fp);
bi->Width= GET_FCC(movie->fp);
bi->Height= GET_FCC(movie->fp);
bi->Planes= GET_TCC(movie->fp);
bi->BitCount= GET_TCC(movie->fp);
bi->Compression= GET_FCC(movie->fp);
bi->SizeImage= GET_FCC(movie->fp);
bi->XPelsPerMeter= GET_FCC(movie->fp);
bi->YPelsPerMeter= GET_FCC(movie->fp);
bi->ClrUsed= GET_FCC(movie->fp);
bi->ClrImportant= GET_FCC(movie->fp);
fcca = bi->Compression;
if (fcca == FCC ("DIB ") ||
fcca == FCC ("RGB ") ||
fcca == FCC ("rgb ") ||
fcca == FCC ("RAW ") ||
fcca == FCC ("mjpg") ||
fcca == FCC ("MJPG") ||
fcca == 0) {
} else {
return AVI_ERROR_COMPRESSION;
}
} else fseek (movie->fp, movie->streams[temp].sf_size, SEEK_CUR);
} else fseek (movie->fp, movie->streams[temp].sf_size, SEEK_CUR);
/* Walk to the next LIST */
while (GET_FCC (movie->fp) != FCC("LIST")) {
temp= GET_FCC (movie->fp);
if (temp<0 || ftell(movie->fp) > movie->size) {
DEBUG("incorrect size in header or error in AVI\n");
return AVI_ERROR_FORMAT;
}
fseek(movie->fp, temp, SEEK_CUR);
}
fseek(movie->fp, -4L, SEEK_CUR);
}
while (1) {
temp = GET_FCC (movie->fp);
size = GET_FCC (movie->fp);
if (size == 0)
break;
if (temp == FCC("LIST")) {
if (GET_FCC(movie->fp) == FCC ("movi"))
break;
else
fseek (movie->fp, size-4, SEEK_CUR);
} else {
fseek (movie->fp, size, SEEK_CUR);
}
if (ftell(movie->fp) > movie->size) {
DEBUG("incorrect size in header or error in AVI\n");
return AVI_ERROR_FORMAT;
}
}
movie->movi_offset = ftell (movie->fp);
movie->read_offset = movie->movi_offset;
if (AVI_DEBUG) printf ("movi_offset is %d\n", movie->movi_offset);
/* Read in the index if the file has one, otherwise create one */
if (movie->header->Flags & AVIF_HASINDEX) {
fseek(movie->fp, size-4, SEEK_CUR);
if (GET_FCC(movie->fp) != FCC("idx1")) {
DEBUG("bad index informatio\n");
return AVI_ERROR_FORMAT;
}
movie->index_entries = GET_FCC (movie->fp)/sizeof(AviIndexEntry);
if (movie->index_entries == 0) {
DEBUG("no index entries\n");
return AVI_ERROR_FORMAT;
}
movie->entries = (AviIndexEntry *) MEM_mallocN (movie->index_entries * sizeof(AviIndexEntry),"movieentries");
/* movie->entries = (AviIndexEntry *) */
/* malloc (movie->index_entries * sizeof(AviIndexEntry)); */
for (temp=0; temp < movie->index_entries; temp++) {
movie->entries[temp].ChunkId = GET_FCC (movie->fp);
movie->entries[temp].Flags = GET_FCC (movie->fp);
movie->entries[temp].Offset = GET_FCC (movie->fp);
movie->entries[temp].Size = GET_FCC (movie->fp);
if (AVI_DEBUG) printf ("Index entry %04d: ChunkId:%s Flags:%d Offset:%d Size:%d\n", temp, fcc_to_char(movie->entries[temp].ChunkId), movie->entries[temp].Flags, movie->entries[temp].Offset, movie->entries[temp].Size);
}
/* Some AVI's have offset entries in absolute coordinates
* instead of an offset from the movie beginning... this is...
* wacky, but we need to handle it. The wacky offset always
* starts at movi_offset it seems... so we'll check that.
