blob: 7582d54d4836e094db803582ce79ff52a9f85ba5 [file] [log] [blame]
/*
* Copyright (c) 2016, Alliance for Open Media. All rights reserved
*
* This source code is subject to the terms of the BSD 2 Clause License and
* the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
* was not distributed with this source code in the LICENSE file, you can
* obtain it at www.aomedia.org/license/software. If the Alliance for Open
* Media Patent License 1.0 was not distributed with this source code in the
* PATENTS file, you can obtain it at www.aomedia.org/license/patent.
*/
#include "aom_mem/aom_mem.h"
#include "av1/common/av1_common_int.h"
#include "av1/common/reconinter.h"
#include "av1/common/scan.h"
#include "av1/common/seg_common.h"
#include "av1/common/txb_common.h"
static const aom_cdf_prob
default_kf_y_mode_cdf[KF_MODE_CONTEXTS][KF_MODE_CONTEXTS][CDF_SIZE(
INTRA_MODES)] = {
{ { AOM_CDF13(15588, 17027, 19338, 20218, 20682, 21110, 21825, 23244,
24189, 28165, 29093, 30466) },
{ AOM_CDF13(12016, 18066, 19516, 20303, 20719, 21444, 21888, 23032,
24434, 28658, 30172, 31409) },
{ AOM_CDF13(10052, 10771, 22296, 22788, 23055, 23239, 24133, 25620,
26160, 29336, 29929, 31567) },
{ AOM_CDF13(14091, 15406, 16442, 18808, 19136, 19546, 19998, 22096,
24746, 29585, 30958, 32462) },
{ AOM_CDF13(12122, 13265, 15603, 16501, 18609, 20033, 22391, 25583,
26437, 30261, 31073, 32475) } },
{ { AOM_CDF13(10023, 19585, 20848, 21440, 21832, 22760, 23089, 24023,
25381, 29014, 30482, 31436) },
{ AOM_CDF13(5983, 24099, 24560, 24886, 25066, 25795, 25913, 26423,
27610, 29905, 31276, 31794) },
{ AOM_CDF13(7444, 12781, 20177, 20728, 21077, 21607, 22170, 23405,
24469, 27915, 29090, 30492) },
{ AOM_CDF13(8537, 14689, 15432, 17087, 17408, 18172, 18408, 19825,
24649, 29153, 31096, 32210) },
{ AOM_CDF13(7543, 14231, 15496, 16195, 17905, 20717, 21984, 24516,
26001, 29675, 30981, 31994) } },
{ { AOM_CDF13(12613, 13591, 21383, 22004, 22312, 22577, 23401, 25055,
25729, 29538, 30305, 32077) },
{ AOM_CDF13(9687, 13470, 18506, 19230, 19604, 20147, 20695, 22062,
23219, 27743, 29211, 30907) },
{ AOM_CDF13(6183, 6505, 26024, 26252, 26366, 26434, 27082, 28354, 28555,
30467, 30794, 32086) },
{ AOM_CDF13(10718, 11734, 14954, 17224, 17565, 17924, 18561, 21523,
23878, 28975, 30287, 32252) },
{ AOM_CDF13(9194, 9858, 16501, 17263, 18424, 19171, 21563, 25961, 26561,
30072, 30737, 32463) } },
{ { AOM_CDF13(12602, 14399, 15488, 18381, 18778, 19315, 19724, 21419,
25060, 29696, 30917, 32409) },
{ AOM_CDF13(8203, 13821, 14524, 17105, 17439, 18131, 18404, 19468,
25225, 29485, 31158, 32342) },
{ AOM_CDF13(8451, 9731, 15004, 17643, 18012, 18425, 19070, 21538, 24605,
29118, 30078, 32018) },
{ AOM_CDF13(7714, 9048, 9516, 16667, 16817, 16994, 17153, 18767, 26743,
30389, 31536, 32528) },
{ AOM_CDF13(8843, 10280, 11496, 15317, 16652, 17943, 19108, 22718,
25769, 29953, 30983, 32485) } },
{ { AOM_CDF13(12578, 13671, 15979, 16834, 19075, 20913, 22989, 25449,
26219, 30214, 31150, 32477) },
{ AOM_CDF13(9563, 13626, 15080, 15892, 17756, 20863, 22207, 24236,
25380, 29653, 31143, 32277) },
{ AOM_CDF13(8356, 8901, 17616, 18256, 19350, 20106, 22598, 25947, 26466,
29900, 30523, 32261) },
{ AOM_CDF13(10835, 11815, 13124, 16042, 17018, 18039, 18947, 22753,
24615, 29489, 30883, 32482) },
{ AOM_CDF13(7618, 8288, 9859, 10509, 15386, 18657, 22903, 28776, 29180,
31355, 31802, 32593) } }
};
static const aom_cdf_prob default_angle_delta_cdf[DIRECTIONAL_MODES][CDF_SIZE(
2 * MAX_ANGLE_DELTA + 1)] = {
{ AOM_CDF7(2180, 5032, 7567, 22776, 26989, 30217) },
{ AOM_CDF7(2301, 5608, 8801, 23487, 26974, 30330) },
{ AOM_CDF7(3780, 11018, 13699, 19354, 23083, 31286) },
{ AOM_CDF7(4581, 11226, 15147, 17138, 21834, 28397) },
{ AOM_CDF7(1737, 10927, 14509, 19588, 22745, 28823) },
{ AOM_CDF7(2664, 10176, 12485, 17650, 21600, 30495) },
{ AOM_CDF7(2240, 11096, 15453, 20341, 22561, 28917) },
{ AOM_CDF7(3605, 10428, 12459, 17676, 21244, 30655) }
};
static const aom_cdf_prob default_if_y_mode_cdf[BLOCK_SIZE_GROUPS][CDF_SIZE(
INTRA_MODES)] = { { AOM_CDF13(22801, 23489, 24293, 24756, 25601, 26123,
26606, 27418, 27945, 29228, 29685, 30349) },
{ AOM_CDF13(18673, 19845, 22631, 23318, 23950, 24649,
25527, 27364, 28152, 29701, 29984, 30852) },
{ AOM_CDF13(19770, 20979, 23396, 23939, 24241, 24654,
25136, 27073, 27830, 29360, 29730, 30659) },
{ AOM_CDF13(20155, 21301, 22838, 23178, 23261, 23533,
23703, 24804, 25352, 26575, 27016, 28049) } };
static const aom_cdf_prob
default_uv_mode_cdf[CFL_ALLOWED_TYPES][INTRA_MODES][CDF_SIZE(
UV_INTRA_MODES)] = {
{ { AOM_CDF13(22631, 24152, 25378, 25661, 25986, 26520, 27055, 27923,
28244, 30059, 30941, 31961) },
{ AOM_CDF13(9513, 26881, 26973, 27046, 27118, 27664, 27739, 27824,
28359, 29505, 29800, 31796) },
{ AOM_CDF13(9845, 9915, 28663, 28704, 28757, 28780, 29198, 29822, 29854,
30764, 31777, 32029) },
{ AOM_CDF13(13639, 13897, 14171, 25331, 25606, 25727, 25953, 27148,
28577, 30612, 31355, 32493) },
{ AOM_CDF13(9764, 9835, 9930, 9954, 25386, 27053, 27958, 28148, 28243,
31101, 31744, 32363) },
{ AOM_CDF13(11825, 13589, 13677, 13720, 15048, 29213, 29301, 29458,
29711, 31161, 31441, 32550) },
{ AOM_CDF13(14175, 14399, 16608, 16821, 17718, 17775, 28551, 30200,
30245, 31837, 32342, 32667) },
