1/* 2 * MACE decoder 3 * Copyright (c) 2002 Laszlo Torok <torokl@alpha.dfmk.hu> 4 * 5 * This file is part of FFmpeg. 6 * 7 * FFmpeg is free software; you can redistribute it and/or 8 * modify it under the terms of the GNU Lesser General Public 9 * License as published by the Free Software Foundation; either 10 * version 2.1 of the License, or (at your option) any later version. 11 * 12 * FFmpeg is distributed in the hope that it will be useful, 13 * but WITHOUT ANY WARRANTY; without even the implied warranty of 14 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 15 * Lesser General Public License for more details. 16 * 17 * You should have received a copy of the GNU Lesser General Public 18 * License along with FFmpeg; if not, write to the Free Software 19 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA 20 */ 21 22/** 23 * @file libavcodec/mace.c 24 * MACE decoder. 25 */ 26 27#include "avcodec.h" 28 29/* 30 * Adapted to ffmpeg by Francois Revol <revol@free.fr> 31 * (removed 68k REG stuff, changed types, added some statics and consts, 32 * libavcodec api, context stuff, interlaced stereo out). 33 */ 34 35static const int16_t MACEtab1[] = {-13, 8, 76, 222, 222, 76, 8, -13}; 36 37static const int16_t MACEtab3[] = {-18, 140, 140, -18}; 38 39static const int16_t MACEtab2[][4] = { 40 { 37, 116, 206, 330}, { 39, 121, 216, 346}, 41 { 41, 127, 225, 361}, { 42, 132, 235, 377}, 42 { 44, 137, 245, 392}, { 46, 144, 256, 410}, 43 { 48, 150, 267, 428}, { 51, 157, 280, 449}, 44 { 53, 165, 293, 470}, { 55, 172, 306, 490}, 45 { 58, 179, 319, 511}, { 60, 187, 333, 534}, 46 { 63, 195, 348, 557}, { 66, 205, 364, 583}, 47 { 69, 214, 380, 609}, { 72, 223, 396, 635}, 48 { 75, 233, 414, 663}, { 79, 244, 433, 694}, 49 { 82, 254, 453, 725}, { 86, 265, 472, 756}, 50 { 90, 278, 495, 792}, { 94, 290, 516, 826}, 51 { 98, 303, 538, 862}, { 102, 316, 562, 901}, 52 { 107, 331, 588, 942}, { 112, 345, 614, 983}, 53 { 117, 361, 641, 1027}, { 122, 377, 670, 1074}, 54 { 127, 394, 701, 1123}, { 133, 411, 732, 1172}, 55 { 139, 430, 764, 1224}, { 145, 449, 799, 1280}, 56 { 152, 469, 835, 1337}, { 159, 490, 872, 1397}, 57 { 166, 512, 911, 1459}, { 173, 535, 951, 1523}, 58 { 181, 558, 993, 1590}, { 189, 584, 1038, 1663}, 59 { 197, 610, 1085, 1738}, { 206, 637, 1133, 1815}, 60 { 215, 665, 1183, 1895}, { 225, 695, 1237, 1980}, 61 { 235, 726, 1291, 2068}, { 246, 759, 1349, 2161}, 62 { 257, 792, 1409, 2257}, { 268, 828, 1472, 2357}, 63 { 280, 865, 1538, 2463}, { 293, 903, 1606, 2572}, 64 { 306, 944, 1678, 2688}, { 319, 986, 1753, 2807}, 65 { 334, 1030, 1832, 2933}, { 349, 1076, 1914, 3065}, 66 { 364, 1124, 1999, 3202}, { 380, 1174, 2088, 3344}, 67 { 398, 1227, 2182, 3494}, { 415, 1281, 2278, 3649}, 68 { 434, 1339, 2380, 3811}, { 453, 1398, 2486, 3982}, 69 { 473, 1461, 2598, 