Add missing headers to get 'make checkheaders' closer to passing.
[libav.git] / libavcodec / qcelpdata.h
1 /*
2 * QCELP decoder
3 * Copyright (c) 2007 Reynaldo H. Verdejo Pinochet
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 #ifndef AVCODEC_QCELPDATA_H
23 #define AVCODEC_QCELPDATA_H
24
25 /**
26 * @file qcelpdata.h
27 * Data tables for the QCELP decoder
28 * @author Reynaldo H. Verdejo Pinochet
29 * @remark FFmpeg merging spearheaded by Kenan Gillet
30 */
31
32 #include <stddef.h>
33 #include <stdint.h>
34 #include "libavutil/common.h"
35
36 /**
37 * pre-calculated table for hammsinc function
38 * Only half of the table is needed because of symmetry.
39 *
40 * TIA/EIA/IS-733 2.4.5.2-2/3
41 */
42 static const float qcelp_hammsinc_table[4] = { -0.006822, 0.041249, -0.143459, 0.588863};
43
44 typedef struct {
45 uint8_t index; /*!< index into the QCELPContext structure */
46 uint8_t bitpos; /*!< position of the lowest bit in the value's byte */
47 uint8_t bitlen; /*!< number of bits to read */
48 } QCELPBitmap;
49
50 #define QCELP_OF(variable, bit, len) {offsetof(QCELPContext, variable), bit, len}
51
52 /**
53 * bitmap unpacking tables for RATE_FULL
54 *
55 * TIA/EIA/IS-733 Table 2.4.7.1-1
56 */
57 static const QCELPBitmap qcelp_rate_full_bitmap[] = {
58 // start on bit
59 QCELP_OF(lspv [ 2], 0, 3), // 265
60 QCELP_OF(lspv [ 1], 0, 7), // 262
61 QCELP_OF(lspv [ 0], 0, 6), // 255
62 QCELP_OF(lspv [ 4], 0, 6), // 249
63 QCELP_OF(lspv [ 3], 0, 6), // 243
64 QCELP_OF(lspv [ 2], 3, 4), // 237
65 QCELP_OF(cbsign[ 0], 0, 1), // 233
66 QCELP_OF(cbgain[ 0], 0, 4), // 232
67 QCELP_OF(pfrac [ 0], 0, 1), // 228
68 QCELP_OF(plag [ 0], 0, 7), // 227
69 QCELP_OF(pgain [ 0], 0, 3), // 220
70 QCELP_OF(cindex[ 1], 0, 4), // 217
71 QCELP_OF(cbsign[ 1], 0, 1), // 213
72 QCELP_OF(cbgain[ 1], 0, 4), // 212
73 QCELP_OF(cindex[ 0], 0, 7), // 208
74 QCELP_OF(cbgain[ 3], 0, 1), // 201
75 QCELP_OF(cindex[ 2], 0, 7), // 200
76 QCELP_OF(cbsign[ 2], 0, 1), // 193
77 QCELP_OF(cbgain[ 2], 0, 4), // 192
78 QCELP_OF(cindex[ 1], 4, 3), // 188
79 QCELP_OF(plag [ 1], 0, 3), // 185
80 QCELP_OF(pgain [ 1], 0, 3), // 182
81 QCELP_OF(cindex[ 3], 0, 7), // 179
82 QCELP_OF(cbsign[ 3], 0, 1), // 172
83 QCELP_OF(cbgain[ 3], 1, 2), // 171
84 QCELP_OF(cindex[ 4], 0, 6), // 169
85 QCELP_OF(cbsign[ 4], 0, 1), // 163
86 QCELP_OF(cbgain[ 4], 0, 4), // 162
87 QCELP_OF(pfrac [ 1], 0, 1), // 158
88 QCELP_OF(plag [ 1], 3, 4), // 157
89 QCELP_OF(cbgain[ 6], 0, 3), // 153
90 QCELP_OF(cindex[ 5], 0, 7), // 150
91 QCELP_OF(cbsign[ 5], 0, 1), // 143
92 QCELP_OF(cbgain[ 5], 0, 4), // 142
93 QCELP_OF(cindex[ 4], 6, 1), // 138
94 QCELP_OF(cindex[ 7], 0, 3), // 137
95 QCELP_OF(cbsign[ 7], 0, 1), // 134
96 QCELP_OF(cbgain[ 7], 0, 3), // 133
97 QCELP_OF(cindex[ 6], 0, 7), // 130
98 QCELP_OF(cbsign[ 6], 0, 1), // 123
99 QCELP_OF(cbgain[ 6], 3, 1), // 122
100 QCELP_OF(cbgain[ 8], 0, 1), // 121
101 QCELP_OF(pfrac [ 2], 0, 1), // 120