{ AOM_CDF13(12885, 13038, 14978, 15590, 15673, 15748, 16176, 29128,
29267, 30643, 31961, 32461) },
{ AOM_CDF13(12026, 13661, 13874, 15305, 15490, 15726, 15995, 16273,
28443, 30388, 30767, 32416) },
{ AOM_CDF13(19052, 19840, 20579, 20916, 21150, 21467, 21885, 22719,
23174, 28861, 30379, 32175) },
{ AOM_CDF13(18627, 19649, 20974, 21219, 21492, 21816, 22199, 23119,
23527, 27053, 31397, 32148) },
{ AOM_CDF13(17026, 19004, 19997, 20339, 20586, 21103, 21349, 21907,
22482, 25896, 26541, 31819) },
{ AOM_CDF13(12124, 13759, 14959, 14992, 15007, 15051, 15078, 15166,
15255, 15753, 16039, 16606) } },
{ { AOM_CDF14(10407, 11208, 12900, 13181, 13823, 14175, 14899, 15656,
15986, 20086, 20995, 22455, 24212) },
{ AOM_CDF14(4532, 19780, 20057, 20215, 20428, 21071, 21199, 21451,
22099, 24228, 24693, 27032, 29472) },
{ AOM_CDF14(5273, 5379, 20177, 20270, 20385, 20439, 20949, 21695, 21774,
23138, 24256, 24703, 26679) },
{ AOM_CDF14(6740, 7167, 7662, 14152, 14536, 14785, 15034, 16741, 18371,
21520, 22206, 23389, 24182) },
{ AOM_CDF14(4987, 5368, 5928, 6068, 19114, 20315, 21857, 22253, 22411,
24911, 25380, 26027, 26376) },
{ AOM_CDF14(5370, 6889, 7247, 7393, 9498, 21114, 21402, 21753, 21981,
24780, 25386, 26517, 27176) },
{ AOM_CDF14(4816, 4961, 7204, 7326, 8765, 8930, 20169, 20682, 20803,
23188, 23763, 24455, 24940) },
{ AOM_CDF14(6608, 6740, 8529, 9049, 9257, 9356, 9735, 18827, 19059,
22336, 23204, 23964, 24793) },
{ AOM_CDF14(5998, 7419, 7781, 8933, 9255, 9549, 9753, 10417, 18898,
22494, 23139, 24764, 25989) },
{ AOM_CDF14(10660, 11298, 12550, 12957, 13322, 13624, 14040, 15004,
15534, 20714, 21789, 23443, 24861) },
{ AOM_CDF14(10522, 11530, 12552, 12963, 13378, 13779, 14245, 15235,
15902, 20102, 22696, 23774, 25838) },
{ AOM_CDF14(10099, 10691, 12639, 13049, 13386, 13665, 14125, 15163,
15636, 19676, 20474, 23519, 25208) },
{ AOM_CDF14(3144, 5087, 7382, 7504, 7593, 7690, 7801, 8064, 8232, 9248,
9875, 10521, 29048) } }
};
static const aom_cdf_prob default_partition_cdf[PARTITION_CONTEXTS][CDF_SIZE(
EXT_PARTITION_TYPES)] = {
{ AOM_CDF4(19132, 25510, 30392) },
{ AOM_CDF4(13928, 19855, 28540) },
{ AOM_CDF4(12522, 23679, 28629) },
{ AOM_CDF4(9896, 18783, 25853) },
{ AOM_CDF10(15597, 20929, 24571, 26706, 27664, 28821, 29601, 30571, 31902) },
{ AOM_CDF10(7925, 11043, 16785, 22470, 23971, 25043, 26651, 28701, 29834) },
{ AOM_CDF10(5414, 13269, 15111, 20488, 22360, 24500, 25537, 26336, 32117) },
{ AOM_CDF10(2662, 6362, 8614, 20860, 23053, 24778, 26436, 27829, 31171) },
{ AOM_CDF10(18462, 20920, 23124, 27647, 28227, 29049, 29519, 30178, 31544) },
{ AOM_CDF10(7689, 9060, 12056, 24992, 25660, 26182, 26951, 28041, 29052) },
{ AOM_CDF10(6015, 9009, 10062, 24544, 25409, 26545, 27071, 27526, 32047) },
{ AOM_CDF10(1394, 2208, 2796, 28614, 29061, 29466, 29840, 30185, 31899) },
{ AOM_CDF10(20137, 21547, 23078, 29566, 29837, 30261, 30524, 30892, 31724) },
{ AOM_CDF10(6732, 7490, 9497, 27944, 28250, 28515, 28969, 29630, 30104) },
{ AOM_CDF10(5945, 7663, 8348, 28683, 29117, 29749, 30064, 30298, 32238) },
{ AOM_CDF10(870, 1212, 1487, 31198, 31394, 31574, 31743, 31881, 32332) },
{ AOM_CDF8(27899, 28219, 28529, 32484, 32539, 32619, 32639) },
{ AOM_CDF8(6607, 6990, 8268, 32060, 32219, 32338, 32371) },
{ AOM_CDF8(5429, 6676, 7122, 32027, 32227, 32531, 32582) },
{ AOM_CDF8(711, 966, 1172, 32448, 32538, 32617, 32664) },
};
static const aom_cdf_prob default_intra_ext_tx_cdf
[EXT_TX_SETS_INTRA][EXT_TX_SIZES][INTRA_MODES][CDF_SIZE(TX_TYPES)] = {
{
{
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
},
{
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
},
{
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
},
{
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
{ 0 },
},
},
{
{
{ AOM_CDF7(1535, 8035, 9461, 12751, 23467, 27825) },
{ AOM_CDF7(564, 3335, 9709, 10870, 18143, 28094) },
{ AOM_CDF7(672, 3247, 3676, 11982, 19415, 23127) },
{ AOM_CDF7(5279, 13885, 15487, 18044, 23527, 30252) },
{ AOM_CDF7(4423, 6074, 7985, 10416, 25693, 29298) },
{ AOM_CDF7(1486, 4241, 9460, 10662, 16456, 27694) },
{ AOM_CDF7(439, 2838, 3522, 6737, 18058, 23754) },
{ AOM_CDF7(1190, 4233, 4855, 11670, 20281, 24377) },
{ AOM_CDF7(1045, 4312, 8647, 10159, 18644, 29335) },
{ AOM_CDF7(202, 3734, 4747, 7298, 17127, 24016) },
{ AOM_CDF7(447, 4312, 6819, 8884, 16010, 23858) },
{ AOM_CDF7(277, 4369, 5255, 8905, 16465, 22271) },
{ AOM_CDF7(3409, 5436, 10599, 15599, 19687, 24040) },
},
{
{ AOM_CDF7(1870, 13742, 14530, 16498, 23770, 27698) },
{ AOM_CDF7(326, 8796, 14632, 15079, 19272, 27486) },
{ AOM_CDF7(484, 7576, 7712, 14443, 19159, 22591) },
{ AOM_CDF7(1126, 15340, 15895, 17023, 20896, 30279) },
{ AOM_CDF7(655, 4854, 5249, 5913, 22099, 27138) },
{ AOM_CDF7(1299, 6458, 8885, 9290, 14851, 25497) },
{ AOM_CDF7(311, 5295, 5552, 6885, 16107, 22672) },
{ AOM_CDF7(883, 8059, 8270, 11258, 17289, 21549) },
{ AOM_CDF7(741, 7580, 9318, 10345, 16688, 29046) },
{ AOM_CDF7(110, 7406, 7915, 9195, 16041, 23329) },
{ AOM_CDF7(363, 7974, 9357, 10673, 15629, 24474) },
{ AOM_CDF7(153, 7647, 8112, 9936, 15307, 19996) },
{ AOM_CDF7(3511, 6332, 11165, 15335, 19323, 23594) },
},
{
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
},
{
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
{ AOM_CDF7(4681, 9362, 14043, 18725, 23406, 28087) },
