diff options
author | Paul B Mahol <onemda@gmail.com> | 2017-02-04 21:11:48 +0100 |
---|---|---|
committer | Paul B Mahol <onemda@gmail.com> | 2018-09-23 15:25:50 +0200 |
commit | 009597ca33039b007f38c09a896cc14a38c8bcf0 (patch) | |
tree | 52caa6dc1e2ab88d64f14ef870b94fd08bce7587 | |
parent | 59256dea146d2b6c163f0e3205adda0cbc21c0c4 (diff) | |
download | ffmpeg-009597ca33039b007f38c09a896cc14a38c8bcf0.tar.gz |
avcodec: add native iLBC decoder
Signed-off-by: Paul B Mahol <onemda@gmail.com>
-rw-r--r-- | Changelog | 1 | ||||
-rw-r--r-- | libavcodec/Makefile | 1 | ||||
-rw-r--r-- | libavcodec/allcodecs.c | 1 | ||||
-rw-r--r-- | libavcodec/ilbcdata.h | 243 | ||||
-rw-r--r-- | libavcodec/ilbcdec.c | 1487 | ||||
-rw-r--r-- | libavcodec/version.h | 2 | ||||
-rw-r--r-- | tests/ref/fate/source | 2 |
7 files changed, 1736 insertions, 1 deletions
@@ -30,6 +30,7 @@ version <next>: - amultiply filter - Block-Matching 3d (bm3d) denoising filter - acrossover filter +- ilbc decoder version 4.0: diff --git a/libavcodec/Makefile b/libavcodec/Makefile index ba2158f997..411c33da84 100644 --- a/libavcodec/Makefile +++ b/libavcodec/Makefile @@ -384,6 +384,7 @@ OBJS-$(CONFIG_HUFFYUV_ENCODER) += huffyuv.o huffyuvenc.o OBJS-$(CONFIG_IDCIN_DECODER) += idcinvideo.o OBJS-$(CONFIG_IDF_DECODER) += bintext.o cga_data.o OBJS-$(CONFIG_IFF_ILBM_DECODER) += iff.o +OBJS-$(CONFIG_ILBC_DECODER) += ilbcdec.o OBJS-$(CONFIG_IMC_DECODER) += imc.o OBJS-$(CONFIG_IMM4_DECODER) += imm4.o OBJS-$(CONFIG_INDEO2_DECODER) += indeo2.o diff --git a/libavcodec/allcodecs.c b/libavcodec/allcodecs.c index 7dbfcb3dda..c0b4d56d0d 100644 --- a/libavcodec/allcodecs.c +++ b/libavcodec/allcodecs.c @@ -424,6 +424,7 @@ extern AVCodec ff_g729_decoder; extern AVCodec ff_gsm_decoder; extern AVCodec ff_gsm_ms_decoder; extern AVCodec ff_iac_decoder; +extern AVCodec ff_ilbc_decoder; extern AVCodec ff_imc_decoder; extern AVCodec ff_interplay_acm_decoder; extern AVCodec ff_mace3_decoder; diff --git a/libavcodec/ilbcdata.h b/libavcodec/ilbcdata.h new file mode 100644 index 0000000000..8d145bc183 --- /dev/null +++ b/libavcodec/ilbcdata.h @@ -0,0 +1,243 @@ +/* + * Copyright (c) 2013, The WebRTC project authors. All rights reserved. + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions are + * met: + * + * * Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * + * * Redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in + * the documentation and/or other materials provided with the + * distribution. + * + * * Neither the name of Google nor the names of its contributors may + * be used to endorse or promote products derived from this software + * without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS + * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT + * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR + * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT + * HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, + * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT + * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, + * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY + * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE + * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ + +#ifndef AVCODEC_ILBCDATA_H +#define AVCODEC_ILBCDATA_H + +#include "libavutil/common.h" + +static const uint8_t lsf_dim_codebook[] = { 3, 3, 4 }; +static const uint8_t lsf_size_codebook[] = { 64, 128, 128 }; +static const int16_t lsf_weight_20ms[] = { 12288, 8192, 4096, 0 }; +static const int16_t lsf_weight_30ms[] = { 