102 QCELP_OF(plag [ 2], 0, 7), // 119
103 QCELP_OF(pgain [ 2], 0, 3), // 112
104 QCELP_OF(cindex[ 7], 3, 4), // 109
105 QCELP_OF(cbsign[ 9], 0, 1), // 105
106 QCELP_OF(cbgain[ 9], 0, 4), // 104
107 QCELP_OF(cindex[ 8], 0, 7), // 100
108 QCELP_OF(cbsign[ 8], 0, 1), // 93
109 QCELP_OF(cbgain[ 8], 1, 3), // 92
110 QCELP_OF(cindex[10], 0, 4), // 89
111 QCELP_OF(cbsign[10], 0, 1), // 85
112 QCELP_OF(cbgain[10], 0, 4), // 84
113 QCELP_OF(cindex[ 9], 0, 7), // 80
114 QCELP_OF(pgain [ 3], 0, 2), // 73
115 QCELP_OF(cindex[11], 0, 7), // 71
116 QCELP_OF(cbsign[11], 0, 1), // 64
117 QCELP_OF(cbgain[11], 0, 3), // 63
118 QCELP_OF(cindex[10], 4, 3), // 60
119 QCELP_OF(cindex[12], 0, 2), // 57
120 QCELP_OF(cbsign[12], 0, 1), // 55
121 QCELP_OF(cbgain[12], 0, 4), // 54
122 QCELP_OF(pfrac [ 3], 0, 1), // 50
123 QCELP_OF(plag [ 3], 0, 7), // 49
124 QCELP_OF(pgain [ 3], 2, 1), // 42
125 QCELP_OF(cindex[13], 0, 6), // 41
126 QCELP_OF(cbsign[13], 0, 1), // 35
127 QCELP_OF(cbgain[13], 0, 4), // 34
128 QCELP_OF(cindex[12], 2, 5), // 30
129 QCELP_OF(cbgain[15], 0, 3), // 25
130 QCELP_OF(cindex[14], 0, 7), // 22
131 QCELP_OF(cbsign[14], 0, 1), // 15
132 QCELP_OF(cbgain[14], 0, 4), // 14
133 QCELP_OF(cindex[13], 6, 1), // 10
134 QCELP_OF(reserved, 0, 2), // 9
135 QCELP_OF(cindex[15], 0, 7), // 7
136 QCELP_OF(cbsign[15], 0, 1) // 0
137 };
138
139 /**
140 * bitmap unpacking tables for RATE_HALF
141 *
142 * TIA/EIA/IS-733 Table 2.4.7.2-1
143 */
144 static const QCELPBitmap qcelp_rate_half_bitmap[] = {
145 // start on bit
146 QCELP_OF(lspv [2], 0, 3), // 123
147 QCELP_OF(lspv [1], 0, 7), // 120
148 QCELP_OF(lspv [0], 0, 6), // 113
149 QCELP_OF(lspv [4], 0, 6), // 107
150 QCELP_OF(lspv [3], 0, 6), // 101
151 QCELP_OF(lspv [2], 3, 4), // 95
152 QCELP_OF(cbsign[0], 0, 1), // 91
153 QCELP_OF(cbgain[0], 0, 4), // 90
154 QCELP_OF(pfrac [0], 0, 1), // 86
155 QCELP_OF(plag [0], 0, 7), // 85
156 QCELP_OF(pgain [0], 0, 3), // 78
157 QCELP_OF(plag [1], 0, 6), // 75
158 QCELP_OF(pgain [1], 0, 3), // 69
159 QCELP_OF(cindex[0], 0, 7), // 66
160 QCELP_OF(pgain [2], 0, 2), // 59
161 QCELP_OF(cindex[1], 0, 7), // 57
162 QCELP_OF(cbsign[1], 0, 1), // 50
163 QCELP_OF(cbgain[1], 0, 4), // 49
164 QCELP_OF(pfrac [1], 0, 1), // 45
165 QCELP_OF(plag [1], 6, 1), // 44
166 QCELP_OF(cindex[2], 0, 2), // 43
167 QCELP_OF(cbsign[2], 0, 1), // 41
168 QCELP_OF(cbgain[2], 0, 4), // 40
169 QCELP_OF(pfrac [2], 0, 1), // 36
170 QCELP_OF(plag [2], 0, 7), // 35
171 QCELP_OF(pgain [2], 2, 1), // 28
172 QCELP_OF(pfrac [3], 0, 1), // 27
173 QCELP_OF(plag [3], 0, 7), // 26
174 QCELP_OF(pgain [3], 0, 3), // 19
175 QCELP_OF(cindex[2], 2, 5), // 16
176 QCELP_OF(cindex[3], 0, 7), // 11
177 QCELP_OF(cbsign[3], 0, 1), // 4
178 QCELP_OF(cbgain[3], 0, 4) // 3
179 };
180
181 /**
182 * bitmap unpacking tables for RATE_QUARTER
183 *
184 * TIA/EIA/IS-733 Table 2.4.7.3-1
185 */
186 static const QCELPBitmap qcelp_rate_quarter_bitmap[] = {
