/** ** Supermodel ** A Sega Model 3 Arcade Emulator. ** Copyright 2011 Bart Trzynadlowski, Nik Henson ** ** This file is part of Supermodel. ** ** Supermodel is free software: you can redistribute it and/or modify it under ** the terms of the GNU General Public License as published by the Free ** Software Foundation, either version 3 of the License, or (at your option) ** any later version. ** ** Supermodel is distributed in the hope that it will be useful, but WITHOUT ** ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or ** FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for ** more details. ** ** You should have received a copy of the GNU General Public License along ** with Supermodel. If not, see . **/ /* * layer3.cpp * * Amp library internal module. */ /* this file is a part of amp software, (C) tomislav uzelac 1996,1997 */ /* layer3.c layer3 audio decoding * * Created by: tomislav uzelac Mar 1 97 * Last modified by: */ #include "amp.h" #include "amp_audio.h" #include "dump.h" #include "getbits.h" #include "getdata.h" #include "huffman.h" #include "misc2.h" #include "rtbuf.h" #include "transform.h" #define LAYER3 #include "layer3.h" void requantize_downmix(int gr,struct SIDE_INFO *info,struct AUDIO_HEADER *header); /* this function decodes one layer3 audio frame, except for the header decoding * which is done in main() [audio.c]. returns 0 if everything is ok. */ int layer3_frame(struct AUDIO_HEADER *header,int cnt) { static struct SIDE_INFO info; int gr,ch,sb,i; int mean_frame_size,bitrate,fs,hsize,ssize; /* we need these later, hsize is the size of header+side_info */ if (header->ID) if (header->mode==3) { nch=1; hsize=21; } else { nch=2; hsize=36; } else if (header->mode==3) { nch=1; hsize=13; } else { nch=2; hsize=21; } /* crc increases hsize by 2 */ if (header->protection_bit==0) hsize+=2; /* read layer3 specific side_info */ getinfo(header,&info); /* MPEG2 only has one granule */ bitrate=t_bitrate[header->ID][3-header->layer][header->bitrate_index]; fs=t_sampling_frequency[header->ID][header->sampling_frequency]; if (header->ID) mean_frame_size=144000*bitrate/fs; else mean_frame_size=72000*bitrate/fs; /* check if mdb is too big for the first few frames. this means that * a part of the stream could be missing. We must still fill the buffer * * don't forget to (re)initialise bclean_bytes to 0, and f_bdirty to FALSE!!! */ if (f_bdirty) { if (info.main_data_begin > bclean_bytes) { fillbfr(mean_frame_size + header->padding_bit - hsize); bclean_bytes+=mean_frame_size + header->padding_bit - hsize; /* warn(" frame %d discarded, incomplete main_data\n",cnt); */ return 0; } else { /* re-initialise */ f_bdirty=FALSE; bclean_bytes=0; } } /* now update the data 'pointer' (counting in bits) according to * the main_data_begin information */ data = 8 * ((append - info.main_data_begin) & (BUFFER_SIZE-1)); /* read into the buffer all bytes up to the start of next header */ fillbfr(mean_frame_size + header->padding_bit - hsize); /* these two should go away */ t_l=&t_b8_l[header->ID][header->sampling_frequency][0]; t_s=&t_b8_s[header->ID][header->sampling_frequency][0]; /* debug/dump stuff */ if (A_DUMP_BINARY) dump((int *)info.part2_3_length); /* decode the scalefactors and huffman data * this part needs to be enhanced for error robustness */ for (gr=0;gr < ((header->ID) ? 2 : 1);gr++) { for (ch=0;chmode!=1 || (header->mode==1 && header->mode_extension==0)) for (ch=0;chmode!=3) nch=2; } /* for (gr... */ /* return status: 0 for ok, errors will be added */ return 0; }