/*____________________________________________________________________________ FreeAmp - The Free MP3 Player MP3 Decoder originally Copyright (C) 1995-1997 Xing Technology Corp. http://www.xingtech.com Portions Copyright (C) 1998-1999 EMusic.com This program 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 2 of the License, or (at your option) any later version. This program 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 this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. $Id$ ____________________________________________________________________________*/ /**** cupL1.c *************************************************** MPEG audio decoder Layer I mpeg1 and mpeg2 include to clup.c ******************************************************************/ /*======================================================================*/ /* Read Only */ static int bat_bit_masterL1[] = { 0, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16}; /*======================================================================*/ static void unpack_baL1(MPEG *m) { int j; int nstereo; m->cup.bit_skip = 0; nstereo = m->cup.stereo_sb; for (j = 0; j < m->cup.nbatL1; j++) { mac_load_check(4); m->cup.ballo[j] = m->cup.samp_dispatch[j] = mac_load(4); if (j >= m->cup.nsb_limit) m->cup.bit_skip += bat_bit_masterL1[m->cup.samp_dispatch[j]]; m->cup.c_value[j] = m->cup.look_c_valueL1[m->cup.samp_dispatch[j]]; if (--nstereo < 0) { m->cup.ballo[j + 1] = m->cup.ballo[j]; m->cup.samp_dispatch[j] += 15; /* flag as joint */ m->cup.samp_dispatch[j + 1] = m->cup.samp_dispatch[j]; /* flag for sf */ m->cup.c_value[j + 1] = m->cup.c_value[j]; j++; } } /*-- terminate with bit skip and end --*/ m->cup.samp_dispatch[m->cup.nsb_limit] = 31; m->cup.samp_dispatch[j] = 30; } /*-------------------------------------------------------------------------*/ static void unpack_sfL1(MPEG *m) /* unpack scale factor */ { /* combine dequant and scale factors */ int i; for (i = 0; i < m->cup.nbatL1; i++) { if (m->cup.ballo[i]) { mac_load_check(6); m->cup.cs_factorL1[i] = m->cup.c_value[i] * m->cup.sf_table[mac_load(6)]; } } /*-- done --*/ } /*-------------------------------------------------------------------------*/ #define UNPACKL1_N(n) s[k] = m->cup.cs_factorL1[k]*(load(m,n)-((1 << (n-1)) -1)); \ goto dispatch; #define UNPACKL1J_N(n) tmp = (load(m,n)-((1 << (n-1)) -1)); \ s[k] = m->cup.cs_factorL1[k]*tmp; \ s[k+1] = m->cup.cs_factorL1[k+1]*tmp; \ k++; \ goto dispatch; /*-------------------------------------------------------------------------*/ static void unpack_sampL1(MPEG *m) /* unpack samples */ { int j, k; float *s; long tmp; s = m->cup.sample; for (j = 0; j < 12; j++) { k = -1; dispatch:switch (m->cup.samp_dispatch[++k]) { case 0: s[k] = 0.0F; goto dispatch; case 1: UNPACKL1_N(2) /* 3 levels */ case 2: UNPACKL1_N(3) /* 7 levels */ case 3: UNPACKL1_N(4) /* 15 levels */ case 4: UNPACKL1_N(5) /* 31 levels */ case 5: UNPACKL1_N(6) /* 63 levels */ case 6: UNPACKL1_N(7) /* 127 levels */ case 7: UNPACKL1_N(8) /* 255 levels */ case 8: UNPACKL1_N(9) /* 511 levels */ case 9: UNPACKL1_N(10) /* 1023 levels */ case 10: UNPACKL1_N(11) /* 2047 levels */ case 11: UNPACKL1_N(12) /* 4095 levels */ case 12: UNPACKL1_N(13) /* 8191 levels */ case 13: UNPACKL1_N(14) /* 16383 levels */ case 14: UNPACKL1_N(15) /* 32767 levels */ /* -- joint ---- */ case 15 + 0: s[k + 1] = s[k] = 0.0F; k++; /* skip right chan dispatch */ goto dispatch; /* -- joint ---- */ case 15 + 1: UNPACKL1J_N(2) /* 3 levels */ case 15 + 2: UNPACKL1J_N(3) /* 7 levels */ case 15 + 3: UNPACKL1J_N(4) /* 15 levels */ case 15 + 4: UNPACKL1J_N(5) /* 31 levels */ case 15 + 5: UNPACKL1J_N(6) /* 63 levels */ case 15 + 6: UNPACKL1J_N(7) /* 127 levels */ case 15 + 7: UNPACKL1J_N(8) /* 255 