/******************************************************************** * * * THIS FILE IS PART OF THE OggVorbis 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 OggVorbis SOURCE CODE IS (C) COPYRIGHT 1994-2002 * * by the XIPHOPHORUS Company http://www.xiph.org/ * * * ******************************************************************** function: stdio-based convenience library for opening/seeking/decoding last mod: $Id: vorbisfile.c 3 2005-06-02 18:16:43Z vspader $ ********************************************************************/ #include #include #include #include #include #include "vorbis/codec.h" #include "vorbis/vorbisfile.h" #include "os.h" #include "misc.h" /* A 'chained bitstream' is a Vorbis bitstream that contains more than one logical bitstream arranged end to end (the only form of Ogg multiplexing allowed in a Vorbis bitstream; grouping [parallel multiplexing] is not allowed in Vorbis) */ /* A Vorbis file can be played beginning to end (streamed) without worrying ahead of time about chaining (see decoder_example.c). If we have the whole file, however, and want random access (seeking/scrubbing) or desire to know the total length/time of a file, we need to account for the possibility of chaining. */ /* We can handle things a number of ways; we can determine the entire bitstream structure right off the bat, or find pieces on demand. This example determines and caches structure for the entire bitstream, but builds a virtual decoder on the fly when moving between links in the chain. */ /* There are also different ways to implement seeking. Enough information exists in an Ogg bitstream to seek to sample-granularity positions in the output. Or, one can seek by picking some portion of the stream roughly in the desired area if we only want coarse navigation through the stream. */ /************************************************************************* * Many, many internal helpers. The intention is not to be confusing; * rampant duplication and monolithic function implementation would be * harder to understand anyway. The high level functions are last. Begin * grokking near the end of the file */ /* read a little more data from the file/pipe into the ogg_sync framer */ #define CHUNKSIZE 8500 /* a shade over 8k; anyone using pages well over 8k gets what they deserve */ static long _get_data(OggVorbis_File *vf){ errno=0; if(vf->datasource){ char *buffer=ogg_sync_buffer(&vf->oy,CHUNKSIZE); long bytes=(vf->callbacks.read_func)(buffer,1,CHUNKSIZE,vf->datasource); if(bytes>0)ogg_sync_wrote(&vf->oy,bytes); if(bytes==0 && errno)return(-1); return(bytes); }else return(0); } /* save a tiny smidge of verbosity to make the code more readable */ static void _seek_helper(OggVorbis_File *vf,ogg_int64_t offset){ if(vf->datasource){ (vf->callbacks.seek_func)(vf->datasource, offset, SEEK_SET); vf->offset=offset; ogg_sync_reset(&vf->oy); }else{ /* shouldn't happen unless someone writes a broken callback */ return; } } /* The read/seek functions track absolute position within the stream */ /* from the head of the stream, get the next page. boundary specifies if the function is allowed to fetch more data from the stream (and how much) or only use internally buffered data. boundary: -1) unbounded search 0) read no additional data; use cached only n) search for a new page beginning for n bytes return: <0) did not find a page (OV_FALSE, OV_EOF, OV_EREAD) n) found a page at absolute offset n */ static ogg_int64_t _get_next_page(OggVorbis_File *vf,ogg_page *og, ogg_int64_t boundary){ if(boundary>0)boundary+=vf->offset; while(1){ long more; if(boundary>0 && vf->offset>=boundary)return(OV_FALSE); more=ogg_sync_pageseek(&vf->oy,og); if(more<0){ /* skipped n bytes */ vf->offset-=more; }else{ if(more==0){ /* send more paramedics */ if(!boundary)return(OV_FALSE); { long ret=_get_data(vf); if(ret==0)return(OV_EOF); if(ret<0)return(OV_EREAD); } }else{ /* got a page. Return the offset at the page beginning, advance the internal offset past the page end */ ogg_int64_t ret=vf->offset; vf->offset+=more; return(ret); } } } } /* find the latest page beginning before the current stream cursor position. Much dirtier than the above as Ogg doesn't have any backward search linkage. no 'readp' as it will certainly have to read. */ /* returns offset or OV_EREAD, OV_FAULT */ static ogg_int64_t _get_prev_page(OggVorbis_File *vf,ogg_page *og){ ogg_int64_t begin=vf->offset; ogg_int64_t end=begin; ogg_int64_t ret; ogg_int64_t offset=-1; while(offset==-1){ begin-=CHUNKSIZE; if(begin<0) begin=0; _seek_helper(vf,begin); while(vf->offsetoffset); if(ret==OV_EREAD)return(OV_EREAD); if(ret<0){ break; }else{ offset=ret; } } } /* we have the offset. Actually snork and hold the page now */ _seek_helper(vf,offset); ret=_get_next_page(vf,og,CHUNKSIZE); if(ret<0) /* this shouldn't be possible */ return(OV_EFAULT); return(offset); } /* finds each bitstream link one at a time using a bisection search (has to begin by knowing the offset of the lb's initial page). Recurses for each link so it can alloc the link storage after finding them all, then unroll and fill the cache at the same time */ static int _bisect_forward_serialno(OggVorbis_File *vf, ogg_int64_t begin, ogg_int64_t searched, ogg_int64_t end, long currentno, long m){ ogg_int64_t endsearched=end; ogg_int64_t next=end; ogg_page og; ogg_int64_t ret; /* the below guards against garbage seperating the last and first pages of two links. */ while(searched=0)next=ret; }else{ searched=ret+og.header_len+og.body_len; } } _seek_helper(vf,next); ret=_get_next_page(vf,&og,-1); if(ret==OV_EREAD)return(OV_EREAD); if(searched>=end || ret<0){ vf->links=m+1; vf->offsets=_ogg_malloc((vf->links+1)*sizeof(*vf->offsets)); vf->serialnos=_ogg_malloc(vf->links*sizeof(*vf->serialnos)); vf->offsets[m+1]=searched; }else{ ret=_bisect_forward_serialno(vf,next,vf->offset, end,ogg_page_serialno(&og),m+1); if(ret==OV_EREAD)return(OV_EREAD); } vf->offsets[m]=begin; vf->serialnos[m]=currentno; return(0); } /* uses the local ogg_stream storage in vf; this is important for non-streaming input sources */ static int _fetch_headers(OggVorbis_File *vf,vorbis_info *vi,vorbis_comment *vc, long *serialno,ogg_page *og_ptr){ ogg_page og; ogg_packet op; int i,ret; if(!og_ptr){ ogg_int64_t llret=_get_next_page(vf,&og,CHUNKSIZE); if(llret==OV_EREAD)return(OV_EREAD); if(llret<0)return OV_ENOTVORBIS; og_ptr=&og; } ogg_stream_reset_serialno(&vf->os,ogg_page_serialno(og_ptr)); if(serialno)*serialno=vf->os.serialno; vf->ready_state=STREAMSET; /* extract the initial header from the first page and verify that the Ogg bitstream is in fact Vorbis data */ vorbis_info_init(vi); vorbis_comment_init(vc); i=0; while(i<3){ ogg_stream_pagein(&vf->os,og_ptr); while(i<3){ int result=ogg_stream_packetout(&vf->os,&op); if(result==0)break; if(result==-1){ ret=OV_EBADHEADER; goto bail_header; } if((ret=vorbis_synthesis_headerin(vi,vc,&op))){ goto bail_header; } i++; } if(i<3) if(_get_next_page(vf,og_ptr,CHUNKSIZE)<0){ ret=OV_EBADHEADER; goto bail_header; } } return 0; bail_header: vorbis_info_clear(vi); vorbis_comment_clear(vc); vf->ready_state=OPENED; return ret; } /* last step of the OggVorbis_File initialization; get all the vorbis_info structs and PCM positions. Only called by the seekable initialization (local stream storage is hacked slightly; pay attention to how that's done) */ /* this is void and does not propogate errors up because we want to be able to open and use damaged bitstreams as well as we can. Just watch out for missing information for links in the OggVorbis_File struct */ static void _prefetch_all_headers(OggVorbis_File *vf, ogg_int64_t dataoffset){ ogg_page og; int i; ogg_int64_t ret; vf->vi=_ogg_realloc(vf->vi,vf->links*sizeof(*vf->vi)); vf->vc=_ogg_realloc(vf->vc,vf->links*sizeof(*vf->vc)); vf->dataoffsets=_ogg_malloc(vf->links*sizeof(*vf->dataoffsets)); vf->pcmlengths=_ogg_malloc(vf->links*2*sizeof(*vf->pcmlengths)); for(i=0;ilinks;i++){ if(i==0){ /* we already grabbed the initial header earlier. Just set the offset */ vf->dataoffsets[i]=dataoffset; _seek_helper(vf,dataoffset); }else{ /* seek to the location of the initial header */ _seek_helper(vf,vf->offsets[i]); if(_fetch_headers(vf,vf->vi+i,vf->vc+i,NULL,NULL)<0){ vf->dataoffsets[i]=-1; }else{ vf->dataoffsets[i]=vf->offset; } } /* fetch beginning PCM offset */ if(vf->dataoffsets[i]!=-1){ ogg_int64_t accumulated=0; long lastblock=-1; int result; ogg_stream_reset_serialno(&vf->os,vf->serialnos[i]); while(1){ ogg_packet op; ret=_get_next_page(vf,&og,-1); if(ret<0) /* this should not be possible unless the file is truncated/mangled */ break; if(ogg_page_serialno(&og)!=vf->serialnos[i]) break; /* count blocksizes of all frames in the page */ ogg_stream_pagein(&vf->os,&og); while((result=ogg_stream_packetout(&vf->os,&op))){ if(result>0){ /* ignore holes */ long thisblock=vorbis_packet_blocksize(vf->vi+i,&op); if(lastblock!=-1) accumulated+=(lastblock+thisblock)>>2; lastblock=thisblock; } } if(ogg_page_granulepos(&og)!=-1){ /* pcm offset of last packet on the first audio page */ accumulated= ogg_page_granulepos(&og)-accumulated; break; } } /* less than zero? This is a stream with samples trimmed off the beginning, a normal occurrence; set the offset to zero */ if(accumulated<0)accumulated=0; vf->pcmlengths[i*2]=accumulated; } /* get the PCM length of this link. To do this, get the last page of the stream */ { ogg_int64_t end=vf->offsets[i+1]; _seek_helper(vf,end); while(1){ ret=_get_prev_page(vf,&og); if(ret<0){ /* this should not be possible */ vorbis_info_clear(vf->vi+i); vorbis_comment_clear(vf->vc+i); break; } if(ogg_page_granulepos(&og)!=-1){ vf->pcmlengths[i*2+1]=ogg_page_granulepos(&og)-vf->pcmlengths[i*2]; break; } vf->offset=ret; } } } } static int _make_decode_ready(OggVorbis_File *vf){ if(vf->ready_state>STREAMSET)return 0; if(vf->ready_stateseekable){ if(vorbis_synthesis_init(&vf->vd,vf->vi+vf->current_link)) return OV_EBADLINK; }else{ if(vorbis_synthesis_init(&vf->vd,vf->vi)) return OV_EBADLINK; } vorbis_block_init(&vf->vd,&vf->vb); vf->ready_state=INITSET; vf->bittrack=0.f; vf->samptrack=0.f; return 0; } static int _open_seekable2(OggVorbis_File *vf){ long serialno=vf->current_serialno; ogg_int64_t dataoffset=vf->offset, end; ogg_page og; /* we're partially open and have a first link header state in storage in vf */ /* we can seek, so set out learning all about this file */ (vf->callbacks.seek_func)(vf->datasource,0,SEEK_END); vf->offset=vf->end=(vf->callbacks.tell_func)(vf->datasource); /* We get the offset for the last page of the physical bitstream. Most OggVorbis files will contain a single logical bitstream */ end=_get_prev_page(vf,&og); if(end<0)return(end); /* more than one logical bitstream? */ if(ogg_page_serialno(&og)!=serialno){ /* Chained bitstream. Bisect-search each logical bitstream section. Do so based on serial number only */ if(_bisect_forward_serialno(vf,0,0,end+1,serialno,0)<0)return(OV_EREAD); }else{ /* Only one logical bitstream */ if(_bisect_forward_serialno(vf,0,end,end+1,serialno,0))return(OV_EREAD); } /* the initial header memory is referenced by vf after; don't free it */ _prefetch_all_headers(vf,dataoffset); return(ov_raw_seek(vf,0)); } /* clear out the current logical bitstream decoder */ static void _decode_clear(OggVorbis_File *vf){ vorbis_dsp_clear(&vf->vd); vorbis_block_clear(&vf->vb); vf->ready_state=OPENED; } /* fetch and process a packet. Handles the case where we're at a bitstream boundary and dumps the decoding machine. If the decoding machine is unloaded, it loads it. It also keeps pcm_offset up to date (seek and read both use this. seek uses a special hack with readp). return: <0) error, OV_HOLE (lost packet) or OV_EOF 0) need more