ref: 8baaf9f2f51dbfa3511358200286c52f14e00506
dir: /examples/seeking_example.c/
/******************************************************************** * * * THIS FILE IS PART OF THE libopusfile SOFTWARE CODEC SOURCE CODE. * * USE, DISTRIBUTION AND REPRODUCTION OF THIS LIBRARY SOURCE IS * * GOVERNED BY A BSD-STYLE SOURCE LICENSE INCLUDED WITH THIS SOURCE * * IN 'COPYING'. PLEASE READ THESE TERMS BEFORE DISTRIBUTING. * * * * THE libopusfile SOURCE CODE IS (C) COPYRIGHT 1994-2020 * * by the Xiph.Org Foundation and contributors https://xiph.org/ * * * ********************************************************************/ #ifdef HAVE_CONFIG_H #include "config.h" #endif /*For fileno()*/ #if !defined(_POSIX_SOURCE) # define _POSIX_SOURCE 1 #endif #include <stdio.h> #include <stdlib.h> #include <errno.h> #include <math.h> #include <string.h> #include <opusfile.h> #if defined(_WIN32) # include "win32utf8.h" # undef fileno # define fileno _fileno #endif /*Use shorts, they're smaller.*/ #if !defined(OP_FIXED_POINT) # define OP_FIXED_POINT (1) #endif #if defined(OP_FIXED_POINT) typedef opus_int16 op_sample; # define op_read_native op_read /*TODO: The convergence after 80 ms of preroll is far from exact. Our comparison is very rough. Need to find some way to do this better.*/ # define MATCH_TOL (16384) # define ABS(_x) ((_x)<0?-(_x):(_x)) # define MATCH(_a,_b) (ABS((_a)-(_b))<MATCH_TOL) /*Don't have fixed-point downmixing code.*/ # undef OP_WRITE_SEEK_SAMPLES #else typedef float op_sample; # define op_read_native op_read_float /*TODO: The convergence after 80 ms of preroll is far from exact. Our comparison is very rough. Need to find some way to do this better.*/ # define MATCH_TOL (16384.0/32768) # define FABS(_x) ((_x)<0?-(_x):(_x)) # define MATCH(_a,_b) (FABS((_a)-(_b))<MATCH_TOL) # if defined(OP_WRITE_SEEK_SAMPLES) /*Matrices for downmixing from the supported channel counts to stereo.*/ static const float DOWNMIX_MATRIX[8][8][2]={ /*mono*/ { {1.F,1.F} }, /*stereo*/ { {1.F,0.F},{0.F,1.F} }, /*3.0*/ { {0.5858F,0.F},{0.4142F,0.4142F},{0,0.5858F} }, /*quadrophonic*/ { {0.4226F,0.F},{0,0.4226F},{0.366F,0.2114F},{0.2114F,0.336F} }, /*5.0*/ { {0.651F,0.F},{0.46F,0.46F},{0,0.651F},{0.5636F,0.3254F},{0.3254F,0.5636F} }, /*5.1*/ { {0.529F,0.F},{0.3741F,0.3741F},{0.F,0.529F},{0.4582F,0.2645F}, {0.2645F,0.4582F},{0.3741F,0.3741F} }, /*6.1*/ { {0.4553F,0.F},{0.322F,0.322F},{0.F,0.4553F},{0.3943F,0.2277F}, {0.2277F,0.3943F},{0.2788F,0.2788F},{0.322F,0.322F} }, /*7.1*/ { {0.3886F,0.F},{0.2748F,0.2748F},{0.F,0.3886F},{0.3366F,0.1943F}, {0.1943F,0.3366F},{0.3366F,0.1943F},{0.1943F,0.3366F},{0.2748F,0.2748F} } }; static void write_samples(float *_samples,int _nsamples,int _nchannels){ float stereo_pcm[120*48*2]; int i; for(i=0;i<_nsamples;i++){ float l; float r; int ci; l=r=0.F; for(ci=0;ci<_nchannels;ci++){ l+=DOWNMIX_MATRIX[_nchannels-1][ci][0]*_samples[i*_nchannels+ci]; r+=DOWNMIX_MATRIX[_nchannels-1][ci][1]*_samples[i*_nchannels+ci]; } stereo_pcm[2*i+0]=l; stereo_pcm[2*i+1]=r; } fwrite(stereo_pcm,sizeof(*stereo_pcm)*2,_nsamples,stdout); } # endif #endif static long nfailures; static void verify_seek(OggOpusFile *_of,opus_int64 _byte_offset, ogg_int64_t _pcm_offset,ogg_int64_t _pcm_length,op_sample *_bigassbuffer){ opus_int64 byte_offset; ogg_int64_t pcm_offset; ogg_int64_t duration; op_sample buffer[120*48*8]; int nchannels; int nsamples; int li; int lj; int i; byte_offset=op_raw_tell(_of); if(_byte_offset!