187 // start on bit
188 QCELP_OF(lspv [2], 0, 3), // 53
189 QCELP_OF(lspv [1], 0, 7), // 50
190 QCELP_OF(lspv [0], 0, 6), // 43
191 QCELP_OF(lspv [4], 0, 6), // 37
192 QCELP_OF(lspv [3], 0, 6), // 31
193 QCELP_OF(lspv [2], 3, 4), // 25
194 QCELP_OF(cbgain[3], 0, 4), // 21
195 QCELP_OF(cbgain[2], 0, 4), // 17
196 QCELP_OF(cbgain[1], 0, 4), // 13
197 QCELP_OF(cbgain[0], 0, 4), // 9
198 QCELP_OF(reserved, 0, 2), // 5
199 QCELP_OF(cbgain[4], 0, 4) // 3
200 };
201
202 /**
203 * bitmap unpacking tables for RATE_OCTAVE
204 *
205 * trick: CBSEED is written into QCELPContext.cbsign[15],
206 * which is not used for RATE_OCTAVE.
207 * CBSEED is only used to ensure the occurrence of random bit
208 * patterns in the 16 first bits that are used as the seed.
209 *
210 * TIA/EIA/IS-733 Table 2.4.7.4-1
211 */
212 static const QCELPBitmap qcelp_rate_octave_bitmap[] = {
213 // start on bit
214 QCELP_OF(cbsign[15], 3, 1), // 19
215 QCELP_OF(lspv [0], 0, 1), // 18
216 QCELP_OF(lspv [1], 0, 1), // 17
217 QCELP_OF(lspv [2], 0, 1), // 16
218 QCELP_OF(cbsign[15], 2, 1), // 15
219 QCELP_OF(lspv [3], 0, 1), // 14
220 QCELP_OF(lspv [4], 0, 1), // 13
221 QCELP_OF(lspv [5], 0, 1), // 12
222 QCELP_OF(cbsign[15], 1, 1), // 11
223 QCELP_OF(lspv [6], 0, 1), // 10
224 QCELP_OF(lspv [7], 0, 1), // 9
225 QCELP_OF(lspv [8], 0, 1), // 8
226 QCELP_OF(cbsign[15], 0, 1), // 7
227 QCELP_OF(lspv [9], 0, 1), // 6
228 QCELP_OF(cbgain [0], 0, 2), // 7
229 QCELP_OF(reserved, 0, 4) // 3
230 };
231
232 /**
233 * position of the bitmapping data for each packet type in
234 * the QCELPContext
235 */
236 static const QCELPBitmap * const qcelp_unpacking_bitmaps_per_rate[5] = {
237 NULL, ///!< for SILENCE rate
238 qcelp_rate_octave_bitmap,
239 qcelp_rate_quarter_bitmap,
240 qcelp_rate_half_bitmap,
241 qcelp_rate_full_bitmap,
242 };
243
244 static const uint16_t qcelp_bits_per_rate[5] = {
245 0, ///!< for SILENCE rate
246 FF_ARRAY_ELEMS(qcelp_rate_octave_bitmap),
247 FF_ARRAY_ELEMS(qcelp_rate_quarter_bitmap),
248 FF_ARRAY_ELEMS(qcelp_rate_half_bitmap),
249 FF_ARRAY_ELEMS(qcelp_rate_full_bitmap),
250 };
251
252 typedef uint16_t qcelp_vector[2];
253
254 /**
255 * LSP vector quantization tables in x*10000 form
256 *
257 * TIA/EIA/IS-733 tables 2.4.3.2.6.3-1 through 2.4.3.2.6.3-5
258 */
259
260 static const qcelp_vector qcelp_lspvq1[64]= {
261 { 327, 118},{ 919, 111},{ 427, 440},{1327, 185},
262 { 469, 50},{1272, 91},{ 892, 59},{1771, 193},
263 { 222, 158},{1100, 127},{ 827, 55},{ 978, 791},
264 { 665, 47},{ 700,1401},{ 670, 859},{1913,1048},
265 { 471, 215},{1046, 125},{ 645, 298},{1599, 160},
266 { 593, 39},{1187, 462},{ 749, 341},{1520, 511},
267 { 290, 792},{ 909, 362},{ 753, 81},{1111,1058},
268 { 519, 253},{ 828, 839},{ 685, 541},{1421,1258},
269 { 386, 130},{ 962, 119},{ 542, 387},{1431, 185},
270 { 526, 51},{1175, 260},{ 831, 167},{1728, 510},
271 { 273, 437},{1172, 113},{ 771, 144},{1122, 751},