* Note the the offset needs an extra 4 bytes for some
* undetermined reason */
if (movie->entries[0].Offset == movie->movi_offset)
movie->read_offset= 4;
}
DEBUG("movie succesfully opened\n");
return AVI_ERROR_NONE;
}
void *AVI_read_frame (AviMovie *movie, AviFormat format, int frame, int stream) {
int cur_frame=-1, i=0, temp;
void *buffer;
/* Retrieve the record number of the desired frame in the index */
while (cur_frame < frame && i < movie->index_entries) {
if (fcc_is_data (movie->entries[i].ChunkId) &&
fcc_get_stream (movie->entries[i].ChunkId) == stream)
cur_frame++;
i++;
}
if (cur_frame != frame) return NULL;
fseek (movie->fp, movie->read_offset + movie->entries[i-1].Offset, SEEK_SET);
temp = GET_FCC(movie->fp);
buffer = MEM_mallocN (temp,"readbuffer");
/* buffer = malloc(temp); */
if (fread (buffer, 1, temp, movie->fp) != temp) {
MEM_freeN(buffer);
/* free(buffer); */
return NULL;
}
buffer = avi_format_convert (movie, stream, buffer, movie->streams[stream].format, format, &temp);
return buffer;
}
AviError AVI_close (AviMovie *movie) {
int i;
fclose (movie->fp);
for (i=0; i < movie->header->Streams; i++) {
if (movie->streams[i].sf != NULL)
MEM_freeN (movie->streams[i].sf);
}
if (movie->header != NULL)
MEM_freeN (movie->header);
if (movie->streams!= NULL)
MEM_freeN (movie->streams);
if (movie->entries != NULL)
MEM_freeN (movie->entries);
if (movie->offset_table != NULL)
MEM_freeN (movie->offset_table);
return AVI_ERROR_NONE;
}
AviError AVI_open_compress (char *name, AviMovie *movie, int streams, ...) {
va_list ap;
AviList list;
AviChunk chunk;
int i;
int header_pos1, header_pos2;
int stream_pos1, stream_pos2;
movie->type = AVI_MOVIE_WRITE;
movie->fp = fopen (name, "wb");
movie->index_entries = 0;
if (movie->fp == NULL)
return AVI_ERROR_OPEN;
movie->offset_table = (long *) MEM_mallocN ((1+streams*2) * sizeof (long),"offsettable");
/* movie->offset_table = (long *) malloc ((1+streams*2) * sizeof (long)); */
for (i=0; i < 1 + streams*2; i++)
movie->offset_table[i] = -1L;
movie->entries = NULL;
movie->header = (AviMainHeader *) MEM_mallocN (sizeof(AviMainHeader),"movieheader");
/* movie->header = (AviMainHeader *) malloc (sizeof(AviMainHeader)); */
movie->header->fcc = FCC("avih");
movie->header->size = 56;
movie->header->MicroSecPerFrame = 66667;
movie->header->MaxBytesPerSec = 0;
movie->header->PaddingGranularity = 0;
movie->header->Flags = AVIF_HASINDEX | AVIF_MUSTUSEINDEX;
movie->header->TotalFrames = 0;
movie->header->InitialFrames = 0;
movie->header->Streams = streams;
movie->header->SuggestedBufferSize = 0;
movie->header->Width = 0;
movie->header->Height = 0;
movie->header->Reserved[0] = 0;
movie->header->Reserved[1] = 0;
movie->header->Reserved[2] = 0;
movie->header->Reserved[3] = 0;
movie->streams = (AviStreamRec *) MEM_mallocN (sizeof(AviStreamRec) * movie->header->Streams,"moviestreams");
/* movie->streams = (AviStreamRec *) malloc (sizeof(AviStreamRec) * movie->header->Streams); */