},
},
{
{
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
},
{
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
},
{
{ AOM_CDF5(1127, 12814, 22772, 27483) },
{ AOM_CDF5(145, 6761, 11980, 26667) },
{ AOM_CDF5(362, 5887, 11678, 16725) },
{ AOM_CDF5(385, 15213, 18587, 30693) },
{ AOM_CDF5(25, 2914, 23134, 27903) },
{ AOM_CDF5(60, 4470, 11749, 23991) },
{ AOM_CDF5(37, 3332, 14511, 21448) },
{ AOM_CDF5(157, 6320, 13036, 17439) },
{ AOM_CDF5(119, 6719, 12906, 29396) },
{ AOM_CDF5(47, 5537, 12576, 21499) },
{ AOM_CDF5(269, 6076, 11258, 23115) },
{ AOM_CDF5(83, 5615, 12001, 17228) },
{ AOM_CDF5(1968, 5556, 12023, 18547) },
},
{
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
{ AOM_CDF5(6554, 13107, 19661, 26214) },
},
},
};
static const aom_cdf_prob
default_inter_ext_tx_cdf[EXT_TX_SETS_INTER][EXT_TX_SIZES][CDF_SIZE(
TX_TYPES)] = {
{
{ 0 },
{ 0 },
{ 0 },
{ 0 },
},
{
{ AOM_CDF16(4458, 5560, 7695, 9709, 13330, 14789, 17537, 20266, 21504,
22848, 23934, 25474, 27727, 28915, 30631) },
{ AOM_CDF16(1645, 2573, 4778, 5711, 7807, 8622, 10522, 15357, 17674,
20408, 22517, 25010, 27116, 28856, 30749) },
{ AOM_CDF16(2048, 4096, 6144, 8192, 10240, 12288, 14336, 16384, 18432,
20480, 22528, 24576, 26624, 28672, 30720) },
{ AOM_CDF16(2048, 4096, 6144, 8192, 10240, 12288, 14336, 16384, 18432,
20480, 22528, 24576, 26624, 28672, 30720) },
},
{
{ AOM_CDF12(2731, 5461, 8192, 10923, 13653, 16384, 19115, 21845,
24576, 27307, 30037) },
{ AOM_CDF12(2731, 5461, 8192, 10923, 13653, 16384, 19115, 21845,
24576, 27307, 30037) },
{ AOM_CDF12(770, 2421, 5225, 12907, 15819, 18927, 21561, 24089, 26595,
28526, 30529) },
{ AOM_CDF12(2731, 5461, 8192, 10923, 13653, 16384, 19115, 21845,
24576, 27307, 30037) },
},
{
{ AOM_CDF2(16384) },
{ AOM_CDF2(4167) },
{ AOM_CDF2(1998) },
{ AOM_CDF2(748) },
},
};
static const aom_cdf_prob default_cfl_sign_cdf[CDF_SIZE(CFL_JOINT_SIGNS)] = {
AOM_CDF8(1418, 2123, 13340, 18405, 26972, 28343, 32294)
};
static const aom_cdf_prob
default_cfl_alpha_cdf[CFL_ALPHA_CONTEXTS][CDF_SIZE(CFL_ALPHABET_SIZE)] = {
{ AOM_CDF16(7637, 20719, 31401, 32481, 32657, 32688, 32692, 32696, 32700,
32704, 32708, 32712, 32716, 32720, 32724) },
{ AOM_CDF16(14365, 23603, 28135, 31168, 32167, 32395, 32487, 32573, 32620,
32647, 32668, 32672, 32676, 32680, 32684) },
{ AOM_CDF16(11532, 22380, 28445, 31360, 32349, 32523, 32584, 32649, 32673,
32677, 32681, 32685, 32689, 32693, 32697) },
{ AOM_CDF16(26990, 31402, 32282, 32571, 32692, 32696, 32700, 32704, 32708,
32712, 32716, 32720, 32724, 32728, 32732) },
{ AOM_CDF16(17248, 26058, 28904, 30608, 31305, 31877, 32126, 32321, 32394,
32464, 32516, 32560, 32576, 32593, 32622) },
{ AOM_CDF16(14738, 21678, 25779, 27901, 29024, 30302, 30980, 31843, 32144,
32413, 32520, 32594, 32622, 32656, 32660) }
};
static const aom_cdf_prob
default_switchable_interp_cdf[SWITCHABLE_FILTER_CONTEXTS][CDF_SIZE(
SWITCHABLE_FILTERS)] = {
{ AOM_CDF3(31935, 32720) }, { AOM_CDF3(5568, 32719) },
{ AOM_CDF3(422, 2938) }, { AOM_CDF3(28244, 32608) },
{ AOM_CDF3(31206, 31953) }, { AOM_CDF3(4862, 32121) },
{ AOM_CDF3(770, 1152) }, { AOM_CDF3(20889, 25637) },
{ AOM_CDF3(31910, 32724) }, { AOM_CDF3(4120, 32712) },
{ AOM_CDF3(305, 2247) }, { AOM_CDF3(27403, 32636) },
{ AOM_CDF3(31022, 32009) }, { AOM_CDF3(2963, 32093) },
{ AOM_CDF3(601, 943) }, { AOM_CDF3(14969, 21398) }
};
static const aom_cdf_prob default_newmv_cdf[NEWMV_MODE_CONTEXTS][CDF_SIZE(
2)] = { { AOM_CDF2(24035) }, { AOM_CDF2(16630) }, { AOM_CDF2(15339) },
{ AOM_CDF2(8386) }, { AOM_CDF2(12222) }, { AOM_CDF2(4676) } };
static const aom_cdf_prob default_zeromv_cdf[GLOBALMV_MODE_CONTEXTS][CDF_SIZE(
2)] = { { AOM_CDF2(2175) }, { AOM_CDF2(1054) } };
static const aom_cdf_prob default_refmv_cdf[REFMV_MODE_CONTEXTS][CDF_SIZE(
2)] = { { AOM_CDF2(23974) }, { AOM_CDF2(24188) }, { AOM_CDF2(17848) },
{ AOM_CDF2(28622) }, { AOM_CDF2(24312) }, { AOM_CDF2(19923) } };
static const aom_cdf_prob default_drl_cdf[DRL_MODE_CONTEXTS][CDF_SIZE(2)] = {
{ AOM_CDF2(13104) }, { AOM_CDF2(24560) }, { AOM_CDF2(18945) }
};
static const aom_cdf_prob
default_inter_compound_mode_cdf[INTER_MODE_CONTEXTS][CDF_SIZE(
INTER_COMPOUND_MODES)] = {
{ AOM_CDF8(7760, 13823, 15808, 17641, 19156, 20666, 26891) },
{ AOM_CDF8(10730, 19452, 21145, 22749, 24039, 25131, 28724) },
{ AOM_CDF8(10664, 20221, 21588, 22906, 24295, 25387, 28436) },
{ AOM_CDF8(13298, 16984, 20471, 24182, 25067, 25736, 26422) },
{ AOM_CDF8(18904, 23325, 25242, 27432, 27898, 28258, 30758) },
{ AOM_CDF8(10725, 17454, 20124, 22820, 24195, 25168, 26046) },
{ AOM_CDF8(17125, 24273, 25814, 27492, 28214, 28704, 30592) },
{ AOM_CDF8(13046, 23214, 24505, 25942, 27435, 28442, 29330) }
};
static const aom_cdf_prob default_interintra_cdf[BLOCK_SIZE_GROUPS][CDF_SIZE(
2)] = { { AOM_CDF2(16384) },
{ AOM_CDF2(26887) },
{ AOM_CDF2(27597) },
{ AOM_CDF2(30237) } };
static const aom_cdf_prob
default_interintra_mode_cdf[BLOCK_SIZE_GROUPS][CDF_SIZE(
INTERINTRA_MODES)] = { { AOM_CDF4(8192, 16384, 24576) },
{ AOM_CDF4(1875, 11082, 27332) },
{ AOM_CDF4(2473, 9996, 26388) },
{ AOM_CDF4(4238, 11537, 25926) } };
static const aom_cdf_prob
default_wedge_interintra_cdf[BLOCK_SIZES_ALL][CDF_SIZE(2)] = {
{ AOM_CDF2(16384) }, { AOM_CDF2(16384) }, { AOM_CDF2(16384) },
