ref: 9bb7bc2104c11c070caffa835fc4fb3287a3b6b9
dir: /examples/opusfile_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 1994-2012 * * by the Xiph.Org Foundation and contributors http://www.xiph.org/ * * * ********************************************************************/ /*For fileno()*/ #if !defined(_POSIX_SOURCE) # define _POSIX_SOURCE 1 #endif #include <stdio.h> #include <stdlib.h> #include <errno.h> #include <string.h> #if defined(_WIN32) /*We need the following two to set stdin/stdout to binary.*/ # include <io.h> # include <fcntl.h> #endif #include <opusfile.h> #if defined(OP_FIXED_POINT) typedef opus_int16 op_sample; # define op_read_native_stereo op_read_stereo #else typedef float op_sample; # define op_read_native_stereo op_read_float_stereo #endif static void print_duration(FILE *_fp,ogg_int64_t _nsamples,int _frac){ ogg_int64_t seconds; ogg_int64_t minutes; ogg_int64_t hours; ogg_int64_t days; ogg_int64_t weeks; _nsamples+=_frac?24:24000; 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); if(_frac)fprintf(_fp,".%03i",(int)(_nsamples/48)); fprintf(_fp,"s"); } static void print_size(FILE *_fp,opus_int64 _nbytes,int _metric, const char *_spacer){ static const char SUFFIXES[7]={' ','k','M','G','T','P','E'}; opus_int64 val; opus_int64 den; opus_int64 round; int base; int shift; base=_metric?1000:1024; round=0; den=1; for(shift=0;shift<6;shift++){ if(_nbytes<den*base-round)break; den*=base; round=den>>1; } val=(_nbytes+round)/den; if(den>1&&val<10){ if(den>=1000000000)val=(_nbytes+(round/100))/(den/100); else val=(_nbytes*100+round)/den; fprintf(_fp,"%li.%02i%s%c",(long)(val/100),(int)(val%100), _spacer,SUFFIXES[shift]); } else if(den>1&&val<100){ if(den>=1000000000)val=(_nbytes+(round/10))/(den/10); else val=(_nbytes*10+round)/den; fprintf(_fp,"%li.%i%s%c",(long)(val/10),(int)(val%10), _spacer,SUFFIXES[shift]); } else fprintf(_fp,"%li%s%c",(long)val,_spacer,SUFFIXES[shift]); } int main(int _argc,const char **_argv){ OggOpusFile *of; ogg_int64_t pcm_offset; ogg_int64_t pcm_print_offset; ogg_int64_t nsamples; opus_int32 bitrate; int ret; int prev_li; int is_ssl; #if defined(_WIN32) # undef fileno # define fileno _fileno /*We need to set stdin/stdout to binary mode. Damn windows.*/ /*Beware the evil ifdef. We avoid these where we can, but this one we cannot. Don't add any more. You'll probably go to hell if you do.*/ _setmode(fileno(stdin),_O_BINARY); _setmode(fileno(stdout),_O_BINARY); #endif if(_argc!=2){ fprintf(stderr,"Usage: %s <file.opus>\n",_argv[0]); return EXIT_FAILURE; } is_ssl=0; if(strcmp(_argv[1],"-")==0){ OpusFileCallbacks cb={NULL,NULL,NULL,NULL}; of=op_open_callbacks(op_fdopen(&cb,fileno(stdin),"rb"),&cb,NULL,0,&ret); } else{ /*Try to treat the argument as a URL.*/ of=op_open_url(_argv[1],&ret,OP_SSL_SKIP_CERTIFICATE_CHECK(1),NULL); #if 0 if(of==NULL){ OpusFileCallbacks cb={NULL,NULL,NULL,NULL}; void *fp; /*For debugging: force a file to not be seekable.*/ fp=op_fopen(&cb,_argv[1],"rb"); cb.seek=NULL; cb.tell=NULL; of=op_open_callbacks(fp,&cb,NULL,0,NULL); } #else if(of==NULL)of=op_open_file(_argv[1],&ret); /*This is not a very good check, but at least it won't give false positives.