/***************************************************************************** * OpenDecoder: probe the decoder and return score *****************************************************************************/ static int OpenDecoder( vlc_object_t *p_this ) { decoder_t *p_dec = (decoder_t*)p_this; decoder_sys_t *p_sys; if( p_dec->fmt_in.i_codec != VLC_CODEC_THEORA ) { return VLC_EGENERIC; } /* Allocate the memory needed to store the decoder's structure */ if( ( p_dec->p_sys = p_sys = malloc(sizeof(*p_sys)) ) == NULL ) return VLC_ENOMEM; p_dec->p_sys->b_packetizer = false; p_sys->b_has_headers = false; p_sys->i_pts = VLC_TS_INVALID; p_sys->b_decoded_first_keyframe = false; /* Set output properties */ p_dec->fmt_out.i_cat = VIDEO_ES; p_dec->fmt_out.i_codec = VLC_CODEC_I420; /* Set callbacks */ p_dec->pf_decode_video = (picture_t *(*)(decoder_t *, block_t **)) DecodeBlock; p_dec->pf_packetize = (block_t *(*)(decoder_t *, block_t **)) DecodeBlock; /* Init supporting Theora structures needed in header parsing */ theora_comment_init( &p_sys->tc ); theora_info_init( &p_sys->ti ); return VLC_SUCCESS; }
int read_cb(OGGZ *oggz, ogg_packet *op, long serialno, void *data) { struct theora_headers *th; const char theoraId[] = "\x80theora"; const char speexId[] = "Speex "; if ( memcmp(op->packet, theoraId, strlen(theoraId)) == 0 ) { //mylog("Detected a Theora stream with serialno=%d\n", serialno); oggz_set_read_callback(oggz, serialno, read_theora_cb, NULL); video_stream->serialno = serialno; // Initialize theora specific data fields th = (struct theora_headers *)calloc(1, sizeof(struct theora_headers)); theora_info_init(&(th->ti)); theora_comment_init(&(th->tc)); video_stream->data = th; read_theora_cb(oggz, op, serialno, data); } else if ( memcmp(op->packet, speexId, strlen(speexId)) == 0 ) { //mylog("Detected a Speex stream with serialno=%d\n", serialno); oggz_set_read_callback(oggz, serialno, read_speex_cb, NULL); audio_stream->serialno = serialno; read_speex_cb(oggz, op, serialno, data); } else { mylog("Got unknown ogg packet, serialno=%d, size=%d, packetno=%d, granulepos=%d\n", serialno, op->bytes, op->packetno, op->granulepos); } return 0; }
static int test_comments () { theora_comment tc; int n; char * value; INFO ("+ Initializing theora_comment"); theora_comment_init (&tc); INFO ("+ Adding ARTIST1"); theora_comment_add (&tc, "ARTIST=" ARTIST1); INFO ("+ Adding LICENSE by tag"); theora_comment_add_tag (&tc, "LICENSE", LICENSE); INFO ("+ Adding ARTIST2 by tag"); theora_comment_add_tag (&tc, "ARTIST", ARTIST2); INFO ("+ Querying value of LICENSE"); value = theora_comment_query (&tc, "LICENSE", 0); printf("foo %s\n", value); if (strcmp (value, LICENSE)) FAIL ("Incorrect value for LICENSE"); INFO ("+ Querying count of ARTIST comments"); n = theora_comment_query_count (&tc, "ARTIST"); if (n != 2) FAIL ("Incorrect count of ARTIST comments"); INFO ("+ Querying value of ARTIST index 0"); value = theora_comment_query (&tc, "ARTIST", 0); if (strcmp (value, ARTIST1)) FAIL ("Incorrect value for ARTIST index 0"); INFO ("+ Querying value of ARTIST index 1"); value = theora_comment_query (&tc, "ARTIST", 1); if (strcmp (value, ARTIST2)) FAIL ("Incorrect value for ARTIST index 1"); INFO ("+ Querying value of ARTIST index 2 (out of bounds)"); value = theora_comment_query (&tc, "ARTIST", 2); if (value != NULL) FAIL ("Non-NULL value for ARTIST index 2 (out of bounds)"); INFO ("+ Querying value of UNDEF index 7 (tag not defined)"); value = theora_comment_query (&tc, "UNDEF", 7); if (value != NULL) FAIL ("Non-NULL value for UNDEF index 7 (tag not defined)"); INFO ("+ Clearing theora_comment"); theora_comment_clear (&tc); return 0; }
static int noop_test_comments () { theora_comment tc; theora_comment_init (&tc); theora_comment_clear (&tc); return 0; }
static GstStateChangeReturn theora_enc_change_state (GstElement * element, GstStateChange transition) { GstTheoraEnc *enc; GstStateChangeReturn ret; enc = GST_THEORA_ENC (element); switch (transition) { case GST_STATE_CHANGE_NULL_TO_READY: break; case GST_STATE_CHANGE_READY_TO_PAUSED: GST_DEBUG_OBJECT (enc, "READY->PAUSED Initing theora state"); theora_info_init (&enc->info); theora_comment_init (&enc->comment); enc->packetno = 0; break; case GST_STATE_CHANGE_PAUSED_TO_PLAYING: break; default: break; } ret = parent_class->change_state (element, transition); switch (transition) { case GST_STATE_CHANGE_PLAYING_TO_PAUSED: break; case GST_STATE_CHANGE_PAUSED_TO_READY: GST_DEBUG_OBJECT (enc, "PAUSED->READY Clearing theora state"); theora_clear (&enc->state); theora_comment_clear (&enc->comment); theora_info_clear (&enc->info); theora_enc_clear (enc); enc->initialised = FALSE; break; case GST_STATE_CHANGE_READY_TO_NULL: break; default: break; } return ret; }
bool Oggeyman::init(const char * path) { switch (video_format) { //pixel_format.set(r_offset,g_offset,b_offset,bpp not a_offset); case VF_RGB: pixel_format.set(0, 1, 2, 3); break; case VF_BGR: pixel_format.set(2, 1, 0, 3); break; case VF_RGBA: pixel_format.set(0, 1, 2, 4); break; case VF_BGRA: pixel_format.set(2, 1, 0, 4); break; } this->path = path; // open the input file infptr = fopen(path, "rb"); if (!infptr) { printf("\t failure opening %s\n", path); return false; } // initialize ogg and theora -- none of these have a useful diagnostics implemented ogg_sync_init(&overall_sync_state); theora_info_init(&theo_info); theora_comment_init(&theo_comment); // find theora stream if (!parse_headers()) return false; // bcs we are only interested in theora, // flip through pages until we are sure we are on theora page bool have_page = false; bool is_theora_page = false; do { // we start by checking the page that was read in during header perusal int retval = ogg_stream_pagein(&ogg_theora_stream_state, ¤t_ogg_page); is_theora_page = (retval >= 0); if (!is_theora_page) have_page = next_page(); } while (have_page && !is_theora_page); // initialize theora decoder if (!initialize_theora()) return false; // the user should allocate space for the output buffer, BGRAbuffer return true; }
static GstStateChangeReturn theora_dec_change_state (GstElement * element, GstStateChange transition) { GstTheoraDec *dec = GST_THEORA_DEC (element); GstStateChangeReturn ret; switch (transition) { case GST_STATE_CHANGE_NULL_TO_READY: break; case GST_STATE_CHANGE_READY_TO_PAUSED: theora_info_init (&dec->info); theora_comment_init (&dec->comment); GST_DEBUG_OBJECT (dec, "Setting have_header to FALSE in READY->PAUSED"); dec->have_header = FALSE; gst_theora_dec_reset (dec); break; case GST_STATE_CHANGE_PAUSED_TO_PLAYING: break; default: break; } ret = parent_class->change_state (element, transition); switch (transition) { case GST_STATE_CHANGE_PLAYING_TO_PAUSED: break; case GST_STATE_CHANGE_PAUSED_TO_READY: theora_clear (&dec->state); theora_comment_clear (&dec->comment); theora_info_clear (&dec->info); gst_theora_dec_reset (dec); break; case GST_STATE_CHANGE_READY_TO_NULL: break; default: break; } return ret; }
static GF_Err THEO_AttachStream(GF_BaseDecoder *ifcg, u16 ES_ID, char *decSpecInfo, u32 decSpecInfoSize, u16 DependsOnES_ID, u32 objectTypeIndication, Bool UpStream) { ogg_packet oggpacket; GF_BitStream *bs; THEORACTX(); if (ctx->ES_ID) return GF_BAD_PARAM; if (!decSpecInfo) return GF_NON_COMPLIANT_BITSTREAM; if (objectTypeIndication != GPAC_OGG_MEDIA_OTI) return GF_NON_COMPLIANT_BITSTREAM; if ( (decSpecInfoSize<9) || strncmp(&decSpecInfo[3], "theora", 6)) return GF_NON_COMPLIANT_BITSTREAM; oggpacket.granulepos = -1; oggpacket.b_o_s = 1; oggpacket.e_o_s = 0; oggpacket.packetno = 0; ctx->ES_ID = ES_ID; theora_info_init(&ctx->ti); theora_comment_init(&ctx->tc); bs = gf_bs_new(decSpecInfo, decSpecInfoSize, GF_BITSTREAM_READ); while (gf_bs_available(bs)) { oggpacket.bytes = gf_bs_read_u16(bs); oggpacket.packet = malloc(sizeof(char) * oggpacket.bytes); gf_bs_read_data(bs, oggpacket.packet, oggpacket.bytes); if (theora_decode_header(&ctx->ti, &ctx->tc, &oggpacket) < 0 ) { free(oggpacket.packet); gf_bs_del(bs); return GF_NON_COMPLIANT_BITSTREAM; } free(oggpacket.packet); } theora_decode_init(&ctx->td, &ctx->ti); gf_bs_del(bs); return GF_OK; }
/***************************************************************************** * OpenDecoder: probe the decoder and return score *****************************************************************************/ static int OpenDecoder( vlc_object_t *p_this ) { decoder_t *p_dec = (decoder_t*)p_this; decoder_sys_t *p_sys; if( p_dec->fmt_in.i_codec != VLC_FOURCC('t','h','e','o') ) { return VLC_EGENERIC; } /* Allocate the memory needed to store the decoder's structure */ if( ( p_dec->p_sys = p_sys = (decoder_sys_t *)malloc(sizeof(decoder_sys_t)) ) == NULL ) { msg_Err( p_dec, "out of memory" ); return VLC_EGENERIC; } p_dec->p_sys->b_packetizer = VLC_FALSE; p_sys->i_pts = 0; p_sys->b_decoded_first_keyframe = VLC_FALSE; /* Set output properties */ p_dec->fmt_out.i_cat = VIDEO_ES; p_dec->fmt_out.i_codec = VLC_FOURCC('I','4','2','0'); /* Set callbacks */ p_dec->pf_decode_video = (picture_t *(*)(decoder_t *, block_t **)) DecodeBlock; p_dec->pf_packetize = (block_t *(*)(decoder_t *, block_t **)) DecodeBlock; /* Init supporting Theora structures needed in header parsing */ theora_comment_init( &p_sys->tc ); theora_info_init( &p_sys->ti ); p_sys->i_headers = 0; return VLC_SUCCESS; }
static bool_t dec_init_theora(DecState *s, ogg_packet *op){ theora_comment tcom; static const int ident_packet_size=42; theora_comment_init(&tcom); tcom.vendor="dummy"; op->b_o_s=1; if (theora_decode_header(&s->tinfo,&tcom,op)==0){ op->packet+=ident_packet_size; op->bytes-=ident_packet_size; /*recall once to decode tables*/ if (theora_decode_header(&s->tinfo,&tcom,op)==0){ if (theora_decode_init(&s->tstate,&s->tinfo)==0){ ms_debug("theora decoder ready, pixfmt=%i", s->tinfo.pixelformat); return TRUE; } }else{ ms_warning("error decoding theora tables"); } }else{ ms_warning("error decoding theora header"); } return FALSE; }
static int encode_init(AVCodecContext* avc_context) { theora_info t_info; theora_comment t_comment; ogg_packet o_packet; unsigned int offset; TheoraContext *h = avc_context->priv_data; /* Set up the theora_info struct */ theora_info_init( &t_info ); t_info.width = avc_context->width; t_info.height = avc_context->height; t_info.frame_width = avc_context->width; t_info.frame_height = avc_context->height; t_info.offset_x = 0; t_info.offset_y = 0; /* Swap numerator and denominator as time_base in AVCodecContext gives the * time period between frames, but theora_info needs the framerate. */ t_info.fps_numerator = avc_context->time_base.den; t_info.fps_denominator = avc_context->time_base.num; if (avc_context->sample_aspect_ratio.num != 0) { t_info.aspect_numerator = avc_context->sample_aspect_ratio.num; t_info.aspect_denominator = avc_context->sample_aspect_ratio.den; } else { t_info.aspect_numerator = 1; t_info.aspect_denominator = 1; } t_info.colorspace = OC_CS_UNSPECIFIED; t_info.pixelformat = OC_PF_420; t_info.target_bitrate = avc_context->bit_rate; t_info.keyframe_frequency = avc_context->gop_size; t_info.keyframe_frequency_force = avc_context->gop_size; t_info.keyframe_mindistance = avc_context->keyint_min; t_info.quality = 0; t_info.quick_p = 1; t_info.dropframes_p = 0; t_info.keyframe_auto_p = 1; t_info.keyframe_data_target_bitrate = t_info.target_bitrate * 1.5; t_info.keyframe_auto_threshold = 80; t_info.noise_sensitivity = 1; t_info.sharpness = 0; /* Now initialise libtheora */ if (theora_encode_init( &(h->t_state), &t_info ) != 0) { av_log(avc_context, AV_LOG_ERROR, "theora_encode_init failed\n"); return -1; } /* Clear up theora_info struct */ theora_info_clear( &t_info ); /* Output first header packet consisting of theora header, comment, and tables. Each one is prefixed with a 16bit size, then they are concatenated together into ffmpeg's extradata. */ offset = 0; /* Header */ theora_encode_header( &(h->t_state), &o_packet ); if (concatenate_packet( &offset, avc_context, &o_packet ) != 0) { return -1; } /* Comment */ theora_comment_init( &t_comment ); theora_encode_comment( &t_comment, &o_packet ); if (concatenate_packet( &offset, avc_context, &o_packet ) != 0) { return -1; } /* Tables */ theora_encode_tables( &(h->t_state), &o_packet ); if (concatenate_packet( &offset, avc_context, &o_packet ) != 0) { return -1; } /* Clear up theora_comment struct */ theora_comment_clear( &t_comment ); /* Set up the output AVFrame */ avc_context->coded_frame= avcodec_alloc_frame(); return 0; }