{ AOM_CDF2(20036) }, { AOM_CDF2(24957) }, { AOM_CDF2(26704) },
{ AOM_CDF2(27530) }, { AOM_CDF2(29564) }, { AOM_CDF2(29444) },
{ AOM_CDF2(26872) }, { AOM_CDF2(16384) }, { AOM_CDF2(16384) },
{ AOM_CDF2(16384) }, { AOM_CDF2(16384) }, { AOM_CDF2(16384) },
{ AOM_CDF2(16384) }, { AOM_CDF2(16384) }, { AOM_CDF2(16384) },
{ AOM_CDF2(16384) }, { AOM_CDF2(16384) }, { AOM_CDF2(16384) },
{ AOM_CDF2(16384) }
};
static const aom_cdf_prob default_compound_type_cdf[BLOCK_SIZES_ALL][CDF_SIZE(
MASKED_COMPOUND_TYPES)] = {
{ AOM_CDF2(16384) }, { AOM_CDF2(16384) }, { AOM_CDF2(16384) },
{ AOM_CDF2(23431) }, { AOM_CDF2(13171) }, { AOM_CDF2(11470) },
{ AOM_CDF2(9770) }, { AOM_CDF2(9100) }, { AOM_CDF2(8233) },
{ AOM_CDF2(6172) }, { AOM_CDF2(16384) }, { AOM_CDF2(16384) },
{ AOM_CDF2(16384) }, { AOM_CDF2(16384) }, { AOM_CDF2(16384) },
{ AOM_CDF2(16384) }, { AOM_CDF2(16384) }, { AOM_CDF2(16384) },
{ AOM_CDF2(11820) }, { AOM_CDF2(7701) }, { AOM_CDF2(16384) },
{ AOM_CDF2(16384) }
};
static const aom_cdf_prob default_wedge_idx_cdf[BLOCK_SIZES_ALL][CDF_SIZE(
16)] = { { AOM_CDF16(2048, 4096, 6144, 8192, 10240, 12288, 14336, 16384,
18432, 20480, 22528, 24576, 26624, 28672, 30720) },
{ AOM_CDF16(2048, 4096, 6144, 8192, 10240, 12288, 14336, 16384,
18432, 20480, 22528, 24576, 26624, 28672, 30720) },
{ AOM_CDF16(2048, 4096, 6144, 8192, 10240, 12288, 14336, 16384,
18432, 20480, 22528, 24576, 26624, 28672, 30720) },
{ AOM_CDF16(2438, 4440, 6599, 8663, 11005, 12874, 15751, 18094,
20359, 22362, 24127, 25702, 27752, 29450, 31171) },
{ AOM_CDF16(806, 3266, 6005, 6738, 7218, 7367, 7771, 14588, 16323,
17367, 18452, 19422, 22839, 26127, 29629) },
{ AOM_CDF16(2779, 3738, 4683, 7213, 7775, 8017, 8655, 14357, 17939,
21332, 24520, 27470, 29456, 30529, 31656) },
{ AOM_CDF16(1684, 3625, 5675, 7108, 9302, 11274, 14429, 17144,
19163, 20961, 22884, 24471, 26719, 28714, 30877) },
{ AOM_CDF16(1142, 3491, 6277, 7314, 8089, 8355, 9023, 13624, 15369,
16730, 18114, 19313, 22521, 26012, 29550) },
{ AOM_CDF16(2742, 4195, 5727, 8035, 8980, 9336, 10146, 14124,
17270, 20533, 23434, 25972, 27944, 29570, 31416) },
{ AOM_CDF16(1727, 3948, 6101, 7796, 9841, 12344, 15766, 18944,
20638, 22038, 23963, 25311, 26988, 28766, 31012) },
{ AOM_CDF16(2048, 4096, 6144, 8192, 10240, 12288, 14336, 16384,
18432, 20480, 22528, 24576, 26624, 28672, 30720) },
{ AOM_CDF16(2048, 4096, 6144, 8192, 10240, 12288, 14336, 16384,
18432, 20480, 22528, 24576, 26624, 28672, 30720) },
{ AOM_CDF16(2048, 4096, 6144, 8192, 10240, 12288, 14336, 16384,
18432, 20480, 22528, 24576, 26624, 28672, 30720) },
{ AOM_CDF16(2048, 4096, 6144, 8192, 10240, 12288, 14336, 16384,
18432, 20480, 22528, 24576, 26624, 28672, 30720) },
{ AOM_CDF16(2048, 4096, 6144, 8192, 10240, 12288, 14336, 16384,
18432, 20480, 22528, 24576, 26624, 28672, 30720) },
{ AOM_CDF16(2048, 4096, 6144, 8192, 10240, 12288, 14336, 16384,
18432, 20480, 22528, 24576, 26624, 28672, 30720) },
{ AOM_CDF16(2048, 4096, 6144, 8192, 10240, 12288, 14336, 16384,
18432, 20480, 22528, 24576, 26624, 28672, 30720) },
{ AOM_CDF16(2048, 4096, 6144, 8192, 10240, 12288, 14336, 16384,
18432, 20480, 22528, 24576, 26624, 28672, 30720) },
{ AOM_CDF16(154, 987, 1925, 2051, 2088, 2111, 2151, 23033, 23703,
24284, 24985, 25684, 27259, 28883, 30911) },
{ AOM_CDF16(1135, 1322, 1493, 2635, 2696, 2737, 2770, 21016, 22935,
25057, 27251, 29173, 30089, 30960, 31933) },
{ AOM_CDF16(2048, 4096, 6144, 8192, 10240, 12288, 14336, 16384,
18432, 20480, 22528, 24576, 26624, 28672, 30720) },
{ AOM_CDF16(2048, 4096, 6144, 8192, 10240, 12288, 14336, 16384,
18432, 20480, 22528, 24576, 26624, 28672, 30720) } };
static const aom_cdf_prob default_motion_mode_cdf[BLOCK_SIZES_ALL][CDF_SIZE(
MOTION_MODES)] = { { AOM_CDF3(10923, 21845) }, { AOM_CDF3(10923, 21845) },
{ AOM_CDF3(10923, 21845) }, { AOM_CDF3(7651, 24760) },
{ AOM_CDF3(4738, 24765) }, { AOM_CDF3(5391, 25528) },
{ AOM_CDF3(19419, 26810) }, { AOM_CDF3(5123, 23606) },
{ AOM_CDF3(11606, 24308) }, { AOM_CDF3(26260, 29116) },
{ AOM_CDF3(20360, 28062) }, { AOM_CDF3(21679, 26830) },
{ AOM_CDF3(29516, 30701) }, { AOM_CDF3(28898, 30397) },
{ AOM_CDF3(30878, 31335) }, { AOM_CDF3(32507, 32558) },
{ AOM_CDF3(10923, 21845) }, { AOM_CDF3(10923, 21845) },
{ AOM_CDF3(28799, 31390) }, { AOM_CDF3(26431, 30774) },
{ AOM_CDF3(28973, 31594) }, { AOM_CDF3(29742, 31203) } };
static const aom_cdf_prob default_obmc_cdf[BLOCK_SIZES_ALL][CDF_SIZE(2)] = {
{ AOM_CDF2(16384) }, { AOM_CDF2(16384) }, { AOM_CDF2(16384) },
{ AOM_CDF2(10437) }, { AOM_CDF2(9371) }, { AOM_CDF2(9301) },
{ AOM_CDF2(17432) }, { AOM_CDF2(14423) }, { AOM_CDF2(15142) },
{ AOM_CDF2(25817) }, { AOM_CDF2(22823) }, { AOM_CDF2(22083) },
{ AOM_CDF2(30128) }, { AOM_CDF2(31014) }, { AOM_CDF2(31560) },
{ AOM_CDF2(32638) }, { AOM_CDF2(16384) }, { AOM_CDF2(16384) },
{ AOM_CDF2(23664) }, { AOM_CDF2(20901) }, { AOM_CDF2(24008) },
{ AOM_CDF2(26879) }
};
static const aom_cdf_prob default_intra_inter_cdf[INTRA_INTER_CONTEXTS]
[CDF_SIZE(2)] = {
{ AOM_CDF2(806) },
{ AOM_CDF2(16662) },
{ AOM_CDF2(20186) },
{ AOM_CDF2(26538) }
};
static const aom_cdf_prob default_comp_inter_cdf[COMP_INTER_CONTEXTS][CDF_SIZE(
2)] = { { AOM_CDF2(26828) },
{ AOM_CDF2(24035) },
{ AOM_CDF2(12031) },
{ AOM_CDF2(10640) },
{ AOM_CDF2(2901) } };