data (only if readp==0) 1) got a packet */ static int _fetch_and_process_packet(OggVorbis_File *vf, ogg_packet *op_in, int readp, int spanp){ ogg_page og; /* handle one packet. Try to fetch it from current stream state */ /* extract packets from page */ while(1){ /* process a packet if we can. If the machine isn't loaded, neither is a page */ if(vf->ready_state==INITSET){ while(1) { ogg_packet op; ogg_packet *op_ptr=(op_in?op_in:&op); int result=ogg_stream_packetout(&vf->os,op_ptr); ogg_int64_t granulepos; op_in=NULL; if(result==-1)return(OV_HOLE); /* hole in the data. */ if(result>0){ /* got a packet. process it */ granulepos=op_ptr->granulepos; if(!vorbis_synthesis(&vf->vb,op_ptr)){ /* lazy check for lazy header handling. The header packets aren't audio, so if/when we submit them, vorbis_synthesis will reject them */ /* suck in the synthesis data and track bitrate */ { int oldsamples=vorbis_synthesis_pcmout(&vf->vd,NULL); /* for proper use of libvorbis within libvorbisfile, oldsamples will always be zero. */ if(oldsamples)return(OV_EFAULT); vorbis_synthesis_blockin(&vf->vd,&vf->vb); vf->samptrack+=vorbis_synthesis_pcmout(&vf->vd,NULL)-oldsamples; vf->bittrack+=op_ptr->bytes*8; } /* update the pcm offset. */ if(granulepos!=-1 && !op_ptr->e_o_s){ int link=(vf->seekable?vf->current_link:0); int i,samples; /* this packet has a pcm_offset on it (the last packet completed on a page carries the offset) After processing (above), we know the pcm position of the *last* sample ready to be returned. Find the offset of the *first* As an aside, this trick is inaccurate if we begin reading anew right at the last page; the end-of-stream granulepos declares the last frame in the stream, and the last packet of the last page may be a partial frame. So, we need a previous granulepos from an in-sequence page to have a reference point. Thus the !op_ptr->e_o_s clause above */ if(vf->seekable && link>0) granulepos-=vf->pcmlengths[link*2]; if(granulepos<0)granulepos=0; /* actually, this shouldn't be possible here unless the stream is very broken */ samples=vorbis_synthesis_pcmout(&vf->vd,NULL); granulepos-=samples; for(i=0;ipcmlengths[i*2+1]; vf->pcm_offset=granulepos; } return(1); } } else break; } } if(vf->ready_state>=OPENED){ ogg_int64_t ret; if(!readp)return(0); if((ret=_get_next_page(vf,&og,-1))<0){ return(OV_EOF); /* eof. leave unitialized */ } /* bitrate tracking; add the header's bytes here, the body bytes are done by packet above */ vf->bittrack+=og.header_len*8; /* has our decoding just traversed a bitstream boundary? */ if(vf->ready_state==INITSET){ if(vf->current_serialno!=ogg_page_serialno(&og)){ if(!spanp) return(OV_EOF); _decode_clear(vf); if(!vf->seekable){ vorbis_info_clear(vf->vi); vorbis_comment_clear(vf->vc); } } } } /* Do we need to load a new machine before submitting the page? */ /* This is different in the seekable and non-seekable cases. In the seekable case, we already have all the header information loaded and cached; we just initialize the machine with it and continue on our merry way. In the non-seekable (streaming) case, we'll only be at a boundary if we just left the previous logical bitstream and we're now nominally at the header of the next bitstream */ if(vf->ready_state!=INITSET){ int link; if(vf->ready_stateseekable){ vf->current_serialno=ogg_page_serialno(&og); /* match the serialno to bitstream section. We use this rather than offset positions to avoid problems near logical bitstream boundaries */ for(link=0;linklinks;link++) if(vf->serialnos[link]==vf->current_serialno)break; if(link==vf->links)return(OV_EBADLINK); /* sign of a bogus stream. error out, leave machine uninitialized */ vf->current_link=link; ogg_stream_reset_serialno(&vf->os,vf->current_serialno); vf->ready_state=STREAMSET; }else{ /* we're streaming */ /* fetch the three header packets, build the info struct */ int ret=_fetch_headers(vf,vf->vi,vf->vc,&vf->current_serialno,&og); if(ret)return(ret); vf->current_link++; link=0; } } { int ret=_make_decode_ready(vf); if(ret<0)return ret; } } ogg_stream_pagein(&vf->os,&og); } } /* if, eg, 64 bit stdio is configured by default, this will build with fseek64 */ static int _fseek64_wrap(FILE *f,ogg_int64_t off,int whence){ if(f==NULL)return(-1); return fseek(f,off,whence); } static int _ov_open1(void *f,OggVorbis_File *vf,char *initial, long ibytes, ov_callbacks callbacks){ int offsettest=(f?callbacks.seek_func(f,0,SEEK_CUR):-1); int ret; memset(vf,0,sizeof(*vf)); vf->datasource=f; vf->callbacks = callbacks; /* init the framing state */ ogg_sync_init(&vf->oy); /* perhaps some data was previously read into a buffer for testing against other stream types. Allow initialization from this previously read data (as we may be reading from a non-seekable stream) */ if(initial){ char *buffer=ogg_sync_buffer(&vf->oy,ibytes); memcpy(buffer,initial,ibytes); ogg_sync_wrote(&vf->oy,ibytes); } /* can we seek? Stevens suggests the seek test was portable */ if(offsettest!=-1)vf->seekable=1; /* No seeking yet; Set up a 'single' (current) logical bitstream entry for partial open */ vf->links=1; vf->vi=_ogg_calloc(vf->links,sizeof(*vf->vi)); vf->vc=_ogg_calloc(vf->links,sizeof(*vf->vc)); ogg_stream_init(&vf->os,-1); /* fill in the serialno later */ /* Try to fetch the headers, maintaining all the storage */ if((ret=_fetch_headers(vf,vf->vi,vf->vc,&vf->current_serialno,NULL))<0){ vf->datasource=NULL; ov_clear(vf); }else vf->ready_state=PARTOPEN; return(ret); } static int _ov_open2(OggVorbis_File *vf){ if(vf->ready_state != PARTOPEN) return OV_EINVAL; vf->ready_state=OPENED; if(vf->seekable){ int ret=_open_seekable2(vf); if(ret){ vf->datasource=NULL; ov_clear(vf); } return(ret); }else vf->ready_state=STREAMSET; return 0; } /* clear out the OggVorbis_File struct */ int ov_clear(OggVorbis_File *vf){ if(vf){ vorbis_block_clear(&vf->vb); vorbis_dsp_clear(&vf->vd); ogg_stream_clear(&vf->os); if(vf->vi && vf->links){ int i; for(i=0;ilinks;i++){ vorbis_info_clear(vf->vi+i); vorbis_comment_clear(vf->vc+i); } _ogg_free(vf->vi); _ogg_free(vf->vc); } if(vf->dataoffsets)_ogg_free(vf->dataoffsets); if(vf->pcmlengths)_ogg_free(vf->pcmlengths); if(vf->serialnos)_ogg_free(vf->serialnos); if(vf->offsets)_ogg_free(vf->offsets); ogg_sync_clear(&vf->oy); if(vf->datasource)(vf->callbacks.close_func)(vf->datasource); memset(vf,0,sizeof(*vf)); } #ifdef DEBUG_LEAKS _VDBG_dump(); #endif return(0); } /* inspects the OggVorbis file and finds/documents all the logical bitstreams contained in it. Tries to be tolerant of logical bitstream sections that are truncated/woogie. return: -1) error 0) OK */ int ov_open_callbacks(void *f,OggVorbis_File *vf,char *initial,long ibytes, ov_callbacks callbacks){ int ret=_ov_open1(f,vf,initial,ibytes,callbacks); if(ret)return ret; return _ov_open2(vf); } int ov_open(FILE *f,OggVorbis_File *vf,char *initial,long ibytes){ ov_callbacks callbacks = { (size_t (*)(void *, size_t, size_t, void *)) fread, (int (*)(void *, ogg_int64_t, int)) _fseek64_wrap, (int (*)(void *)) fclose, (long (*)(void *)) ftell }; return ov_open_callbacks((void *)f, vf, initial, ibytes, callbacks); } /* cheap hack for game usage where downsampling is desirable; there's no need for SRC as we can just do it cheaply in libvorbis. */ int ov_halfrate(OggVorbis_File *vf,int flag){ int i; if(vf->vi==NULL)return OV_EINVAL; if(!vf->seekable)return OV_EINVAL; if(vf->ready_state>=STREAMSET) _decode_clear(vf); /* clear out stream state; later on libvorbis will be able to swap this on the fly, but for now dumping the decode machine is needed to reinit the MDCT lookups. 1.1 libvorbis is planned to be able to switch on the fly */ for(i=0;ilinks;i++){ if(vorbis_synthesis_halfrate(vf->vi+i,flag)){ ov_halfrate(vf,0); return OV_EINVAL; } } return 0; } int ov_halfrate_p(OggVorbis_File *vf){ if(vf->vi==NULL)return OV_EINVAL; return vorbis_synthesis_halfrate_p(vf->vi); } /* Only partially open the vorbis file; test for Vorbisness, and load the headers for the first chain. Do not seek (although test for seekability). Use ov_test_open to finish opening the file, else ov_clear to close/free it. Same return codes as open. */ int ov_test_callbacks(void *f,OggVorbis_File *vf,char *initial,long ibytes, ov_callbacks callbacks) { return _ov_open1(f,vf,initial,ibytes,callbacks); } int ov_test(FILE *f,OggVorbis_File *vf,char *initial,long ibytes){ ov_callbacks callbacks = { (size_t (*)(void *, size_t, size_t, void *)) fread, (int (*)(void *, ogg_int64_t, int)) _fseek64_wrap, (int (*)(void *)) fclose, (long (*)(void *)) ftell }; return ov_test_callbacks((void *)f, vf, initial, ibytes, callbacks); } int ov_test_open(OggVorbis_File *vf){ if(vf->ready_state!=PARTOPEN)return(OV_EINVAL); return _ov_open2(vf); } /* How many logical bitstreams in this physical bitstream? */ long ov_streams(OggVorbis_File *vf){ return vf->links; } /* Is the FILE * associated with vf seekable? */ long ov_seekable(OggVorbis_File *vf){ return vf->seekable; } /* returns the bitrate for a given logical bitstream or the entire physical bitstream. If the file is open for random access, it will find the *actual* average bitrate. If the file is streaming, it returns the nominal bitrate (if set) else the average of the upper/lower bounds (if set) else -1 (unset). If you want the actual bitrate field settings, get them from the vorbis_info structs */ long ov_bitrate(OggVorbis_File *vf,int i){ if(vf->ready_state=vf->links)return(OV_EINVAL); if(!vf->seekable && i!=0)return(ov_bitrate(vf,0)); if(i<0){ ogg_int64_t bits=0; int i; float br; for(i=0;ilinks;i++) bits+=(vf->offsets[i+1]-vf->dataoffsets[i])*8; /* This once read: return(rint(bits/ov_time_total(vf,-1))); * gcc 3.x on x86 miscompiled this at optimisation level 2 and above, * so this is slightly transformed to make it work. */ br = bits/ov_time_total(vf,-1); return(rint(br)); }else{ if(vf->seekable){ /* return the actual bitrate */ return(rint((vf->offsets[i+1]-vf->dataoffsets[i])*8/ov_time_total(vf,i))); }else{ /* return nominal if set */ if(vf->vi[i].bitrate_nominal>0){ return vf->vi[i].bitrate_nominal; }else{ if(vf->vi[i].bitrate_upper>0){ if(vf->vi[i].bitrate_lower>0){ return (vf->vi[i].bitrate_upper+vf->vi[i].bitrate_lower)/2; }else{ return vf->vi[i].bitrate_upper; } } return(OV_FALSE); } } } } /* returns the actual bitrate since last call. returns -1 if no additional data to offer since last call (or at beginning of stream), EINVAL if stream is only partially open */ long ov_bitrate_instant(OggVorbis_File *vf){ int link=(vf->seekable?vf->current_link:0); long ret; if(vf->ready_statesamptrack==0)return(OV_FALSE); ret=vf->bittrack/vf->samptrack*vf->vi[link].rate+.5; vf->bittrack=0.f; vf->samptrack=0.f; return(ret); } /* Guess */ long ov_serialnumber(OggVorbis_File *vf,int i){ if(i>=vf->links)return(ov_serialnumber(vf,vf->links-1)); if(!vf->seekable && i>=0)return(ov_serialnumber(vf,-1)); if(i<0){ return(vf->current_serialno); }else{ return(vf->serialnos[i]); } } /* returns: total raw (compressed) length of content if i==-1 raw (compressed) length of that logical bitstream for i==0 to n OV_EINVAL if the stream is not seekable (we can't know the length) or if stream is only partially open */ ogg_int64_t ov_raw_total(OggVorbis_File *vf,int i){ if(vf->ready_stateseekable || i>=vf->links)return(OV_EINVAL); if(i<0){ ogg_int64_t acc=0; int i; for(i=0;ilinks;i++) acc+=ov_raw_total(vf,i); return(acc); }else{ return(vf->offsets[i+1]-vf->offsets[i]); } } /* returns: total PCM length (samples) of content if i==-1 PCM length (samples) of that logical bitstream for i==0 to n OV_EINVAL if the stream is not seekable (we can't know the length) or only partially open */ ogg_int64_t ov_pcm_total(OggVorbis_File *vf,int i){ if(vf->ready_stateseekable || i>=vf->links)return(OV_EINVAL); if(i<0){ ogg_int64_t acc=0; int i; for(i=0;ilinks;i++) acc+=ov_pcm_total(vf,i); return(acc); }else{ return(vf->pcmlengths[i*2+1]); } } /* returns: total seconds of content if i==-1 seconds in that logical bitstream for i==0 to n OV_EINVAL if the stream is not seekable (we can't know the length) or only partially open */ double ov_time_total(OggVorbis_File *vf,int i){ if(vf->ready_stateseekable || i>=vf->links)return(OV_EINVAL); if(i<0){ double acc=0; int i; for(i=0;ilinks;i++) acc+=ov_time_total(vf,i); return(acc); }else{ return((double)(vf->pcmlengths[i*2+1])/vf->vi[i].rate); } } /* seek to an offset relative to the *compressed* data. This also scans packets to update the PCM cursor. It will cross a logical bitstream boundary, but only if it can't get any packets out of the tail of the bitstream we seek to (so no surprises). returns zero on success, nonzero on failure */ int ov_raw_seek(OggVorbis_File *vf,ogg_int64_t pos){ ogg_stream_state work_os; if(vf->ready_stateseekable) return(OV_ENOSEEK); /* don't dump machine if we can't seek */ if(pos<0 || pos>vf->end)return(OV_EINVAL); /* don't yet clear out decoding machine (if it's initialized), in the case we're in the same link. Restart the decode lapping, and let _fetch_and_process_packet deal with a potential bitstream boundary */ vf->pcm_offset=-1; ogg_stream_reset_serialno(&vf->os, vf->current_serialno); /* must set serialno */ vorbis_synthesis_restart(&vf->vd); _seek_helper(vf,pos); /* we need to make sure the pcm_offset is set, but we don't want to advance the raw cursor past good packets just to get to the first with a granulepos. That's not equivalent behavior to beginning decoding as immediately after the seek position as possible. So, a hack. We use two stream states; a local scratch state and the shared vf->os stream state. We use the local state to scan, and the shared state as a buffer for later decode. Unfortuantely, on the last page we still advance to last packet because the granulepos on the last page is not necessarily on a packet boundary, and we need to make sure the granpos is correct. */ { ogg_page og; ogg_packet op; int lastblock=0; int accblock=0; int thisblock; int eosflag; ogg_stream_init(&work_os,vf->current_serialno); /* get the memory ready */ ogg_stream_reset(&work_os); /* eliminate the spurious OV_HOLE return from not necessarily starting from the beginning */ while(1){ if(vf->ready_state>=STREAMSET){ /* snarf/scan a packet if we can */ int result=ogg_stream_packetout(&work_os,&op); if(result>0){ if(vf->vi[vf->current_link].codec_setup){ thisblock=vorbis_packet_blocksize(vf->vi+vf->current_link,&op); if(thisblock<0){ ogg_stream_packetout(&vf->os,NULL); thisblock=0; }else{ if(eosflag) ogg_stream_packetout(&vf->os,NULL); else if(lastblock)accblock+=(lastblock+thisblock)>>2; } if(op.granulepos!=-1){ int i,link=vf->current_link; ogg_int64_t granulepos=op.granulepos-vf->pcmlengths[link*2]; if(granulepos<0)granulepos=0; for(i=0;ipcmlengths[i*2+1]; vf->pcm_offset=granulepos-accblock; break; } lastblock=thisblock; continue; }else ogg_stream_packetout(&vf->os,NULL); } } if(!lastblock){ if(_get_next_page(vf,&og,-1)<0){ vf->pcm_offset=ov_pcm_total(vf,-1); break; } }else{ /* huh? Bogus stream with packets but no granulepos */ vf->pcm_offset=-1; break; } /* has our decoding just traversed a bitstream boundary? */ if(vf->ready_state>=STREAMSET) if(vf->current_serialno!=ogg_page_serialno(&og)){ _decode_clear(vf); /* clear out stream state */ ogg_stream_clear(&work_os); } if(vf->ready_statecurrent_serialno=ogg_page_serialno(&og); for(link=0;linklinks;link++) if(vf->serialnos[link]==vf->current_serialno)break; if(link==vf->links)goto seek_error; /* sign of a bogus stream. error out, leave machine uninitialized */ vf->current_link=link; ogg_stream_reset_serialno(&vf->os,vf->current_serialno); ogg_stream_reset_serialno(&work_os,vf->current_serialno); vf->ready_state=STREAMSET; } ogg_stream_pagein(&vf->os,&og); ogg_stream_pagein(&work_os,&og); eosflag=ogg_page_eos(&og); } } ogg_stream_clear(&work_os); vf->bittrack=0.f; vf->samptrack=0.f; return(0); seek_error: /* dump the machine so we're in a known state */ vf->pcm_offset=-1; ogg_stream_clear(&work_os); _decode_clear(vf); return OV_EBADLINK; } /* Page granularity seek (faster than sample granularity because we don't do the last bit of decode to find a specific sample). Seek to the last [granule marked] page preceeding the specified pos location, such that decoding past the returned point will quickly arrive at the requested position. */ int ov_pcm_seek_page(OggVorbis_File *vf,ogg_int64_t pos){ int link=-1; ogg_int64_t result=0; ogg_int64_t total=ov_pcm_total(vf,-1); if(vf->ready_stateseekable)return(OV_ENOSEEK); if(pos<0 || pos>total)return(OV_EINVAL); /* which bitstream section does this pcm offset occur in? */ for(link=vf->links-1;link>=0;link--){ total-=vf->pcmlengths[link*2+1]; if(pos>=total)break; } /* search within the logical bitstream for the page with the highest pcm_pos preceeding (or equal to) pos. There is a danger here; missing pages or incorrect frame number information in the bitstream could make our task impossible. Account for that (it would be an error condition) */ /* new search algorithm by HB (Nicholas Vinen) */ { ogg_int64_t end=vf->offsets[link+1]; ogg_int64_t begin=vf->offsets[link]; ogg_int64_t begintime = vf->pcmlengths[link*2]; ogg_int64_t endtime = vf->pcmlengths[link*2+1]+begintime; ogg_int64_t target=pos-total+begintime; ogg_int64_t best=begin; ogg_page og; while(beginoffset); if(result==OV_EREAD) goto seek_error; if(result<0){ if(bisect<=begin+1) end=begin; /* found it */ else{ if(bisect==0) goto seek_error; bisect-=CHUNKSIZE; if(bisect<=begin)bisect=begin+1; _seek_helper(vf,bisect); } }else{ ogg_int64_t granulepos=ogg_page_granulepos(&og); if(granulepos==-1)continue; if(granuleposoffset; /* raw offset of next page */ begintime=granulepos; if(target-begintime>44100)break; bisect=begin; /* *not* begin + 1 */ }else{ if(bisect<=begin+1) end=begin; /* found it */ else{ if(end==vf->offset){ /* we're pretty close - we'd be stuck in */ end=result; bisect-=CHUNKSIZE; /* an endless loop otherwise. */ if(bisect<=begin)bisect=begin+1; _seek_helper(vf,bisect); }else{ end=result; endtime=granulepos; break; } } } } } } /* found our page. seek to it, update pcm offset. Easier case than raw_seek, don't keep packets preceeding granulepos. */ { ogg_page og; ogg_packet op; /* seek */ _seek_helper(vf,best); vf->pcm_offset=-1; if(_get_next_page(vf,&og,-1)<0)return(OV_EOF); /* shouldn't happen */ if(link!