void DGVideo::load() { int stateFlag = 0; if (!_hasResource) { log->error(DGModVideo, "%s", DGMsg280005); return; } //log->trace(DGModVideo, "%s %s", DGMsg080001, _resource); _handle = fopen(_resource, "rb"); if (_handle == NULL) { log->error(DGModVideo, "%s: %s", DGMsg280002, _resource); return; } ogg_sync_init(&_theoraInfo->oy); theora_comment_init(&_theoraInfo->tc); theora_info_init(&_theoraInfo->ti); while (!stateFlag) { size_t ret = _bufferData(&_theoraInfo->oy); if (ret == 0) break; while (ogg_sync_pageout(&_theoraInfo->oy, &_theoraInfo->og) > 0) { ogg_stream_state test; if (!ogg_page_bos(&_theoraInfo->og)) { _queuePage(_theoraInfo, &_theoraInfo->og); stateFlag = 1; break; } ogg_stream_init(&test, ogg_page_serialno(&_theoraInfo->og)); ogg_stream_pagein(&test, &_theoraInfo->og); ogg_stream_packetout(&test, &_theoraInfo->op); if (!_theoraInfo->theora_p && theora_decode_header(&_theoraInfo->ti, &_theoraInfo->tc, &_theoraInfo->op) >= 0) { memcpy(&_theoraInfo->to, &test, sizeof(test)); _theoraInfo->theora_p = 1; } else { ogg_stream_clear(&test); } } } while (_theoraInfo->theora_p && _theoraInfo->theora_p < 3) { int ret; while (_theoraInfo->theora_p && (_theoraInfo->theora_p < 3) && (ret = ogg_stream_packetout(&_theoraInfo->to, &_theoraInfo->op))) { if (ret < 0) { log->error(DGModVideo, "%s", DGMsg280003); return; } if (theora_decode_header(&_theoraInfo->ti, &_theoraInfo->tc, &_theoraInfo->op)) { log->error(DGModVideo, "%s", DGMsg280003); return; } _theoraInfo->theora_p++; if (_theoraInfo->theora_p == 3) break; } if (ogg_sync_pageout(& _theoraInfo->oy, & _theoraInfo->og) > 0) _queuePage(_theoraInfo, &_theoraInfo->og); else { size_t ret = _bufferData(&_theoraInfo->oy); if (ret == 0) { log->error(DGModVideo, "%s", DGMsg280004); return; } } } if (_theoraInfo->theora_p) { theora_decode_init(&_theoraInfo->td, &_theoraInfo->ti); } else { theora_info_clear(&_theoraInfo->ti); theora_comment_clear(&_theoraInfo->tc); } _currentFrame.width = _theoraInfo->ti.width; _currentFrame.height = _theoraInfo->ti.height; _currentFrame.depth = 24; // NOTE: We only support flat RGB for now _currentFrame.data = (unsigned char*)malloc((_theoraInfo->ti.width * _theoraInfo->ti.height) * 3); while (ogg_sync_pageout(&_theoraInfo->oy, &_theoraInfo->og) > 0) { _queuePage(_theoraInfo, &_theoraInfo->og); } _frameDuration = (float)(1/((double)_theoraInfo->ti.fps_numerator / _theoraInfo->ti.fps_denominator)); _isLoaded = true; }
/* Opens the Ogg stream, searching for and initializing Theora and Vorbis media */ int alogg_open(APEG_LAYER *layer) { ALOGG_INFO *info; int vok = 0, aok = 0; int flag, cs, size; info = calloc(1, sizeof(ALOGG_INFO)); if(!info) return APEG_ERROR; LOCK_DATA(info, sizeof(ALOGG_INFO)); ogg_sync_init(&info->osync); theora_comment_init(&info->tcomment); theora_info_init(&info->tinfo); vorbis_info_init(&info->vinfo); vorbis_comment_init(&info->vcomment); flag = FALSE; while(!flag) { int ret = buffer_data(layer, info); if(ret == 0) break; while(ogg_sync_pageout(&info->osync, &info->opage) > 0) { ogg_stream_state test; /* is this a mandated initial header? If not, stop parsing */ if(!ogg_page_bos(&info->opage)) { if(vok > 0) ogg_stream_pagein(&info->ostream[0], &info->opage); if(aok > 0) ogg_stream_pagein(&info->ostream[1], &info->opage); flag = TRUE; break; } ogg_stream_init(&test, ogg_page_serialno(&info->opage)); ogg_stream_pagein(&test, &info->opage); ogg_stream_packetout(&test, &info->opkt); /* identify the codec: try theora */ if(!vok && theora_decode_header(&info->tinfo, &info->tcomment, &info->opkt) >= 0) { /* it is theora */ if(!_apeg_ignore_video) { memcpy(&info->ostream[0], &test, sizeof(test)); vok = 1; } else ogg_stream_clear(&test); } else if(!aok && vorbis_synthesis_headerin(&info->vinfo, &info->vcomment, &info->opkt) >= 0) { /* it is vorbis */ if(!_apeg_ignore_audio) { memcpy(&info->ostream[1], &test, sizeof(test)); aok = 1; } else ogg_stream_clear(&test); } /* whatever it is, we don't care about it */ else ogg_stream_clear(&test); } /* fall through to non-bos page parsing */ } /* look for further theora headers */ while((vok > 0 && vok < 3) || (aok > 0 && aok < 3)) { int ret; // Get the last two of three Theora headers while(vok > 0 && vok < 3 && (ret = ogg_stream_packetout(&info->ostream[0], &info->opkt))) { if(ret < 0) goto error; if(theora_decode_header(&info->tinfo, &info->tcomment, &info->opkt)) goto error; ++vok; } // Get the last two of three Vorbis headers while(aok > 0 && aok < 3 && (ret = ogg_stream_packetout(&info->ostream[1], &info->opkt))) { if(ret < 0) goto error; if(vorbis_synthesis_headerin(&info->vinfo, &info->vcomment, &info->opkt)) goto error; ++aok; } if(ogg_sync_pageout(&info->osync, &info->opage) <= 0) { /* need more data */ if(buffer_data(layer, info) == 0) break; } else { if(vok > 0) ogg_stream_pagein(&info->ostream[0], &info->opage); if(aok > 0) ogg_stream_pagein(&info->ostream[1], &info->opage); } } // Neither Vorbis or Theora fully initialized. Error. if(vok != 3 && aok != 3) goto error; layer->ogg_info = info; if(aok == 3) { vorbis_synthesis_init(&info->vdsp, &info->vinfo); vorbis_block_init(&info->vdsp, &info->vblock); if(info->vinfo.channels == 1) layer->stream.audio.down_channel = FALSE; layer->stream.audio.channels = info->vinfo.channels; layer->stream.audio.freq = info->vinfo.rate >> layer->stream.audio.down_sample; if(_apeg_audio_reset_parameters(layer) != APEG_OK) { vorbis_block_clear(&info->vblock); vorbis_dsp_clear(&info->vdsp); goto error; } // layer->audio.inited = TRUE; layer->stream.flags |= APEG_VORBIS_AUDIO; }
void rmdInitEncoder(ProgData *pdata,EncData *enc_data_t,int buffer_ready){ int y0, y1, y2, fname_length; ogg_stream_state m_ogg_skel; ogg_page skel_og_pg; fisbone_packet skel_fbv, //video fisbone packet skel_fba ; //audio fisbone packet (pdata)->enc_data=enc_data_t; fname_length=strlen(pdata->args.filename); if(!(fname_length>4 && pdata->args.filename[fname_length-4] == '.' && (pdata->args.filename[fname_length-3] == 'o' || pdata->args.filename[fname_length-3] == 'O') && (pdata->args.filename[fname_length-2] == 'g' || pdata->args.filename[fname_length-2] == 'G') && (pdata->args.filename[fname_length-1] == 'v' || pdata->args.filename[fname_length-1] == 'V'))){ char *new_name=malloc(fname_length+5); strcpy(new_name,pdata->args.filename); strcat(new_name,".ogv"); free(pdata->args.filename); pdata->args.filename=new_name; } if (!pdata->args.overwrite) { rmdIncrementalNaming(&(pdata)->args.filename); fprintf(stderr, "Output file: %s\n", pdata->args.filename); } enc_data_t->fp=fopen((pdata)->args.filename,"w"); if(enc_data_t->fp==NULL){ fprintf(stderr,"Cannot open file %s for writting!\n", (pdata)->args.filename); exit(13); } //each stream must have a unique srand(time(NULL)); y0=rand()+1; y1=rand()+1; y2=rand()+1; y2+=(y1==y2); y0=(((y0==y1)||(y0==y2))?(y1+y2):y0); //init ogg streams //skeleton first ogg_stream_init(&m_ogg_skel,y0); m_add_fishead_packet(&m_ogg_skel); if(ogg_stream_pageout(&m_ogg_skel,&skel_og_pg)!= 1){ fprintf (stderr, "Internal Ogg library error.\n"); exit (2); } fwrite(skel_og_pg.header,1,skel_og_pg.header_len,enc_data_t->fp); fwrite(skel_og_pg.body,1,skel_og_pg.body_len,enc_data_t->fp); ogg_stream_init(&enc_data_t->m_ogg_ts,y1); if(!pdata->args.nosound) ogg_stream_init(&enc_data_t->m_ogg_vs,y2); theora_info_init(&enc_data_t->m_th_inf); enc_data_t->m_th_inf.frame_width = pdata->brwin.rrect.width; enc_data_t->m_th_inf.frame_height = pdata->brwin.rrect.height; enc_data_t->m_th_inf.width = ((enc_data_t->m_th_inf.frame_width + 15) >> 4) << 4; enc_data_t->m_th_inf.height = ((enc_data_t->m_th_inf.frame_height + 15) >> 4) << 4; enc_data_t->m_th_inf.offset_x = 0; enc_data_t->m_th_inf.offset_y = 0; enc_data_t->m_th_inf.fps_numerator = pdata->args.fps * 100.0; enc_data_t->m_th_inf.fps_denominator = 100; enc_data_t->m_th_inf.aspect_numerator = 1; enc_data_t->m_th_inf.aspect_denominator = 1; enc_data_t->m_th_inf.colorspace = OC_CS_UNSPECIFIED; enc_data_t->m_th_inf.pixelformat = OC_PF_420; enc_data_t->m_th_inf.target_bitrate = pdata->args.v_bitrate; enc_data_t->m_th_inf.quality = pdata->args.v_quality; enc_data_t->m_th_inf.dropframes_p = 0; enc_data_t->m_th_inf.quick_p = 1; enc_data_t->m_th_inf.keyframe_auto_p = 1; enc_data_t->m_th_inf.keyframe_frequency = 64; enc_data_t->m_th_inf.keyframe_frequency_force = 64; enc_data_t->m_th_inf.keyframe_data_target_bitrate = enc_data_t->m_th_inf.quality * 1.5; enc_data_t->m_th_inf.keyframe_auto_threshold = 80; enc_data_t->m_th_inf.keyframe_mindistance = 8; enc_data_t->m_th_inf.noise_sensitivity = 1; enc_data_t->m_th_inf.sharpness = 2; theora_encode_init(&enc_data_t->m_th_st,&enc_data_t->m_th_inf); if(!pdata->args.nosound){ int ret; vorbis_info_init(&enc_data_t->m_vo_inf); ret = vorbis_encode_init_vbr(&enc_data_t->m_vo_inf, pdata->args.channels, pdata->args.frequency, (float)pdata->args.s_quality*0.1); if(ret){ fprintf(stderr,"Error while setting up vorbis stream quality!\n"); exit(2); } vorbis_comment_init(&enc_data_t->m_vo_cmmnt); vorbis_analysis_init(&enc_data_t->m_vo_dsp,&enc_data_t->m_vo_inf); vorbis_block_init(&enc_data_t->m_vo_dsp,&enc_data_t->m_vo_block); } theora_encode_header(&enc_data_t->m_th_st,&enc_data_t->m_ogg_pckt1); ogg_stream_packetin(&enc_data_t->m_ogg_ts,&enc_data_t->m_ogg_pckt1); if(ogg_stream_pageout(&enc_data_t->m_ogg_ts,&enc_data_t->m_ogg_pg)!=1){ fprintf(stderr,"Internal Ogg library error.\n"); exit(2); } fwrite(enc_data_t->m_ogg_pg.header,1, enc_data_t->m_ogg_pg.header_len, enc_data_t->fp); fwrite(enc_data_t->m_ogg_pg.body,1, enc_data_t->m_ogg_pg.body_len, enc_data_t->fp); theora_comment_init(&enc_data_t->m_th_cmmnt); theora_comment_add_tag(&enc_data_t->m_th_cmmnt,"recordMyDesktop",VERSION); theora_encode_comment(&enc_data_t->m_th_cmmnt,&enc_data_t->m_ogg_pckt1); ogg_stream_packetin(&enc_data_t->m_ogg_ts,&enc_data_t->m_ogg_pckt1); theora_encode_tables(&enc_data_t->m_th_st,&enc_data_t->m_ogg_pckt1); ogg_stream_packetin(&enc_data_t->m_ogg_ts,&enc_data_t->m_ogg_pckt1); if(!pdata->args.nosound){ ogg_packet header; ogg_packet header_comm; ogg_packet header_code; vorbis_analysis_headerout(&enc_data_t->m_vo_dsp, &enc_data_t->m_vo_cmmnt, &header,&header_comm, &header_code); ogg_stream_packetin(&enc_data_t->m_ogg_vs,&header); if(ogg_stream_pageout(&enc_data_t->m_ogg_vs,&enc_data_t->m_ogg_pg)!=1){ fprintf(stderr,"Internal Ogg library error.\n"); exit(2); } fwrite(enc_data_t->m_ogg_pg.header,1, enc_data_t->m_ogg_pg.header_len, enc_data_t->fp); fwrite(enc_data_t->m_ogg_pg.body,1, enc_data_t->m_ogg_pg.body_len, enc_data_t->fp); ogg_stream_packetin(&enc_data_t->m_ogg_vs,&header_comm); ogg_stream_packetin(&enc_data_t->m_ogg_vs,&header_code); } //fishbone packets go here memset(&skel_fbv,0,sizeof(skel_fbv)); skel_fbv.serial_no=enc_data_t->m_ogg_ts.serialno; skel_fbv.nr_header_packet=3; skel_fbv.granule_rate_n=enc_data_t->m_th_inf.fps_numerator; skel_fbv.granule_rate_d=enc_data_t->m_th_inf.fps_denominator; skel_fbv.start_granule=0; skel_fbv.preroll=0; skel_fbv.granule_shift=theora_granule_shift(&enc_data_t->m_th_inf); add_message_header_field(&skel_fbv, "Content-Type", "video/theora"); add_fisbone_to_stream(&m_ogg_skel,&skel_fbv); if(!pdata->args.nosound){ memset(&skel_fba,0,sizeof(skel_fba)); skel_fba.serial_no=enc_data_t->m_ogg_vs.serialno; skel_fba.nr_header_packet=3; skel_fba.granule_rate_n=pdata->args.frequency; skel_fba.granule_rate_d=(ogg_int64_t)1; skel_fba.start_granule=0; skel_fba.preroll=2; skel_fba.granule_shift=0; add_message_header_field(&skel_fba, "Content-Type", "audio/vorbis"); add_fisbone_to_stream(&m_ogg_skel,&skel_fba); } while(1){ int result = ogg_stream_flush(&m_ogg_skel, &skel_og_pg); if(result<0){ fprintf (stderr, "Internal Ogg library error.