va_start (ap, streams);
for (i=0; i < movie->header->Streams; i++) {
movie->streams[i].format = va_arg(ap, AviFormat);
movie->streams[i].sh.fcc = FCC ("strh");
movie->streams[i].sh.size = 56;
movie->streams[i].sh.Type = avi_get_format_type (movie->streams[i].format);
if (movie->streams[i].sh.Type == 0)
return AVI_ERROR_FORMAT;
movie->streams[i].sh.Handler = avi_get_format_fcc (movie->streams[i].format);
if (movie->streams[i].sh.Handler == 0)
return AVI_ERROR_FORMAT;
movie->streams[i].sh.Flags = 0;
movie->streams[i].sh.Priority = 0;
movie->streams[i].sh.Language = 0;
movie->streams[i].sh.InitialFrames = 0;
movie->streams[i].sh.Scale = 66667;
movie->streams[i].sh.Rate = 1000000;
movie->streams[i].sh.Start = 0;
movie->streams[i].sh.Length = 0;
movie->streams[i].sh.SuggestedBufferSize = 0;
movie->streams[i].sh.Quality = 10000;
movie->streams[i].sh.SampleSize = 0;
movie->streams[i].sh.left = 0;
movie->streams[i].sh.top = 0;
movie->streams[i].sh.right = 0;
movie->streams[i].sh.bottom = 0;
if (movie->streams[i].sh.Type == FCC("vids")) {
if (movie->streams[i].format == AVI_FORMAT_MJPEG) {
movie->streams[i].sf = MEM_mallocN (sizeof(AviBitmapInfoHeader)
+ sizeof(AviMJPEGUnknown),"moviestreamformatL");
/* movie->streams[i].sf = malloc (sizeof(AviBitmapInfoHeader) */
/* + sizeof(AviMJPEGUnknown)); */
movie->streams[i].sf_size = sizeof(AviBitmapInfoHeader) + sizeof(AviMJPEGUnknown);
} else {
movie->streams[i].sf = MEM_mallocN (sizeof(AviBitmapInfoHeader), "moviestreamformatS");
/* movie->streams[i].sf = malloc (sizeof(AviBitmapInfoHeader)); */
movie->streams[i].sf_size = sizeof(AviBitmapInfoHeader);
}
((AviBitmapInfoHeader *) movie->streams[i].sf)->fcc = FCC ("strf");
((AviBitmapInfoHeader *) movie->streams[i].sf)->size = movie->streams[i].sf_size - 8;
((AviBitmapInfoHeader *) movie->streams[i].sf)->Size = movie->streams[i].sf_size - 8;
((AviBitmapInfoHeader *) movie->streams[i].sf)->Width = 0;
((AviBitmapInfoHeader *) movie->streams[i].sf)->Height = 0;
((AviBitmapInfoHeader *) movie->streams[i].sf)->Planes = 1;
((AviBitmapInfoHeader *) movie->streams[i].sf)->BitCount = 24;
((AviBitmapInfoHeader *) movie->streams[i].sf)->Compression = avi_get_format_compression (movie->streams[i].format);
((AviBitmapInfoHeader *) movie->streams[i].sf)->SizeImage = 0;
((AviBitmapInfoHeader *) movie->streams[i].sf)->XPelsPerMeter = 0;
((AviBitmapInfoHeader *) movie->streams[i].sf)->YPelsPerMeter = 0;
((AviBitmapInfoHeader *) movie->streams[i].sf)->ClrUsed = 0;
((AviBitmapInfoHeader *) movie->streams[i].sf)->ClrImportant = 0;
if (movie->streams[i].format == AVI_FORMAT_MJPEG) {
AviMJPEGUnknown *tmp;
tmp = (AviMJPEGUnknown *) ((char*) movie->streams[i].sf +sizeof(AviBitmapInfoHeader));
tmp->a = 44;
tmp->b = 24;
tmp->c = 0;
tmp->d = 2;
tmp->e = 8;
tmp->f = 2;
tmp->g = 1;
}
} else if (movie->streams[i].sh.Type == FCC("auds")) {
;
}
}
list.fcc = FCC("RIFF");
list.size = 0;