8192, 16384, 10923, 5461, 0, 0 }; + +static const int16_t hp_out_coeffs[] = { 3849, -7699, 3849, 7918, -3833 }; + +static const int16_t kPlcPfSlope[] = { 26667, 18729, 13653, 10258, 7901, 6214 }; + +static const int16_t kPlcPitchFact[] = { 0, 5462, 10922, 16384, 21846, 27306 }; + +static const int16_t kCbFiltersRev[] = { + -140, 446, -755, 3302, 2922, -590, 343, -138 +}; + +static const int16_t kPlcPerSqr[] = { 839, 1343, 2048, 2998, 4247, 5849 }; + +static const int16_t alpha[] = { + 6554, 13107, 19661, 26214 +}; + +static const int16_t kLpcChirpSyntDenum[] = { + 32767, 29573, 26690, 24087, 21739, 19619, 17707, 15980, 14422, 13016, 11747 +}; + +static const int16_t LpcChirpWeightDenum[] = { + 32767, 13835, 5841, 2466, 1041, 440, 186, 78, 33, 14, 6 +}; + +static const int16_t cos_tbl[64] = { + 32767, 32729, 32610, 32413, 32138, 31786, 31357, 30853, + 30274, 29622, 28899, 28106, 27246, 26320, 25330, 24279, + 23170, 22006, 20788, 19520, 18205, 16846, 15447, 14010, + 12540, 11039, 9512, 7962, 6393, 4808, 3212, 1608, + 0, -1608, -3212, -4808, -6393, -7962, -9512, -11039, + -12540, -14010, -15447, -16846, -18205, -19520, -20788, -22006, + -23170, -24279, -25330, -26320, -27246, -28106, -28899, -29622, + -30274, -30853, -31357, -31786, -32138, -32413, -32610, -32729, +}; + +static const int16_t cos_derivative_tbl[64] = { + -632, -1893, -3150, -4399, -5638, -6863, -8072, -9261, + -10428, -11570, -12684, -13767, -14817, -15832, -16808, -17744, + -18637, -19486, -20287, -21039, -21741, -22390, -22986, -23526, + -24009, -24435, -24801, -25108, -25354, -25540, -25664, -25726, + -25726, -25664, -25540, -25354, -25108, -24801, -24435, -24009, + -23526, -22986, -22390, -21741, -21039, -20287, -19486, -18637, + -17744, -16808, -15832, -14817, -13767, -12684, -11570, -10428, + -9261, -8072, -6863, -5638, -4399, -3150, -1893, -632 +}; + +static const int16_t lsf_codebook[64 * 3 + 128 * 3 + 128 * 4] = { + 1273, 2238, 3696, 3199, 5309, 8209, 3606, 5671, 7829, + 2815, 5262, 8778, 2608, 4027, 5493, 1582, 3076, 5945, + 2983, 4181, 5396, 2437, 4322, 6902, 1861, 2998, 4613, + 2007, 3250, 5214, 1388, 2459, 4262, 2563, 3805, 5269, + 2036, 3522, 5129, 1935, 4025, 6694, 2744, 5121, 7338, + 2810, 4248, 5723, 3054, 5405, 7745, 1449, 2593, 4763, + 3411, 5128, 6596, 2484, 4659, 7496, 1668, 2879, 4818, + 1812, 3072, 5036, 1638, 2649, 3900, 2464, 3550, 4644, + 1853, 2900, 4158, 2458, 4163, 5830, 2556, 4036, 6254, + 2703, 4432, 6519, 3062, 4953, 7609, 1725, 3703, 6187, + 2221, 3877, 5427, 2339, 3579, 5197, 2021, 4633, 7037, + 2216, 3328, 4535, 2961, 4739, 6667, 2807, 3955, 5099, + 2788, 4501, 6088, 1642, 2755, 4431, 3341, 5282, 7333, + 2414, 3726, 5727, 1582, 2822, 5269, 2259, 3447, 4905, + 3117, 4986, 7054, 1825, 3491, 5542, 3338, 5736, 8627, + 1789, 3090, 5488, 2566, 3720, 4923, 2846, 4682, 7161, + 1950, 3321, 5976, 1834, 3383, 6734, 3238, 4769, 6094, + 2031, 3978, 5903, 1877, 4068, 7436, 2131, 4644, 8296, + 2764, 5010, 8013, 2194, 3667, 6302, 2053, 3127, 4342, + 3523, 6595, 10010, 3134, 4457, 5748, 3142, 5819, 9414, + 2223, 4334, 6353, 2022, 3224, 4822, 2186, 3458, 5544, + 2552, 4757, 6870, 10905, 12917, 14578, 9503, 11485, 14485, + 9518, 12494, 14052, 6222, 7487, 9174, 7759, 9186, 10506, + 8315, 12755, 14786, 9609, 11486, 13866, 8909, 12077, 13643, + 7369, 9054, 11520, 9408, 12163, 14715, 6436, 9911, 12843, + 7109, 9556, 11884, 7557, 10075, 11640, 6482, 9202, 11547, + 6463, 7914, 10980, 8611, 10427, 12752, 7101, 9676, 12606, + 7428, 11252, 13172, 10197, 12955, 15842, 7487, 10955, 