\n"); exit(2); } if(result==0) break; fwrite(skel_og_pg.header,1,skel_og_pg.header_len,enc_data_t->fp); fwrite(skel_og_pg.body,1,skel_og_pg.body_len,enc_data_t->fp); } while(1){ int result = ogg_stream_flush(&enc_data_t->m_ogg_ts, &enc_data_t->m_ogg_pg); if(result<0){ fprintf(stderr,"Internal Ogg library error.\n"); exit(2); } if(result==0)break; fwrite(enc_data_t->m_ogg_pg.header,1, enc_data_t->m_ogg_pg.header_len, enc_data_t->fp); fwrite(enc_data_t->m_ogg_pg.body,1, enc_data_t->m_ogg_pg.body_len, enc_data_t->fp); } if(!pdata->args.nosound){ while(1){ int result=ogg_stream_flush(&enc_data_t->m_ogg_vs, &enc_data_t->m_ogg_pg); if(result<0){ fprintf(stderr,"Internal Ogg library error.\n"); exit(2); } if(result==0)break; fwrite(enc_data_t->m_ogg_pg.header,1, enc_data_t->m_ogg_pg.header_len, enc_data_t->fp); fwrite(enc_data_t->m_ogg_pg.body,1, enc_data_t->m_ogg_pg.body_len, enc_data_t->fp); } } //skeleton eos add_eos_packet_to_stream(&m_ogg_skel); if(ogg_stream_flush(&m_ogg_skel,&skel_og_pg)<0){ fprintf(stderr,"Internal Ogg library error.\n"); exit(2); } fwrite(skel_og_pg.header,1,skel_og_pg.header_len,enc_data_t->fp); fwrite(skel_og_pg.body,1,skel_og_pg.body_len,enc_data_t->fp); //theora buffer allocation, if any if(!buffer_ready){ enc_data_t->yuv.y=(unsigned char *)malloc(enc_data_t->m_th_inf.height* enc_data_t->m_th_inf.width); enc_data_t->yuv.u=(unsigned char *)malloc(enc_data_t->m_th_inf.height* enc_data_t->m_th_inf.width/4); enc_data_t->yuv.v=(unsigned char *)malloc(enc_data_t->m_th_inf.height* enc_data_t->m_th_inf.width/4); enc_data_t->yuv.y_width=enc_data_t->m_th_inf.width; enc_data_t->yuv.y_height=enc_data_t->m_th_inf.height; enc_data_t->yuv.y_stride=enc_data_t->m_th_inf.width; enc_data_t->yuv.uv_width=enc_data_t->m_th_inf.width/2; enc_data_t->yuv.uv_height=enc_data_t->m_th_inf.height/2; enc_data_t->yuv.uv_stride=enc_data_t->m_th_inf.width/2; enc_data_t->x_offset=enc_data_t->m_th_inf.offset_x; enc_data_t->y_offset=enc_data_t->m_th_inf.offset_y; } theora_info_clear(&enc_data_t->m_th_inf); }
bool CTheoraPlayer::playVideo( //Plays specified OGG Theora file to screen surface. //If screen == NULL, then this method will test that the file is playable //by decoding it as fast as possible but not displaying anything. // //Returns: whether playback was successful CStretchyBuffer& buffer, SDL_Surface *screen, const int x, const int y) //[default=(0,0)] { //init theora_p = vorbis_p = 0; startticks = 0; bool bSkippedLastFrame = false; // start up Ogg stream synchronization layer ogg_sync_init(&oy); // init supporting Vorbis structures needed in header parsing vorbis_info_init(&vi); vorbis_comment_init(&vc); // init supporting Theora structures needed in header parsing theora_comment_init(&tc); theora_info_init(&ti); if (!screen) ti.quick_p = 1; ti.quality = 63; if (!parseHeaders(buffer)) return false; // force audio off vorbis_p = 0; // initialize decoders if (theora_p) { theora_decode_init(&td,&ti); #if 0 printf("Ogg logical stream %x is Theora %dx%d %.02f fps video\n" " Frame content is %dx%d with offset (%d,%d).\n", to.serialno,ti.width,ti.height, (double)ti.fps_numerator/ti.fps_denominator, ti.frame_width, ti.frame_height, ti.offset_x, ti.offset_y); //report_colorspace(&ti); //we're not using this info for anything dump_comments(&tc); #endif } else { // tear down the partial theora setup theora_info_clear(&ti); theora_comment_clear(&tc); } if(vorbis_p) { vorbis_synthesis_init(&vd,&vi); vorbis_block_init(&vd,&vb); printf("Ogg logical stream %lx is Vorbis %d channel %ld Hz audio.\n", vo.serialno,vi.channels,vi.rate); } else { // tear down the partial vorbis setup vorbis_info_clear(&vi); vorbis_comment_clear(&vc); } // open audio if (vorbis_p) open_audio(); // open video SDL_Overlay *yuv_overlay = NULL; if (theora_p && screen) yuv_overlay = open_video(screen); // single frame video buffering ogg_packet op; ogg_int64_t videobuf_granulepos=-1; double videobuf_time=0; double last_frame_time = 0; bool hasdatatobuffer = true; // Main loop bool audiobuf_ready=false; bool videobuf_ready=false; bool playbackdone = (yuv_overlay == NULL); bool isPlaying = false; bool bBreakout = false; while (!playbackdone) { // break out on SDL quit event SDL_Event event; if (SDL_PollEvent(&event)) { switch (event.type) { case SDL_QUIT: playbackdone = bBreakout = true; break; case SDL_KEYDOWN: if (event.key.keysym.sym == SDLK_ESCAPE) playbackdone = bBreakout = true; break; default: break; } } while (theora_p && !videobuf_ready) { // get one video packet... if (ogg_stream_packetout(&to,&op)>0) { theora_decode_packetin(&td,&op); videobuf_granulepos=td.granulepos; videobuf_time=theora_granule_time(&td,videobuf_granulepos); #if 0 //Without sound channels to synch to, don't need to worry about skipping frames when slow. // update the frame counter //++frameNum; // check if this frame time has not passed yet. // If the frame is late we need to decode additional // ones and keep looping, since theora at this stage // needs to decode all frames. const double now=get_time(); const double delay=videobuf_time-now; if(delay>=0.0){ /// got a good frame, not late, ready to break out videobuf_ready=true; } else if(now-last_frame_time>=1.0) { // display at least one frame per second, regardless videobuf_ready=true; } else { //Need to catch up -- no time to display frame. if (bSkippedLastFrame) //only allow skipping one frame in a row videobuf_ready = true; //show anyway else bSkippedLastFrame = true; //printf("dropping frame %d (%.3fs behind)\n", frameNum, -delay); } #else videobuf_ready = true; //show every frame #endif } else { // need more data break; } } if (!hasdatatobuffer && !videobuf_ready && !audiobuf_ready) { isPlaying = false; playbackdone = true; } //If we're set for the next frame, sleep. //In other words, don't show frames too rapidly. if((!theora_p || videobuf_ready) && (!vorbis_p || audiobuf_ready)) { const int ticks = (int)(1000*(videobuf_time-get_time())); if(ticks>0 && screen) //don't need to sleep if only testing file SDL_Delay(ticks); } if (videobuf_ready) { // time to write our cached frame if (screen) { const bool bRes = video_write(screen, yuv_overlay, x, y); if (!bRes) //couldn't display image playbackdone = bBreakout = true; } videobuf_ready=false; last_frame_time=get_time(); bSkippedLastFrame = false; // if audio has not started (first frame) then start it if ((!isPlaying)&&(vorbis_p)) { start_audio(); isPlaying = true; } } // HACK: always look for more audio data audiobuf_ready=false; // buffer compressed data every loop if (hasdatatobuffer) { hasdatatobuffer = buffer_data(&oy, buffer) > 0; if (!hasdatatobuffer) { //printf("Ogg buffering stopped, end of file reached.\n"); } } if (ogg_sync_pageout(&oy,&og)>0) queue_page(&og); } // playbackdone // show number of video frames decoded //printf("\nFrames decoded: %d\n", frameNum); // deinit if (vorbis_p) { audio_close(); ogg_stream_clear(&vo); vorbis_block_clear(&vb); vorbis_dsp_clear(&vd); vorbis_comment_clear(&vc); vorbis_info_clear(&vi); } if (theora_p) { if (yuv_overlay) SDL_FreeYUVOverlay(yuv_overlay); ogg_stream_clear(&to); theora_clear(&td); theora_comment_clear(&tc); theora_info_clear(&ti); } ogg_sync_clear(&oy); //If broken out of testing, return false since entire file was not verified. return !bBreakout || screen != NULL; }
int main( int argc, char* argv[] ){ int i,j; ogg_packet op; SDL_Event event; int hasdatatobuffer = 1; int playbackdone = 0; double now, delay, last_frame_time = 0; int frameNum=0; int skipNum=0; /* takes first argument as file to play */ /* this works better on Windows and is more convenient for drag and drop ogg files over the .exe */ if( argc != 2 ) { usage(); exit(0); } infile = fopen( argv[1], "rb" ); /* start up Ogg stream synchronization layer */ ogg_sync_init(&oy); /* init supporting Vorbis structures needed in header parsing */ vorbis_info_init(&vi); vorbis_comment_init(&vc); /* init supporting Theora structures needed in header parsing */ theora_comment_init(&tc); theora_info_init(&ti); parseHeaders(); /* force audio off */ /* vorbis_p = 0; */ /* initialize decoders */ if(theora_p){ theora_decode_init(&td,&ti); printf("Ogg logical stream %x is Theora %dx%d %.02f fps video\n" " Frame content is %dx%d with offset (%d,%d).\n", to.serialno,ti.width,ti.height, (double)ti.fps_numerator/ti.fps_denominator, ti.frame_width, ti.frame_height, ti.offset_x, ti.offset_y); report_colorspace(&ti); dump_comments(&tc); }else{ /* tear down the partial theora setup */ theora_info_clear(&ti); theora_comment_clear(&tc); } if(vorbis_p){ vorbis_synthesis_init(&vd,&vi); vorbis_block_init(&vd,&vb); printf("Ogg logical stream %x is Vorbis %d channel %d Hz audio.\n", vo.serialno,vi.channels,vi.rate); }else{ /* tear down the partial vorbis setup */ vorbis_info_clear(&vi); vorbis_comment_clear(&vc); } /* open audio */ if(vorbis_p)open_audio(); /* open video */ if(theora_p)open_video(); /* our main loop */ while(!playbackdone){ /* break out on SDL quit event */ if ( SDL_PollEvent ( &event ) ) { if ( event.type == SDL_QUIT ) break ; } /* get some audio data */ while(vorbis_p && !audiobuf_ready){ int ret; float **pcm; int count = 0; int maxBytesToWrite; /* is there pending audio? does it fit our circular buffer without blocking? */ ret=vorbis_synthesis_pcmout(&vd,&pcm); maxBytesToWrite = GetAudioStreamWriteable(aOutStream); if (maxBytesToWrite<=FRAMES_PER_BUFFER){ /* break out until there is a significant amount of data to avoid a series of small write operations. */ break; } /* if there's pending, decoded audio, grab it */ if((ret>0)&&(maxBytesToWrite>0)){ for(i=0;i<ret && i<(maxBytesToWrite/vi.channels);i++) for(j=0;j<vi.channels;j++){ int val=(int)(pcm[j][i]*32767.f); if(val>32767)val=32767; if(val<-32768)val=-32768; samples[count]=val; count++; } if(WriteAudioStream( aOutStream, samples, i )) { if(count==maxBytesToWrite){ audiobuf_ready=1; } } vorbis_synthesis_read(&vd,i); if(vd.granulepos>=0) audiobuf_granulepos=vd.granulepos-ret+i; else audiobuf_granulepos+=i; }else{ /* no pending audio; is there a pending packet to decode? */ if(ogg_stream_packetout(&vo,&op)>0){ if(vorbis_synthesis(&vb,&op)==0) /* test for success! */ vorbis_synthesis_blockin(&vd,&vb); }else /* we need more data; break out to suck in another page */ break; } } /* end audio cycle */ while(theora_p && !videobuf_ready){ /* get one video packet... */ if(ogg_stream_packetout(&to,&op)>0){ theora_decode_packetin(&td,&op); videobuf_granulepos=td.granulepos; videobuf_time=theora_granule_time(&td,videobuf_granulepos); /* update the frame counter */ frameNum++; /* check if this frame time has not passed yet. If the frame is late we need to decode additonal ones and keep looping, since theora at this stage needs to decode all frames */ now=get_time(); delay=videobuf_time-now; if(delay>=0.0){ /* got a good frame, not late, ready to break out */ videobuf_ready=1; }else if(now-last_frame_time>=1.0){ /* display at least one frame per second, regardless */ videobuf_ready=1; }else{ fprintf(stderr, "dropping frame %d (%.3fs behind)\n", frameNum, -delay); } }else{ /* need more data */ break; } } if(!hasdatatobuffer && !videobuf_ready && !audiobuf_ready){ isPlaying = 0; playbackdone = 1; } /* if we're set for the next frame, sleep */ if((!theora_p || videobuf_ready) && (!vorbis_p || audiobuf_ready)){ int ticks = 1.0e3*(videobuf_time-get_time()); if(ticks>0) SDL_Delay(ticks); } if(videobuf_ready){ /* time to write our cached frame */ video_write(); videobuf_ready=0; last_frame_time=get_time(); /* if audio has not started (first frame) then start it */ if ((!isPlaying)&&(vorbis_p)){ start_audio(); isPlaying = 1; } } /* HACK: always look for more audio data */ audiobuf_ready=0; /* buffer compressed data every loop */ if(hasdatatobuffer){ hasdatatobuffer=buffer_data(&oy); if(hasdatatobuffer==0){ printf("Ogg buffering stopped, end of file reached.\n"); } } if (ogg_sync_pageout(&oy,&og)>0){ queue_page(&og); } } /* playbackdone */ /* show number of video frames decoded */ printf( "\n"); printf( "Frames decoded: %d", frameNum ); if(skipNum) printf( " (only %d shown)", frameNum-skipNum); printf( "\n" ); /* tear it all down */ fclose( infile ); if(vorbis_p){ audio_close(); ogg_stream_clear(&vo); vorbis_block_clear(&vb); vorbis_dsp_clear(&vd); vorbis_comment_clear(&vc); vorbis_info_clear(&vi); } if(theora_p){ ogg_stream_clear(&to); theora_clear(&td); theora_comment_clear(&tc); theora_info_clear(&ti); } ogg_sync_clear(&oy); printf("\r " "\nDone.\n"); SDL_Quit(); return(0); }
