ref: 1dfd8c08ece7cba0be8eab1ffb2f00f80aa10ffc
dir: /encoder.c/
#ifdef _WIN32 #include <windows.h> #endif #include "aacenc.h" #include "enc.h" #include "rateconv.h" //////////////////////////////////////////////////////////////////////////////// int write_ADIF_header(faacAACStream *as) { BsBitStream *bitHeader; unsigned char headerBuf[20]; float seconds; int i, bits, bytes; static int SampleRates[] = {96000,88200,64000,48000,44100,32000,24000,22050,16000,12000,11025,8000,0}; seconds = (float)as->out_sampling_rate/(float)1024; seconds = (float)as->cur_frame/seconds; as->total_bits += 17 * 8; bitHeader = BsOpenWrite(200); for (i = 0; ; i++){ if (SampleRates[i] == as->out_sampling_rate) break; else if (SampleRates[i] == 0) return FERROR; } // ADIF_Header BsPutBit(bitHeader,'A',8); BsPutBit(bitHeader,'D',8); BsPutBit(bitHeader,'I',8); BsPutBit(bitHeader,'F',8); BsPutBit(bitHeader,0,1); // Copyright present BsPutBit(bitHeader,0,1); // Original BsPutBit(bitHeader,0,1); // Home BsPutBit(bitHeader,0,1); // Bitstream type BsPutBit(bitHeader,(int)(as->total_bits/seconds),23); // Bitrate BsPutBit(bitHeader, 0, 4); // num program config elements // ADIF_buffer_fulness BsPutBit(bitHeader, 0, 20); // program_config_element BsPutBit(bitHeader,0,4); BsPutBit(bitHeader,as->profile,2); BsPutBit(bitHeader,i,4); BsPutBit(bitHeader,1,4); BsPutBit(bitHeader,0,4); BsPutBit(bitHeader,0,4); BsPutBit(bitHeader,0,2); BsPutBit(bitHeader,0,3); BsPutBit(bitHeader,0,4); BsPutBit(bitHeader,0,1); BsPutBit(bitHeader,0,1); BsPutBit(bitHeader,0,1); // element_list BsPutBit(bitHeader,(as->channels == 2),1); BsPutBit(bitHeader,0,4); ByteAlign(bitHeader, 1); // Comment BsPutBit(bitHeader,0,8); bits = BsBufferNumBit(bitHeader); // Copy bitBuf into bitBuffer here bytes = (int)((bits+7)/8); for (i = 0; i < bytes; i++) headerBuf[i] = bitHeader->data[i]; BsClose(bitHeader); // Write header to a file fseek(as->out_file, 0, SEEK_SET); fwrite(headerBuf, 1, 17, as->out_file); return FNO_ERROR; } //////////////////////////////////////////////////////////////////////////////// int faac_EncodeInit(faacAACStream *as, char *in_file, char *out_file) { int frameNumSample,delayNumSample; int ch, frames, startupNumFrame; if ( strcmp(in_file,"") ) { SF_INFO sf_info; as->in_file = sf_open_read(in_file, &sf_info); if (as->in_file == NULL) return -1; if (as->raw_audio) { sf_info.format = SF_FORMAT_RAW; sf_info.format |= SF_FORMAT_PCM_BE; sf_info.channels = 2; sf_info.pcmbitwidth = 16; sf_info.samplerate = 44100; } frames = (int)(sf_info.samples/1024+0.5); as->channels = sf_info.channels; as->in_sampling_rate = sf_info.samplerate; as->out_sampling_rate = (as->out_sampling_rate) ? (as->out_sampling_rate) : (sf_info.samplerate); } else { as->in_file = NULL; frames = 0; as->out_sampling_rate = (as->out_sampling_rate) ? (as->out_sampling_rate) : (as->in_sampling_rate); } as->cut_off = (as->cut_off) ? (as->cut_off) : ((as->out_sampling_rate)>>1); as->out_file = fopen(out_file, "wb"); if (as->out_file == NULL) return -2; if ((as->inputBuffer = (double**)malloc( as->channels*sizeof(double*))) == NULL) return -3; for (ch=0; ch < as->channels; ch++){ if ((as->inputBuffer[ch]=(double*)malloc( 1024*sizeof(double))) == NULL) return -4; } if((as->bit_rate % 1000)||(as->bit_rate < 16000)) return -5; if (as->channels != 2) return -6; if ((as->profile != MAIN_PROFILE)&&(as->profile != LOW_PROFILE)) return -7; as->total_bits = 0; as->frames = 0; as->cur_frame = 0; as->is_first_frame = 1; if (as->in_sampling_rate != as->out_sampling_rate) as->rc_needed = 1; else as->rc_needed = 0; EncTfInit(as); frameNumSample = 