272 { 619, 119},{ 492,1276},{ 658, 695},{1882, 615},
273 { 415, 200},{1018, 88},{ 681, 339},{1436, 325},
274 { 555, 122},{1042, 485},{ 826, 345},{1374, 743},
275 { 383,1018},{1005, 358},{ 704, 86},{1301, 586},
276 { 597, 241},{ 832, 621},{ 555, 573},{1504, 839}};
277
278 static const qcelp_vector qcelp_lspvq2[128]= {
279 { 255, 293},{ 904, 219},{ 151,1211},{1447, 498},
280 { 470, 253},{1559, 177},{1547, 994},{2394, 242},
281 { 91, 813},{ 857, 590},{ 934,1326},{1889, 282},
282 { 813, 472},{1057,1494},{ 450,3315},{2163,1895},
283 { 538, 532},{1399, 218},{ 146,1552},{1755, 626},
284 { 822, 202},{1299, 663},{ 706,1732},{2656, 401},
285 { 418, 745},{ 762,1038},{ 583,1748},{1746,1285},
286 { 527,1169},{1314, 830},{ 556,2116},{1073,2321},
287 { 297, 570},{ 981, 403},{ 468,1103},{1740, 243},
288 { 725, 179},{1255, 474},{1374,1362},{1922, 912},
289 { 285, 947},{ 930, 700},{ 593,1372},{1909, 576},
290 { 588, 916},{1110,1116},{ 224,2719},{1633,2220},
291 { 402, 520},{1061, 448},{ 402,1352},{1499, 775},
292 { 664, 589},{1081, 727},{ 801,2206},{2165,1157},
293 { 566, 802},{ 911,1116},{ 306,1703},{1792, 836},
294 { 655, 999},{1061,1038},{ 298,2089},{1110,1753},
295 { 361, 311},{ 970, 239},{ 265,1231},{1495, 573},
296 { 566, 262},{1569, 293},{1341,1144},{2271, 544},
297 { 214, 877},{ 847, 719},{ 794,1384},{2067, 274},
298 { 703, 688},{1099,1306},{ 391,2947},{2024,1670},
299 { 471, 525},{1245, 290},{ 264,1557},{1568, 807},
300 { 718, 399},{1193, 685},{ 883,1594},{2729, 764},
301 { 500, 754},{ 809,1108},{ 541,1648},{1523,1385},
302 { 614,1196},{1209, 847},{ 345,2242},{1442,1747},
303 { 199, 560},{1092, 194},{ 349,1253},{1653, 507},
304 { 625, 354},{1376, 431},{1187,1465},{2164, 872},
305 { 360, 974},{1008, 698},{ 704,1346},{2114, 452},
306 { 720, 816},{1240,1089},{ 439,2475},{1498,2040},
307 { 336, 718},{1213, 187},{ 451,1450},{1368, 885},
308 { 592, 578},{1131, 531},{ 861,1855},{1764,1500},
309 { 444, 970},{ 935, 903},{ 424,1687},{1633,1102},
310 { 793, 897},{1060, 897},{ 185,2011},{1205,1855}};
311
312 static const qcelp_vector qcelp_lspvq3[128]= {
313 { 225, 283},{1296, 355},{ 543, 343},{2073, 274},
314 { 204,1099},{1562, 523},{1388, 161},{2784, 274},
315 { 112, 849},{1870, 175},{1189, 160},{1490,1088},
316 { 969,1115},{ 659,3322},{1158,1073},{3183,1363},
317 { 517, 223},{1740, 223},{ 704, 387},{2637, 234},
318 { 692,1005},{1287,1610},{ 952, 532},{2393, 646},
319 { 490, 552},{1619, 657},{ 845, 670},{1784,2280},
320 { 191,1775},{ 272,2868},{ 942, 952},{2628,1479},
321 { 278, 579},{1565, 218},{ 814, 180},{2379, 187},
322 { 276,1444},{1199,1223},{1200, 349},{3009, 307},
323 { 312, 844},{1898, 306},{ 863, 470},{1685,1241},
324 { 513,1727},{ 711,2233},{1085, 864},{3398, 527},
325 { 414, 440},{1356, 612},{ 964, 147},{2173, 738},
326 { 465,1292},{ 877,1749},{1104, 689},{2105,1311},
327 { 580, 864},{1895, 752},{ 652, 609},{1485,1699},
328 { 514,1400},{ 386,2131},{ 933, 798},{2473, 986},