//TODO: vorbis/theora-header&init in sub-functions //TODO: "clean" error-returns ... int Cin_OGM_Init(const char* filename) { int status; ogg_page og; ogg_packet op; int i; if(g_ogm.ogmFile) { Com_Printf("WARNING: it seams there was already a ogm running, it will be killed to start %s\n", filename); Cin_OGM_Shutdown(); } memset(&g_ogm,0,sizeof(cin_ogm_t)); FS_FOpenFileRead(filename, &g_ogm.ogmFile, qtrue); if(!g_ogm.ogmFile) { Com_Printf("Can't open ogm-file for reading (%s)\n", filename); return -1; } ogg_sync_init(&g_ogm.oy); /* Now we can read pages */ //FIXME? can serialno be 0 in ogg? (better way to check inited?) //TODO: support for more than one audio stream? / detect files with one stream(or without correct ones) while(!g_ogm.os_audio.serialno || !g_ogm.os_video.serialno) { if(ogg_sync_pageout(&g_ogm.oy,&og)==1) { if(strstr((char*)(og.body+1),"vorbis")) { //FIXME? better way to find audio stream if(g_ogm.os_audio.serialno) { Com_Printf("more than one audio stream, in ogm-file(%s) ... we will stay at the first one\n",filename); } else { ogg_stream_init(&g_ogm.os_audio, ogg_page_serialno(&og)); ogg_stream_pagein(&g_ogm.os_audio,&og); } } #ifdef USE_CIN_THEORA if(strstr((char*)(og.body+1),"theora")) { if(g_ogm.os_video.serialno) { Com_Printf("more than one video stream, in ogm-file(%s) ... we will stay at the first one\n",filename); } else{ g_ogm.videoStreamIsTheora = qtrue; ogg_stream_init(&g_ogm.os_video, ogg_page_serialno(&og)); ogg_stream_pagein(&g_ogm.os_video,&og); } } #endif #ifdef USE_CIN_XVID if(strstr((char*)(og.body+1),"video")) { //FIXME? better way to find video stream if(g_ogm.os_video.serialno) { Com_Printf("more than one video stream, in ogm-file(%s) ... we will stay at the first one\n",filename); } else{ stream_header_t* sh; g_ogm.videoStreamIsXvid = qtrue; sh = (stream_header_t*)(og.body+1); //TODO: one solution for checking xvid and theora if(!isPowerOf2(sh->sh.stream_header_video.width)) { Com_Printf("VideoWidth of the ogm-file isn't a power of 2 value (%s)\n", filename); return -5; } if(!isPowerOf2(sh->sh.stream_header_video.height)) { Com_Printf("VideoHeight of the ogm-file isn't a power of 2 value (%s)\n", filename); return -6; } g_ogm.Vtime_unit = sh->time_unit; ogg_stream_init(&g_ogm.os_video, ogg_page_serialno(&og)); ogg_stream_pagein(&g_ogm.os_video,&og); } } #endif } else if(loadBlockToSync()) break; } if(g_ogm.videoStreamIsXvid && g_ogm.videoStreamIsTheora) { Com_Printf("Found \"video\"- and \"theora\"-stream ,ogm-file (%s)\n", filename); return -2; } if(!g_ogm.os_audio.serialno) { Com_Printf("Haven't found a audio(vorbis) stream in ogm-file (%s)\n", filename); return -2; } if(!g_ogm.os_video.serialno) { Com_Printf("Haven't found a video stream in ogm-file (%s)\n", filename); return -3; } //load vorbis header vorbis_info_init(&g_ogm.vi); vorbis_comment_init(&g_ogm.vc); i=0; while(i<3) { status = ogg_stream_packetout(&g_ogm.os_audio,&op); if(status<0) { Com_Printf("Corrupt ogg packet while loading vorbis-headers, ogm-file(%s)\n", filename); return -8; } if(status>0) { status = vorbis_synthesis_headerin(&g_ogm.vi,&g_ogm.vc,&op); if(i==0 && status<0) { Com_Printf("This Ogg bitstream does not contain Vorbis audio data, ogm-file(%s)\n", filename); return -9; } ++i; } else if(loadPagesToStreams()) { if(loadBlockToSync()) { Com_Printf("Couldn't find all vorbis headers before end of ogm-file (%s)\n", filename); return -10; } } } vorbis_synthesis_init(&g_ogm.vd,&g_ogm.vi); #ifdef USE_CIN_XVID status = init_xvid(); if (status) { Com_Printf("[Xvid]Decore INIT problem, return value %d(ogm-file: %s)\n", status, filename); return -4; } #endif #ifdef USE_CIN_THEORA if(g_ogm.videoStreamIsTheora) { ROQ_GenYUVTables(); theora_info_init(&g_ogm.th_info); theora_comment_init(&g_ogm.th_comment); i=0; while(i<3) { status = ogg_stream_packetout(&g_ogm.os_video,&op); if(status<0) { Com_Printf("Corrupt ogg packet while loading theora-headers, ogm-file(%s)\n", filename); return -8; } if(status>0) { status = theora_decode_header(&g_ogm.th_info, &g_ogm.th_comment, &op); if(i==0 && status!=0) { Com_Printf("This Ogg bitstream does not contain theora data, ogm-file(%s)\n", filename); return -9; } ++i; } else if(loadPagesToStreams()) { if(loadBlockToSync()) { Com_Printf("Couldn't find all theora headers before end of ogm-file (%s)\n", filename); return -10; } } } theora_decode_init(&g_ogm.th_state, &g_ogm.th_info); if(!isPowerOf2(g_ogm.th_info.width)) { Com_Printf("VideoWidth of the ogm-file isn't a power of 2 value (%s)\n", filename); return -5; } if(!isPowerOf2(g_ogm.th_info.height)) { Com_Printf("VideoHeight of the ogm-file isn't a power of 2 value (%s)\n", filename); return -6; } g_ogm.Vtime_unit = ((ogg_int64_t)g_ogm.th_info.fps_denominator *1000*10000 / g_ogm.th_info.fps_numerator); } #endif Com_DPrintf("OGM-Init done (%s)\n",filename); return 0; }
void JVideoServer::Init() {return; memset( &m_StreamState, 0, sizeof( m_StreamState ) ); memset( &m_SyncState, 0, sizeof( m_SyncState ) ); memset( &m_Page, 0, sizeof( m_Page ) ); memset( &m_Packet, 0, sizeof( m_Packet ) ); memset( &m_Comment, 0, sizeof( m_Comment ) ); memset( &m_Info, 0, sizeof( m_Info ) ); memset( &m_State, 0, sizeof( m_State ) ); memset( &m_YUVBuffer, 0, sizeof( m_YUVBuffer ) ); ogg_stream_clear( &m_StreamState ); ogg_sync_init( &m_SyncState ); theora_comment_init( &m_Comment ); theora_info_init( &m_Info ); // теперь ищем начало логического потока theora bool bStartHeader = true; int nHeaderPackets = 0; // число обработанных пакетов заголовков theora do { if (LoadChunk( m_File, &m_SyncState ) ==0) { // кончился файл, на данном этапе это ошибка assert( "!eof searched, terminate..."); } // ogg_sync_pageout - формирует страницу while (ogg_sync_pageout( &m_SyncState, &m_Page ) > 0) // 1-больше данных не требуется // 0-требуется больше данных для создания страницы { // что страница сформирована успешно // это страница заголовков? если нет, кончаем искать заголовки if (ogg_page_bos( &m_Page ) == false) { // нет, это не страница заголовков // значит, страницы заголовков всех логических потоков кончились // и начались данные этих потоков // таким образом надо переходить к чтению страниц данных // закидываем эту страничку в логический видеопоток PushPage( &m_Page ); // PushPage - закидывает страничку // в логический поток theora, если // совпадает идентификатор логического потока // в противном случае страница игнорируется // выходим из циклов bStartHeader = false; break; } else { // да, это страница заголовков // тестовый логический поток ogg_stream_state m_StreamStateTest; memset(&m_StreamStateTest, 0x00, sizeof(ogg_stream_state)); // инициализируем тестовый поток на тот же поток с таким же // идентификатором потока, как и у текущей странички if(0!= ogg_stream_init(&m_StreamStateTest,ogg_page_serialno(&m_Page)) ) assert( "!error during ogg_stream_init"); // добавляем страницу в тестовый поток if(0!= ogg_stream_pagein(&m_StreamStateTest,&m_Page) ) assert( "!error during ogg_stream_pagein"); // декодируем данные из этого тестового потока в пакет if( ogg_stream_packetout(&m_StreamStateTest,&m_Packet) ==-1) assert( "!error during ogg_stream_packetout"); // nHeaderPackets - число прочитанных // заголовочных ПАКЕТОВ theora (не страниц) // по спецификации theora таких пакетов должно быть три if(nHeaderPackets==0) { int dhr = theora_decode_header (&m_Info, &m_Comment, &m_Packet); // декодируем заголовок theora if(dhr<0) { // это не заголовок theora // очищаем структуру тестового потока ogg_stream_clear(&m_StreamStateTest); //и продолжаем цикл в поисках заголовков theora } else { // это заголовок theora! // вот таким образом "инициализируем" логический поток theora: memcpy(&m_StreamState, &m_StreamStateTest, sizeof(m_StreamStateTest)); // теперь из этого потока будут всегда сыпаться пакеты theora nHeaderPackets++; // после того, как мы нашли заголовочную страницу логического потока theora, // нам необходимо прочитать все остальные заголовочные страницы // других потоков и отбросить их (если таковые, конечно, имеются) } } } } } while (bStartHeader); // сейчас надо получить еще два пакета заголовков theora (см. её документацию) // и можно переходить к потоковому воспроизведению while(nHeaderPackets<3) { int result=ogg_stream_packetout(&m_StreamState,&m_Packet); // если функция возвращает нуль, значит не хватает данных для декодирования // почему то этого НЕТ в спецификации libogg, или я плохо искал if (result < 0) { // ошибка декодирования, поврежденный поток assert( "!error during ogg_stream_packetout"); } if (result > 0) { // удалось успешно извлечь пакет информации theora int result2 = theora_decode_header( &m_Info, &m_Comment, &m_Packet ); if(result2<0) { // ошибка декодирования, поврежденный поток rlog.err("VIDEO: error during theora_decode_header (corrupt stream)"); } ++nHeaderPackets; } // эту страничку обработали, надо извлечь новую // для этого проверяем буфер чтения, вдруг там осталось что-нить похожее // на страничку. Если не осталось, тогда просто читаем эти данные из файла: if (ogg_sync_pageout( &m_SyncState, &m_Page ) > 0) // ogg_sync_pageout - функция, берет данные из буфера приема ogg // и записывает их в ogg_page { //мы нашли страничку в буфере и... PushPage( &m_Page ); // ...пихаем эти данные в подходящий поток } else { // ничего мы в буфере не нашли int ret = LoadChunk( m_File, &m_SyncState ); // надо больше данных! читаем их из файла if (ret == 0) { // опять файл кончился! rlog.err("VIDEO: eof searched. terminate..."); } } } // init videostream theora_decode_init( &m_State, &m_Info ); switch(m_Info.colorspace) { case OC_CS_UNSPECIFIED: // nothing to report break; case OC_CS_ITU_REC_470M: rlog.msg("Encoder specified ITU Rec 470M (NTSC) color."); // выводим в лог информацию о цветовом пространстве break; case OC_CS_ITU_REC_470BG: rlog.msg("Encoder specified ITU Rec 470BG (PAL) color."); break; default: rlog.msg("Warning: encoder specified unknown colorspace."); break; } // theora processing... while (ogg_stream_packetout( &m_StreamState, &m_Packet ) <= 0) { // не хватает данных в логическом потоке theora // надо надергать данных из физического потока и затолкать их в логический поток // читаем данные из файла int ret = LoadChunk( m_File, &m_SyncState ); if (ret == 0) { // файл кончился, необходимо выполнить закрывающие действия // и выйти из приложения TheoraClose(); return; } while (ogg_sync_pageout( &m_SyncState, &m_Page ) > 0) // декодируем данные из буфера в страницы (ogg_page) // пока они не кончатся в буфере { // пихаем эти страницы в соотв. логические потоки PushPage( &m_Page ); } } // удачно декодировали. в пакете содержится декодированная ogg-информация // (то бишь закодированная theora-информация) // загружаем пакет в декодер theora if (theora_decode_packetin(&m_State,&m_Packet) == OC_BADPACKET) { // ошибка декодирования rlog.err( "error during theora_decode_packetin..." ); } // все данные получены, готовим кадр // декодируем страничку в YUV-виде в спец. структуру yuv_buffer if (theora_decode_YUVout( &m_State, &m_YUVBuffer ) != 0) { // ошибка декодирования rlog.err( "error during theora_decode_YUVout..."); } // если это первый кадр, то создаем буфер кадра BYTE* frame = new BYTE[m_YUVBuffer.y_height*m_YUVBuffer.y_width*4]; // yuv to rgb for (int cy = 0; cy < m_YUVBuffer.y_height; cy++) { int nYShift = m_YUVBuffer.y_stride*cy; int nUVShift = m_YUVBuffer.uv_stride*(cy >> 1); for (int cx = 0; cx < m_YUVBuffer.y_width; cx++) { int nHX = (cx >> 1); BYTE nY = *(BYTE*)(m_YUVBuffer.y + nYShift + cx ); BYTE nU = *(BYTE*)(m_YUVBuffer.u + nUVShift + nHX ); BYTE nV = *(BYTE*)(m_YUVBuffer.v + nUVShift + nHX ); int index = (cy*m_YUVBuffer.y_width + cx)*4; float r = nY + 1.371f*(nV - 128); float g = nY - 0.698f*(nV - 128) - 0.336f*(nU - 128); float b = nY + 1.732f*(nU - 128); frame[index + 0] = (BYTE)clamp( r, 0.0f, 255.0f ); frame[index + 1] = (BYTE)clamp( g, 0.0f, 255.0f ); frame[index + 2] = (BYTE)clamp( b, 0.0f, 255.0f ); frame[index + 3] = 255; } } } // JVideoServer::Init