levels */ case 15 + 8: UNPACKL1J_N(9) /* 511 levels */ case 15 + 9: UNPACKL1J_N(10) /* 1023 levels */ case 15 + 10: UNPACKL1J_N(11) /* 2047 levels */ case 15 + 11: UNPACKL1J_N(12) /* 4095 levels */ case 15 + 12: UNPACKL1J_N(13) /* 8191 levels */ case 15 + 13: UNPACKL1J_N(14) /* 16383 levels */ case 15 + 14: UNPACKL1J_N(15) /* 32767 levels */ /* -- end of dispatch -- */ case 31: skip(m,m->cup.bit_skip); case 30: s += 64; } /* end switch */ } /* end j loop */ /*-- done --*/ } /*-------------------------------------------------------------------*/ IN_OUT L1audio_decode(void *mv, unsigned char *bs, signed short *pcm) { MPEG *m = mv; int sync, prot; IN_OUT in_out; load_init(m, bs); /* initialize bit getter */ /* test sync */ in_out.in_bytes = 0; /* assume fail */ in_out.out_bytes = 0; sync = load(m,12); if (sync != 0xFFF) return in_out; /* sync fail */ load(m,3); /* skip id and option (checked by init) */ prot = load(m,1); /* load prot bit */ load(m,6); /* skip to pad */ m->cup.pad = (load(m,1)) << 2; load(m,1); /* skip to mode */ m->cup.stereo_sb = look_joint[load(m,4)]; if (prot) load(m,4); /* skip to data */ else load(m,20); /* skip crc */ unpack_baL1(m); /* unpack bit allocation */ unpack_sfL1(m); /* unpack scale factor */ unpack_sampL1(m); /* unpack samples */ m->cup.sbt(m, m->cup.sample, pcm, 12); /*-----------*/ in_out.in_bytes = m->cup.framebytes + m->cup.pad; in_out.out_bytes = m->cup.outbytes; return in_out; } /*-------------------------------------------------------------------------*/ int L1audio_decode_init(MPEG *m, MPEG_HEAD * h, int framebytes_arg, int reduction_code, int transform_code, int convert_code, int freq_limit) { int i, k; long samprate; int limit; long step; int bit_code; /*--- sf init done by layer II init ---*/ if (m->cup.first_pass_L1) { for (step = 4, i = 1; i < 16; i++, step <<= 1) m->cup.look_c_valueL1[i] = (float) (2.0 / (step - 1)); m->cup.first_pass_L1 = 0; } transform_code = transform_code; /* not used, asm compatability */ bit_code = 0; if (convert_code & 8) bit_code = 1; convert_code = convert_code & 3; /* higher bits used by dec8 freq cvt */ if (reduction_code < 0) reduction_code = 0; if (reduction_code > 2) reduction_code = 2; if (freq_limit < 1000) freq_limit = 1000; m->cup.framebytes = framebytes_arg; /* check if code handles */ if (h->option != 3) return 0; /* layer I only */ m->cup.nbatL1 = 32; m->cup.max_sb = m->cup.nbatL1; /*----- compute nsb_limit --------*/ samprate = sr_table[4 * h->id + h->sr_index]; m->cup.nsb_limit = (freq_limit * 64L + samprate / 2) / samprate; /*- caller limit -*/ /*---- limit = 0.94*(32>>reduction_code); ----*/ limit = (32 >> reduction_code); if (limit > 8) limit--; if (m->cup.nsb_limit > limit) m->cup.nsb_limit = limit; if (m->cup.nsb_limit > m->cup.max_sb) m->cup.nsb_limit = m->cup.max_sb; m->cup.outvalues = 384 >> reduction_code; if (h->mode != 3) { /* adjust for 2 channel modes */ m->cup.nbatL1 *= 2; m->cup.max_sb *= 2; m->cup.nsb_limit *= 2; } /* set sbt function */ k = 1 + convert_code; if (h->mode == 3) { k = 0; } m->cup.sbt = sbt_table[bit_code][reduction_code][k]; m->cup.outvalues *= out_chans[k]; if (bit_code) m->cup.outbytes = m->cup.outvalues; else m->cup.outbytes = sizeof(short) * m->cup.outvalues; m->cup.decinfo.channels = out_chans[k]; m->cup.decinfo.outvalues = m->cup.outvalues; m->cup.decinfo.samprate = samprate >> reduction_code; if (bit_code) m->cup.decinfo.bits = 8; else m->cup.decinfo.bits = sizeof(short) * 8; m->cup.decinfo.framebytes = m->cup.framebytes; m->cup.decinfo.type = 0; /* clear sample buffer, unused sub bands must be 0 */ for (i = 0; i < 768; i++) m->cup.sample[i] = 0.0F; /* init sub-band transform */ sbt_init(); return 1; } /*---------------------------------------------------------*/