static const aom_cdf_prob default_comp_ref_type_cdf[COMP_REF_TYPE_CONTEXTS]
[CDF_SIZE(2)] = {
{ AOM_CDF2(1198) },
{ AOM_CDF2(2070) },
{ AOM_CDF2(9166) },
{ AOM_CDF2(7499) },
{ AOM_CDF2(22475) }
};
static const aom_cdf_prob
default_uni_comp_ref_cdf[UNI_COMP_REF_CONTEXTS][UNIDIR_COMP_REFS -
1][CDF_SIZE(2)] = {
{ { AOM_CDF2(5284) }, { AOM_CDF2(3865) }, { AOM_CDF2(3128) } },
{ { AOM_CDF2(23152) }, { AOM_CDF2(14173) }, { AOM_CDF2(15270) } },
{ { AOM_CDF2(31774) }, { AOM_CDF2(25120) }, { AOM_CDF2(26710) } }
};
static const aom_cdf_prob default_single_ref_cdf[REF_CONTEXTS][SINGLE_REFS - 1]
[CDF_SIZE(2)] = {
{ { AOM_CDF2(4897) },
{ AOM_CDF2(1555) },
{ AOM_CDF2(4236) },
{ AOM_CDF2(8650) },
{ AOM_CDF2(904) },
{ AOM_CDF2(1444) } },
{ { AOM_CDF2(16973) },
{ AOM_CDF2(16751) },
{ AOM_CDF2(19647) },
{ AOM_CDF2(24773) },
{ AOM_CDF2(11014) },
{ AOM_CDF2(15087) } },
{ { AOM_CDF2(29744) },
{ AOM_CDF2(30279) },
{ AOM_CDF2(31194) },
{ AOM_CDF2(31895) },
{ AOM_CDF2(26875) },
{ AOM_CDF2(30304) } }
};
static const aom_cdf_prob
default_comp_ref_cdf[REF_CONTEXTS][FWD_REFS - 1][CDF_SIZE(2)] = {
{ { AOM_CDF2(4946) }, { AOM_CDF2(9468) }, { AOM_CDF2(1503) } },
{ { AOM_CDF2(19891) }, { AOM_CDF2(22441) }, { AOM_CDF2(15160) } },
{ { AOM_CDF2(30731) }, { AOM_CDF2(31059) }, { AOM_CDF2(27544) } }
};
static const aom_cdf_prob
default_comp_bwdref_cdf[REF_CONTEXTS][BWD_REFS - 1][CDF_SIZE(2)] = {
{ { AOM_CDF2(2235) }, { AOM_CDF2(1423) } },
{ { AOM_CDF2(17182) }, { AOM_CDF2(15175) } },
{ { AOM_CDF2(30606) }, { AOM_CDF2(30489) } }
};
static const aom_cdf_prob
default_palette_y_size_cdf[PALATTE_BSIZE_CTXS][CDF_SIZE(PALETTE_SIZES)] = {
{ AOM_CDF7(7952, 13000, 18149, 21478, 25527, 29241) },
{ AOM_CDF7(7139, 11421, 16195, 19544, 23666, 28073) },
{ AOM_CDF7(7788, 12741, 17325, 20500, 24315, 28530) },
{ AOM_CDF7(8271, 14064, 18246, 21564, 25071, 28533) },
{ AOM_CDF7(12725, 19180, 21863, 24839, 27535, 30120) },
{ AOM_CDF7(9711, 14888, 16923, 21052, 25661, 27875) },
{ AOM_CDF7(14940, 20797, 21678, 24186, 27033, 28999) }
};
static const aom_cdf_prob
default_palette_uv_size_cdf[PALATTE_BSIZE_CTXS][CDF_SIZE(PALETTE_SIZES)] = {
{ AOM_CDF7(8713, 19979, 27128, 29609, 31331, 32272) },
{ AOM_CDF7(5839, 15573, 23581, 26947, 29848, 31700) },
{ AOM_CDF7(4426, 11260, 17999, 21483, 25863, 29430) },
{ AOM_CDF7(3228, 9464, 14993, 18089, 22523, 27420) },
{ AOM_CDF7(3768, 8886, 13091, 17852, 22495, 27207) },
{ AOM_CDF7(2464, 8451, 12861, 21632, 25525, 28555) },
{ AOM_CDF7(1269, 5435, 10433, 18963, 21700, 25865) }
};
static const aom_cdf_prob default_palette_y_mode_cdf
[PALATTE_BSIZE_CTXS][PALETTE_Y_MODE_CONTEXTS][CDF_SIZE(2)] = {
{ { AOM_CDF2(31676) }, { AOM_CDF2(3419) }, { AOM_CDF2(1261) } },
{ { AOM_CDF2(31912) }, { AOM_CDF2(2859) }, { AOM_CDF2(980) } },
{ { AOM_CDF2(31823) }, { AOM_CDF2(3400) }, { AOM_CDF2(781) } },
{ { AOM_CDF2(32030) }, { AOM_CDF2(3561) }, { AOM_CDF2(904) } },
{ { AOM_CDF2(32309) }, { AOM_CDF2(7337) }, { AOM_CDF2(1462) } },
{ { AOM_CDF2(32265) }, { AOM_CDF2(4015) }, { AOM_CDF2(1521) } },
{ { AOM_CDF2(32450) }, { AOM_CDF2(7946) }, { AOM_CDF2(129) } }
};
static const aom_cdf_prob
default_palette_uv_mode_cdf[PALETTE_UV_MODE_CONTEXTS][CDF_SIZE(2)] = {
{ AOM_CDF2(32461) }, { AOM_CDF2(21488) }
};
static const aom_cdf_prob default_palette_y_color_index_cdf
[PALETTE_SIZES][PALETTE_COLOR_INDEX_CONTEXTS][CDF_SIZE(PALETTE_COLORS)] = {
{
{ AOM_CDF2(28710) },
{ AOM_CDF2(16384) },
{ AOM_CDF2(10553) },
{ AOM_CDF2(27036) },
{ AOM_CDF2(31603) },
},
{
{ AOM_CDF3(27877, 30490) },
{ AOM_CDF3(11532, 25697) },
{ AOM_CDF3(6544, 30234) },
{ AOM_CDF3(23018, 28072) },
{ AOM_CDF3(31915, 32385) },
},
{
{ AOM_CDF4(25572, 28046, 30045) },
{ AOM_CDF4(9478, 21590, 27256) },
{ AOM_CDF4(7248, 26837, 29824) },
{ AOM_CDF4(19167, 24486, 28349) },
{ AOM_CDF4(31400, 31825, 32250) },
},
{
{ AOM_CDF5(24779, 26955, 28576, 30282) },
{ AOM_CDF5(8669, 20364, 24073, 28093) },
{ AOM_CDF5(4255, 27565, 29377, 31067) },
{ AOM_CDF5(19864, 23674, 26716, 29530) },
{ AOM_CDF5(31646, 31893, 32147, 32426) },
},
{
{ AOM_CDF6(23132, 25407, 26970, 28435, 30073) },
{ AOM_CDF6(7443, 17242, 20717, 24762, 27982) },
{ AOM_CDF6(6300, 24862, 26944, 28784, 30671) },
{ AOM_CDF6(18916, 22895, 25267, 27435, 29652) },
{ AOM_CDF6(31270, 31550, 31808, 32059, 32353) },
},
{
{ AOM_CDF7(23105, 25199, 26464, 27684, 28931, 30318) },
{ AOM_CDF7(6950, 15447, 18952, 22681, 25567, 28563) },
{ AOM_CDF7(7560, 23474, 25490, 27203, 28921, 30708) },
{ AOM_CDF7(18544, 22373, 24457, 26195, 28119, 30045) },
{ AOM_CDF7(31198, 31451, 31670, 31882, 32123, 32391) },
},
{
{ AOM_CDF8(21689, 23883, 25163, 26352, 27506, 28827, 30195) },
{ AOM_CDF8(6892, 15385, 17840, 21606, 24287, 26753, 29204) },
{ AOM_CDF8(5651, 23182, 25042, 26518, 27982, 29392, 30900) },
{ AOM_CDF8(19349, 22578, 24418, 25994, 27524, 29031, 30448) },
{ AOM_CDF8(31028, 31270, 31504, 31705, 31927, 32153, 32392) },
},
};
static const aom_cdf_prob default_palette_uv_color_index_cdf
[PALETTE_SIZES][PALETTE_COLOR_INDEX_CONTEXTS][CDF_SIZE(PALETTE_COLORS)] = {
{
{ AOM_CDF2(29089) },
{ AOM_CDF2(16384) },
{ AOM_CDF2(8713) },
{ AOM_CDF2(29257) },
{ AOM_CDF2(31610) },
},
{
{ AOM_CDF3(25257, 29145) },
{ AOM_CDF3(12287, 27293) },
{ AOM_CDF3(7033, 27960) },
{ AOM_CDF3(20145, 25405) },
{ AOM_CDF3(30608, 31639) },