int main(int argc,char *argv[]){ ogg_packet op; int long_option_index; int c; FILE *infile = stdin; outfile = stdout; #ifdef _WIN32 /* We need to set stdin/stdout to binary mode on 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 /* Process option arguments. */ while((c=getopt_long(argc,argv,optstring,options,&long_option_index))!=EOF){ switch(c){ case 'o': outfile=fopen(optarg,"wb"); if(outfile==NULL){ fprintf(stderr,"Unable to open output file '%s'\n", optarg); exit(1); } break; default: usage(); } } if(optind<argc){ infile=fopen(argv[optind],"rb"); if(infile==NULL){ fprintf(stderr,"Unable to open '%s' for extraction.\n", argv[optind]); exit(1); } if(++optind<argc){ usage(); exit(1); } } /* Ok, Ogg parsing. The idea here is we have a bitstream that is made up of Ogg pages. The libogg sync layer will find them for us. There may be pages from several logical streams interleaved; we find the first theora stream and ignore any others. Then we pass the pages for our stream to the libogg stream layer which assembles our original set of packets out of them. It's the packets that libtheora actually knows how to handle. */ /* start up Ogg stream synchronization layer */ ogg_sync_init(&oy); /* init supporting Theora structures needed in header parsing */ theora_comment_init(&tc); theora_info_init(&ti); /* Ogg file open; parse the headers */ /* Vorbis and Theora both depend on some initial header packets for decoder setup and initialization. We retrieve these first before entering the main decode loop. */ /* Only interested in Theora streams */ while(!stateflag){ int ret=buffer_data(infile,&oy); if(ret==0)break; while(ogg_sync_pageout(&oy,&og)>0){ ogg_stream_state test; /* is this a mandated initial header? If not, stop parsing */ if(!ogg_page_bos(&og)){ /* don't leak the page; get it into the appropriate stream */ queue_page(&og); stateflag=1; break; } ogg_stream_init(&test,ogg_page_serialno(&og)); ogg_stream_pagein(&test,&og); ogg_stream_packetout(&test,&op); /* identify the codec: try theora */ if(!theora_p && theora_decode_header(&ti,&tc,&op)>=0){ /* it is theora -- save this stream state */ memcpy(&to,&test,sizeof(test)); theora_p=1; }else{ /* whatever it is, we don't care about it */ ogg_stream_clear(&test); } } /* fall through to non-initial page parsing */ } /* we're expecting more header packets. */ while(theora_p && theora_p<3){ int ret; /* look for further theora headers */ while(theora_p && (theora_p<3) && (ret=ogg_stream_packetout(&to,&op))){ if(ret<0){ fprintf(stderr,"Error parsing Theora stream headers; corrupt stream?\n"); exit(1); } if(theora_decode_header(&ti,&tc,&op)){ printf("Error parsing Theora stream headers; corrupt stream?\n"); exit(1); } theora_p++; if(theora_p==3)break; } /* The header pages/packets will arrive before anything else we care about, or the stream is not obeying spec */ if(ogg_sync_pageout(&oy,&og)>0){ queue_page(&og); /* demux into the stream state */ }else{ int ret=buffer_data(infile,&oy); /* need more data */ if(ret==0){ fprintf(stderr,"End of file while searching for codec headers.\n"); exit(1); } } } /* Now we have all the required headers. initialize the decoder. */ if(theora_p){ theora_decode_init(&td,&ti); fprintf(stderr,"Ogg logical stream %x is Theora %dx%d %.02f fps video\nEncoded frame content is %dx%d with %dx%d offset\n", to.serialno,ti.width,ti.height, (double)ti.fps_numerator/ti.fps_denominator, ti.frame_width, ti.frame_height, ti.offset_x, ti.offset_y); }else{ /* tear down the partial theora setup */ theora_info_clear(&ti); theora_comment_clear(&tc); } /* open video */ if(theora_p)open_video(); /* install signal handler */ signal (SIGINT, sigint_handler); /* Finally the main decode loop. It's one Theora packet per frame, so this is pretty straightforward if we're not trying to maintain sync with other multiplexed streams. the videobuf_ready flag is used to maintain the input buffer in the libogg stream state. If there's no output frame available at the end of the decode step, we must need more input data. We could simplify this by just using the return code on ogg_page_packetout(), but the flag system extends easily to the case were you care about more than one multiplexed stream (like with audio playback). In that case, just maintain a flag for each decoder you care about, and pull data when any one of them stalls. videobuf_time holds the presentation time of the currently buffered video frame. We ignore this value. */ stateflag=0; /* playback has not begun */ /* queue any remaining pages from data we buffered but that did not contain headers */ while(ogg_sync_pageout(&oy,&og)>0){ queue_page(&og); } while(!got_sigint){ while(theora_p && !videobuf_ready){ /* theora is one in, one out... */ if(ogg_stream_packetout(&to,&op)>0){ theora_decode_packetin(&td,&op); videobuf_granulepos=td.granulepos; videobuf_time=theora_granule_time(&td,videobuf_granulepos); videobuf_ready=1; }else break; } if(!videobuf_ready && feof(infile))break; if(!videobuf_ready){ /* no data yet for somebody. Grab another page */ int ret=buffer_data(infile,&oy); while(ogg_sync_pageout(&oy,&og)>0){ queue_page(&og); } } /* dumpvideo frame, and get new one */ else video_write(); videobuf_ready=0; } /* end of decoder loop -- close everything */ if(theora_p){ ogg_stream_clear(&to); theora_clear(&td); theora_comment_clear(&tc); theora_info_clear(&ti); } ogg_sync_clear(&oy); if(infile && infile!=stdin)fclose(infile); fprintf(stderr, "\r " "\nDone.\n"); return(0); }
int main(int argc,char *argv[]){ int i,j; ogg_packet op; FILE *infile = stdin; #ifdef _WIN32 /* 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 ); #endif /* open the input file if any */ if(argc==2){ infile=fopen(argv[1],"rb"); if(infile==NULL){ fprintf(stderr,"Unable to open '%s' for playback.\n", argv[1]); exit(1); } } if(argc>2){ usage(); exit(1); } /* start up Ogg stream synchronization layer */ ogg_sync_init(&oy); /* init supporting Vorbis structures needed in header parsing */ vorbis_info_init(&vi); vorbis_comment_init(&vc); /* init supporting Theora structures needed in header parsing */ theora_comment_init(&tc); theora_info_init(&ti); /* Ogg file open; parse the headers */ /* Only interested in Vorbis/Theora streams */ while(!stateflag){ int ret=buffer_data(infile,&oy); if(ret==0)break; while(ogg_sync_pageout(&oy,&og)>0){ ogg_stream_state test; /* is this a mandated initial header? If not, stop parsing */ if(!ogg_page_bos(&og)){ /* don't leak the page; get it into the appropriate stream */ queue_page(&og); stateflag=1; break; } ogg_stream_init(&test,ogg_page_serialno(&og)); ogg_stream_pagein(&test,&og); ogg_stream_packetout(&test,&op); /* identify the codec: try theora */ if(!theora_p && theora_decode_header(&ti,&tc,&op)>=0){ /* it is theora */ memcpy(&to,&test,sizeof(test)); theora_p=1; }else if(!vorbis_p && vorbis_synthesis_headerin(&vi,&vc,&op)>=0){ /* it is vorbis */ memcpy(&vo,&test,sizeof(test)); vorbis_p=1; }else{ /* whatever it is, we don't care about it */ ogg_stream_clear(&test); } } /* fall through to non-bos page parsing */ } /* we're expecting more header packets. */ while((theora_p && theora_p<3) || (vorbis_p && vorbis_p<3)){ int ret; /* look for further theora headers */ while(theora_p && (theora_p<3) && (ret=ogg_stream_packetout(&to,&op))){ if(ret<0){ fprintf(stderr,"Error parsing Theora stream headers; corrupt stream?\n"); exit(1); } if(theora_decode_header(&ti,&tc,&op)){ printf("Error parsing Theora stream headers; corrupt stream?\n"); exit(1); } theora_p++; if(theora_p==3)break; } /* look for more vorbis header packets */ while(vorbis_p && (vorbis_p<3) && (ret=ogg_stream_packetout(&vo,&op))){ if(ret<0){ fprintf(stderr,"Error parsing Vorbis stream headers; corrupt stream?\n"); exit(1); } if(vorbis_synthesis_headerin(&vi,&vc,&op)){ fprintf(stderr,"Error parsing Vorbis stream headers; corrupt stream?\n"); exit(1); } vorbis_p++; if(vorbis_p==3)break; } /* The header pages/packets will arrive before anything else we care about, or the stream is not obeying spec */ if(ogg_sync_pageout(&oy,&og)>0){ queue_page(&og); /* demux into the appropriate stream */ }else{ int ret=buffer_data(infile,&oy); /* someone needs more data */ if(ret==0){ fprintf(stderr,"End of file while searching for codec headers.\n"); exit(1); } } } /* and now we have it all. initialize decoders */ if(theora_p){ theora_decode_init(&td,&ti); printf("Ogg logical stream %x is Theora %dx%d %.02f fps video\n", (unsigned int)to.serialno,ti.width,ti.height, (double)ti.fps_numerator/ti.fps_denominator); if(ti.width!=ti.frame_width || ti.height!=ti.frame_height) printf(" Frame content is %dx%d with offset (%d,%d).\n", ti.frame_width, ti.frame_height, ti.offset_x, ti.offset_y); report_colorspace(&ti); dump_comments(&tc); }else{ /* tear down the partial theora setup */ theora_info_clear(&ti); theora_comment_clear(&tc); } if(vorbis_p){ vorbis_synthesis_init(&vd,&vi); vorbis_block_init(&vd,&vb); fprintf(stderr,"Ogg logical stream %x is Vorbis %d channel %d Hz audio.\n", (unsigned int)vo.serialno,vi.channels,(int)vi.rate); }else{ /* tear down the partial vorbis setup */ vorbis_info_clear(&vi); vorbis_comment_clear(&vc); } /* open audio */ if(vorbis_p)open_audio(); /* open video */ if(theora_p)open_video(); /* install signal handler as SDL clobbered the default */ signal (SIGINT, sigint_handler); /* on to the main decode loop. We assume in this example that audio and video start roughly together, and don't begin playback until we have a start frame for both. This is not necessarily a valid assumption in Ogg A/V streams! It will always be true of the example_encoder (and most streams) though. */ stateflag=0; /* playback has not begun */ while(!got_sigint){ /* we want a video and audio frame ready to go at all times. If we have to buffer incoming, buffer the compressed data (ie, let ogg do the buffering) */ while(vorbis_p && !audiobuf_ready){ int ret; float **pcm; /* if there's pending, decoded audio, grab it */ if((ret=vorbis_synthesis_pcmout(&vd,&pcm))>0){ int count=audiobuf_fill/2; int maxsamples=(audiofd_fragsize-audiobuf_fill)/2/vi.channels; for(i=0;i<ret && i<maxsamples;i++) for(j=0;j<vi.channels;j++){ int val=rint(pcm[j][i]*32767.f); if(val>32767)val=32767; if(val<-32768)val=-32768; audiobuf[count++]=val; } vorbis_synthesis_read(&vd,i); audiobuf_fill+=i*vi.channels*2; if(audiobuf_fill==audiofd_fragsize)audiobuf_ready=1; if(vd.granulepos>=0) audiobuf_granulepos=vd.granulepos-ret+i; else audiobuf_granulepos+=i; }else{ /* no pending audio; is there a pending packet to decode? */ if(ogg_stream_packetout(&vo,&op)>0){ if(vorbis_synthesis(&vb,&op)==0) /* test for success! */ vorbis_synthesis_blockin(&vd,&vb); }else /* we need more data; break out to suck in another page */ break; } } while(theora_p && !videobuf_ready){ /* theora is one in, one out... */ if(ogg_stream_packetout(&to,&op)>0){ theora_decode_packetin(&td,&op); videobuf_granulepos=td.granulepos; videobuf_time=theora_granule_time(&td,videobuf_granulepos); /* is it already too old to be useful? This is only actually useful cosmetically after a SIGSTOP. Note that we have to decode the frame even if we don't show it (for now) due to keyframing. Soon enough libtheora will be able to deal with non-keyframe seeks. */ if(videobuf_time>=get_time()) videobuf_ready=1; }else break; } if(!videobuf_ready && !audiobuf_ready && feof(infile))break; if(!videobuf_ready || !audiobuf_ready){ /* no data yet for somebody. Grab another page */ int bytes=buffer_data(infile,&oy); while(ogg_sync_pageout(&oy,&og)>0){ queue_page(&og); } } /* If playback has begun, top audio buffer off immediately. */ if(stateflag) audio_write_nonblocking(); /* are we at or past time for this video frame? */ if(stateflag && videobuf_ready && videobuf_time<=get_time()){ video_write(); videobuf_ready=0; } if(stateflag && (audiobuf_ready || !vorbis_p) && (videobuf_ready || !theora_p) && !got_sigint){ /* we have an audio frame ready (which means the audio buffer is full), it's not time to play video, so wait until one of the audio buffer is ready or it's near time to play video */ /* set up select wait on the audiobuffer and a timeout for video */ struct timeval timeout; fd_set writefs; fd_set empty; int n=0; FD_ZERO(&writefs); FD_ZERO(&empty); if(audiofd>=0){ FD_SET(audiofd,&writefs); n=audiofd+1; } if(theora_p){ long milliseconds=(videobuf_time-get_time())*1000-5; if(milliseconds>500)milliseconds=500; if(milliseconds>0){ timeout.tv_sec=milliseconds/1000; timeout.tv_usec=(milliseconds%1000)*1000; n=select(n,&empty,&writefs,&empty,&timeout); if(n)audio_calibrate_timer(0); } }else{ select(n,&empty,&writefs,&empty,NULL); } } /* if our buffers either don't exist or are ready to go, we can begin playback */ if((!theora_p || videobuf_ready) && (!vorbis_p || audiobuf_ready))stateflag=1; /* same if we've run out of input */ if(feof(infile))stateflag=1; } /* tear it all down */ audio_close(); SDL_Quit(); if(vorbis_p){ ogg_stream_clear(&vo); vorbis_block_clear(&vb); vorbis_dsp_clear(&vd); vorbis_comment_clear(&vc); vorbis_info_clear(&vi); } if(theora_p){ ogg_stream_clear(&to); theora_clear(&td); theora_comment_clear(&tc); theora_info_clear(&ti); } ogg_sync_clear(&oy); if(infile && infile!=stdin)fclose(infile); fprintf(stderr, "\r " "\nDone.\n"); return(0); }
gboolean ucil_theora_combine_av_file( const char *path, const char *codec, gboolean remove, ucil_processing_info_func_t procfunc, void *func_data, GError **error ) { FILE *f; FILE *af; FILE *vf; gchar *apath; gchar *vpath; long len; long filepos = 0; ogg_sync_state oy; ogg_stream_state tins; theora_comment tc; theora_info ti; theora_state ts; ogg_stream_state vs; vorbis_info vi; vorbis_comment vc; vorbis_dsp_state vd; vorbis_block vb; ogg_page og; ogg_packet op; ogg_packet header_comm; ogg_packet header_code; int pkt; double videopos, audiopos; f = fopen( path, "w" ); if( !f ) { gchar *name = g_filename_display_name( path ); g_set_error( error, G_FILE_ERROR, g_file_error_from_errno( errno ), _("Could not open '%s' for writing: %s"), name, g_strerror( errno ) ); g_free( name ); return FALSE; } apath = g_strconcat( path, ".atmp", NULL ); af = fopen( apath, "r" ); if( !af ) { gchar *name = g_filename_display_name( apath ); g_set_error( error, G_FILE_ERROR, g_file_error_from_errno( errno ), _("Could not open '%s' for reading: %s"), name, g_strerror( errno ) ); g_free( name ); g_free( apath ); fclose( f ); return FALSE; } vpath = g_strconcat( path, ".vtmp", NULL ); vf = fopen( vpath, "r" ); if( !vf ) { gchar *name = g_filename_display_name( vpath ); g_set_error( error, G_FILE_ERROR, g_file_error_from_errno( errno ), _("Could not open '%s' for reading: %s"), name, g_strerror( errno ) ); g_free( name ); g_free( apath ); g_free( vpath ); fclose( f ); fclose( af ); return FALSE; } fseek( af, 0L, SEEK_END ); len = ftell( af ); fseek( af, 0L, SEEK_SET ); ogg_sync_init( &oy ); theora_comment_init( &tc ); theora_info_init( &ti ); if( ogg_stream_init( &vs, 2 ) != 0 ) { g_free( apath ); g_free( vpath ); fclose( f ); fclose( af ); fclose( vf ); g_set_error( error, UCIL_ERROR, UCIL_ERROR_INVALID_STREAM, _("Failed to initialize audio stream") ); return FALSE; } vorbis_info_init( &vi ); if( vorbis_encode_init( &vi, 2, 44100, -1, 128000, -1 ) ) { g_free( apath ); g_free( vpath ); fclose( f ); fclose( af ); fclose( vf ); g_set_error( error, UCIL_ERROR, UCIL_ERROR_INVALID_STREAM, _("Failed to initialize audio encoder") ); return FALSE; } vorbis_comment_init( &vc ); vorbis_analysis_init( &vd, &vi ); vorbis_block_init( &vd, &vb ); // // write theora header page // { ogg_page og; while( ogg_sync_pageout( &oy, &og ) == 0 ) { int bytes; bytes = buffer_data( vf, &oy ); if( bytes == 0 ) { g_free( apath ); g_free( vpath ); fclose( f ); fclose( af ); fclose( vf ); g_set_error( error, UCIL_ERROR, UCIL_ERROR_INVALID_STREAM, _("Invalid video stream") ); return FALSE; } } if( !ogg_page_bos( &og ) ) { g_free( apath ); g_free( vpath ); fclose( f ); fclose( af ); fclose( vf ); g_set_error( error, UCIL_ERROR, UCIL_ERROR_INVALID_STREAM, _("Invalid video stream") ); return FALSE; } ogg_stream_init( &tins, ogg_page_serialno( &og ) ); fwrite( og.header, 1, og.header_len, f ); fwrite( og.body, 1, og.body_len, f ); if( ogg_stream_pagein( &tins, &og ) < 0 ) { g_free( apath ); g_free( vpath ); fclose( f ); fclose( af ); fclose( vf ); g_set_error( error, UCIL_ERROR, UCIL_ERROR_INVALID_STREAM, _("Invalid video stream") ); return FALSE; } pkt = 0; while( ( pkt < 3 ) && ( ogg_stream_packetout( &tins, &op ) > 0 ) ) { if( theora_decode_header( &ti, &tc, &op ) != 0 ) { g_free( apath ); g_free( vpath ); fclose( f ); fclose( af ); fclose( vf ); g_set_error( error, UCIL_ERROR, UCIL_ERROR_INVALID_STREAM, _("Invalid video stream") ); return FALSE; } pkt++; } } // // Write vorbis header page // vorbis_analysis_headerout( &vd, &vc, &op, &header_comm, &header_code ); ogg_stream_packetin( &vs, &op ); if( ogg_stream_pageout( &vs, &og ) != 1 ) { g_free( apath ); g_free( vpath ); fclose( f ); fclose( af ); fclose( vf ); g_set_error( error, UCIL_ERROR, UCIL_ERROR_INVALID_STREAM, _("Could not create audio stream") ); return FALSE; } fwrite( og.header, 1, og.header_len, f ); fwrite( og.body, 1, og.body_len, f ); ogg_stream_packetin( &vs, &header_comm ); ogg_stream_packetin( &vs, &header_code ); // write remaining theora headers for( pkt = 1; pkt < 3; ) { ogg_page og; if( ogg_sync_pageout( &oy, &og ) > 0 ) { fwrite( og.header, 1, og.header_len, f ); fwrite( og.body, 1, og.body_len, f ); if( ogg_stream_pagein( &tins, &og ) < 0 ) { g_free( apath ); g_free( vpath ); fclose( f ); fclose( af ); fclose( vf ); g_set_error( error, UCIL_ERROR, UCIL_ERROR_INVALID_STREAM, _("Invalid video stream") ); return FALSE; } while( ( pkt < 3 ) && ( ogg_stream_packetout( &tins, &op ) > 0 ) ) { if( theora_decode_header( &ti, &tc, &op ) != 0 ) { g_free( apath ); g_free( vpath ); fclose( f ); fclose( af ); fclose( vf ); g_set_error( error, UCIL_ERROR, UCIL_ERROR_INVALID_STREAM, _("Invalid video stream") ); return FALSE; } pkt++; } } else { int bytes; bytes = buffer_data( vf, &oy ); if( bytes == 0 ) { g_free( apath ); g_free( vpath ); fclose( f ); fclose( af ); fclose( vf ); g_set_error( error, UCIL_ERROR, UCIL_ERROR_INVALID_STREAM, _("Invalid video stream") ); return FALSE; } } } theora_decode_init( &ts, &ti ); // // Write remaining vorbis headers // while( ogg_stream_flush( &vs, &og ) > 0 ) { fwrite( og.header, 1, og.header_len, f ); fwrite( og.body, 1, og.body_len, f ); } audiopos = 0.0; videopos = 0.0; while( !feof( af ) ) { signed char abuf[512 * 4]; int n_samples; if( feof( vf ) || ( audiopos <= videopos ) ) { n_samples = fread( abuf, 4, 512, af ); audiopos = encode_vorbis( f, &vd, &vs, &vb, 44100, audiopos, abuf, n_samples ); filepos += n_samples * 4; } else { buffer_data( vf, &oy ); if( ogg_sync_pageout( &oy, &og ) > 0 ) { double tmppos; fwrite( og.header, 1, og.header_len, f ); fwrite( og.body, 1, og.body_len, f ); if( ogg_stream_pagein( &tins, &og ) < 0 ) { TRACE( "failed to decode theora\n" ); } ogg_stream_packetout( &tins, &op ); tmppos = theora_granule_time( &ts, ogg_page_granulepos( &og ) ); if( tmppos > 0 ) { videopos = tmppos; } } } if( procfunc ) { procfunc( func_data, (double)filepos/(double)len ); } } while( !feof( vf ) && buffer_data( vf, &oy ) ) { if( ogg_sync_pageout( &oy, &og ) > 0 ) { fwrite( og.header, 1, og.header_len, f ); fwrite( og.body, 1, og.body_len, f ); } } if( remove ) { unlink( vpath ); unlink( apath ); } g_free( vpath ); g_free( apath ); fclose( f ); fclose( af ); fclose( vf ); return TRUE; }
qboolean OGV_StartRead(cinematic_t *cin) { int status; ogg_page og; ogg_packet op; int i; cin->data = Com_Allocate(sizeof(cin_ogv_t)); Com_Memset(cin->data, 0, sizeof(cin_ogv_t)); ogg_sync_init(&g_ogm->oy); /* Now we can read pages */ //FIXME? can serialno be 0 in ogg? (better way to check inited?) //TODO: support for more than one audio stream? / detect files with one stream(or without correct ones) while (!g_ogm->os_audio.serialno || !g_ogm->os_video.serialno) { if (ogg_sync_pageout(&g_ogm->oy, &og) == 1) { if (strstr((char *)(og.body + 1), "vorbis")) { //FIXME? better way to find audio stream if (g_ogm->os_audio.serialno) { Com_Printf(S_COLOR_YELLOW "WARNING: more than one audio stream, in ogm-file(%s) ... we will stay at the first one\n", cin->name); } else { ogg_stream_init(&g_ogm->os_audio, ogg_page_serialno(&og)); ogg_stream_pagein(&g_ogm->os_audio, &og); } } if (strstr((char *)(og.body + 1), "theora")) { if (g_ogm->os_video.serialno) { Com_Printf(S_COLOR_YELLOW "WARNING: more than one video stream, in ogm-file(%s) ... we will stay at the first one\n", cin->name); } else { ogg_stream_init(&g_ogm->os_video, ogg_page_serialno(&og)); ogg_stream_pagein(&g_ogm->os_video, &og); } } } else if (OGV_LoadBlockToSync(cin)) { break; } } if (!g_ogm->os_audio.serialno) { Com_Printf(S_COLOR_YELLOW "WARNING: Haven't found a audio(vorbis) stream in ogm-file (%s)\n", cin->name); return qfalse; } if (!g_ogm->os_video.serialno) { Com_Printf(S_COLOR_YELLOW "WARNING: Haven't found a video stream in ogm-file (%s)\n", cin->name); return qfalse; } //load vorbis header vorbis_info_init(&g_ogm->vi); vorbis_comment_init(&g_ogm->vc); i = 0; while (i < 3) { status = ogg_stream_packetout(&g_ogm->os_audio, &op); if (status < 0) { Com_Printf(S_COLOR_YELLOW "WARNING: Corrupt ogg packet while loading vorbis-headers, ogm-file(%s)\n", cin->name); return qfalse; } if (status > 0) { status = vorbis_synthesis_headerin(&g_ogm->vi, &g_ogm->vc, &op); if (i == 0 && status < 0) { Com_Printf(S_COLOR_YELLOW "WARNING: This Ogg bitstream does not contain Vorbis audio data, ogm-file(%s)\n", cin->name); return qfalse; } ++i; } else if (OGV_LoadPagesToStreams(cin)) { if (OGV_LoadBlockToSync(cin)) { Com_Printf(S_COLOR_YELLOW "WARNING: Couldn't find all vorbis headers before end of ogm-file (%s)\n", cin->name); return qfalse; } } } vorbis_synthesis_init(&g_ogm->vd, &g_ogm->vi); // Do init { theora_info_init(&g_ogm->th_info); theora_comment_init(&g_ogm->th_comment); i = 0; while (i < 3) { status = ogg_stream_packetout(&g_ogm->os_video, &op); if (status < 0) { Com_Printf(S_COLOR_YELLOW "WARNING: Corrupt ogg packet while loading theora-headers, ogm-file(%s)\n", cin->name); return qfalse; } else if (status > 0) { status = theora_decode_header(&g_ogm->th_info, &g_ogm->th_comment, &op); if (i == 0 && status != 0) { Com_Printf(S_COLOR_YELLOW "WARNING: This Ogg bitstream does not contain theora data, ogm-file(%s)\n", cin->name); return qfalse; } ++i; } else if (OGV_LoadPagesToStreams(cin)) { if (OGV_LoadBlockToSync(cin)) { Com_Printf(S_COLOR_YELLOW "WARNING: Couldn't find all theora headers before end of ogm-file (%s)\n", cin->name); return qfalse; } } } theora_decode_init(&g_ogm->th_state, &g_ogm->th_info); g_ogm->Vtime_unit = ((ogg_int64_t) g_ogm->th_info.fps_denominator * 1000 * 10000 / g_ogm->th_info.fps_numerator); } Com_DPrintf("Theora init done (%s)\n", cin->name); return qtrue; }