list.ids = FCC("AVI ");
awrite (movie, &list, 1, sizeof(AviList), movie->fp, AVI_LIST);
list.fcc = FCC("LIST");
list.size = 0;
list.ids = FCC("hdrl");
awrite (movie, &list, 1, sizeof(AviList), movie->fp, AVI_LIST);
header_pos1 = ftell(movie->fp);
movie->offset_table[0] = ftell(movie->fp);
awrite (movie, movie->header, 1, sizeof(AviMainHeader), movie->fp, AVI_MAINH);
for (i=0; i < movie->header->Streams; i++) {
list.fcc = FCC("LIST");
list.size = 0;
list.ids = FCC("strl");
awrite (movie, &list, 1, sizeof(AviList), movie->fp, AVI_LIST);
stream_pos1 = ftell(movie->fp);
movie->offset_table[1+i*2] = ftell(movie->fp);
awrite (movie, &movie->streams[i].sh, 1, sizeof(AviStreamHeader), movie->fp, AVI_STREAMH);
movie->offset_table[1+i*2+1] = ftell(movie->fp);
awrite (movie, movie->streams[i].sf, 1, movie->streams[i].sf_size, movie->fp, AVI_BITMAPH);
stream_pos2 = ftell(movie->fp);
fseek (movie->fp, stream_pos1-8, SEEK_SET);
PUT_FCCN((stream_pos2-stream_pos1+4L), movie->fp);
fseek (movie->fp, stream_pos2, SEEK_SET);
}
if (ftell(movie->fp) < 2024 - 8) {
chunk.fcc = FCC("JUNK");
chunk.size = 2024-8-ftell(movie->fp);
awrite (movie, &chunk, 1, sizeof(AviChunk), movie->fp, AVI_CHUNK);
for (i=0; i < chunk.size; i++)
putc(0, movie->fp);
}
header_pos2 = ftell(movie->fp);
list.fcc = FCC("LIST");
list.size = 0;
list.ids = FCC("movi");
awrite (movie, &list, 1, sizeof(AviList), movie->fp, AVI_LIST);
movie->movi_offset = ftell(movie->fp)-8L;
fseek (movie->fp, AVI_HDRL_SOFF, SEEK_SET);
PUT_FCCN((header_pos2-header_pos1+4L), movie->fp);
return AVI_ERROR_NONE;
}
AviError AVI_write_frame (AviMovie *movie, int frame_num, ...) {
AviList list;
AviChunk chunk;
AviIndexEntry *temp;
va_list ap;
int stream;
long rec_off;
AviFormat format;
void *buffer;
int size;
if (frame_num < 0)
return AVI_ERROR_OPTION;
/* Allocate the new memory for the index entry */
if (frame_num+1 > movie->index_entries) {
temp = (AviIndexEntry *) MEM_mallocN ((frame_num+1) *
(movie->header->Streams+1) * sizeof(AviIndexEntry),"newidxentry");
if (movie->entries != NULL) {
memcpy (temp, movie->entries, movie->index_entries * (movie->header->Streams+1)
* sizeof(AviIndexEntry));
MEM_freeN (movie->entries);
}
movie->entries = temp;
movie->index_entries = frame_num+1;
}
/* Slap a new record entry onto the end of the file */
fseek (movie->fp, 0L, SEEK_END);
list.fcc = FCC("LIST");
list.size = 0;
list.ids = FCC("rec ");
awrite (movie, &list, 1, sizeof(AviList), movie->fp, AVI_LIST);
rec_off = ftell (movie->fp)-8L;
/* Write a frame for every stream */
va_start (ap, frame_num);
for (stream=0; stream < movie->header->Streams; stream++) {
unsigned int tbuf=0;
format = va_arg (ap, AviFormat);
buffer = va_arg (ap, void*);
size = va_arg (ap, int);
/* Convert the buffer into the output format */
buffer = avi_format_convert (movie, stream, buffer, format, movie->streams[stream].format, &size);
/* Write the header info for this data chunk */