},
{
{ AOM_CDF4(24210, 27175, 29903) },
{ AOM_CDF4(9888, 22386, 27214) },
{ AOM_CDF4(5901, 26053, 29293) },
{ AOM_CDF4(18318, 22152, 28333) },
{ AOM_CDF4(30459, 31136, 31926) },
},
{
{ AOM_CDF5(22980, 25479, 27781, 29986) },
{ AOM_CDF5(8413, 21408, 24859, 28874) },
{ AOM_CDF5(2257, 29449, 30594, 31598) },
{ AOM_CDF5(19189, 21202, 25915, 28620) },
{ AOM_CDF5(31844, 32044, 32281, 32518) },
},
{
{ AOM_CDF6(22217, 24567, 26637, 28683, 30548) },
{ AOM_CDF6(7307, 16406, 19636, 24632, 28424) },
{ AOM_CDF6(4441, 25064, 26879, 28942, 30919) },
{ AOM_CDF6(17210, 20528, 23319, 26750, 29582) },
{ AOM_CDF6(30674, 30953, 31396, 31735, 32207) },
},
{
{ AOM_CDF7(21239, 23168, 25044, 26962, 28705, 30506) },
{ AOM_CDF7(6545, 15012, 18004, 21817, 25503, 28701) },
{ AOM_CDF7(3448, 26295, 27437, 28704, 30126, 31442) },
{ AOM_CDF7(15889, 18323, 21704, 24698, 26976, 29690) },
{ AOM_CDF7(30988, 31204, 31479, 31734, 31983, 32325) },
},
{
{ AOM_CDF8(21442, 23288, 24758, 26246, 27649, 28980, 30563) },
{ AOM_CDF8(5863, 14933, 17552, 20668, 23683, 26411, 29273) },
{ AOM_CDF8(3415, 25810, 26877, 27990, 29223, 30394, 31618) },
{ AOM_CDF8(17965, 20084, 22232, 23974, 26274, 28402, 30390) },
{ AOM_CDF8(31190, 31329, 31516, 31679, 31825, 32026, 32322) },
},
};
static const aom_cdf_prob
default_txfm_partition_cdf[TXFM_PARTITION_CONTEXTS][CDF_SIZE(2)] = {
{ AOM_CDF2(28581) }, { AOM_CDF2(23846) }, { AOM_CDF2(20847) },
{ AOM_CDF2(24315) }, { AOM_CDF2(18196) }, { AOM_CDF2(12133) },
{ AOM_CDF2(18791) }, { AOM_CDF2(10887) }, { AOM_CDF2(11005) },
{ AOM_CDF2(27179) }, { AOM_CDF2(20004) }, { AOM_CDF2(11281) },
{ AOM_CDF2(26549) }, { AOM_CDF2(19308) }, { AOM_CDF2(14224) },
{ AOM_CDF2(28015) }, { AOM_CDF2(21546) }, { AOM_CDF2(14400) },
{ AOM_CDF2(28165) }, { AOM_CDF2(22401) }, { AOM_CDF2(16088) }
};
static const aom_cdf_prob default_skip_txfm_cdfs[SKIP_CONTEXTS][CDF_SIZE(2)] = {
{ AOM_CDF2(31671) }, { AOM_CDF2(16515) }, { AOM_CDF2(4576) }
};
static const aom_cdf_prob default_skip_mode_cdfs[SKIP_MODE_CONTEXTS][CDF_SIZE(
2)] = { { AOM_CDF2(32621) }, { AOM_CDF2(20708) }, { AOM_CDF2(8127) } };
static const aom_cdf_prob
default_compound_idx_cdfs[COMP_INDEX_CONTEXTS][CDF_SIZE(2)] = {
{ AOM_CDF2(18244) }, { AOM_CDF2(12865) }, { AOM_CDF2(7053) },
{ AOM_CDF2(13259) }, { AOM_CDF2(9334) }, { AOM_CDF2(4644) }
};
static const aom_cdf_prob
default_comp_group_idx_cdfs[COMP_GROUP_IDX_CONTEXTS][CDF_SIZE(2)] = {
{ AOM_CDF2(26607) }, { AOM_CDF2(22891) }, { AOM_CDF2(18840) },
{ AOM_CDF2(24594) }, { AOM_CDF2(19934) }, { AOM_CDF2(22674) }
};
static const aom_cdf_prob default_intrabc_cdf[CDF_SIZE(2)] = { AOM_CDF2(
30531) };
static const aom_cdf_prob default_filter_intra_mode_cdf[CDF_SIZE(
FILTER_INTRA_MODES)] = { AOM_CDF5(8949, 12776, 17211, 29558) };
static const aom_cdf_prob default_filter_intra_cdfs[BLOCK_SIZES_ALL][CDF_SIZE(
2)] = { { AOM_CDF2(4621) }, { AOM_CDF2(6743) }, { AOM_CDF2(5893) },
{ AOM_CDF2(7866) }, { AOM_CDF2(12551) }, { AOM_CDF2(9394) },
{ AOM_CDF2(12408) }, { AOM_CDF2(14301) }, { AOM_CDF2(12756) },
{ AOM_CDF2(22343) }, { AOM_CDF2(16384) }, { AOM_CDF2(16384) },
{ AOM_CDF2(16384) }, { AOM_CDF2(16384) }, { AOM_CDF2(16384) },
{ AOM_CDF2(16384) }, { AOM_CDF2(12770) }, { AOM_CDF2(10368) },
{ AOM_CDF2(20229) }, { AOM_CDF2(18101) }, { AOM_CDF2(16384) },
{ AOM_CDF2(16384) } };
static const aom_cdf_prob default_switchable_restore_cdf[CDF_SIZE(
RESTORE_SWITCHABLE_TYPES)] = { AOM_CDF3(9413, 22581) };
static const aom_cdf_prob default_wiener_restore_cdf[CDF_SIZE(2)] = { AOM_CDF2(
11570) };
static const aom_cdf_prob default_sgrproj_restore_cdf[CDF_SIZE(2)] = { AOM_CDF2(
16855) };
static const aom_cdf_prob default_delta_q_cdf[CDF_SIZE(DELTA_Q_PROBS + 1)] = {
AOM_CDF4(28160, 32120, 32677)
};
static const aom_cdf_prob default_delta_lf_multi_cdf[FRAME_LF_COUNT][CDF_SIZE(
DELTA_LF_PROBS + 1)] = { { AOM_CDF4(28160, 32120, 32677) },
{ AOM_CDF4(28160, 32120, 32677) },
{ AOM_CDF4(28160, 32120, 32677) },
{ AOM_CDF4(28160, 32120, 32677) } };
static const aom_cdf_prob default_delta_lf_cdf[CDF_SIZE(DELTA_LF_PROBS + 1)] = {
AOM_CDF4(28160, 32120, 32677)
};
static const aom_cdf_prob
default_segment_pred_cdf[SEG_TEMPORAL_PRED_CTXS][CDF_SIZE(2)] = {
{ AOM_CDF2(128 * 128) }, { AOM_CDF2(128 * 128) }, { AOM_CDF2(128 * 128) }
};
static const aom_cdf_prob
default_spatial_pred_seg_tree_cdf[SPATIAL_PREDICTION_PROBS][CDF_SIZE(
MAX_SEGMENTS)] = {
{
AOM_CDF8(5622, 7893, 16093, 18233, 27809, 28373, 32533),
},
{
AOM_CDF8(14274, 18230, 22557, 24935, 29980, 30851, 32344),
},
{
AOM_CDF8(27527, 28487, 28723, 28890, 32397, 32647, 32679),
},
};
static const aom_cdf_prob default_tx_size_cdf[MAX_TX_CATS][TX_SIZE_CONTEXTS]
[CDF_SIZE(MAX_TX_DEPTH + 1)] = {
{ { AOM_CDF2(19968) },
{ AOM_CDF2(19968) },
{ AOM_CDF2(24320) } },
{ { AOM_CDF3(12272, 30172) },
{ AOM_CDF3(12272, 30172) },
{ AOM_CDF3(18677, 30848) } },
{ { AOM_CDF3(12986, 15180) },
{ AOM_CDF3(12986, 15180) },
{ AOM_CDF3(24302, 25602) } },
{ { AOM_CDF3(5782, 11475) },
{ AOM_CDF3(5782, 11475) },
{ AOM_CDF3(16803, 22759) } },
};
#define MAX_COLOR_CONTEXT_HASH 8
// Negative values are invalid
static const int palette_color_index_context_lookup[MAX_COLOR_CONTEXT_HASH +
1] = { -1, -1, 0, -1, -1,
4, 3, 2, 1 };
#define NUM_PALETTE_NEIGHBORS 3 // left, top-left and top.