/* * init driver */ static int init(sh_video_t *sh){ theora_struct_t *context = NULL; int failed = 1; int errorCode = 0; ogg_packet op; int i; /* check whether video output format is supported */ switch(sh->codec->outfmt[sh->outfmtidx]) { case IMGFMT_YV12: /* well, this should work... */ break; default: mp_msg (MSGT_DECVIDEO,MSGL_ERR,"Unsupported out_fmt: 0x%X\n", sh->codec->outfmt[sh->outfmtidx]); return 0; } /* this is not a loop, just a context, from which we can break on error */ do { context = calloc (sizeof (theora_struct_t), 1); sh->context = context; if (!context) break; theora_info_init(&context->inf); theora_comment_init(&context->cc); /* Read all header packets, pass them to theora_decode_header. */ for (i = 0; i < THEORA_NUM_HEADER_PACKETS; i++) { op.bytes = ds_get_packet (sh->ds, &op.packet); op.b_o_s = 1; if ( (errorCode = theora_decode_header (&context->inf, &context->cc, &op)) ) { mp_msg(MSGT_DECAUDIO, MSGL_ERR, "Broken Theora header; errorCode=%i!\n", errorCode); break; } } if (errorCode) break; /* now init codec */ errorCode = theora_decode_init (&context->st, &context->inf); if (errorCode) { mp_msg(MSGT_DECVIDEO,MSGL_ERR,"Theora decode init failed: %i \n", errorCode); break; } failed = 0; } while (0); if (failed) { if (context) { free (context); sh->context = NULL; } return 0; } if(sh->aspect==0.0 && context->inf.aspect_denominator!=0) { sh->aspect = (float)(context->inf.aspect_numerator * context->inf.frame_width)/ (context->inf.aspect_denominator * context->inf.frame_height); } mp_msg(MSGT_DECVIDEO,MSGL_V,"INFO: Theora video init ok!\n"); return mpcodecs_config_vo (sh,context->inf.frame_width,context->inf.frame_height,IMGFMT_YV12); }
static GstFlowReturn theora_enc_chain (GstPad * pad, GstBuffer * buffer) { GstTheoraEnc *enc; ogg_packet op; GstClockTime timestamp, duration, running_time; GstFlowReturn ret; enc = GST_THEORA_ENC (GST_PAD_PARENT (pad)); /* we keep track of two timelines. * - The timestamps from the incomming buffers, which we copy to the outgoing * encoded buffers as-is. We need to do this as we simply forward the * newsegment events. * - The running_time of the buffers, which we use to construct the granulepos * in the packets. */ timestamp = GST_BUFFER_TIMESTAMP (buffer); duration = GST_BUFFER_DURATION (buffer); running_time = gst_segment_to_running_time (&enc->segment, GST_FORMAT_TIME, timestamp); /* make sure we copy the discont flag to the next outgoing buffer when it's * set on the incomming buffer */ if (GST_BUFFER_IS_DISCONT (buffer)) { enc->next_discont = TRUE; } if (enc->packetno == 0) { /* no packets written yet, setup headers */ GstCaps *caps; GstBuffer *buf1, *buf2, *buf3; enc->granulepos_offset = 0; enc->timestamp_offset = 0; GST_DEBUG_OBJECT (enc, "output headers"); /* Theora streams begin with three headers; the initial header (with most of the codec setup parameters) which is mandated by the Ogg bitstream spec. The second header holds any comment fields. The third header holds the bitstream codebook. We merely need to make the headers, then pass them to libtheora one at a time; libtheora handles the additional Ogg bitstream constraints */ /* first packet will get its own page automatically */ if (theora_encode_header (&enc->state, &op) != 0) goto encoder_disabled; ret = theora_buffer_from_packet (enc, &op, GST_CLOCK_TIME_NONE, GST_CLOCK_TIME_NONE, GST_CLOCK_TIME_NONE, &buf1); if (ret != GST_FLOW_OK) { goto header_buffer_alloc; } /* create the remaining theora headers */ theora_comment_clear (&enc->comment); theora_comment_init (&enc->comment); if (theora_encode_comment (&enc->comment, &op) != 0) goto encoder_disabled; ret = theora_buffer_from_packet (enc, &op, GST_CLOCK_TIME_NONE, GST_CLOCK_TIME_NONE, GST_CLOCK_TIME_NONE, &buf2); /* Theora expects us to put this packet buffer into an ogg page, * in which case it becomes the ogg library's responsibility to * free it. Since we're copying and outputting a gst_buffer, * we need to free it ourselves. */ if (op.packet) free (op.packet); if (ret != GST_FLOW_OK) { gst_buffer_unref (buf1); goto header_buffer_alloc; } if (theora_encode_tables (&enc->state, &op) != 0) goto encoder_disabled; ret = theora_buffer_from_packet (enc, &op, GST_CLOCK_TIME_NONE, GST_CLOCK_TIME_NONE, GST_CLOCK_TIME_NONE, &buf3); if (ret != GST_FLOW_OK) { gst_buffer_unref (buf1); gst_buffer_unref (buf2); goto header_buffer_alloc; } /* mark buffers and put on caps */ caps = gst_pad_get_caps (enc->srcpad); caps = theora_set_header_on_caps (caps, buf1, buf2, buf3); GST_DEBUG ("here are the caps: %" GST_PTR_FORMAT, caps); gst_pad_set_caps (enc->srcpad, caps); gst_buffer_set_caps (buf1, caps); gst_buffer_set_caps (buf2, caps); gst_buffer_set_caps (buf3, caps); gst_caps_unref (caps); /* push out the header buffers */ if ((ret = theora_push_buffer (enc, buf1)) != GST_FLOW_OK) { gst_buffer_unref (buf2); gst_buffer_unref (buf3); goto header_push; } if ((ret = theora_push_buffer (enc, buf2)) != GST_FLOW_OK) { gst_buffer_unref (buf3); goto header_push; } if ((ret = theora_push_buffer (enc, buf3)) != GST_FLOW_OK) { goto header_push; } enc->granulepos_offset = gst_util_uint64_scale (running_time, enc->fps_n, GST_SECOND * enc->fps_d); enc->timestamp_offset = running_time; enc->next_ts = 0; } { yuv_buffer yuv; gint res; gint y_size; guint8 *pixels; yuv.y_width = enc->info_width; yuv.y_height = enc->info_height; yuv.y_stride = enc->info_width; yuv.uv_width = enc->info_width / 2; yuv.uv_height = enc->info_height / 2; yuv.uv_stride = yuv.uv_width; y_size = enc->info_width * enc->info_height; if (enc->width == enc->info_width && enc->height == enc->info_height) { GST_LOG_OBJECT (enc, "no cropping/conversion needed"); /* easy case, no cropping/conversion needed */ pixels = GST_BUFFER_DATA (buffer); yuv.y = pixels; yuv.u = yuv.y + y_size; yuv.v = yuv.u + y_size / 4; } else { GstBuffer *newbuf; gint i; guchar *dest_y, *src_y; guchar *dest_u, *src_u; guchar *dest_v, *src_v; gint src_y_stride, src_uv_stride; gint dst_y_stride, dst_uv_stride; gint width, height; gint cwidth, cheight; gint offset_x, right_x, right_border; GST_LOG_OBJECT (enc, "cropping/conversion needed for strides"); /* source width/height */ width = enc->width; height = enc->height; /* soucre chroma width/height */ cwidth = width / 2; cheight = height / 2; /* source strides as defined in videotestsrc */ src_y_stride = GST_ROUND_UP_4 (width); src_uv_stride = GST_ROUND_UP_8 (width) / 2; /* destination strides from the real picture width */ dst_y_stride = enc->info_width; dst_uv_stride = enc->info_width / 2; newbuf = gst_buffer_new_and_alloc (y_size * 3 / 2); if (!newbuf) { ret = GST_FLOW_ERROR; goto no_buffer; } GST_BUFFER_OFFSET (newbuf) = GST_BUFFER_OFFSET_NONE; gst_buffer_set_caps (newbuf, GST_PAD_CAPS (enc->srcpad)); dest_y = yuv.y = GST_BUFFER_DATA (newbuf); dest_u = yuv.u = yuv.y + y_size; dest_v = yuv.v = yuv.u + y_size / 4; src_y = GST_BUFFER_DATA (buffer); src_u = src_y + src_y_stride * GST_ROUND_UP_2 (height); src_v = src_u + src_uv_stride * GST_ROUND_UP_2 (height) / 2; if (enc->border != BORDER_NONE) { /* fill top border */ for (i = 0; i < enc->offset_y; i++) { memset (dest_y, 0, dst_y_stride); dest_y += dst_y_stride; } } else { dest_y += dst_y_stride * enc->offset_y; } offset_x = enc->offset_x; right_x = width + enc->offset_x; right_border = dst_y_stride - right_x; /* copy Y plane */ for (i = 0; i < height; i++) { memcpy (dest_y + offset_x, src_y, width); if (enc->border != BORDER_NONE) { memset (dest_y, 0, offset_x); memset (dest_y + right_x, 0, right_border); } dest_y += dst_y_stride; src_y += src_y_stride; } if (enc->border != BORDER_NONE) { /* fill bottom border */ for (i = height + enc->offset_y; i < enc->info.height; i++) { memset (dest_y, 0, dst_y_stride); dest_y += dst_y_stride; } /* fill top border chroma */ for (i = 0; i < enc->offset_y / 2; i++) { memset (dest_u, 128, dst_uv_stride); memset (dest_v, 128, dst_uv_stride); dest_u += dst_uv_stride; dest_v += dst_uv_stride; } } else { dest_u += dst_uv_stride * enc->offset_y / 2; dest_v += dst_uv_stride * enc->offset_y / 2; } offset_x = enc->offset_x / 2; right_x = cwidth + offset_x; right_border = dst_uv_stride - right_x; /* copy UV planes */ for (i = 0; i < cheight; i++) { memcpy (dest_v + offset_x, src_v, cwidth); memcpy (dest_u + offset_x, src_u, cwidth); if (enc->border != BORDER_NONE) { memset (dest_u, 128, offset_x); memset (dest_u + right_x, 128, right_border); memset (dest_v, 128, offset_x); memset (dest_v + right_x, 128, right_border); } dest_u += dst_uv_stride; dest_v += dst_uv_stride; src_u += src_uv_stride; src_v += src_uv_stride; } if (enc->border != BORDER_NONE) { /* fill bottom border */ for (i = cheight + enc->offset_y / 2; i < enc->info_height / 2; i++) { memset (dest_u, 128, dst_uv_stride); memset (dest_v, 128, dst_uv_stride); dest_u += dst_uv_stride; dest_v += dst_uv_stride; } } gst_buffer_unref (buffer); buffer = newbuf; } if (theora_enc_is_discontinuous (enc, running_time, duration)) { theora_enc_reset (enc); enc->granulepos_offset = gst_util_uint64_scale (running_time, enc->fps_n, GST_SECOND * enc->fps_d); enc->timestamp_offset = running_time; enc->next_ts = 0; enc->next_discont = TRUE; } res = theora_encode_YUVin (&enc->state, &yuv); ret = GST_FLOW_OK; while (theora_encode_packetout (&enc->state, 0, &op)) { GstClockTime next_time; next_time = theora_enc_get_ogg_packet_end_time (enc, &op); ret = theora_push_packet (enc, &op, timestamp, enc->next_ts, next_time - enc->next_ts); enc->next_ts = next_time; if (ret != GST_FLOW_OK) goto data_push; } gst_buffer_unref (buffer); } return ret; /* ERRORS */ header_buffer_alloc: { gst_buffer_unref (buffer); return ret; } header_push: { gst_buffer_unref (buffer); return ret; } no_buffer: { return ret; } data_push: { gst_buffer_unref (buffer); return ret; } encoder_disabled: { GST_ELEMENT_ERROR (enc, STREAM, ENCODE, (NULL), ("libtheora has been compiled with the encoder disabled")); gst_buffer_unref (buffer); return GST_FLOW_ERROR; } }
static int init_theora(mm_file *mf, ogg_page *pg) { int pkts = 0; int res = 0; int rval = 0; theora_info *th_info = NULL; theora_comment th_comm; ogg_packet pkt; ogg_stream_state stream; assert(mf); th_info = (theora_info *)xmalloc(sizeof(*mf->video_info)); theora_info_init(th_info); theora_comment_init(&th_comm); ogg_stream_init(&stream, ogg_page_serialno(pg)); if (ogg_page_packets(pg) != 1 || ogg_page_granulepos(pg) != 0) { goto end; } if (ogg_stream_pagein(&stream, pg)) /* should not happen */ { goto end; } /* Three first packets must go successfully through the loop. */ for (pkts = 0; pkts < 3; ++pkts) { while ((res = ogg_stream_packetpeek(&stream, &pkt)) != 1) { if (res < 0 || get_page(mf, pg) <= 0 || ogg_stream_pagein(&stream, pg) < 0) { rval = -1; goto end; } } switch (theora_decode_header(th_info, &th_comm, &pkt)) { case 0: break; case OC_VERSION: case OC_NEWPACKET: INFO1("incompatible theora file"); /* fall through */ case OC_BADHEADER: default: goto end; } /* decode successful so grab packet */ ogg_stream_packetout(&stream, &pkt); } mf->video_ctx = (theora_state *)xmalloc(sizeof(*mf->video_ctx)); mf->video = (ogg_stream_state *)xmalloc(sizeof(*mf->video)); memcpy(mf->video, &stream, sizeof(stream)); theora_decode_init(mf->video_ctx, th_info); mf->video_info = th_info; rval = 1; end: theora_comment_clear(&th_comm); if (rval <= 0) { ogg_stream_clear(&stream); theora_info_clear(th_info); free(th_info); mf->video_info = NULL; } return rval; }
