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|
/*
* avisync.c
*
* Copyright (C) Thomas Oestreich - June 2001
*
* This file is part of transcode, a video stream processing tool
*
* transcode 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, or (at your option)
* any later version.
*
* transcode 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 GNU Make; see the file COPYING. If not, write to
* the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA.
*
*/
#include "transcode.h"
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <string.h>
#include "buffer.h"
#include "avilib/avilib.h"
#include "aud_scan.h"
#include "aud_scan_avi.h"
#define EXE "avisync"
/* AVI_info is no longer in avilib */
void AVI_info(avi_t *avifile);
void version(void)
{
printf("%s (%s v%s) (C) 2001-2003 Thomas Oestreich,"
" 2003-2010 Transcode Team\n",
EXE, PACKAGE, VERSION);
}
static void usage(int status)
{
version();
printf("\nUsage: %s [options]\n", EXE);
printf(" -o file output file\n");
printf(" -i file input file\n");
printf(" -q be quiet\n");
printf(" -a num audio track number [0]\n");
printf(" -b n handle vbr audio [1]\n");
printf(" -f FILE read AVI comments from FILE [off]\n");
//printf(" -N enocde a real silent frame [off]\n");
printf(" -n count shift audio by count frames [0]\n");
printf(" count>0: audio starts with frame 'count'\n");
printf(" count<0: prepend 'count' padding audio frames\n");
exit(status);
}
// buffer
static char data[SIZE_RGB_FRAME];
static char ptrdata[SIZE_RGB_FRAME];
static int ptrlen=0;
static char *comfile = NULL;
int is_vbr = 1;
int main(int argc, char *argv[])
{
avi_t *avifile1=NULL;
avi_t *avifile2=NULL;
avi_t *avifile3=NULL;
char *in_file=NULL, *out_file=NULL;
long frames, bytes;
double fps;
char *codec;
int track_num=0, aud_tracks;
int encode_null=0;
int i, j, n, key, shift=0;
int ch, preload=0;
long rate, mp3rate;
int width, height, format, chan, bits;
int be_quiet = 0;
FILE *status_fd = stderr;
/* for null frame encoding */
char nulls[32000];
long nullbytes=0;
char tmp0[] = "/tmp/nullfile.00.avi"; /* XXX: use mktemp*() */
buffer_list_t *ptr;
double vid_ms = 0.0, shift_ms = 0.0, one_vid_ms = 0.0;
double aud_ms [ AVI_MAX_TRACKS ];
int aud_bitrate = 0;
int aud_chunks = 0;
ac_init(AC_ALL);
if(argc==1) usage(EXIT_FAILURE);
while ((ch = getopt(argc, argv, "a:b:vi:o:n:Nq?h")) != -1)
{
switch (ch) {
case 'i':
if(optarg[0]=='-') usage(EXIT_FAILURE);
in_file=optarg;
break;
case 'a':
if(optarg[0]=='-') usage(EXIT_FAILURE);
track_num = atoi(optarg);
if(track_num<0) usage(EXIT_FAILURE);
break;
case 'b':
if(optarg[0]=='-') usage(EXIT_FAILURE);
is_vbr = atoi(optarg);
if(is_vbr<0) usage(EXIT_FAILURE);
break;
case 'o':
if(optarg[0]=='-') usage(EXIT_FAILURE);
out_file=optarg;
break;
case 'f':
if(optarg[0]=='-') usage(EXIT_FAILURE);
comfile = optarg;
break;
case 'n':
if(sscanf(optarg,"%d", &shift)!=1) {
fprintf(stderr, "invalid parameter for option -n\n");
usage(EXIT_FAILURE);
}
break;
case 'N':
encode_null=1;
break;
case 'q':
be_quiet = 1;
break;
case 'v':
version();
exit(0);
break;
case 'h':
usage(EXIT_SUCCESS);
default:
usage(EXIT_FAILURE);
}
}
// check
if(in_file==NULL || out_file == NULL) usage(EXIT_FAILURE);
if(shift == 0) fprintf(stderr, "no sync requested - exit");