=-1&&byte_offset<_byte_offset){ fprintf(stderr,"\nRaw position out of tolerance: requested %li, " "got %li.\n",(long)_byte_offset,(long)byte_offset); nfailures++; } pcm_offset=op_pcm_tell(_of); if(_pcm_offset!=-1&&pcm_offset>_pcm_offset){ fprintf(stderr,"\nPCM position out of tolerance: requested %li, " "got %li.\n",(long)_pcm_offset,(long)pcm_offset); nfailures++; } if(pcm_offset<0||pcm_offset>_pcm_length){ fprintf(stderr,"\nPCM position out of bounds: got %li.\n", (long)pcm_offset); nfailures++; } nsamples=op_read_native(_of,buffer,sizeof(buffer)/sizeof(*buffer),&li); if(nsamples<0){ fprintf(stderr,"\nFailed to read PCM data after seek: %i\n",nsamples); nfailures++; li=op_current_link(_of); } for(lj=0;lj<li;lj++){ duration=op_pcm_total(_of,lj); if(0<=pcm_offset&&pcm_offset<duration){ fprintf(stderr,"\nPCM data after seek came from the wrong link: " "expected %i, got %i.\n",lj,li); nfailures++; } pcm_offset-=duration; if(_bigassbuffer!=NULL)_bigassbuffer+=op_channel_count(_of,lj)*duration; } duration=op_pcm_total(_of,li); if(pcm_offset+nsamples>duration){ fprintf(stderr,"\nPCM data after seek exceeded link duration: " "limit %li, got %li.\n",(long)duration,(long)(pcm_offset+nsamples)); nfailures++; } nchannels=op_channel_count(_of,li); if(_bigassbuffer!=NULL){ for(i=0;i<nsamples*nchannels;i++){ if(!MATCH(buffer[i],_bigassbuffer[pcm_offset*nchannels+i])){ ogg_int64_t j; fprintf(stderr,"\nData after seek doesn't match declared PCM " "position: mismatch %G\n", (double)buffer[i]-_bigassbuffer[pcm_offset*nchannels+i]); for(j=0;j<duration-nsamples;j++){ for(i=0;i<nsamples*nchannels;i++){ if(!MATCH(buffer[i],_bigassbuffer[j*nchannels+i]))break; } if(i==nsamples*nchannels){ fprintf(stderr,"\nData after seek appears to match position %li.\n", (long)i); } } nfailures++; break; } } } #if defined(OP_WRITE_SEEK_SAMPLES) write_samples(buffer,nsamples,nchannels); #endif } #define OP_MIN(_a,_b) ((_a)<(_b)?(_a):(_b)) /*A simple wrapper that lets us count the number of underlying seek calls.*/ static op_seek_func real_seek; static long nreal_seeks; static int seek_stat_counter(void *_stream,opus_int64 _offset,int _whence){ if(_whence==SEEK_SET)nreal_seeks++; /*SEEK_CUR with an offset of 0 is free, as is SEEK_END with an offset of 0 (assuming we know the file size), so don't count them.*/ else if(_offset!