int OggInit(CFile *f, OggData *data) { ogg_packet packet; int num_vorbis; #ifdef USE_THEORA int num_theora; #endif int stream_start; int ret; unsigned magic; f->read(&magic, sizeof(magic)); if (SDL_SwapLE32(magic) != 0x5367674F) { // "OggS" in ASCII return -1; } f->seek(0, SEEK_SET); ogg_sync_init(&data->sync); vorbis_info_init(&data->vinfo); vorbis_comment_init(&data->vcomment); #ifdef USE_THEORA theora_info_init(&data->tinfo); theora_comment_init(&data->tcomment); #endif #ifdef USE_THEORA num_theora = 0; #endif num_vorbis = 0; stream_start = 0; while (!stream_start) { ogg_stream_state test; if (OggGetNextPage(&data->page, &data->sync, f)) { return -1; } if (!ogg_page_bos(&data->page)) { if (num_vorbis) { ogg_stream_pagein(&data->astream, &data->page); } #ifdef USE_THEORA if (num_theora) { ogg_stream_pagein(&data->vstream, &data->page); } #endif stream_start = 1; break; } ogg_stream_init(&test, ogg_page_serialno(&data->page)); ogg_stream_pagein(&test, &data->page); // initial codec headers while (ogg_stream_packetout(&test, &packet) == 1) { #ifdef USE_THEORA if (theora_decode_header(&data->tinfo, &data->tcomment, &packet) >= 0) { memcpy(&data->vstream, &test, sizeof(test)); ++num_theora; } else #endif if (!vorbis_synthesis_headerin(&data->vinfo, &data->vcomment, &packet)) { memcpy(&data->astream, &test, sizeof(test)); ++num_vorbis; } else { ogg_stream_clear(&test); } } } data->audio = num_vorbis; #ifdef USE_THEORA data->video = num_theora; #endif // remainint codec headers while ((num_vorbis && num_vorbis < 3) #ifdef USE_THEORA || (num_theora && num_theora < 3) ) { // are we in the theora page ? while (num_theora && num_theora < 3 && (ret = ogg_stream_packetout(&data->vstream, &packet))) { if (ret < 0) { return -1; } if (theora_decode_header(&data->tinfo, &data->tcomment, &packet)) { return -1; } ++num_theora; } #else ) { #endif // are we in the vorbis page ? while (num_vorbis && num_vorbis < 3 && (ret = ogg_stream_packetout(&data->astream, &packet))) { if (ret < 0) { return -1; } if (vorbis_synthesis_headerin(&data->vinfo, &data->vcomment, &packet)) { return -1; } ++num_vorbis; } if (OggGetNextPage(&data->page, &data->sync, f)) { break; } if (num_vorbis) { ogg_stream_pagein(&data->astream, &data->page); } #ifdef USE_THEORA if (num_theora) { ogg_stream_pagein(&data->vstream, &data->page); } #endif } if (num_vorbis) { vorbis_synthesis_init(&data->vdsp, &data->vinfo); vorbis_block_init(&data->vdsp, &data->vblock); } else { vorbis_info_clear(&data->vinfo); vorbis_comment_clear(&data->vcomment); } #ifdef USE_THEORA if (num_theora) { theora_decode_init(&data->tstate, &data->tinfo); data->tstate.internal_encode = NULL; // needed for a bug in libtheora (fixed in next release) } else { theora_info_clear(&data->tinfo); theora_comment_clear(&data->tcomment); } return !(num_vorbis || num_theora); #else return !num_vorbis; #endif }
int main(int argc,char *argv[]){ int c,long_option_index,ret; ogg_stream_state to; /* take physical pages, weld into a logical stream of packets */ ogg_stream_state vo; /* take physical pages, weld into a logical stream of packets */ ogg_page og; /* one Ogg bitstream page. Vorbis packets are inside */ ogg_packet op; /* one raw packet of data for decode */ theora_state td; theora_info ti; theora_comment tc; vorbis_info vi; /* struct that stores all the static vorbis bitstream settings */ vorbis_comment vc; /* struct that stores all the user comments */ vorbis_dsp_state vd; /* central working state for the packet->PCM decoder */ vorbis_block vb; /* local working space for packet->PCM decode */ int audioflag=0; int videoflag=0; int akbps=0; int vkbps=0; ogg_int64_t audio_bytesout=0; ogg_int64_t video_bytesout=0; double timebase; FILE* outfile = stdout; #ifdef _WIN32 # ifdef THEORA_PERF_DATA LARGE_INTEGER start_time; LARGE_INTEGER final_time; LONGLONG elapsed_ticks; LARGE_INTEGER ticks_per_second; LONGLONG elapsed_secs; LONGLONG elapsed_sec_mod; double elapsed_secs_dbl ; # endif /* We need to set stdin/stdout to binary mode. Damn windows. */ /* if we were reading/writing a file, it would also need to in binary mode, eg, fopen("file.wav","wb"); */ /* 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 while((c=getopt_long(argc,argv,optstring,options,&long_option_index))!=EOF){ switch(c){ case 'o': outfile=fopen(optarg,"wb"); if(outfile==NULL){ fprintf(stderr,"Unable to open output file '%s'\n", optarg); exit(1); } break;; case 'a': audio_q=atof(optarg)*.099; if(audio_q<-.1 || audio_q>1){ fprintf(stderr,"Illegal audio quality (choose -1 through 10)\n"); exit(1); } audio_r=-1; break; case 'v': video_q=rint(atof(optarg)*6.3); if(video_q<0 || video_q>63){ fprintf(stderr,"Illegal video quality (choose 0 through 10)\n"); exit(1); } video_r=0; break; case 'A': audio_r=atof(optarg)*1000; if(audio_q<0){ fprintf(stderr,"Illegal audio quality (choose > 0 please)\n"); exit(1); } audio_q=-99; break; case 'V': video_r=rint(atof(optarg)*1000); if(video_r<45000 || video_r>2000000){ fprintf(stderr,"Illegal video bitrate (choose 45kbps through 2000kbps)\n"); exit(1); } video_q=0; break; case 's': video_an=rint(atof(optarg)); break; case 'S': video_ad=rint(atof(optarg)); break; case 'f': video_hzn=rint(atof(optarg)); break; case 'F': video_hzd=rint(atof(optarg)); break; default: usage(); } } while(optind<argc){ /* assume that anything following the options must be a filename */ id_file(argv[optind]); optind++; } #ifdef THEORA_PERF_DATA # ifdef WIN32 QueryPerformanceCounter(&start_time); # endif #endif /* yayness. Set up Ogg output stream */ srand(time(NULL)); { /* need two inequal serial numbers */ int serial1, serial2; serial1 = rand(); serial2 = rand(); if (serial1 == serial2) serial2++; ogg_stream_init(&to,serial1); ogg_stream_init(&vo,serial2); } /* Set up Theora encoder */ if(!video){ fprintf(stderr,"No video files submitted for compression?\n"); exit(1); } /* Theora has a divisible-by-sixteen restriction for the encoded video size */ /* scale the frame size up to the nearest /16 and calculate offsets */ video_x=((frame_x + 15) >>4)<<4; video_y=((frame_y + 15) >>4)<<4; /* We force the offset to be even. This ensures that the chroma samples align properly with the luma samples. */ frame_x_offset=((video_x-frame_x)/2)&~1; frame_y_offset=((video_y-frame_y)/2)&~1; theora_info_init(&ti); ti.width=video_x; ti.height=video_y; ti.frame_width=frame_x; ti.frame_height=frame_y; ti.offset_x=frame_x_offset; ti.offset_y=frame_y_offset; ti.fps_numerator=video_hzn; ti.fps_denominator=video_hzd; ti.aspect_numerator=video_an; ti.aspect_denominator=video_ad; ti.colorspace=OC_CS_UNSPECIFIED; ti.pixelformat=OC_PF_420; ti.target_bitrate=video_r; ti.quality=video_q; ti.dropframes_p=0; ti.quick_p=1; ti.keyframe_auto_p=1; ti.keyframe_frequency=64; ti.keyframe_frequency_force=64; ti.keyframe_data_target_bitrate=video_r*1.5; ti.keyframe_auto_threshold=80; ti.keyframe_mindistance=8; ti.noise_sensitivity=1; theora_encode_init(&td,&ti); theora_info_clear(&ti); /* initialize Vorbis too, assuming we have audio to compress. */ if(audio){ vorbis_info_init(&vi); if(audio_q>-99) ret = vorbis_encode_init_vbr(&vi,audio_ch,audio_hz,audio_q); else ret = vorbis_encode_init(&vi,audio_ch,audio_hz,-1,audio_r,-1); if(ret){ fprintf(stderr,"The Vorbis encoder could not set up a mode according to\n" "the requested quality or bitrate.\n\n"); exit(1); } vorbis_comment_init(&vc); vorbis_analysis_init(&vd,&vi); vorbis_block_init(&vd,&vb); } /* write the bitstream header packets with proper page interleave */ /* first packet will get its own page automatically */ theora_encode_header(&td,&op); ogg_stream_packetin(&to,&op); if(ogg_stream_pageout(&to,&og)!=1){ fprintf(stderr,"Internal Ogg library error.\n"); exit(1); } fwrite(og.header,1,og.header_len,outfile); fwrite(og.body,1,og.body_len,outfile); /* create the remaining theora headers */ theora_comment_init(&tc); theora_encode_comment(&tc,&op); ogg_stream_packetin(&to,&op); /*theora_encode_comment() doesn't take a theora_state parameter, so it has to allocate its own buffer to pass back the packet data. If we don't free it here, we'll leak. libogg2 makes this much cleaner: the stream owns the buffer after you call packetin in libogg2, but this is not true in libogg1.*/ free(op.packet); theora_encode_tables(&td,&op); ogg_stream_packetin(&to,&op); if(audio){ ogg_packet header; ogg_packet header_comm; ogg_packet header_code; vorbis_analysis_headerout(&vd,&vc,&header,&header_comm,&header_code); ogg_stream_packetin(&vo,&header); /* automatically placed in its own page */ if(ogg_stream_pageout(&vo,&og)!=1){ fprintf(stderr,"Internal Ogg library error.\n"); exit(1); } fwrite(og.header,1,og.header_len,outfile); fwrite(og.body,1,og.body_len,outfile); /* remaining vorbis header packets */ ogg_stream_packetin(&vo,&header_comm); ogg_stream_packetin(&vo,&header_code); } /* Flush the rest of our headers. This ensures the actual data in each stream will start on a new page, as per spec. */ while(1){ int result = ogg_stream_flush(&to,&og); if(result<0){ /* can't get here */ fprintf(stderr,"Internal Ogg library error.\n"); exit(1); } if(result==0)break; fwrite(og.header,1,og.header_len,outfile); fwrite(og.body,1,og.body_len,outfile); } if(audio){ while(1){ int result=ogg_stream_flush(&vo,&og); if(result<0){ /* can't get here */ fprintf(stderr,"Internal Ogg library error.\n"); exit(1); } if(result==0)break; fwrite(og.header,1,og.header_len,outfile); fwrite(og.body,1,og.body_len,outfile); } } /* setup complete. Raw processing loop */ fprintf(stderr,"Compressing....\n"); while(1){ ogg_page audiopage; ogg_page videopage; /* is there an audio page flushed? If not, fetch one if possible */ audioflag=fetch_and_process_audio(audio,&audiopage,&vo,&vd,&vb,audioflag); /* is there a video page flushed? If not, fetch one if possible */ videoflag=fetch_and_process_video(video,&videopage,&to,&td,videoflag); /* no pages of either? Must be end of stream. */ if(!audioflag && !videoflag)break; /* which is earlier; the end of the audio page or the end of the video page? Flush the earlier to stream */ { int audio_or_video=-1; double audiotime= audioflag?vorbis_granule_time(&vd,ogg_page_granulepos(&audiopage)):-1; double videotime= videoflag?theora_granule_time(&td,ogg_page_granulepos(&videopage)):-1; if(!audioflag){ audio_or_video=1; } else if(!videoflag) { audio_or_video=0; } else { if(audiotime<videotime) audio_or_video=0; else audio_or_video=1; } if(audio_or_video==1){ /* flush a video page */ video_bytesout+=fwrite(videopage.header,1,videopage.header_len,outfile); video_bytesout+=fwrite(videopage.body,1,videopage.body_len,outfile); videoflag=0; timebase=videotime; }else{ /* flush an audio page */ audio_bytesout+=fwrite(audiopage.header,1,audiopage.header_len,outfile); audio_bytesout+=fwrite(audiopage.body,1,audiopage.body_len,outfile); audioflag=0; timebase=audiotime; } { int hundredths=timebase*100-(long)timebase*100; int seconds=(long)timebase%60; int minutes=((long)timebase/60)%60; int hours=(long)timebase/3600; if(audio_or_video) vkbps=rint(video_bytesout*8./timebase*.001); else akbps=rint(audio_bytesout*8./timebase*.001); fprintf(stderr, "\r %d:%02d:%02d.%02d audio: %dkbps video: %dkbps ", hours,minutes,seconds,hundredths,akbps,vkbps); } } } /* clear out state */ if(audio){ ogg_stream_clear(&vo); vorbis_block_clear(&vb); vorbis_dsp_clear(&vd); vorbis_comment_clear(&vc); vorbis_info_clear(&vi); } if(video){ ogg_stream_clear(&to); theora_clear(&td); } if(outfile && outfile!=stdout)fclose(outfile); fprintf(stderr,"\r \ndone.\n\n"); #ifdef THEORA_PERF_DATA # ifdef WIN32 QueryPerformanceCounter(&final_time); elapsed_ticks = final_time.QuadPart - start_time.QuadPart; ticks_per_second; QueryPerformanceFrequency(&ticks_per_second); elapsed_secs = elapsed_ticks / ticks_per_second.QuadPart; elapsed_sec_mod = elapsed_ticks % ticks_per_second.QuadPart; elapsed_secs_dbl = elapsed_secs; elapsed_secs_dbl += ((double)elapsed_sec_mod / (double)ticks_per_second.QuadPart); printf("Encode time = %lld ticks\n", elapsed_ticks); printf("~%lld and %lld / %lld seconds\n", elapsed_secs, elapsed_sec_mod, ticks_per_second.QuadPart); printf("~%Lf seconds\n", elapsed_secs_dbl); # endif #endif return(0); }