memset (nulls, 0, sizeof(nulls));
// open file
if(NULL == (avifile1 = AVI_open_input_file(in_file,1))) {
AVI_print_error("AVI open");
exit(1);
}
if(strcmp(in_file, out_file)==0) {
printf("error: output filename conflicts with input filename\n");
exit(1);
}
if(NULL == (avifile2 = AVI_open_output_file(out_file))) {
AVI_print_error("AVI open");
exit(1);
}
if (be_quiet) {
if (!(status_fd = fopen("/dev/null", "w"))) {
fprintf(stderr, "Can't open /dev/null\n");
exit(1);
}
}
// read video info;
AVI_info(avifile1);
// read video info;
frames = AVI_video_frames(avifile1);
width = AVI_video_width(avifile1);
height = AVI_video_height(avifile1);
fps = AVI_frame_rate(avifile1);
codec = AVI_video_compressor(avifile1);
//set video in outputfile
AVI_set_video(avifile2, width, height, fps, codec);
if (comfile!=NULL)
AVI_set_comment_fd(avifile2, open(comfile, O_RDONLY));
aud_tracks = AVI_audio_tracks(avifile1);
for(j=0; j<aud_tracks; ++j) {
AVI_set_audio_track(avifile1, j);
rate = AVI_audio_rate(avifile1);
chan = AVI_audio_channels(avifile1);
bits = AVI_audio_bits(avifile1);
format = AVI_audio_format(avifile1);
mp3rate= AVI_audio_mp3rate(avifile1);
//set next track of output file
AVI_set_audio_track(avifile2, j);
AVI_set_audio(avifile2, chan, rate, bits, format, mp3rate);
AVI_set_audio_vbr(avifile2, is_vbr);
}
//switch to requested audio_channel
if(AVI_set_audio_track(avifile1, track_num)<0) {
fprintf(stderr, "invalid auto track\n");
}
AVI_set_audio_track(avifile2, track_num);
if (encode_null) {
char cmd[1024];
rate = AVI_audio_rate(avifile2);
chan = AVI_audio_channels(avifile2);
bits = AVI_audio_bits(avifile2);
format = AVI_audio_format(avifile2);
mp3rate= AVI_audio_mp3rate(avifile2);
if (bits==0) bits=16;
if (mp3rate%2) mp3rate++;
fprintf(status_fd, "Creating silent mp3 frame with current parameter\n");
memset (cmd, 0, sizeof(cmd));
tc_snprintf(cmd, sizeof(cmd), "transcode -i /dev/zero -o %s -x raw,raw"
" -n 0x1 -g 16x16 -y raw,raw -c 0-5 -e %ld,%d,%d -b %ld -q0",
tmp0, rate,bits,chan, mp3rate);
printf("%s\n", cmd);
system(cmd);
if(NULL == (avifile3 = AVI_open_input_file(tmp0,1))) {
AVI_print_error("AVI open");
exit(1);
}
nullbytes = AVI_audio_size(avifile3, 3);
/* just read a few frames */
if(AVI_read_audio(avifile3, nulls, nullbytes) < 0) {
AVI_print_error("AVI audio read frame");
return(-1);
}
memset (nulls, 0, sizeof(nulls));
if(AVI_read_audio(avifile3, nulls, nullbytes) < 0) {
AVI_print_error("AVI audio read frame");
return(-1);
}
memset (nulls, 0, sizeof(nulls));
if(AVI_read_audio(avifile3, nulls, nullbytes) < 0) {
AVI_print_error("AVI audio read frame");
return(-1);
}
/*
printf("\nBytes (%ld): \n", nullbytes);
{
int asd=0;
for (asd=0; asd<nullbytes; asd++){
printf("%x ",(unsigned char)nulls[asd]);
}
printf("\n");
}
*/
}
vid_ms = 0.0;
shift_ms = 0.0;
for (n=0; n<AVI_MAX_TRACKS; ++n)
aud_ms[n] = 0.0;
// ---------------------------------------------------------------------
for (n=0; n<frames; ++n) {
// video unchanged
bytes = AVI_read_frame(avifile1, data, &key);
if(bytes < 0) {
AVI_print_error("AVI read video frame");
return(-1);
}
if(AVI_write_frame(avifile2, data, bytes, key)<0) {
AVI_print_error("AVI write video frame");
return(-1);
}
vid_ms = (n+1)*1000.0/fps;
// Pass-through all other audio tracks.
