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FFmpeg/libavcodec/celp_math.c

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  1. /*

  2.  * Various fixed-point math operations

  3.  *

  4.  * Copyright (c) 2008 Vladimir Voroshilov

  5.  *

  6.  * This file is part of Libav.

  7.  *

  8.  * Libav is free software; you can redistribute it and/or

  9.  * modify it under the terms of the GNU Lesser General Public

  10.  * License as published by the Free Software Foundation; either

  11.  * version 2.1 of the License, or (at your option) any later version.

  12.  *

  13.  * Libav is distributed in the hope that it will be useful,

  14.  * but WITHOUT ANY WARRANTY; without even the implied warranty of

  15.  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU

  16.  * Lesser General Public License for more details.

  17.  *

  18.  * You should have received a copy of the GNU Lesser General Public

  19.  * License along with Libav; if not, write to the Free Software

  20.  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA

  21.  */

  22. 

  23. #include <inttypes.h>

  24. #include <limits.h>

  25. #include <assert.h>

  26. 

  27. #include "avcodec.h"

  28. #include "celp_math.h"

  29. 

  30. #ifdef G729_BITEXACT

  31. /**

  32.  * Cosine table: base_cos[i] = (1<<15) * cos(i*PI/64)

  33.  */

  34. static const int16_t base_cos[64] =

  35. {

  36.   32767,  32729,  32610,  32413,  32138,  31786,  31357,  30853,

  37.   30274,  29622,  28899,  28106,  27246,  26320,  25330,  24279,

  38.   23170,  22006,  20788,  19520,  18205,  16846,  15447,  14010,

  39.   12540,  11039,   9512,   7962,   6393,   4808,   3212,   1608,

  40.       0,  -1608,  -3212,  -4808,  -6393,  -7962,  -9512, -11039,

  41.  -12540, -14010, -15447, -16846, -18205, -19520, -20788, -22006,

  42.  -23170, -24279, -25330, -26320, -27246, -28106, -28899, -29622,

  43.  -30274, -30853, -31357, -31786, -32138, -32413, -32610, -32729

  44. };

  45. 

  46. /**

  47.  * Slope used to compute cos(x)

  48.  *

  49.  * cos(ind*64+offset) = base_cos[ind]+offset*slope_cos[ind]

  50.  * values multiplied by 1<<19

  51.  */

  52. static const int16_t slope_cos[64] =

  53. {

  54.    -632,  -1893,  -3150,  -4399,  -5638,  -6863,  -8072,  -9261,

  55.  -10428, -11570, -12684, -13767, -14817, -15832, -16808, -17744,

  56.  -18637, -19486, -20287, -21039, -21741, -22390, -22986, -23526,

  57.  -24009, -24435, -24801, -25108, -25354, -25540, -25664, -25726,

  58.  -25726, -25664, -25540, -25354, -25108, -24801, -24435, -24009,

  59.  -23526, -22986, -22390, -21741, -21039, -20287, -19486, -18637,

  60.  -17744, -16808, -15832, -14817, -13767, -12684, -11570, -10428,

  61.   -9261,  -8072,  -6863,  -5638,  -4399,  -3150,  -1893,   -632

  62. };

  63. 

  64. /**

  65.  * Table used to compute exp2(x)

  66.  *

  67.  * tab_exp2[i] = (1<<14) * exp2(i/32) = 2^(i/32) i=0..32

  68.  */

  69. static const uint16_t tab_exp2[33] =

  70. {

  71.   16384, 16743, 17109, 17484, 17867, 18258, 18658, 19066, 19484, 19911,

  72.   20347, 20792, 21247, 21713, 22188, 22674, 23170, 23678, 24196, 24726,

  73.   25268, 25821, 26386, 26964, 27554, 28158, 28774, 29405, 30048, 30706,

  74.   31379, 32066, 32767

  75. };

  76. 

  77. int16_t ff_cos(uint16_t arg)

  78. {

  79.     uint8_t offset= arg;

  80.     uint8_t ind = arg >> 8;

  81. 

  82.     assert(arg < 0x4000);

  83. 

  84.     return FFMAX(base_cos[ind] + ((slope_cos[ind] * offset) >> 12), -0x8000);

  85. }

  86. 

  87. int ff_exp2(uint16_t power)

  88. {

  89.     uint16_t frac_x0;

  90.     uint16_t frac_dx;

  91.     int result;

  92. 

  93.     assert(power <= 0x7fff);

  94. 

  95.     frac_x0 = power >> 10;

  96.     frac_dx = (power & 0x03ff) << 5;

  97. 

  98.     result = tab_exp2[frac_x0] << 15;

  99.     result += frac_dx * (tab_exp2[frac_x0+1] - tab_exp2[frac_x0]);

  100. 

  101.     return result >> 10;

  102. }

  103. 

  104. #else // G729_BITEXACT

  105. 