int av1_get_palette_color_index_context(const uint8_t *color_map, int stride,
int r, int c, int palette_size,
uint8_t *color_order, int *color_idx) {
assert(palette_size <= PALETTE_MAX_SIZE);
assert(r > 0 || c > 0);
// Get color indices of neighbors.
int color_neighbors[NUM_PALETTE_NEIGHBORS];
color_neighbors[0] = (c - 1 >= 0) ? color_map[r * stride + c - 1] : -1;
color_neighbors[1] =
(c - 1 >= 0 && r - 1 >= 0) ? color_map[(r - 1) * stride + c - 1] : -1;
color_neighbors[2] = (r - 1 >= 0) ? color_map[(r - 1) * stride + c] : -1;
// The +10 below should not be needed. But we get a warning "array subscript
// is above array bounds [-Werror=array-bounds]" without it, possibly due to
// this (or similar) bug: https://gcc.gnu.org/bugzilla/show_bug.cgi?id=59124
int scores[PALETTE_MAX_SIZE + 10] = { 0 };
int i;
static const int weights[NUM_PALETTE_NEIGHBORS] = { 2, 1, 2 };
for (i = 0; i < NUM_PALETTE_NEIGHBORS; ++i) {
if (color_neighbors[i] >= 0) {
scores[color_neighbors[i]] += weights[i];
}
}
int inverse_color_order[PALETTE_MAX_SIZE];
for (i = 0; i < PALETTE_MAX_SIZE; ++i) {
color_order[i] = i;
inverse_color_order[i] = i;
}
// Get the top NUM_PALETTE_NEIGHBORS scores (sorted from large to small).
for (i = 0; i < NUM_PALETTE_NEIGHBORS; ++i) {
int max = scores[i];
int max_idx = i;
for (int j = i + 1; j < palette_size; ++j) {
if (scores[j] > max) {
max = scores[j];
max_idx = j;
}
}
if (max_idx != i) {
// Move the score at index 'max_idx' to index 'i', and shift the scores
// from 'i' to 'max_idx - 1' by 1.
const int max_score = scores[max_idx];
const uint8_t max_color_order = color_order[max_idx];
for (int k = max_idx; k > i; --k) {
scores[k] = scores[k - 1];
color_order[k] = color_order[k - 1];
inverse_color_order[color_order[k]] = k;
}
scores[i] = max_score;
color_order[i] = max_color_order;
inverse_color_order[color_order[i]] = i;
}
}
if (color_idx != NULL)
*color_idx = inverse_color_order[color_map[r * stride + c]];
// Get hash value of context.
int color_index_ctx_hash = 0;
static const int hash_multipliers[NUM_PALETTE_NEIGHBORS] = { 1, 2, 2 };
for (i = 0; i < NUM_PALETTE_NEIGHBORS; ++i) {
color_index_ctx_hash += scores[i] * hash_multipliers[i];
}
assert(color_index_ctx_hash > 0);
assert(color_index_ctx_hash <= MAX_COLOR_CONTEXT_HASH);
// Lookup context from hash.
const int color_index_ctx =
palette_color_index_context_lookup[color_index_ctx_hash];
assert(color_index_ctx >= 0);
assert(color_index_ctx < PALETTE_COLOR_INDEX_CONTEXTS);
return color_index_ctx;
}
int av1_fast_palette_color_index_context(const uint8_t *color_map, int stride,
int r, int c, int *color_idx) {
assert(r > 0 || c > 0);
// This goes in the order of left, top, and top-left. This has the advantage
// that unless anything here are not distinct or invalid, this will already
// be in sorted order. Furthermore, if either of the first two are not
// invalid, we know the last one is also invalid.
int color_neighbors[NUM_PALETTE_NEIGHBORS];
color_neighbors[0] = (c - 1 >= 0) ? color_map[r * stride + c - 1] : -1;
color_neighbors[1] = (r - 1 >= 0) ? color_map[(r - 1) * stride + c] : -1;
color_neighbors[2] =
(c - 1 >= 0 && r - 1 >= 0) ? color_map[(r - 1) * stride + c - 1] : -1;
// Since our array is so small, using a couple if statements is faster
int scores[NUM_PALETTE_NEIGHBORS] = { 2, 2, 1 };
if (color_neighbors[0] == color_neighbors[1]) {
scores[0] += scores[1];
color_neighbors[1] = -1;
if (color_neighbors[0] == color_neighbors[2]) {
scores[0] += scores[2];
color_neighbors[2] = -1;
}
} else if (color_neighbors[0] == color_neighbors[2]) {
scores[0] += scores[2];
color_neighbors[2] = -1;
} else if (color_neighbors[1] == color_neighbors[2]) {
scores[1] += scores[2];
color_neighbors[2] = -1;
}
int color_rank[NUM_PALETTE_NEIGHBORS] = { -1, -1, -1 };
int score_rank[NUM_PALETTE_NEIGHBORS] = { 0, 0, 0 };
int num_valid_colors = 0;
for (int idx = 0; idx < NUM_PALETTE_NEIGHBORS; idx++) {
if (color_neighbors[idx] != -1) {
score_rank[num_valid_colors] = scores[idx];
color_rank[num_valid_colors] = color_neighbors[idx];
num_valid_colors++;
}
}
// Sort everything
// We need to swap the first two elements if they have the same score but
// the color indices are not in the right order
if (score_rank[0] < score_rank[1] ||
(score_rank[0] == score_rank[1] && color_rank[0] > color_rank[1])) {
const int tmp_score = score_rank[0];
const int tmp_color = color_rank[0];
score_rank[0] = score_rank[1];
color_rank[0] = color_rank[1];
score_rank[1] = tmp_score;
color_rank[1] = tmp_color;
}
if (score_rank[0] < score_rank[2]) {
const int tmp_score = score_rank[0];
const int tmp_color = color_rank[0];
score_rank[0] = score_rank[2];
color_rank[0] = color_rank[2];
score_rank[2] = tmp_score;
color_rank[2] = tmp_color;
}
if (score_rank[1] < score_rank[2]) {
const int tmp_score = score_rank[1];
const int tmp_color = color_rank[1];
score_rank[1] = score_rank[2];
color_rank[1] = color_rank[2];
score_rank[2] = tmp_score;
color_rank[2] = tmp_color;
}
if (color_idx != NULL) {
// If any of the neighbor color has higher index than current color index,
// then we move up by 1 unless the current color is the same as one of the
// neighbor
const int current_color = *color_idx = color_map[r * stride + c];
int same_neighbor = -1;
for (int idx = 0; idx < NUM_PALETTE_NEIGHBORS; idx++) {
if (color_rank[idx] > current_color) {
(*color_idx)++;
} else if (color_rank[idx] == current_color) {
same_neighbor = idx;
}
}
if (same_neighbor != -1) {
*color_idx = same_neighbor;
}
}
// Get hash value of context.