for(j=0; j<aud_tracks; ++j) {
// skip track we want to modify
if (j == track_num) continue;
// switch to track
AVI_set_audio_track(avifile1, j);
AVI_set_audio_track(avifile2, j);
sync_audio_video_avi2avi(vid_ms, &aud_ms[j], avifile1, avifile2);
}
//switch to requested audio_channel
if(AVI_set_audio_track(avifile1, track_num)<0) {
fprintf(stderr, "invalid auto track\n");
}
AVI_set_audio_track(avifile2, track_num);
shift_ms = (double)shift*1000.0/fps;
one_vid_ms = 1000.0/fps;
format = AVI_audio_format(avifile1);
rate = AVI_audio_rate(avifile1);
chan = AVI_audio_channels(avifile1);
bits = AVI_audio_bits(avifile1);
bits = bits==0?16:bits;
mp3rate= AVI_audio_mp3rate(avifile1);
if(shift>0) {
// for n < shift, shift audio frames are discarded
if(!preload) {
if (tc_format_ms_supported(format)) {
for(i=0;i<shift;++i) {
//fprintf (stderr, "shift (%d) i (%d) n (%d) a (%d)\n", shift, i, n, aud_chunks);
while (aud_ms[track_num] < vid_ms + one_vid_ms*(double)i) {
aud_bitrate = (format==0x1||format==0x2000)?1:0;
aud_chunks++;
if( (bytes = AVI_read_audio_chunk(avifile1, data)) <= 0) {
aud_ms[track_num] = vid_ms + one_vid_ms*i;
if (bytes == 0) continue;
AVI_print_error("AVI 2 audio read frame");
break;
}
if ( !aud_bitrate && tc_get_audio_header(data, bytes, format, NULL, NULL, &aud_bitrate)<0) {
// if this is the last frame of the file, slurp in audio chunks
if (n == frames-1) continue;
aud_ms[track_num] = vid_ms + one_vid_ms*i;
} else
aud_ms[track_num] += (bytes*8.0)/(format==0x1?((double)(rate*chan*bits)/1000.0):
(format==0x2000?(double)(mp3rate):aud_bitrate));
}
}
} else { // fallback
bytes=0;
for(i=0;i<shift;++i) {
do {
if( (bytes = AVI_read_audio_chunk(avifile1, data)) < 0) {
AVI_print_error("AVI audio read frame");
return(-1);
}
} while (AVI_can_read_audio(avifile1));
}
}
preload=1;
}
// copy rest of the track
if(n<frames-shift) {
if (tc_format_ms_supported(format)) {
while (aud_ms[track_num] < vid_ms + shift_ms) {
aud_chunks++;
aud_bitrate = (format==0x1||format==0x2000)?1:0;
if( (bytes = AVI_read_audio_chunk(avifile1, data)) < 0) {
aud_ms[track_num] = vid_ms + shift_ms;
AVI_print_error("AVI 3 audio read frame");
break;
}
if(AVI_write_audio(avifile2, data, bytes) < 0) {
AVI_print_error("AVI 3 write audio frame");
return(-1);
}
fprintf(status_fd, "V [%05d][%08.2f] | A [%05d][%08.2f] [%05ld]\r", n, vid_ms, aud_chunks, aud_ms[track_num], bytes);
if (bytes == 0) {
aud_ms[track_num] = vid_ms + shift_ms;
continue;
}
if(n>=frames-2*shift) {
// save audio frame for later
ptr = buffer_register(n);
if(ptr==NULL) {
fprintf(stderr,"buffer allocation failed\n");
break;
}
ac_memcpy(ptr->data, data, bytes);
ptr->size = bytes;
ptr->status = BUFFER_READY;
}
if ( !aud_bitrate && tc_get_audio_header(data, bytes, format, NULL, NULL, &aud_bitrate)<0) {
if (n == frames-1) continue;
aud_ms[track_num] = vid_ms + shift_ms;
} else
aud_ms[track_num] += (bytes*8.0)/(format==0x1?((double)(rate*chan*bits)/1000.0):
(format==0x2000?(double)(mp3rate):aud_bitrate));
}
} else { // fallback
bytes = AVI_audio_size(avifile1, n+shift-1);
do {
if( (bytes = AVI_read_audio_chunk(avifile1, data)) < 0) {
AVI_print_error("AVI audio read frame");