*/ else is_ssl=strncmp(_argv[1],"https:",6)==0; #endif } if(of==NULL){ fprintf(stderr,"Failed to open file '%s': %i\n",_argv[1],ret); return EXIT_FAILURE; } if(op_seekable(of)){ ogg_int64_t duration; opus_int64 size; fprintf(stderr,"Total number of links: %i\n",op_link_count(of)); duration=op_pcm_total(of,-1); fprintf(stderr,"Total duration: "); print_duration(stderr,duration,3); fprintf(stderr," (%li samples @ 48 kHz)\n",(long)duration); size=op_raw_total(of,-1); fprintf(stderr,"Total size: "); print_size(stderr,size,0,""); fprintf(stderr,"\n"); } prev_li=-1; nsamples=0; pcm_offset=op_pcm_tell(of); if(pcm_offset!=0){ fprintf(stderr,"Non-zero starting PCM offset: %li\n",(long)pcm_offset); } pcm_print_offset=pcm_offset-48000; bitrate=0; for(;;){ ogg_int64_t next_pcm_offset; op_sample pcm[120*48*2]; int li; ret=op_read_native_stereo(of,pcm,sizeof(pcm)/sizeof(*pcm)); if(ret<0){ fprintf(stderr,"\nError decoding '%s': %i\n",_argv[1],ret); if(is_ssl)fprintf(stderr,"Possible truncation attack?\n"); ret=EXIT_FAILURE; break; } li=op_current_link(of); if(li!=prev_li){ const OpusHead *head; const OpusTags *tags; int ci; /*We found a new link. Print out some information.*/ fprintf(stderr,"Decoding link %i: \n",li); head=op_head(of,li); fprintf(stderr," Channels: %i\n",head->channel_count); if(op_seekable(of)){ ogg_int64_t duration; opus_int64 size; duration=op_pcm_total(of,li); fprintf(stderr," Duration: "); print_duration(stderr,duration,3); fprintf(stderr," (%li samples @ 48 kHz)\n",(long)duration); size=op_raw_total(of,li); fprintf(stderr," Size: "); print_size(stderr,size,0,""); fprintf(stderr,"\n"); } if(head->input_sample_rate){ fprintf(stderr," Original sampling rate: %lu Hz\n", (unsigned long)head->input_sample_rate); } tags=op_tags(of,li); fprintf(stderr," Encoded by: %s\n",tags->vendor); for(ci=0;ci<tags->comments;ci++){ fprintf(stderr," %s\n",tags->user_comments[ci]); } fprintf(stderr,"\n"); if(!op_seekable(of)){ pcm_offset=op_pcm_tell(of)-ret; if(pcm_offset!=0){ fprintf(stderr,"Non-zero starting PCM offset in link %i: %li\n", li,(long)pcm_offset); } } } if(li!=prev_li||pcm_offset>=pcm_print_offset+48000){ opus_int32 next_bitrate; opus_int64 raw_offset; next_bitrate=op_bitrate_instant(of); if(next_bitrate>=0)bitrate=next_bitrate; raw_offset=op_raw_tell(of); fprintf(stderr,"\r "); print_size(stderr,raw_offset,0,""); fprintf(stderr," "); print_duration(stderr,pcm_offset,0); fprintf(stderr," ("); print_size(stderr,bitrate,1," "); fprintf(stderr,"bps) \r"); pcm_print_offset=pcm_offset; } next_pcm_offset=op_pcm_tell(of); if(pcm_offset+ret!=next_pcm_offset){ fprintf(stderr,"\nPCM offset gap! %li+%i!=%li\n", (long)pcm_offset,ret,(long)next_pcm_offset); } pcm_offset=next_pcm_offset; if(ret<=0){ ret=EXIT_SUCCESS; break; } if(!fwrite(pcm,sizeof(*pcm)*2,ret,stdout)){ fprintf(stderr,"\nError writing decoded audio data: %s\n", strerror(errno)); ret=EXIT_FAILURE; break; } nsamples+=ret; prev_li=li; } op_free(of); if(ret==EXIT_SUCCESS){ fprintf(stderr,"\nDone: played "); print_duration(stderr,nsamples,3); fprintf(stderr," (%li samples @ 48 kHz).\n",(long)nsamples); } return ret; }