int color_index_ctx_hash = 0;
static const int hash_multipliers[NUM_PALETTE_NEIGHBORS] = { 1, 2, 2 };
for (int idx = 0; idx < NUM_PALETTE_NEIGHBORS; ++idx) {
color_index_ctx_hash += score_rank[idx] * hash_multipliers[idx];
}
assert(color_index_ctx_hash > 0);
assert(color_index_ctx_hash <= MAX_COLOR_CONTEXT_HASH);
// Lookup context from hash.
const int color_index_ctx =
palette_color_index_context_lookup[color_index_ctx_hash];
assert(color_index_ctx >= 0);
assert(color_index_ctx < PALETTE_COLOR_INDEX_CONTEXTS);
return color_index_ctx;
}
#undef NUM_PALETTE_NEIGHBORS
#undef MAX_COLOR_CONTEXT_HASH
void av1_init_mode_probs(FRAME_CONTEXT *fc) {
av1_copy(fc->palette_y_size_cdf, default_palette_y_size_cdf);
av1_copy(fc->palette_uv_size_cdf, default_palette_uv_size_cdf);
av1_copy(fc->palette_y_color_index_cdf, default_palette_y_color_index_cdf);
av1_copy(fc->palette_uv_color_index_cdf, default_palette_uv_color_index_cdf);
av1_copy(fc->kf_y_cdf, default_kf_y_mode_cdf);
av1_copy(fc->angle_delta_cdf, default_angle_delta_cdf);
av1_copy(fc->comp_inter_cdf, default_comp_inter_cdf);
av1_copy(fc->comp_ref_type_cdf, default_comp_ref_type_cdf);
av1_copy(fc->uni_comp_ref_cdf, default_uni_comp_ref_cdf);
av1_copy(fc->palette_y_mode_cdf, default_palette_y_mode_cdf);
av1_copy(fc->palette_uv_mode_cdf, default_palette_uv_mode_cdf);
av1_copy(fc->comp_ref_cdf, default_comp_ref_cdf);
av1_copy(fc->comp_bwdref_cdf, default_comp_bwdref_cdf);
av1_copy(fc->single_ref_cdf, default_single_ref_cdf);
av1_copy(fc->txfm_partition_cdf, default_txfm_partition_cdf);
av1_copy(fc->compound_index_cdf, default_compound_idx_cdfs);
av1_copy(fc->comp_group_idx_cdf, default_comp_group_idx_cdfs);
av1_copy(fc->newmv_cdf, default_newmv_cdf);
av1_copy(fc->zeromv_cdf, default_zeromv_cdf);
av1_copy(fc->refmv_cdf, default_refmv_cdf);
av1_copy(fc->drl_cdf, default_drl_cdf);
av1_copy(fc->motion_mode_cdf, default_motion_mode_cdf);
av1_copy(fc->obmc_cdf, default_obmc_cdf);
av1_copy(fc->inter_compound_mode_cdf, default_inter_compound_mode_cdf);
av1_copy(fc->compound_type_cdf, default_compound_type_cdf);
av1_copy(fc->wedge_idx_cdf, default_wedge_idx_cdf);
av1_copy(fc->interintra_cdf, default_interintra_cdf);
av1_copy(fc->wedge_interintra_cdf, default_wedge_interintra_cdf);
av1_copy(fc->interintra_mode_cdf, default_interintra_mode_cdf);
av1_copy(fc->seg.pred_cdf, default_segment_pred_cdf);
av1_copy(fc->filter_intra_cdfs, default_filter_intra_cdfs);
av1_copy(fc->filter_intra_mode_cdf, default_filter_intra_mode_cdf);
av1_copy(fc->switchable_restore_cdf, default_switchable_restore_cdf);
av1_copy(fc->wiener_restore_cdf, default_wiener_restore_cdf);
av1_copy(fc->sgrproj_restore_cdf, default_sgrproj_restore_cdf);
av1_copy(fc->y_mode_cdf, default_if_y_mode_cdf);
av1_copy(fc->uv_mode_cdf, default_uv_mode_cdf);
av1_copy(fc->switchable_interp_cdf, default_switchable_interp_cdf);
av1_copy(fc->partition_cdf, default_partition_cdf);
av1_copy(fc->intra_ext_tx_cdf, default_intra_ext_tx_cdf);
av1_copy(fc->inter_ext_tx_cdf, default_inter_ext_tx_cdf);
av1_copy(fc->skip_mode_cdfs, default_skip_mode_cdfs);
av1_copy(fc->skip_txfm_cdfs, default_skip_txfm_cdfs);
av1_copy(fc->intra_inter_cdf, default_intra_inter_cdf);
for (int i = 0; i < SPATIAL_PREDICTION_PROBS; i++)
av1_copy(fc->seg.spatial_pred_seg_cdf[i],
default_spatial_pred_seg_tree_cdf[i]);
av1_copy(fc->tx_size_cdf, default_tx_size_cdf);
av1_copy(fc->delta_q_cdf, default_delta_q_cdf);
av1_copy(fc->delta_lf_cdf, default_delta_lf_cdf);
av1_copy(fc->delta_lf_multi_cdf, default_delta_lf_multi_cdf);
av1_copy(fc->cfl_sign_cdf, default_cfl_sign_cdf);
av1_copy(fc->cfl_alpha_cdf, default_cfl_alpha_cdf);
av1_copy(fc->intrabc_cdf, default_intrabc_cdf);
}
void av1_set_default_ref_deltas(int8_t *ref_deltas) {
assert(ref_deltas != NULL);
ref_deltas[INTRA_FRAME] = 1;
ref_deltas[LAST_FRAME] = 0;
ref_deltas[LAST2_FRAME] = ref_deltas[LAST_FRAME];
ref_deltas[LAST3_FRAME] = ref_deltas[LAST_FRAME];
ref_deltas[BWDREF_FRAME] = ref_deltas[LAST_FRAME];
ref_deltas[GOLDEN_FRAME] = -1;
ref_deltas[ALTREF2_FRAME] = -1;
ref_deltas[ALTREF_FRAME] = -1;
}
void av1_set_default_mode_deltas(int8_t *mode_deltas) {
assert(mode_deltas != NULL);
mode_deltas[0] = 0;
mode_deltas[1] = 0;
}
static void set_default_lf_deltas(struct loopfilter *lf) {
lf->mode_ref_delta_enabled = 1;
lf->mode_ref_delta_update = 1;
av1_set_default_ref_deltas(lf->ref_deltas);
av1_set_default_mode_deltas(lf->mode_deltas);
}
void av1_setup_frame_contexts(AV1_COMMON *cm) {
// Store the frame context into a special slot (not associated with any
// reference buffer), so that we can set up cm->pre_fc correctly later
// This function must ONLY be called when cm->fc has been initialized with
// default probs, either by av1_setup_past_independence or after manually
// initializing them
*cm->default_frame_context = *cm->fc;
// TODO(jack.haughton@argondesign.com): don't think this should be necessary,
// but could do with fuller testing
if (cm->tiles.large_scale) {
for (int i = LAST_FRAME; i <= ALTREF_FRAME; ++i) {
RefCntBuffer *const buf = get_ref_frame_buf(cm, i);
if (buf != NULL) buf->frame_context = *cm->fc;
}
for (int i = 0; i < FRAME_BUFFERS; ++i)
cm->buffer_pool->frame_bufs[i].frame_context = *cm->fc;
}
}
void av1_setup_past_independence(AV1_COMMON *cm) {
// Reset the segment feature data to the default stats:
// Features disabled, 0, with delta coding (Default state).
av1_clearall_segfeatures(&cm->seg);
if (cm->cur_frame->seg_map) {
memset(cm->cur_frame->seg_map, 0,
(cm->cur_frame->mi_rows * cm->cur_frame->mi_cols));
}
// reset mode ref deltas
av1_set_default_ref_deltas(cm->cur_frame->ref_deltas);
av1_set_default_mode_deltas(cm->cur_frame->mode_deltas);
set_default_lf_deltas(&cm->lf);
av1_default_coef_probs(cm);
av1_init_mode_probs(cm->fc);
av1_init_mv_probs(cm);
cm->fc->initialized = 1;
av1_setup_frame_contexts(cm);
}