return(-1);
}
if(AVI_write_audio(avifile2, data, bytes) < 0) {
AVI_print_error("AVI write audio frame");
return(-1);
}
fprintf(status_fd, "V [%05d] | A [%05d] [%05ld]\r", n, n+shift, bytes);
if(n>=frames-2*shift) {
// save audio frame for later
ptr = buffer_register(n);
if(ptr==NULL) {
fprintf(stderr,"buffer allocation failed\n");
break;
}
ac_memcpy(ptr->data, data, bytes);
ptr->size = bytes;
ptr->status = BUFFER_READY;
}
} while (AVI_can_read_audio(avifile1));
}
}
// padding at the end
if(n>=frames-shift) {
if (!ptrlen) {
ptr = buffer_retrieve();
ac_memcpy (ptrdata, ptr->data, ptr->size);
ptrlen = ptr->size;
}
if (tc_format_ms_supported(format)) {
while (aud_ms[track_num] < vid_ms + shift_ms) {
aud_bitrate = (format==0x1||format==0x2000)?1:0;
// mute this -- check if can mute (valid A header)!
if (tc_probe_audio_header(ptrdata, ptrlen) > 0)
tc_format_mute(ptrdata, ptrlen, format);
if(AVI_write_audio(avifile2, ptrdata, ptrlen) < 0) {
AVI_print_error("AVI write audio frame");
return(-1);
}
fprintf(status_fd, " V [%05d][%08.2f] | A [%05d][%08.2f] [%05ld]\r", n, vid_ms, n+shift, aud_ms[track_num], bytes);
if ( !aud_bitrate && tc_get_audio_header(ptrdata, ptrlen, format, NULL, NULL, &aud_bitrate)<0) {
//if (n == frames-1) continue;
aud_ms[track_num] = vid_ms + shift_ms;
} else
aud_ms[track_num] += (ptrlen*8.0)/(format==0x1?((double)(rate*chan*bits)/1000.0):
(format==0x2000?(double)(mp3rate):aud_bitrate));
}
} else { // fallback
// get next audio frame
ptr = buffer_retrieve();
while (1) {
printf("ptr->id (%d) ptr->size (%d)\n", ptr->id, ptr->size);
if(ptr==NULL) {
fprintf(stderr,"no buffer found\n");
break;
}
if (encode_null) {
if(AVI_write_audio(avifile2, nulls, nullbytes)<0) {
AVI_print_error("AVI write audio frame");
return(-1);
}
} else {
// simple keep old frames to force exact time delay
if(AVI_write_audio(avifile2, ptr->data, ptr->size)<0) {
AVI_print_error("AVI write audio frame");
return(-1);
}
}
fprintf(status_fd, "V [%05d] | padding\r", n);
if (ptr->next && ptr->next->id == ptr->id) {
buffer_remove(ptr);
ptr = buffer_retrieve();
continue;
}
buffer_remove(ptr);
break;
} // 1
}
}
// *************************************
// negative shift (pad audio at start)
// *************************************
} else {
if (tc_format_ms_supported(format)) {
/*
fprintf(status_fd, "n(%d) -shift(%d) shift_ms (%.2lf) vid_ms(%.2lf) aud_ms[%d](%.2lf) v-s(%.2lf)\n",
n, -shift, shift_ms, vid_ms, track_num, aud_ms[track_num], vid_ms + shift_ms);
*/
// shift<0 -> shift_ms<0 !
while (aud_ms[track_num] < vid_ms) {
/*
fprintf(stderr, " 1 (%02d) %s frame_read len=%4ld (A/V) (%8.2f/%8.2f)\n",
n, format==0x55?"MP3":"AC3", bytes, aud_ms[track_num], vid_ms);
*/
aud_bitrate = (format==0x1||format==0x2000)?1:0;
if( (bytes = AVI_read_audio_chunk(avifile1, data)) < 0) {
AVI_print_error("AVI 2 audio read frame");
aud_ms[track_num] = vid_ms;
break;
//return(-1);
}
// save audio frame for later
ptr = buffer_register(n);
if(ptr==NULL) {
fprintf(stderr,"buffer allocation failed\n");
break;
}
ac_memcpy(ptr->data, data, bytes);
ptr->size = bytes;
ptr->status = BUFFER_READY;
if(n<-shift) {
// mute this -- check if can mute!