4160}, { 495, 1526, 2714, 4346}, 70 { 517, 1594, 2835, 4540}, { 540, 1665, 2961, 4741}, 71 { 564, 1740, 3093, 4953}, { 589, 1818, 3232, 5175}, 72 { 615, 1898, 3375, 5405}, { 643, 1984, 3527, 5647}, 73 { 671, 2072, 3683, 5898}, { 701, 2164, 3848, 6161}, 74 { 733, 2261, 4020, 6438}, { 766, 2362, 4199, 6724}, 75 { 800, 2467, 4386, 7024}, { 836, 2578, 4583, 7339}, 76 { 873, 2692, 4786, 7664}, { 912, 2813, 5001, 8008}, 77 { 952, 2938, 5223, 8364}, { 995, 3070, 5457, 8739}, 78 { 1039, 3207, 5701, 9129}, { 1086, 3350, 5956, 9537}, 79 { 1134, 3499, 6220, 9960}, { 1185, 3655, 6497, 10404}, 80 { 1238, 3818, 6788, 10869}, { 1293, 3989, 7091, 11355}, 81 { 1351, 4166, 7407, 11861}, { 1411, 4352, 7738, 12390}, 82 { 1474, 4547, 8084, 12946}, { 1540, 4750, 8444, 13522}, 83 { 1609, 4962, 8821, 14126}, { 1680, 5183, 9215, 14756}, 84 { 1756, 5415, 9626, 15415}, { 1834, 5657, 10057, 16104}, 85 { 1916, 5909, 10505, 16822}, { 2001, 6173, 10975, 17574}, 86 { 2091, 6448, 11463, 18356}, { 2184, 6736, 11974, 19175}, 87 { 2282, 7037, 12510, 20032}, { 2383, 7351, 13068, 20926}, 88 { 2490, 7679, 13652, 21861}, { 2601, 8021, 14260, 22834}, 89 { 2717, 8380, 14897, 23854}, { 2838, 8753, 15561, 24918}, 90 { 2965, 9144, 16256, 26031}, { 3097, 9553, 16982, 27193}, 91 { 3236, 9979, 17740, 28407}, { 3380, 10424, 18532, 29675}, 92 { 3531, 10890, 19359, 31000}, { 3688, 11375, 20222, 32382}, 93 { 3853, 11883, 21125, 32767}, { 4025, 12414, 22069, 32767}, 94 { 4205, 12967, 23053, 32767}, { 4392, 13546, 24082, 32767}, 95 { 4589, 14151, 25157, 32767}, { 4793, 14783, 26280, 32767}, 96 { 5007, 15442, 27452, 32767}, { 5231, 16132, 28678, 32767}, 97 { 5464, 16851, 29957, 32767}, { 5708, 17603, 31294, 32767}, 98 { 5963, 18389, 32691, 32767}, { 6229, 19210, 32767, 32767}, 99 { 6507, 20067, 32767, 32767}, { 6797, 20963, 32767, 32767}, 100 { 7101, 21899, 32767, 32767}, { 7418, 22876, 32767, 32767}, 101 { 7749, 23897, 32767, 32767}, { 8095, 24964, 32767, 32767}, 102 { 8456, 26078, 32767, 32767}, { 8833, 27242, 32767, 32767}, 103 { 9228, 28457, 32767, 32767}, { 9639, 29727, 32767, 32767} 104}; 105 106static const int16_t MACEtab4[][2] = { 107 { 64, 216}, { 67, 226}, { 70, 236}, { 74, 246}, 108 { 77, 257}, { 80, 268}, { 84, 280}, { 88, 294}, 109 { 92, 307}, { 96, 321}, { 100, 334}, { 104, 350}, 110 { 109, 365}, { 114, 382}, { 119, 399}, { 124, 416}, 111 { 130, 434}, { 136, 454}, { 142, 475}, { 148, 495}, 112 { 155, 519}, { 162, 541}, { 169, 564}, { 176, 590}, 113 { 185, 617}, { 193, 644}, { 201, 673}, { 210, 703}, 114 { 220, 735}, { 230, 767}, { 240, 801}, { 251, 838}, 115 { 262, 876}, { 274, 914}, { 286, 955}, { 299, 997}, 116 { 312, 1041}, { 326, 1089}, { 341, 1138}, { 356, 1188}, 117 { 372, 1241}, { 388, 1297}, { 406, 1354}, { 424, 1415}, 118 { 443, 1478}, { 462, 1544}, { 483, 1613}, { 505, 1684}, 