=0)nreal_seeks++; return (*real_seek)(_stream,_offset,_whence); } #define NSEEK_TESTS (1000) static void print_duration(FILE *_fp,ogg_int64_t _nsamples){ ogg_int64_t seconds; ogg_int64_t minutes; ogg_int64_t hours; ogg_int64_t days; ogg_int64_t weeks; seconds=_nsamples/48000; _nsamples-=seconds*48000; minutes=seconds/60; seconds-=minutes*60; hours=minutes/60; minutes-=hours*60; days=hours/24; hours-=days*24; weeks=days/7; days-=weeks*7; if(weeks)fprintf(_fp,"%liw",(long)weeks); if(weeks||days)fprintf(_fp,"%id",(int)days); if(weeks||days||hours){ if(weeks||days)fprintf(_fp,"%02ih",(int)hours); else fprintf(_fp,"%ih",(int)hours); } if(weeks||days||hours||minutes){ if(weeks||days||hours)fprintf(_fp,"%02im",(int)minutes); else fprintf(_fp,"%im",(int)minutes); fprintf(_fp,"%02i",(int)seconds); } else fprintf(_fp,"%i",(int)seconds); fprintf(_fp,".%03is",(int)(_nsamples+24)/48); } int main(int _argc,const char **_argv){ OpusFileCallbacks cb; OggOpusFile *of; void *fp; #if defined(_WIN32) win32_utf8_setup(&_argc,&_argv); #endif if(_argc!=2){ fprintf(stderr,"Usage: %s <file.opus>\n",_argv[0]); return EXIT_FAILURE; } memset(&cb,0,sizeof(cb)); if(strcmp(_argv[1],"-")==0)fp=op_fdopen(&cb,fileno(stdin),"rb"); else{ /*Try to treat the argument as a URL.*/ fp=op_url_stream_create(&cb,_argv[1], OP_SSL_SKIP_CERTIFICATE_CHECK(1),NULL); /*Fall back assuming it's a regular file name.*/ if(fp==NULL)fp=op_fopen(&cb,_argv[1],"rb"); } if(cb.seek!=NULL){ real_seek=cb.seek; cb.seek=seek_stat_counter; } of=op_open_callbacks(fp,&cb,NULL,0,NULL); if(of==NULL){ fprintf(stderr,"Failed to open file '%s'.\n",_argv[1]); return EXIT_FAILURE; } if(op_seekable(of)){ op_sample *bigassbuffer; ogg_int64_t size; ogg_int64_t pcm_offset; ogg_int64_t pcm_length; ogg_int64_t nsamples; long max_seeks; int nlinks; int ret; int li; int i; /*Because we want to do sample-level verification that the seek does what it claimed, decode the entire file into memory.*/ nlinks=op_link_count(of); fprintf(stderr,"Opened file containing %i links with %li seeks " "(%0.3f per link).\n",nlinks,nreal_seeks,nreal_seeks/(double)nlinks); /*Reset the seek counter.*/ nreal_seeks=0; nsamples=0; for(li=0;li<nlinks;li++){ nsamples+=op_pcm_total(of,li)*op_channel_count(of,li); } /*Until we find another way to do the comparisons that solves the MATCH_TOL problem, disable this.*/ #if 0 bigassbuffer=_ogg_malloc(sizeof(*bigassbuffer)*nsamples); if(bigassbuffer==NULL){ fprintf(stderr, "Buffer allocation failed. Seek offset detection disabled.\n"); } #else bigassbuffer=NULL; #endif pcm_offset=op_pcm_tell(of); if(pcm_offset!=0){ fprintf(stderr,"Initial PCM offset was not 0, got %li instead.!\n", (long)pcm_offset); nfailures++; } /*Disabling the linear scan for now. Only test on non-borken files!*/ #if 0 { op_sample smallerbuffer[120*48*8]; ogg_int64_t pcm_print_offset; ogg_int64_t si; opus_int32 bitrate; int saw_hole; pcm_print_offset=pcm_offset-48000; bitrate=0; saw_hole=0; for(si=0;si<nsamples;){ ogg_int64_t next_pcm_offset; opus_int32 next_bitrate; op_sample *buf; int buf_size; buf=bigassbuffer==NULL?smallerbuffer:bigassbuffer+si; buf_size=(int)OP_MIN(nsamples-si, (int)(sizeof(smallerbuffer)/sizeof(*smallerbuffer))), ret=op_read_native(of,buf,buf_size,&li); if(ret==OP_HOLE){ /*Only warn once in a row.*/ if(saw_hole)continue; saw_hole=1; /*This is just a warning. As long as the timestamps are still contiguous we're okay.