ref: 06a191efabc2334afca0b4b24ef6e53d5ba108ec
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/ * * * ********************************************************************/ #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 <string.h> #include <opusfile.h> #if defined(_WIN32) # include "win32utf8.h" # undef fileno # define fileno _fileno #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]); } /*A version of strncasecmp() that is guaranteed to only ignore the case of ASCII characters.*/ static int local_strncasecmp(const char *_a,const char *_b,int _n){ int i; for(i=0;i<_n;i++){ int a; int b; int d; a=_a[i]; b=_b[i]; if(a>='a'&&a<='z')a-='a'-'A'; if(b>='a'&&b<='z')b-='a'-'A'; d=a-b; if(d)return d; } return 0; } static void put_le32(unsigned char *_dst,opus_uint32 _x){ _dst[0]=(unsigned char)(_x&0xFF); _dst[1]=(unsigned char)(_x>>8&0xFF); _dst[2]=(unsigned char)(_x>>16&0xFF); _dst[3]=(unsigned char)(_x>>24&0xFF); } /*Make a header for a 48 kHz, stereo, signed, 16-bit little-endian PCM WAV.*/ static void make_wav_header(unsigned char _dst[44],ogg_int64_t _duration){ /*The chunk sizes are set to 0x7FFFFFFF by default. Many, though not all, programs will interpret this to mean the duration is "undefined", and continue to read from the file so long as there is actual data.*/ static const unsigned char WAV_HEADER_TEMPLATE[44]={ 'R','I','F','F',0xFF,0xFF,0xFF,0x7F, 'W','A','V','E','f','m','t',' ', 0x10,0x00,0x00,0x00,0x01,0x00,0x02,0x00, 0x80,0xBB,0x00,0x00,0x00,0xEE,0x02,0x00, 0x04,0x00,0x10,0x00,'d','a','t','a', 0xFF,0xFF,0xFF,0x7F }; memcpy(_dst,WAV_HEADER_TEMPLATE,sizeof(WAV_HEADER_TEMPLATE)); if(_duration>0){ if(_duration>0x1FFFFFF6){ fprintf(stderr,"WARNING: WAV output would be larger than 2 GB.\n"); fprintf(stderr, "Writing non-standard WAV header with invalid chunk sizes.\n"); } else{ opus_uint32 audio_size; audio_size=(opus_uint32)(_duration*4); put_le32(_dst+4,audio_size+36); put_le32(_dst+40,audio_size); } } } int main(int _argc,const char **_argv){ OggOpusFile *of; ogg_int64_t duration; unsigned char wav_header[44]; int ret; int is_ssl; int output_seekable; #if defined(_WIN32) win32_utf8_setup(&_argc,&_argv); #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,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; } duration=0; output_seekable=fseek(stdout,0,SEEK_CUR)!=-1; if(op_seekable(of)){ 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"); } else if(!output_seekable){ fprintf(stderr,"WARNING: Neither input nor output are seekable.\n"); fprintf(stderr, "Writing non-standard WAV header with invalid chunk sizes.\n"); } make_wav_header(wav_header,duration); if(!fwrite(wav_header,sizeof(wav_header),1,stdout)){ fprintf(stderr,"Error writing WAV header: %s\n",strerror(errno)); ret=EXIT_FAILURE; } else{ ogg_int64_t pcm_offset; ogg_int64_t pcm_print_offset; ogg_int64_t nsamples; opus_int32 bitrate; int prev_li; 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; opus_int16 pcm[120*48*2]; unsigned char out[120*48*2*2]; int li; int si; /*Although we would generally prefer to use the float interface, WAV files with signed, 16-bit little-endian samples are far more universally supported, so that's what we output.*/ ret=op_read_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++){ const char *comment; comment=tags->user_comments[ci]; if(local_strncasecmp(comment,"METADATA_BLOCK_PICTURE=",23)==0){ OpusPictureTag pic; int err; err=opus_picture_tag_parse(&pic,comment); fprintf(stderr," %.23s",comment); if(err>=0){ fprintf(stderr,"%u|%s|%s|%ux%ux%u",pic.type,pic.mime_type, pic.description,pic.width,pic.height,pic.depth); if(pic.colors!=0)fprintf(stderr,"/%u",pic.colors); if(pic.format==OP_PIC_FORMAT_URL){ fprintf(stderr,"|%s\n",pic.data); } else{ fprintf(stderr,"|<%u bytes of image data>\n",pic.data_length); } opus_picture_tag_clear(&pic); } else fprintf(stderr,"<error parsing picture tag>\n"); } else 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; fflush(stderr); } 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; } /*Ensure the data is little-endian before writing it out.*/ for(si=0;si<2*ret;si++){ out[2*si+0]=(unsigned char)(pcm[si]&0xFF); out[2*si+1]=(unsigned char)(pcm[si]>>8&0xFF); } if(!fwrite(out,sizeof(*out)*4*ret,1,stdout)){ fprintf(stderr,"\nError writing decoded audio data: %s\n", strerror(errno)); ret=EXIT_FAILURE; break; } nsamples+=ret; prev_li=li; } if(ret==EXIT_SUCCESS){ fprintf(stderr,"\nDone: played "); print_duration(stderr,nsamples,3); fprintf(stderr," (%li samples @ 48 kHz).\n",(long)nsamples); } if(op_seekable(of)&&nsamples!=duration){ fprintf(stderr,"\nWARNING: " "Number of output samples does not match declared file duration.\n"); if(!output_seekable)fprintf(stderr,"Output WAV file will be corrupt.\n"); } if(output_seekable&&nsamples!=duration){ make_wav_header(wav_header,nsamples); if(fseek(stdout,0,SEEK_SET)|| !fwrite(wav_header,sizeof(wav_header),1,stdout)){ fprintf(stderr,"Error rewriting WAV header: %s\n",strerror(errno)); ret=EXIT_FAILURE; } } } op_free(of); return ret; }