fseek (movie->fp, 0L, SEEK_END);
chunk.fcc = avi_get_data_id (format, stream);
chunk.size = size;
if (size%4) chunk.size += 4 - size%4;
awrite (movie, &chunk, 1, sizeof(AviChunk), movie->fp, AVI_CHUNK);
/* Write the index entry for this data chunk */
movie->entries[frame_num * (movie->header->Streams+1) + stream + 1].ChunkId = chunk.fcc;
movie->entries[frame_num * (movie->header->Streams+1) + stream + 1].Flags = AVIIF_KEYFRAME;
movie->entries[frame_num * (movie->header->Streams+1) + stream + 1].Offset = ftell(movie->fp)-12L-movie->movi_offset;
movie->entries[frame_num * (movie->header->Streams+1) + stream + 1].Size = chunk.size;
/* Write the chunk */
awrite (movie, buffer, 1, size, movie->fp, AVI_RAW);
MEM_freeN (buffer);
if (size%4) awrite (movie, &tbuf, 1, 4-size%4, movie->fp, AVI_RAW);
/* Update the stream headers length field */
movie->streams[stream].sh.Length++;
fseek (movie->fp, movie->offset_table[1+stream*2], SEEK_SET);
awrite (movie, &movie->streams[stream].sh, 1, sizeof(AviStreamHeader), movie->fp, AVI_STREAMH);
}
va_end (ap);
/* Record the entry for the new record */
fseek (movie->fp, 0L, SEEK_END);
movie->entries[frame_num * (movie->header->Streams+1)].ChunkId = FCC("rec ");
movie->entries[frame_num * (movie->header->Streams+1)].Flags = AVIIF_LIST;
movie->entries[frame_num * (movie->header->Streams+1)].Offset = rec_off-8L-movie->movi_offset;
movie->entries[frame_num * (movie->header->Streams+1)].Size = ftell(movie->fp)-(rec_off+4L);
/* Update the record size */
fseek (movie->fp, rec_off, SEEK_SET);
PUT_FCCN (movie->entries[frame_num * (movie->header->Streams+1)].Size, movie->fp);
/* Update the main header information in the file */
movie->header->TotalFrames++;
fseek (movie->fp, movie->offset_table[0], SEEK_SET);
awrite (movie, movie->header, 1, sizeof(AviMainHeader), movie->fp, AVI_MAINH);
return AVI_ERROR_NONE;
}
AviError AVI_close_compress (AviMovie *movie) {
int temp, movi_size, i;
fseek (movie->fp, 0L, SEEK_END);
movi_size = ftell (movie->fp);
PUT_FCC ("idx1", movie->fp);
PUT_FCCN ((movie->index_entries*(movie->header->Streams+1)*16), movie->fp);
for (temp=0; temp < movie->index_entries*(movie->header->Streams+1); temp++)
awrite (movie, &movie->entries[temp], 1, sizeof(AviIndexEntry), movie->fp, AVI_INDEXE);
temp = ftell (movie->fp);
fseek (movie->fp, AVI_RIFF_SOFF, SEEK_SET);
PUT_FCCN((temp-8L), movie->fp);
fseek (movie->fp, movie->movi_offset, SEEK_SET);
PUT_FCCN((movi_size-(movie->movi_offset+4L)),movie->fp);
fclose (movie->fp);
for (i=0; i < movie->header->Streams; i++) {
if (movie->streams[i].sf != NULL)
MEM_freeN (movie->streams[i].sf);
}
if (movie->header != NULL)
MEM_freeN (movie->header);
if (movie->entries != NULL)
MEM_freeN (movie->entries);
if (movie->streams != NULL)
MEM_freeN (movie->streams);
if (movie->offset_table != NULL)
MEM_freeN (movie->offset_table);
return AVI_ERROR_NONE;
}
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