*/ fprintf(stderr,"\nHole in PCM data at sample %li\n", (long)pcm_offset); continue; } else if(ret<=0){ fprintf(stderr,"\nFailed to read PCM data: %i\n",ret); exit(EXIT_FAILURE); } saw_hole=0; /*If we have gaps in the PCM positions, seeking is not likely to work near them.*/ next_pcm_offset=op_pcm_tell(of); if(pcm_offset+ret!=next_pcm_offset){ fprintf(stderr,"\nGap in PCM offset: expecting %li, got %li\n", (long)(pcm_offset+ret),(long)next_pcm_offset); nfailures++; } pcm_offset=next_pcm_offset; si+=ret*op_channel_count(of,li); if(pcm_offset>=pcm_print_offset+48000){ next_bitrate=op_bitrate_instant(of); if(next_bitrate>=0)bitrate=next_bitrate; fprintf(stderr,"\r%s... [%li left] (%0.3f kbps) ", bigassbuffer==NULL?"Scanning":"Loading",nsamples-si,bitrate/1000.0); pcm_print_offset=pcm_offset; } } ret=op_read_native(of,smallerbuffer,8,&li); if(ret<0){ fprintf(stderr,"Failed to read PCM data: %i\n",ret); nfailures++; } if(ret>0){ fprintf(stderr,"Read too much PCM data!\n"); nfailures++; } } #endif pcm_length=op_pcm_total(of,-1); size=op_raw_total(of,-1); fprintf(stderr,"\rLoaded (%0.3f kbps average). \n", op_bitrate(of,-1)/1000.0); fprintf(stderr,"Testing raw seeking to random places in %li bytes...\n", (long)size); max_seeks=0; for(i=0;i<NSEEK_TESTS;i++){ long nseeks_tmp; opus_int64 byte_offset; nseeks_tmp=nreal_seeks; byte_offset=(opus_int64)(rand()/(double)RAND_MAX*size); fprintf(stderr,"\r\t%3i [raw position %li]... ", i,(long)byte_offset); ret=op_raw_seek(of,byte_offset); if(ret<0){ fprintf(stderr,"\nSeek failed: %i.\n",ret); nfailures++; } if(i==28){ i=28; } verify_seek(of,byte_offset,-1,pcm_length,bigassbuffer); nseeks_tmp=nreal_seeks-nseeks_tmp; max_seeks=nseeks_tmp>max_seeks?nseeks_tmp:max_seeks; } fprintf(stderr,"\rTotal seek operations: %li (%.3f per raw seek, %li maximum).\n", nreal_seeks,nreal_seeks/(double)NSEEK_TESTS,max_seeks); nreal_seeks=0; fprintf(stderr,"Testing exact PCM seeking to random places in %li " "samples (",(long)pcm_length); print_duration(stderr,pcm_length); fprintf(stderr,")...\n"); max_seeks=0; for(i=0;i<NSEEK_TESTS;i++){ ogg_int64_t pcm_offset2; long nseeks_tmp; nseeks_tmp=nreal_seeks; pcm_offset=(ogg_int64_t)(rand()/(double)RAND_MAX*pcm_length); fprintf(stderr,"\r\t%3i [PCM position %li]... ", i,(long)pcm_offset); ret=op_pcm_seek(of,pcm_offset); if(ret<0){ fprintf(stderr,"\nSeek failed: %i.\n",ret); nfailures++; } pcm_offset2=op_pcm_tell(of); if(pcm_offset!=pcm_offset2){ fprintf(stderr,"\nDeclared PCM position did not perfectly match " "request: requested %li, got %li.\n", (long)pcm_offset,(long)pcm_offset2); nfailures++; } verify_seek(of,-1,pcm_offset,pcm_length,bigassbuffer); nseeks_tmp=nreal_seeks-nseeks_tmp; max_seeks=nseeks_tmp>max_seeks?nseeks_tmp:max_seeks; } fprintf(stderr,"\rTotal seek operations: %li (%.3f per exact seek, %li maximum).\n", nreal_seeks,nreal_seeks/(double)NSEEK_TESTS,max_seeks); nreal_seeks=0; fprintf(stderr,"OK.\n"); _ogg_free(bigassbuffer); } else{ fprintf(stderr,"Input was not seekable.\n"); exit(EXIT_FAILURE); } op_free(of); if(nfailures>0){ fprintf(stderr,"FAILED: %li failure conditions encountered.\n",nfailures); } return nfailures!=0?EXIT_FAILURE:EXIT_SUCCESS; }