329 { 334, 360},{1375, 398},{ 621, 276},{2183, 280},
330 { 311,1114},{1382, 807},{1284, 175},{2605, 636},
331 { 230, 816},{1739, 408},{1074, 176},{1619,1120},
332 { 784,1371},{ 448,3050},{1189, 880},{3039,1165},
333 { 424, 241},{1672, 186},{ 815, 333},{2432, 324},
334 { 584,1029},{1137,1546},{1015, 585},{2198, 995},
335 { 574, 581},{1746, 647},{ 733, 740},{1938,1737},
336 { 347,1710},{ 373,2429},{ 787,1061},{2439,1438},
337 { 185, 536},{1489, 178},{ 703, 216},{2178, 487},
338 { 154,1421},{1414, 994},{1103, 352},{3072, 473},
339 { 408, 819},{2055, 168},{ 998, 354},{1917,1140},
340 { 665,1799},{ 993,2213},{1234, 631},{3003, 762},
341 { 373, 620},{1518, 425},{ 913, 300},{1966, 836},
342 { 402,1185},{ 948,1385},{1121, 555},{1802,1509},
343 { 474, 886},{1888, 610},{ 739, 585},{1231,2379},
344 { 661,1335},{ 205,2211},{ 823, 822},{2480,1179}};
345
346 static const qcelp_vector qcelp_lspvq4[64]= {
347 { 348, 311},{ 812,1145},{ 552, 461},{1826, 263},
348 { 601, 675},{1730, 172},{1523, 193},{2449, 277},
349 { 334, 668},{ 805,1441},{1319, 207},{1684, 910},
350 { 582,1318},{1403,1098},{ 979, 832},{2700,1359},
351 { 624, 228},{1292, 979},{ 800, 195},{2226, 285},
352 { 730, 862},{1537, 601},{1115, 509},{2720, 354},
353 { 218,1167},{1212,1538},{1074, 247},{1674,1710},
354 { 322,2142},{1263, 777},{ 981, 556},{2119,1710},
355 { 193, 596},{1035, 957},{ 694, 397},{1997, 253},
356 { 743, 603},{1584, 321},{1346, 346},{2221, 708},
357 { 451, 732},{1040,1415},{1184, 230},{1853, 919},
358 { 310,1661},{1625, 706},{ 856, 843},{2902, 702},
359 { 467, 348},{1108,1048},{ 859, 306},{1964, 463},
360 { 560,1013},{1425, 533},{1142, 634},{2391, 879},
361 { 397,1084},{1345,1700},{ 976, 248},{1887,1189},
362 { 644,2087},{1262, 603},{ 877, 550},{2203,1307}};
363
364 static const qcelp_vector qcelp_lspvq5[64]= {
365 { 360, 222},{ 820,1097},{ 601, 319},{1656, 198},
366 { 604, 513},{1552, 141},{1391, 155},{2474, 261},
367 { 269, 785},{1463, 646},{1123, 191},{2015, 223},
368 { 785, 844},{1202,1011},{ 980, 807},{3014, 793},
369 { 570, 180},{1135,1382},{ 778, 256},{1901, 179},
370 { 807, 622},{1461, 458},{1231, 178},{2028, 821},
371 { 387, 927},{1496,1004},{ 888, 392},{2246, 341},
372 { 295,1462},{1156, 694},{1022, 473},{2226,1364},
373 { 210, 478},{1029,1020},{ 722, 181},{1730, 251},
374 { 730, 488},{1465, 293},{1303, 326},{2595, 387},
375 { 458, 584},{1569, 742},{1029, 173},{1910, 495},
376 { 605,1159},{1268, 719},{ 973, 646},{2872, 428},
377 { 443, 334},{ 835,1465},{ 912, 138},{1716, 442},
378 { 620, 778},{1316, 450},{1186, 335},{1446,1665},
379 { 486,1050},{1675,1019},{ 880, 278},{2214, 202},
380 { 539,1564},{1142, 533},{ 984, 391},{2130,1089}};
381
382 static const qcelp_vector * const qcelp_lspvq[5] = {
383 qcelp_lspvq1,
384 qcelp_lspvq2,
385 qcelp_lspvq3,
386 qcelp_lspvq4,
387 qcelp_lspvq5
388 };
389
390 /**
391 * the final gain scalefactor before clipping into a usable output float
392 */
393 #define QCELP_SCALE 8192.