119 { 527, 1760}, { 551, 1838}, { 576, 1921}, { 601, 2007}, 120 { 628, 2097}, { 656, 2190}, { 686, 2288}, { 716, 2389}, 121 { 748, 2496}, { 781, 2607}, { 816, 2724}, { 853, 2846}, 122 { 891, 2973}, { 930, 3104}, { 972, 3243}, { 1016, 3389}, 123 { 1061, 3539}, { 1108, 3698}, { 1158, 3862}, { 1209, 4035}, 124 { 1264, 4216}, { 1320, 4403}, { 1379, 4599}, { 1441, 4806}, 125 { 1505, 5019}, { 1572, 5244}, { 1642, 5477}, { 1715, 5722}, 126 { 1792, 5978}, { 1872, 6245}, { 1955, 6522}, { 2043, 6813}, 127 { 2134, 7118}, { 2229, 7436}, { 2329, 7767}, { 2432, 8114}, 128 { 2541, 8477}, { 2655, 8854}, { 2773, 9250}, { 2897, 9663}, 129 { 3026, 10094}, { 3162, 10546}, { 3303, 11016}, { 3450, 11508}, 130 { 3604, 12020}, { 3765, 12556}, { 3933, 13118}, { 4108, 13703}, 131 { 4292, 14315}, { 4483, 14953}, { 4683, 15621}, { 4892, 16318}, 132 { 5111, 17046}, { 5339, 17807}, { 5577, 18602}, { 5826, 19433}, 133 { 6086, 20300}, { 6358, 21205}, { 6642, 22152}, { 6938, 23141}, 134 { 7248, 24173}, { 7571, 25252}, { 7909, 26380}, { 8262, 27557}, 135 { 8631, 28786}, { 9016, 30072}, { 9419, 31413}, { 9839, 32767}, 136 { 10278, 32767}, { 10737, 32767}, { 11216, 32767}, { 11717, 32767}, 137 { 12240, 32767}, { 12786, 32767}, { 13356, 32767}, { 13953, 32767}, 138 { 14576, 32767}, { 15226, 32767}, { 15906, 32767}, { 16615, 32767} 139}; 140 141static const struct { 142 const int16_t *tab1; const int16_t *tab2; int stride; 143} tabs[] = { 144 {MACEtab1, &MACEtab2[0][0], 4}, 145 {MACEtab3, &MACEtab4[0][0], 2}, 146 {MACEtab1, &MACEtab2[0][0], 4} 147}; 148 149#define QT_8S_2_16S(x) (((x) & 0xFF00) | (((x) >> 8) & 0xFF)) 150 151typedef struct ChannelData { 152 int16_t index, factor, prev2, previous, level; 153} ChannelData; 154 155typedef struct MACEContext { 156 ChannelData chd[2]; 157} MACEContext; 158 159/** 160 * MACE version of av_clip_int16(). We have to do this to keep binary 161 * identical output to the binary decoder. 162 */ 163static inline int16_t mace_broken_clip_int16(int n) 164{ 165 if (n > 32767) 166 return 32767; 167 else if (n < -32768) 168 return -32767; 169 else 170 return n; 171} 172 173static int16_t read_table(ChannelData *chd, uint8_t val, int tab_idx) 174{ 175 int16_t current; 176 177 if (val < tabs[tab_idx].stride) 178 current = tabs[tab_idx].tab2[((chd->index & 0x7f0) >> 4) * tabs[tab_idx].stride + val]; 179 else 180 current = - 1 - tabs[tab_idx].tab2[((chd->index & 0x7f0) >> 4)*tabs[tab_idx].stride + 2*tabs[tab_idx].stride-val-1]; 181 182 if (( chd->index += tabs[tab_idx].tab1[val]-(chd->index >> 5) ) < 0) 183 chd->index = 0; 184 185 return current; 186} 187 188static void chomp3(ChannelData *chd, int16_t *output, uint8_t val, 189 int tab_idx, 190 uint32_t numChannels) 191{ 192 193 int16_t current = read_table(chd, val, tab_idx); 194 195 current = mace_broken_clip_int16(current + chd->level); 196 197 chd->level = current - (current >> 3); 198 *output = QT_8S_2_16S(current); 199} 200 201static void chomp6(ChannelData *chd, int16_t *output, uint8_t val, 202 int tab_idx, 203 uint32_t numChannels) 204{ 205 int16_t current = read_table(chd, val, tab_idx); 206 207 if ((chd->previous ^ current) >= 0) { 208 chd->factor = FFMIN(chd->factor + 506, 32767); 209 } else { 210 if (chd->factor - 314 < -32768) 211 chd->factor = -32767; 212 else 213 chd->factor -= 314; 214 } 215 216 current = mace_broken_clip_int16(current + chd->level); 217 218 chd->level = (current*chd->factor) >> 15; 219 current >>= 1; 220 221 output[0] = QT_8S_2_16S(chd->previous + chd->prev2 - 222 ((chd->prev2-current) >> 2)); 223 output[numChannels] = QT_8S_2_16S(chd->previous + current + 224 ((chd->prev2-current) >> 2)); 225 chd->prev2 = chd->previous; 226 chd->previous = current; 227} 228 229static av_cold int mace_decode_init(AVCodecContext * avctx) 230{ 231 if (avctx->channels > 2) 232 return -1; 233 avctx->sample_fmt = SAMPLE_FMT_S16; 234 return 0; 235} 236 237static int mace_decode_frame(AVCodecContext *avctx, 238 void *data, int *data_size, 239 const uint8_t *buf, int buf_size) 240{ 241 int16_t *samples = data; 242 MACEContext *ctx = avctx->priv_data; 243 int i, j, k, l; 244 int is_mace3 = (avctx->codec_id == CODEC_ID_MACE3); 245 246 if (*data_size < (3 * buf_size << (2-is_mace3))) { 247 av_log(avctx, AV_LOG_ERROR, "Output buffer too small!\n"); 248 return -1; 249 } 250 251 for(i = 0; i < avctx->channels; i++) { 252 int16_t *output = samples + i; 253 254 for (j=0; j < buf_size / (avctx->channels << is_mace3); j++) 255 for (k=0; k < (1 << is_mace3); k++) { 256 uint8_t pkt = buf[(i << is_mace3) + 257 (j*avctx->channels << is_mace3) + k]; 258 259 uint8_t val[2][3] = {{pkt >> 5, (pkt >> 3) & 3, pkt & 7 }, 260 {pkt & 7 , (pkt >> 3) & 3, pkt >> 5}}; 261 262 for (l=0; l < 3; l++) { 263 if (is_mace3) 264 chomp3(&ctx->chd[i], output, val[1][l], l, 265 avctx->channels); 266 else 267 chomp6(&ctx->chd[i], output, val[0][l], l, 268 avctx->channels); 269 270 output += avctx->channels << (1-is_mace3); 271 } 272 } 273 } 274 275 *data_size = 3 * buf_size << (2-is_mace3); 276 277 return buf_size; 278} 279 280AVCodec mace3_decoder = { 281 "mace3", 282 CODEC_TYPE_AUDIO, 283 CODEC_ID_MACE3, 284 sizeof(MACEContext), 285 mace_decode_init, 286 NULL, 287 NULL, 288 mace_decode_frame, 289 .long_name = NULL_IF_CONFIG_SMALL("MACE (Macintosh Audio Compression/Expansion) 3:1"), 290}; 291 292AVCodec mace6_decoder = { 293 "mace6", 294 CODEC_TYPE_AUDIO, 295 CODEC_ID_MACE6, 296 sizeof(MACEContext), 297 mace_decode_init, 298 NULL, 299 NULL, 300 mace_decode_frame, 301 .long_name = NULL_IF_CONFIG_SMALL("MACE (Macintosh Audio Compression/Expansion) 6:1"), 302}; 303 304