=vf->current_link){ /* Different link; dump entire decode machine */ _decode_clear(vf); vf->current_link=link; vf->current_serialno=ogg_page_serialno(&og); vf->ready_state=STREAMSET; }else{ vorbis_synthesis_restart(&vf->vd); } ogg_stream_reset_serialno(&vf->os,vf->current_serialno); ogg_stream_pagein(&vf->os,&og); /* pull out all but last packet; the one with granulepos */ while(1){ result=ogg_stream_packetpeek(&vf->os,&op); if(result==0){ /* !!! the packet finishing this page originated on a preceeding page. Keep fetching previous pages until we get one with a granulepos or without the 'continued' flag set. Then just use raw_seek for simplicity. */ _seek_helper(vf,best); while(1){ result=_get_prev_page(vf,&og); if(result<0) goto seek_error; if(ogg_page_granulepos(&og)>-1 || !ogg_page_continued(&og)){ return ov_raw_seek(vf,result); } vf->offset=result; } } if(result<0){ result = OV_EBADPACKET; goto seek_error; } if(op.granulepos!=-1){ vf->pcm_offset=op.granulepos-vf->pcmlengths[vf->current_link*2]; if(vf->pcm_offset<0)vf->pcm_offset=0; vf->pcm_offset+=total; break; }else result=ogg_stream_packetout(&vf->os,NULL); } } } /* verify result */ if(vf->pcm_offset>pos || pos>ov_pcm_total(vf,-1)){ result=OV_EFAULT; goto seek_error; } vf->bittrack=0.f; vf->samptrack=0.f; return(0); seek_error: /* dump machine so we're in a known state */ vf->pcm_offset=-1; _decode_clear(vf); return (int)result; } /* seek to a sample offset relative to the decompressed pcm stream returns zero on success, nonzero on failure */ int ov_pcm_seek(OggVorbis_File *vf,ogg_int64_t pos){ int thisblock,lastblock=0; int ret=ov_pcm_seek_page(vf,pos); if(ret<0)return(ret); if((ret=_make_decode_ready(vf)))return ret; /* discard leading packets we don't need for the lapping of the position we want; don't decode them */ while(1){ ogg_packet op; ogg_page og; int ret=ogg_stream_packetpeek(&vf->os,&op); if(ret>0){ thisblock=vorbis_packet_blocksize(vf->vi+vf->current_link,&op); if(thisblock<0){ ogg_stream_packetout(&vf->os,NULL); continue; /* non audio packet */ } if(lastblock)vf->pcm_offset+=(lastblock+thisblock)>>2; if(vf->pcm_offset+((thisblock+ vorbis_info_blocksize(vf->vi,1))>>2)>=pos)break; /* remove the packet from packet queue and track its granulepos */ ogg_stream_packetout(&vf->os,NULL); vorbis_synthesis_trackonly(&vf->vb,&op); /* set up a vb with only tracking, no pcm_decode */ vorbis_synthesis_blockin(&vf->vd,&vf->vb); /* end of logical stream case is hard, especially with exact length positioning. */ if(op.granulepos>-1){ int i; /* always believe the stream markers */ vf->pcm_offset=op.granulepos-vf->pcmlengths[vf->current_link*2]; if(vf->pcm_offset<0)vf->pcm_offset=0; for(i=0;icurrent_link;i++) vf->pcm_offset+=vf->pcmlengths[i*2+1]; } lastblock=thisblock; }else{ if(ret<0 && ret!=OV_HOLE)break; /* suck in a new page */ if(_get_next_page(vf,&og,-1)<0)break; if(vf->current_serialno!=ogg_page_serialno(&og))_decode_clear(vf); if(vf->ready_statecurrent_serialno=ogg_page_serialno(&og); for(link=0;linklinks;link++) if(vf->serialnos[link]==vf->current_serialno)break; if(link==vf->links)return(OV_EBADLINK); vf->current_link=link; ogg_stream_reset_serialno(&vf->os,vf->current_serialno); vf->ready_state=STREAMSET; ret=_make_decode_ready(vf); if(ret)return ret; lastblock=0; } ogg_stream_pagein(&vf->os,&og); } } vf->bittrack=0.f; vf->samptrack=0.f; /* discard samples until we reach the desired position. Crossing a logical bitstream boundary with abandon is OK. */ while(vf->pcm_offsetpcm_offset; long samples=vorbis_synthesis_pcmout(&vf->vd,NULL); if(samples>target)samples=target; vorbis_synthesis_read(&vf->vd,samples); vf->pcm_offset+=samples; if(samplespcm_offset=ov_pcm_total(vf,-1); /* eof */ } return 0; } /* seek to a playback time relative to the decompressed pcm stream returns zero on success, nonzero on failure */ int ov_time_seek(OggVorbis_File *vf,double seconds){ /* translate time to PCM position and call ov_pcm_seek */ int link=-1; ogg_int64_t pcm_total=ov_pcm_total(vf,-1); double time_total=ov_time_total(vf,-1); if(vf->ready_stateseekable)return(OV_ENOSEEK); if(seconds<0 || seconds>time_total)return(OV_EINVAL); /* which bitstream section does this time offset occur in? */ for(link=vf->links-1;link>=0;link--){ pcm_total-=vf->pcmlengths[link*2+1]; time_total-=ov_time_total(vf,link); if(seconds>=time_total)break; } /* enough information to convert time offset to pcm offset */ { ogg_int64_t target=pcm_total+(seconds-time_total)*vf->vi[link].rate; return(ov_pcm_seek(vf,target)); } } /* page-granularity version of ov_time_seek returns zero on success, nonzero on failure */ int ov_time_seek_page(OggVorbis_File *vf,double seconds){ /* translate time to PCM position and call ov_pcm_seek */ int link=-1; ogg_int64_t pcm_total=ov_pcm_total(vf,-1); double time_total=ov_time_total(vf,-1); if(vf->ready_stateseekable)return(OV_ENOSEEK); if(seconds<0 || seconds>time_total)return(OV_EINVAL); /* which bitstream section does this time offset occur in? */ for(link=vf->links-1;link>=0;link--){ pcm_total-=vf->pcmlengths[link*2+1]; time_total-=ov_time_total(vf,link); if(seconds>=time_total)break; } /* enough