394
395 /**
396 * the upper boundary of the clipping, depends on QCELP_SCALE
397 */
398 #define QCELP_CLIP_UPPER_BOUND (8191.75/8192.)
399
400 /**
401 * the lower boundary of the clipping, depends on QCELP_SCALE
402 */
403 #define QCELP_CLIP_LOWER_BOUND -1.
404
405 /**
406 * table for computing Ga (decoded linear codebook gain magnitude)
407 *
408 * @note The table could fit in int16_t in x*8 form, but it seems
409 * to be slower on x86
410 *
411 * TIA/EIA/IS-733 2.4.6.2.1-3
412 */
413
414 static const float qcelp_g12ga[61] = {
415 1.000/QCELP_SCALE, 1.125/QCELP_SCALE, 1.250/QCELP_SCALE, 1.375/QCELP_SCALE,
416 1.625/QCELP_SCALE, 1.750/QCELP_SCALE, 2.000/QCELP_SCALE, 2.250/QCELP_SCALE,
417 2.500/QCELP_SCALE, 2.875/QCELP_SCALE, 3.125/QCELP_SCALE, 3.500/QCELP_SCALE,
418 4.000/QCELP_SCALE, 4.500/QCELP_SCALE, 5.000/QCELP_SCALE, 5.625/QCELP_SCALE,
419 6.250/QCELP_SCALE, 7.125/QCELP_SCALE, 8.000/QCELP_SCALE, 8.875/QCELP_SCALE,
420 10.000/QCELP_SCALE, 11.250/QCELP_SCALE, 12.625/QCELP_SCALE, 14.125/QCELP_SCALE,
421 15.875/QCELP_SCALE, 17.750/QCELP_SCALE, 20.000/QCELP_SCALE, 22.375/QCELP_SCALE,
422 25.125/QCELP_SCALE, 28.125/QCELP_SCALE, 31.625/QCELP_SCALE, 35.500/QCELP_SCALE,
423 39.750/QCELP_SCALE, 44.625/QCELP_SCALE, 50.125/QCELP_SCALE, 56.250/QCELP_SCALE,
424 63.125/QCELP_SCALE, 70.750/QCELP_SCALE, 79.375/QCELP_SCALE, 89.125/QCELP_SCALE,
425 100.000/QCELP_SCALE, 112.250/QCELP_SCALE, 125.875/QCELP_SCALE, 141.250/QCELP_SCALE,
426 158.500/QCELP_SCALE, 177.875/QCELP_SCALE, 199.500/QCELP_SCALE, 223.875/QCELP_SCALE,
427 251.250/QCELP_SCALE, 281.875/QCELP_SCALE, 316.250/QCELP_SCALE, 354.875/QCELP_SCALE,
428 398.125/QCELP_SCALE, 446.625/QCELP_SCALE, 501.125/QCELP_SCALE, 562.375/QCELP_SCALE,
429 631.000/QCELP_SCALE, 708.000/QCELP_SCALE, 794.375/QCELP_SCALE, 891.250/QCELP_SCALE,
430 1000.000/QCELP_SCALE};
431
432 /**
433 * circular codebook for rate 1 frames in x*100 form
434 *
435 * TIA/EIA/IS-733 2.4.6.1-2
436 */
437 static const int16_t qcelp_rate_full_codebook[128] = {
438 10, -65, -59, 12, 110, 34, -134, 157,
439 104, -84, -34, -115, 23, -101, 3, 45,
440 -101, -16, -59, 28, -45, 134, -67, 22,
441 61, -29, 226, -26, -55, -179, 157, -51,
442 -220, -93, -37, 60, 118, 74, -48, -95,
443 -181, 111, 36, -52, -215, 78, -112, 39,
444 -17, -47, -223, 19, 12, -98, -142, 130,