1024; delayNumSample = 2*frameNumSample; as->samplesToRead = frameNumSample * as->channels; as->frame_bits = (int)(as->bit_rate*frameNumSample/as->out_sampling_rate+0.5); as->bitBufferSize = (int)(((as->frame_bits * 5) + 7)/8); /* num frames to start up encoder due to delay compensation */ startupNumFrame = (delayNumSample+frameNumSample-1)/frameNumSample; /* process audio file frame by frame */ as->cur_frame = -startupNumFrame; as->available_bits = 8184; if (as->rc_needed) { as->rc_buf = RateConvInit (0, /* in: debug level */ (double)as->out_sampling_rate/(double)as->in_sampling_rate, /* in: outputRate / inputRate */ as->channels, /* in: number of channels */ -1, /* in: num taps */ -1, /* in: alpha for Kaiser window */ -1, /* in: 6dB cutoff freq / input bandwidth */ -1, /* in: 100dB cutoff freq / input bandwidth */ &as->samplesToRead); /* out: num input samples / frame */ } else as->samplesToRead = 1024*as->channels; as->savedSize = 0; if (as->header_type == ADIF_HEADER) { char tmp[17]; memset(tmp, 0, 17*sizeof(char)); fwrite(tmp, 1, 17, as->out_file); } as->sampleBuffer = (short*) malloc(as->samplesToRead*sizeof(short)); as->bitBuffer = (unsigned char*) malloc((as->bitBufferSize+100)*sizeof(char)); return frames; } //////////////////////////////////////////////////////////////////////////////// int faac_EncodeFrameCore(faacAACStream *as, int Samples) { int i, j, error; int usedNumBit, usedBytes; int samplesOut, curSample = 0; BsBitStream *bitBuf; float *dataOut; float *data = NULL; int totalBytes = 0; // Is this the last (incomplete) frame if ((Samples < as->samplesToRead)&&(Samples > 0)) { // Padd with zeros memset(as->sampleBuffer + Samples, 0, (as->samplesToRead-Samples)*sizeof(short)); } if (as->rc_needed && (Samples > 0)) { samplesOut = as->savedSize + RateConv ( as->rc_buf, /* in: buffer (handle) */ as->sampleBuffer, /* in: input data[] */ as->samplesToRead, /* in: number of input samples */ &dataOut); data = (float*) malloc((samplesOut)*sizeof(float)); for (i = 0; i < as->savedSize; i++) data[i] = as->saved[i]; for (j = 0; i < samplesOut; i++, j++) data[i] = dataOut[j]; } else if (Samples > 0) { samplesOut = 1024*as->channels; data = (float*) malloc((samplesOut)*sizeof(float)); for (i = 0; i < samplesOut; i++) data[i] = as->sampleBuffer[i]; } else samplesOut = 1024*as->channels; while(samplesOut >= 1024*as->channels) { // Process Buffer if (as->sampleBuffer) { if (as->channels == 2) { if (Samples > 0) for (i = 0; i < 1024; i++) { as->inputBuffer[0][i] = data[curSample+(i*2)]; as->inputBuffer[1][i] = data[curSample+(i*2)+1]; } else // (Samples == 0) when called by faacEncodeFinish for (i = 0; i < 1024; i++) { as->inputBuffer[0][i] = 0; as->inputBuffer[1][i] = 0; } } else { // No mono supported yet (basically only a problem with decoder // the encoder in fact supports it). return FERROR; } } if (as->is_first_frame) { EncTfFrame(as, (BsBitStream*)NULL); as->is_first_frame = 0; as->cur_frame++; as->bitBufferSize = 0; samplesOut -= (as->channels*1024); curSample += (as->channels*1024); continue; } bitBuf = BsOpenWrite(as->frame_bits * 10); /* compute available number of bits */ /* frameAvailNumBit contains number of bits in reservoir */ /* variable bit rate: don't exceed bit reservoir size */ if (as->available_bits > 8184) as->available_bits = 8184; /* Add to frameAvailNumBit the number of bits for this frame */ as->available_bits += as->frame_bits; /* Encode frame */ error = EncTfFrame(as, bitBuf); if (error == FERROR) return FERROR; usedNumBit = BsBufferNumBit(bitBuf); as->total_bits += usedNumBit; // Copy bitBuf into bitBuffer here usedBytes = (int)((usedNumBit+7)/8); for (i = 0; i < usedBytes; i++) as->bitBuffer[i+totalBytes] = bitBuf->data[i]; totalBytes += usedBytes; BsClose(bitBuf); /* Adjust available bit counts */ as->available_bits -= usedNumBit; /* Subtract bits used */ as->cur_frame++; samplesOut -= (as->channels*1024); curSample += (as->channels*1024); } as->bitBufferSize = totalBytes; as->savedSize = samplesOut; for (i = 0; i < samplesOut; i++) as->saved[i] = data[curSample+i]; if (data) free(data); fwrite(as->bitBuffer, 1, as->bitBufferSize, as->out_file); return FNO_ERROR; } //////////////////////////////////////////////////////////////////////////////// int faac_EncodeFrame(faacAACStream *as) { int Samples; Samples = sf_read_short(as->in_file, as->sampleBuffer, as->samplesToRead); if ( Samples > 0 ) if ( faac_EncodeFrameCore(as, Samples) == FERROR) return FERROR; if (Samples < as->samplesToRead) { if(as->sampleBuffer){ free(as->sampleBuffer); as->sampleBuffer = NULL; } faac_EncodeFrameCore(as,0); faac_EncodeFrameCore(as,0); return F_FINISH; } return FNO_ERROR; } //////////////////////////////////////////////////////////////////////////////// int faac_BlockEncodeFrame(faacAACStream *as, short *input_samples, int Samples) { memcpy(as->sampleBuffer,input_samples,sizeof(short)*Samples); if (Samples < as->samplesToRead) { faac_EncodeFrameCore(as,Samples); if(as->sampleBuffer){ free(as->sampleBuffer); as->sampleBuffer = NULL; } faac_EncodeFrameCore(as,0); faac_EncodeFrameCore(as,0); return F_FINISH; } else return faac_EncodeFrameCore(as,Samples); } //////////////////////////////////////////////////////////////////////////////// void faac_EncodeFree(faacAACStream *as) { int ch; /* free encoder memory */ EncTfFree(); if (as->rc_needed) RateConvFree (as->rc_buf); for(ch=0; ch < as->channels; ch++) if(as->inputBuffer[ch]) free(as->inputBuffer[ch]); if(as->inputBuffer) free(as->inputBuffer); if (as->header_type == ADIF_HEADER) write_ADIF_header(as); if ( as->in_file != NULL ) sf_close(as->in_file); fclose(as->out_file); if (as->bitBuffer) free(as->bitBuffer); } //////////////////////////////////////////////////////////////////////////////// faacVersion *faac_Version(void) { faacVersion *faacv = malloc(sizeof(faacVersion)); faacv->DLLMajorVersion = 2; faacv->DLLMinorVersion = 30; faacv->MajorVersion = 0; faacv->MinorVersion = 70; strcpy(faacv->HomePage, "http://www.slimline.net/aac/"); return faacv; } //////////////////////////////////////////////////////////////////////////////// void faac_InitParams(faacAACStream *as) { as->profile = MAIN_PROFILE; as->header_type = ADTS_HEADER; as->use_IS = 0; as->use_MS = 0; as->use_TNS = 1; as->use_LTP = 1; as->use_PNS = 0; as->cut_off = 0; as->bit_rate = 128000; as->out_sampling_rate = 0; as->raw_audio = 0; } //////////////////////////////////////////////////////////////////////////////// void faac_SetParam(faacAACStream *as, int param, int value) { switch (param){ case PROFILE: as->profile = value; break; case HEADER_TYPE: as->header_type = value; break; case MS_STEREO: as->use_MS = value; break; case IS_STEREO: as->use_IS = value; break; case BITRATE: as->bit_rate = value*1000; break; case CUT_OFF: as->cut_off = value; break; case OUT_SAMPLING_RATE: as->out_sampling_rate = value; break; case RAW_AUDIO: as->raw_audio = value; break; case TNS: as->use_TNS = value; break; case LTP: as->use_LTP = value; break; case PNS: as->use_PNS = value; break; case IN_SAMPLING_RATE: as->in_sampling_rate = value; break; case NUMBER_OF_CHANNELS: as->channels = value; break; } } ////////////////////////////////////////////////////////////////////////////////