if (tc_probe_audio_header(data, bytes) > 0)
tc_format_mute(data, bytes, format);
// simple keep old frames to force exact time delay
if(AVI_write_audio(avifile2, data, bytes)<0) {
AVI_print_error("AVI write audio frame");
return(-1);
}
fprintf(status_fd, "V [%05d] | padding\r", n);
} else {
if (n==-shift)
fprintf(status_fd, "\n");
// get next audio frame
ptr = buffer_retrieve();
if(ptr==NULL) {
fprintf(stderr,"no buffer found\n");
break;
}
if(AVI_write_audio(avifile2, ptr->data, ptr->size)<0) {
AVI_print_error("AVI write audio frame");
return(-1);
}
bytes = ptr->size;
ac_memcpy (data, ptr->data, bytes);
fprintf(status_fd, "V [%05d] | A [%05d]\r", n, ptr->id);
buffer_remove(ptr);
}
if ( !aud_bitrate && tc_get_audio_header(data, bytes, format, NULL, NULL, &aud_bitrate)<0) {
if (n == frames-1) continue;
aud_ms[track_num] = vid_ms;
} else
aud_ms[track_num] += (bytes*8.0)/(format==0x1?((double)(rate*chan*bits)/1000.0):
(format==0x2000?(double)(mp3rate):aud_bitrate));
/*
fprintf(stderr, " 1 (%02d) %s frame_read len=%4ld (A/V) (%8.2f/%8.2f)\n",
n, format==0x55?"MP3":"AC3", bytes, aud_ms[track_num], vid_ms);
*/
}
} else { // no supported format
bytes = AVI_audio_size(avifile1, n);
if(bytes > SIZE_RGB_FRAME) {
fprintf(stderr, "invalid frame size\n");
return(-1);
}
if(AVI_read_audio(avifile1, data, bytes) < 0) {
AVI_print_error("AVI audio read frame");
return(-1);
}
// save audio frame for later
ptr = buffer_register(n);
if(ptr==NULL) {
fprintf(stderr,"buffer allocation failed\n");
break;
}
ac_memcpy(ptr->data, data, bytes);
ptr->size = bytes;
ptr->status = BUFFER_READY;
if(n<-shift) {
if (encode_null) {
if(AVI_write_audio(avifile2, nulls, nullbytes)<0) {
AVI_print_error("AVI write audio frame");
return(-1);
}
} else {
// simple keep old frames to force exact time delay
if(AVI_write_audio(avifile2, data, bytes)<0) {
AVI_print_error("AVI write audio frame");
return(-1);
}
}
fprintf(status_fd, "V [%05d] | padding\r", n);
} else {
// get next audio frame
ptr = buffer_retrieve();
if(ptr==NULL) {
fprintf(stderr,"no buffer found\n");
break;
}
if(AVI_write_audio(avifile2, ptr->data, ptr->size)<0) {
AVI_print_error("AVI write audio frame");
return(-1);
}
fprintf(status_fd, "V [%05d] | A [%05d]\r", n, ptr->id);
buffer_remove(ptr);
}
}
}
}
fprintf(status_fd, "\n");
if (be_quiet) {
fclose(status_fd);
}
AVI_close(avifile1);
AVI_close(avifile2);
if (avifile3) {
memset(nulls, 0, sizeof(nulls));
tc_snprintf(nulls, sizeof(nulls), "rm -f %s", tmp0);
system(nulls);
AVI_close(avifile3);
}
return(0);
}
/*************************************************************************/
/*
* Local variables:
* c-file-style: "stroustrup"
* c-file-offsets: ((case-label . *) (statement-case-intro . *))
* indent-tabs-mode: nil
* End:
*
* vim: expandtab shiftwidth=4:
*/
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