445 54, -127, 21, -12, 39, -48, 12, 128,
446 6, -167, 82, -102, -79, 55, -44, 48,
447 -20, -53, 8, -61, 11, -70, -157, -168,
448 20, -56, -74, 78, 33, -63, -173, -2,
449 -75, -53, -146, 77, 66, -29, 9, -75,
450 65, 119, -43, 76, 233, 98, 125, -156,
451 -27, 78, -9, 170, 176, 143, -148, -7,
452 27, -136, 5, 27, 18, 139, 204, 7,
453 -184, -197, 52, -3, 78, -189, 8, -65
454 };
455 #define QCELP_RATE_FULL_CODEBOOK_RATIO .01
456
457 /**
458 * circular codebook for rate 1/2 frames in x*2 form
459 *
460 * TIA/EIA/IS-733 2.4.6.1-1
461 */
462 static const int8_t qcelp_rate_half_codebook[128] = {
463 0, -4, 0, -3, 0, 0, 0, 0,
464 0, 0, 0, 0, 0, 0, 0, 0,
465 0, -3, -2, 0, 0, 0, 0, 0,
466 0, 0, 0, 0, 0, 0, 0, 5,
467 0, 0, 0, 0, 0, 0, 4, 0,
468 0, 3, 2, 0, 3, 4, 0, 0,
469 0, 0, 0, 0, 0, 0, 0, 0,
470 0, 0, 0, 0, 0, 3, 0, 0,
471 -3, 3, 0, 0, -2, 0, 3, 0,
472 0, 0, 0, 0, 0, 0, -5, 0,
473 0, 0, 0, 3, 0, 0, 0, 3,
474 0, 0, 0, 0, 0, 0, 0, 4,
475 0, 0, 0, 0, 0, 0, 0, 0,
476 0, 3, 6, -3, -4, 0, -3, -3,
477 3, -3, 0, 0, 0, 0, 0, 0,
478 0, 0, 0, 0, 0, 0, 0, 0
479 };
480 #define QCELP_RATE_HALF_CODEBOOK_RATIO 0.5
481
482 /**
483 * sqrt(1.887) is the maximum of the pseudorandom
484 * white sequence used to generate the scaled codebook
485 * vector for bitrate 1/4.
486 *
487 * TIA/EIA/IS-733 2.4.8.1.2
488 */
489 #define QCELP_SQRT1887 1.373681186
490
491 /**
492 * table for impulse response of BPF used to filter
493 * the white excitation for bitrate 1/4 synthesis
494 *
495 * Only half the tables are needed because of symmetry.
496 *
497 * TIA/EIA/IS-733 2.4.8.1.2-1.1
498 */
499 static const double qcelp_rnd_fir_coefs[11] = {
500 -1.344519e-1, 1.735384e-2, -6.905826e-2, 2.434368e-2,
501 -8.210701e-2, 3.041388e-2, -9.251384e-2, 3.501983e-2,
502 -9.918777e-2, 3.749518e-2, 8.985137e-1
503 };
504
505 /**
506 * This spread factor is used, for bitrate 1/8 and I_F_Q,
507 * to force the LSP frequencies to be at least 80 Hz apart.
508 *
509 * TIA/EIA/IS-733 2.4.3.3.2
510 */
511 #define QCELP_LSP_SPREAD_FACTOR 0.02
512
513 /**
514 * predictor coefficient for the conversion of LSP codes
515 * to LSP frequencies for 1/8 and I_F_Q
516 *
517 * TIA/EIA/IS-733 2.4.3.2.7-2
518 */
519 #define QCELP_LSP_OCTAVE_PREDICTOR 29.0/32
520
521 #endif /* AVCODEC_QCELPDATA_H */