  106. /**

  107.  * Cosine table: base_cos[i] = (1<<15) * cos(i*PI/64)

  108.  */

  109. static const int16_t tab_cos[65] =

  110. {

  111.   32767,  32738,  32617,  32421,  32145,  31793,  31364,  30860,

  112.   30280,  29629,  28905,  28113,  27252,  26326,  25336,  24285,

  113.   23176,  22011,  20793,  19525,  18210,  16851,  15451,  14014,

  114.   12543,  11043,   9515,   7965,   6395,   4810,   3214,   1609,

  115.       1,  -1607,  -3211,  -4808,  -6393,  -7962,  -9513, -11040,

  116.  -12541, -14012, -15449, -16848, -18207, -19523, -20791, -22009,

  117.  -23174, -24283, -25334, -26324, -27250, -28111, -28904, -29627,

  118.  -30279, -30858, -31363, -31792, -32144, -32419, -32616, -32736, -32768,

  119. };

  120. 

  121. static const uint16_t exp2a[]=

  122. {

  123.      0,  1435,  2901,  4400,  5931,  7496,  9096, 10730,

  124.  12400, 14106, 15850, 17632, 19454, 21315, 23216, 25160,

  125.  27146, 29175, 31249, 33368, 35534, 37747, 40009, 42320,

  126.  44682, 47095, 49562, 52082, 54657, 57289, 59979, 62727,

  127. };

  128. 

  129. static const uint16_t exp2b[]=

  130. {

  131.      3,   712,  1424,  2134,  2845,  3557,  4270,  4982,

  132.   5696,  6409,  7124,  7839,  8554,  9270,  9986, 10704,

  133.  11421, 12138, 12857, 13576, 14295, 15014, 15734, 16455,

  134.  17176, 17898, 18620, 19343, 20066, 20790, 21514, 22238,

  135. };

  136. 

  137. int16_t ff_cos(uint16_t arg)

  138. {

  139.     uint8_t offset= arg;

  140.     uint8_t ind = arg >> 8;

  141. 

  142.     assert(arg <= 0x3fff);

  143. 

  144.     return tab_cos[ind] + (offset * (tab_cos[ind+1] - tab_cos[ind]) >> 8);

  145. }

  146. 

  147. int ff_exp2(uint16_t power)

  148. {

  149.     unsigned int result= exp2a[power>>10] + 0x10000;

  150. 

  151.     assert(power <= 0x7fff);

  152. 

  153.     result= (result<<3) + ((result*exp2b[(power>>5)&31])>>17);

  154.     return result + ((result*(power&31)*89)>>22);

  155. }

  156. 

  157. #endif // else G729_BITEXACT

  158. 

  159. /**

  160.  * Table used to compute log2(x)

  161.  *

  162.  * tab_log2[i] = (1<<15) * log2(1 + i/32), i=0..32

  163.  */

  164. static const uint16_t tab_log2[33] =

  165. {

  166. #ifdef G729_BITEXACT

  167.       0,   1455,   2866,   4236,   5568,   6863,   8124,   9352,

  168.   10549,  11716,  12855,  13967,  15054,  16117,  17156,  18172,

  169.   19167,  20142,  21097,  22033,  22951,  23852,  24735,  25603,

  170.   26455,  27291,  28113,  28922,  29716,  30497,  31266,  32023,  32767,

  171. #else

  172.       4,   1459,   2870,   4240,   5572,   6867,   8127,   9355,

  173.   10552,  11719,  12858,  13971,  15057,  16120,  17158,  18175,

  174.   19170,  20145,  21100,  22036,  22954,  23854,  24738,  25605,

  175.   26457,  27294,  28116,  28924,  29719,  30500,  31269,  32025,  32769,

  176. #endif

  177. };

  178. 

  179. int ff_log2(uint32_t value)

  180. {

  181.     uint8_t  power_int;

  182.     uint8_t  frac_x0;

  183.     uint16_t frac_dx;

  184. 

  185.     // Stripping zeros from beginning

  186.     power_int = av_log2(value);

  187.     value <<= (31 - power_int);

  188. 

  189.     // b31 is always non-zero now

  190.     frac_x0 = (value & 0x7c000000) >> 26; // b26-b31 and [32..63] -> [0..31]

  191.     frac_dx = (value & 0x03fff800) >> 11;

  192. 

  193.     value = tab_log2[frac_x0];

  194.     value += (frac_dx * (tab_log2[frac_x0+1] - tab_log2[frac_x0])) >> 15;

  195. 

  196.     return (power_int << 15) + value;

  197. }

  198. 

  199. float ff_dot_productf(const float* a, const float* b, int length)

  200. {

  201.     float sum = 0;

  202.     int i;

  203. 

  204.     for(i=0; i<length; i++)

  205.         sum += a[i] * b[i];

  206. 

  207.     return sum;

  208. }