information to convert time offset to pcm offset */ { ogg_int64_t target=pcm_total+(seconds-time_total)*vf->vi[link].rate; return(ov_pcm_seek_page(vf,target)); } } /* tell the current stream offset cursor. Note that seek followed by tell will likely not give the set offset due to caching */ ogg_int64_t ov_raw_tell(OggVorbis_File *vf){ if(vf->ready_stateoffset); } /* return PCM offset (sample) of next PCM sample to be read */ ogg_int64_t ov_pcm_tell(OggVorbis_File *vf){ if(vf->ready_statepcm_offset); } /* return time offset (seconds) of next PCM sample to be read */ double ov_time_tell(OggVorbis_File *vf){ int link=0; ogg_int64_t pcm_total=0; double time_total=0.f; if(vf->ready_stateseekable){ pcm_total=ov_pcm_total(vf,-1); time_total=ov_time_total(vf,-1); /* which bitstream section does this time offset occur in? */ for(link=vf->links-1;link>=0;link--){ pcm_total-=vf->pcmlengths[link*2+1]; time_total-=ov_time_total(vf,link); if(vf->pcm_offset>=pcm_total)break; } } return((double)time_total+(double)(vf->pcm_offset-pcm_total)/vf->vi[link].rate); } /* link: -1) return the vorbis_info struct for the bitstream section currently being decoded 0-n) to request information for a specific bitstream section In the case of a non-seekable bitstream, any call returns the current bitstream. NULL in the case that the machine is not initialized */ vorbis_info *ov_info(OggVorbis_File *vf,int link){ if(vf->seekable){ if(link<0) if(vf->ready_state>=STREAMSET) return vf->vi+vf->current_link; else return vf->vi; else if(link>=vf->links) return NULL; else return vf->vi+link; }else{ return vf->vi; } } /* grr, strong typing, grr, no templates/inheritence, grr */ vorbis_comment *ov_comment(OggVorbis_File *vf,int link){ if(vf->seekable){ if(link<0) if(vf->ready_state>=STREAMSET) return vf->vc+vf->current_link; else return vf->vc; else if(link>=vf->links) return NULL; else return vf->vc+link; }else{ return vf->vc; } } static int host_is_big_endian() { ogg_int32_t pattern = 0xfeedface; /* deadbeef */ unsigned char *bytewise = (unsigned char *)&pattern; if (bytewise[0] == 0xfe) return 1; return 0; } /* up to this point, everything could more or less hide the multiple logical bitstream nature of chaining from the toplevel application if the toplevel application didn't particularly care. However, at the point that we actually read audio back, the multiple-section nature must surface: Multiple bitstream sections do not necessarily have to have the same number of channels or sampling rate. ov_read returns the sequential logical bitstream number currently being decoded along with the PCM data in order that the toplevel application can take action on channel/sample rate changes. This number will be incremented even for streamed (non-seekable) streams (for seekable streams, it represents the actual logical bitstream index within the physical bitstream. Note that the accessor functions above are aware of this dichotomy). input values: buffer) a buffer to hold packed PCM data for return length) the byte length requested to be placed into buffer bigendianp) should the data be packed LSB first (0) or MSB first (1) word) word size for output. currently 1 (byte) or 2 (16 bit short) return values: <0) error/hole in data (OV_HOLE), partial open (OV_EINVAL) 0) EOF n) number of bytes of PCM actually returned. The below works on a packet-by-packet basis, so the return length is not related to the 'length' passed in, just guaranteed to fit. *section) set to the logical bitstream number */ long ov_read(OggVorbis_File *vf,char *buffer,int length, int bigendianp,int word,int sgned,int *bitstream){ int i,j; int host_endian = host_is_big_endian(); float **pcm; long samples; if(vf->ready_stateready_state==INITSET){ samples=vorbis_synthesis_pcmout(&vf->vd,&pcm); if(samples)break; } /* suck in another packet */ { int ret=_fetch_and_process_packet(vf,NULL,1,1); if(ret==OV_EOF) return(0); if(ret<=0) return(ret); } } if(samples>0){ /* yay! proceed to pack data into the byte buffer */ long channels=ov_info(vf,-1)->channels; long bytespersample=word * channels; vorbis_fpu_control fpu; if(samples>length/bytespersample)samples=length/bytespersample; if(samples <= 0) return OV_EINVAL; /* a tight loop to pack each size */ { int val; if(word==1){ int off=(sgned?0:128); vorbis_fpu_setround(&fpu); for(j=0;j127)val=127; else if(val<-128)val=-128; *buffer++=val+off; } vorbis_fpu_restore(fpu); }else{ int off=(sgned?0:32768); if(host_endian==bigendianp){ if(sgned){ vorbis_fpu_setround(&fpu); for(i=0;i32767)val=32767; else if(val<-32768)val=-32768; *dest=val; dest+=channels; } } vorbis_fpu_restore(fpu); }else{ vorbis_fpu_setround(&fpu); for(i=0;i32767)val=32767; else if(val<-32768)val=-32768; *dest=val+off; dest+=channels; } } vorbis_fpu_restore(fpu); } }else if(bigendianp){ vorbis_fpu_setround(&fpu); for(j=0;j32767)val=32767; else if(val<-32768)val=-32768; val+=off; *buffer++=(val>>8); *buffer++=(val&0xff); } vorbis_fpu_restore(fpu); }else{ int val; vorbis_fpu_setround(&fpu); for(j=0;j32767)val=32767; else if(val<-32768)val=-32768; val+=off; *buffer++=(val&0xff); *buffer++=(val>>8); } vorbis_fpu_restore(fpu); } } } vorbis_synthesis_read(&vf->vd,samples); vf->pcm_offset+=samples; if(bitstream)*bitstream=vf->current_link; return(samples*bytespersample); }else{ return(samples); } } /* input values: pcm_channels) a float vector per channel of output length) the sample length being read by the app return values: <0) error/hole in data (OV_HOLE), partial open (OV_EINVAL) 0) EOF n) number of samples of PCM actually returned. The below works on a packet-by-packet basis, so the return length is not related to the 'length' passed in, just guaranteed to fit. *section) set to the logical bitstream number */ long ov_read_float(OggVorbis_File *vf,float ***pcm_channels,int length, int *bitstream){ if(vf->ready_stateready_state==INITSET){ float **pcm; long samples=vorbis_synthesis_pcmout(&vf->vd,&pcm); if(samples){ if(pcm_channels)*pcm_channels=pcm; if(samples>length)samples=length; vorbis_synthesis_read(&vf->vd,samples); vf->pcm_offset+=samples; if(bitstream)*bitstream=vf->current_link; return samples; } } /* suck in another packet */ { int ret=_fetch_and_process_packet(vf,NULL,1,1); if(ret==OV_EOF)return(0); if(ret<=0)return(ret); } } } extern float *vorbis_window(vorbis_dsp_state *v,int W); extern void _analysis_output_always(char *base,int i,float *v,int n,int bark,int dB, ogg_int64_t off); static void _ov_splice(float **pcm,float **lappcm, int n1, int n2, int ch1, int ch2, float *w1, float *w2){ int i,j; float *w=w1; int n=n1; if(n1>n2){ n=n2; w=w2; } /* splice */ for(j=0;jready_state==INITSET)break; /* suck in another packet */ { int ret=_fetch_and_process_packet(vf,NULL,1,0); if(ret<0 && ret!=OV_HOLE)return(ret); } } return 0; } /* make sure vf is INITSET and that we have a primed buffer; if we're crosslapping at a stream section boundary, this also makes sure we're sanity checking against the right stream information */ static int _ov_initprime(OggVorbis_File *vf){ vorbis_dsp_state *vd=&vf->vd; while(1){ if(vf->ready_state==INITSET) if(vorbis_synthesis_pcmout(vd,NULL))break; /* suck in another packet */ { int ret=_fetch_and_process_packet(vf,NULL,1,0); if(ret<0 && ret!=OV_HOLE)return(ret); } } return 0; } /* grab enough data for lapping from vf; this may be in the form of unreturned, already-decoded pcm, remaining PCM we will need to decode, or synthetic postextrapolation from last packets. */ static void _ov_getlap(OggVorbis_File *vf,vorbis_info *vi,vorbis_dsp_state *vd, float **lappcm,int lapsize){ int lapcount=0,i; float **pcm; /* try first to decode the lapping data */ while(lapcountlapsize-lapcount)samples=lapsize-lapcount; for(i=0;ichannels;i++) memcpy(lappcm[i]+lapcount,pcm[i],sizeof(**pcm)*samples); lapcount+=samples; vorbis_synthesis_read(vd,samples); }else{ /* suck in another packet */ int ret=_fetch_and_process_packet(vf,NULL,1,0); /* do *not* span */ if(ret==OV_EOF)break; } } if(lapcountvd,&pcm); if(samples==0){ for(i=0;ichannels;i++) memset(lappcm[i]+lapcount,0,sizeof(**pcm)*lapsize-lapcount); lapcount=lapsize; }else{ if(samples>lapsize-lapcount)samples=lapsize-lapcount; for(i=0;ichannels;i++) memcpy(lappcm[i]+lapcount,pcm[i],sizeof(**pcm)*samples); lapcount+=samples; } } } /* this sets up crosslapping of a sample by using trailing data from sample 1 and lapping it into the windowing buffer of sample 2 */ int ov_crosslap(OggVorbis_File *vf1, OggVorbis_File *vf2){ vorbis_info *vi1,*vi2; float **lappcm; float **pcm; float *w1,*w2; int n1,n2,i,ret,hs1,hs2; if(vf1==vf2)return(0); /* degenerate case */ if(vf1->ready_stateready_statechannels); n1=vorbis_info_blocksize(vi1,0)>>(1+hs1); n2=vorbis_info_blocksize(vi2,0)>>(1+hs2); w1=vorbis_window(&vf1->vd,0); w2=vorbis_window(&vf2->vd,0); for(i=0;ichannels;i++) lappcm[i]=alloca(sizeof(**lappcm)*n1); _ov_getlap(vf1,vi1,&vf1->vd,lappcm,n1); /* have a lapping buffer from vf1; now to splice it into the lapping buffer of vf2 */ /* consolidate and expose the buffer. */ vorbis_synthesis_lapout(&vf2->vd,&pcm); _analysis_output_always("pcmL",0,pcm[0],n1*2,0,0,0); _analysis_output_always("pcmR",0,pcm[1],n1*2,0,0,0); /* splice */ _ov_splice(pcm,lappcm,n1,n2,vi1->channels,vi2->channels,w1,w2); /* done */ return(0); } static int _ov_64_seek_lap(OggVorbis_File *vf,ogg_int64_t pos, int (*localseek)(OggVorbis_File *,ogg_int64_t)){ vorbis_info *vi; float **lappcm; float **pcm; float *w1,*w2; int n1,n2,ch1,ch2,hs; int i,ret; if(vf->ready_statechannels; n1=vorbis_info_blocksize(vi,0)>>(1+hs); w1=vorbis_window(&vf->vd,0); /* window arrays from libvorbis are persistent; even if the decode state from this link gets dumped, this window array continues to exist */ lappcm=alloca(sizeof(*lappcm)*ch1); for(i=0;ivd,lappcm,n1); /* have lapping data; seek and prime the buffer */ ret=localseek(vf,pos); if(ret)return ret; ret=_ov_initprime(vf); if(ret)return(ret); /* Guard against cross-link changes; they're perfectly legal */ vi=ov_info(vf,-1); ch2=vi->channels; n2=vorbis_info_blocksize(vi,0)>>(1+hs); w2=vorbis_window(&vf->vd,0); /* consolidate and expose the buffer. */ vorbis_synthesis_lapout(&vf->vd,&pcm); /* splice */ _ov_splice(pcm,lappcm,n1,n2,ch1,ch2,w1,w2); /* done */ return(0); } int ov_raw_seek_lap(OggVorbis_File *vf,ogg_int64_t pos){ return _ov_64_seek_lap(vf,pos,ov_raw_seek); } int ov_pcm_seek_lap(OggVorbis_File *vf,ogg_int64_t pos){ return _ov_64_seek_lap(vf,pos,ov_pcm_seek); } int ov_pcm_seek_page_lap(OggVorbis_File *vf,ogg_int64_t pos){ return _ov_64_seek_lap(vf,pos,ov_pcm_seek_page); } static int _ov_d_seek_lap(OggVorbis_File *vf,double pos, int (*localseek)(OggVorbis_File *,double)){ vorbis_info *vi; float **lappcm; float **pcm; float *w1,*w2; int n1,n2,ch1,ch2,hs; int i,ret; if(vf->ready_statechannels; n1=vorbis_info_blocksize(vi,0)>>(1+hs); w1=vorbis_window(&vf->vd,0); /* window arrays from libvorbis are persistent; even if the decode state from this link gets dumped, this window array continues to exist */ lappcm=alloca(sizeof(*lappcm)*ch1); for(i=0;ivd,lappcm,n1); /* have lapping data; seek and prime the buffer */ ret=localseek(vf,pos); if(ret)return ret; ret=_ov_initprime(vf); if(ret)return(ret); /* Guard against cross-link changes; they're perfectly legal */ vi=ov_info(vf,-1); ch2=vi->channels; n2=vorbis_info_blocksize(vi,0)>>(1+hs); w2=vorbis_window(&vf->vd,0); /* consolidate and expose the buffer. */ vorbis_synthesis_lapout(&vf->vd,&pcm); /* splice */ _ov_splice(pcm,lappcm,n1,n2,ch1,ch2,w1,w2); /* done */ return(0); } int ov_time_seek_lap(OggVorbis_File *vf,double pos){ return _ov_d_seek_lap(vf,pos,ov_time_seek); } int ov_time_seek_page_lap(OggVorbis_File *vf,double pos){ return _ov_d_seek_lap(vf,pos,ov_time_seek_page); }