12613, + 5575, 7858, 13621, 7268, 11719, 14752, 7476, 11744, 13795, + 7049, 8686, 11922, 8234, 11314, 13983, 6560, 11173, 14984, + 6405, 9211, 12337, 8222, 12054, 13801, 8039, 10728, 13255, + 10066, 12733, 14389, 6016, 7338, 10040, 6896, 8648, 10234, + 7538, 9170, 12175, 7327, 12608, 14983, 10516, 12643, 15223, + 5538, 7644, 12213, 6728, 12221, 14253, 7563, 9377, 12948, + 8661, 11023, 13401, 7280, 8806, 11085, 7723, 9793, 12333, + 12225, 14648, 16709, 8768, 13389, 15245, 10267, 12197, 13812, + 5301, 7078, 11484, 7100, 10280, 11906, 8716, 12555, 14183, + 9567, 12464, 15434, 7832, 12305, 14300, 7608, 10556, 12121, + 8913, 11311, 12868, 7414, 9722, 11239, 8666, 11641, 13250, + 9079, 10752, 12300, 8024, 11608, 13306, 10453, 13607, 16449, + 8135, 9573, 10909, 6375, 7741, 10125, 10025, 12217, 14874, + 6985, 11063, 14109, 9296, 13051, 14642, 8613, 10975, 12542, + 6583, 10414, 13534, 6191, 9368, 13430, 5742, 6859, 9260, + 7723, 9813, 13679, 8137, 11291, 12833, 6562, 8973, 10641, + 6062, 8462, 11335, 6928, 8784, 12647, 7501, 8784, 10031, + 8372, 10045, 12135, 8191, 9864, 12746, 5917, 7487, 10979, + 5516, 6848, 10318, 6819, 9899, 11421, 7882, 12912, 15670, + 9558, 11230, 12753, 7752, 9327, 11472, 8479, 9980, 11358, + 11418, 14072, 16386, 7968, 10330, 14423, 8423, 10555, 12162, + 6337, 10306, 14391, 8850, 10879, 14276, 6750, 11885, 15710, + 7037, 8328, 9764, 6914, 9266, 13476, 9746, 13949, 15519, + 11032, 14444, 16925, 8032, 10271, 11810, 10962, 13451, 15833, + 10021, 11667, 13324, 6273, 8226, 12936, 8543, 10397, 13496, + 7936, 10302, 12745, 6769, 8138, 10446, 6081, 7786, 11719, + 8637, 11795, 14975, 8790, 10336, 11812, 7040, 8490, 10771, + 7338, 10381, 13153, 6598, 7888, 9358, 6518, 8237, 12030, + 9055, 10763, 12983, 6490, 10009, 12007, 9589, 12023, 13632, + 6867, 9447, 10995, 7930, 9816, 11397, 10241, 13300, 14939, + 5830, 8670, 12387, 9870, 11915, 14247, 9318, 11647, 13272, + 6721, 10836, 12929, 6543, 8233, 9944, 8034, 10854, 12394, + 9112, 11787, 14218, 9302, 11114, 13400, 9022, 11366, 13816, + 6962, 10461, 12480, 11288, 13333, 15222, 7249, 8974, 10547, + 10566, 12336, 14390, 6697, 11339, 13521, 11851, 13944, 15826, + 6847, 8381, 11349, 7509, 9331, 10939, 8029, 9618, 11909, + 13973, 17644, 19647, 22474, 14722, 16522, 20035, 22134, 16305, 18179, 21106, 23048, + 15150, 17948, 21394, 23225, 13582, 15191, 17687, 22333, 11778, 15546, 18458, 21753, + 16619, 18410, 20827, 23559, 14229, 15746, 17907, 22474, 12465, 15327, 20700, 22831, + 15085, 16799, 20182, 23410, 13026, 16935, 19890, 22892, 14310, 16854, 19007, 22944, + 14210, 15897, 18891, 23154, 14633, 18059, 20132, 22899, 15246, 17781, 19780, 22640, + 16396, 18904, 20912, 23035, 14618, 17401, 19510, 21672, 15473, 17497, 19813, 23439, + 18851, 20736, 22323, 23864, 15055, 16804, 18530, 20916, 16490, 18196, 19990, 21939, + 11711, 15223, 21154, 23312, 13294, 15546, 19393, 21472, 12956, 16060, 20610, 22417, + 11628, 15843, 19617, 22501, 14106, 16872, 19839, 22689, 15655, 18192, 20161, 22452, + 12953, 15244, 20619, 23549, 15322, 17193, 19926, 21762, 16873, 18676, 20444, 22359, + 14874, 17871, 20083, 21959, 11534, 14486, 19194, 21857, 17766, 19617, 21338, 23178, + 13404, 15284, 19080, 23136, 15392, 17527, 19470, 21953, 14462, 16153, 17985, 21192, + 17734, 19750, 21903, 23783, 16973, 19096, 21675, 23815, 16597, 18936, 21257, 23461, + 15966, 17865, 20602, 22920, 15416, 17456, 20301, 22972, 18335, 20093, 21732, 23497, + 15548, 17217, 20679, 23594, 15208, 16995, 20816, 22870, 13890, 18015, 20531, 22468, + 13211, 15377, 19951, 22388, 12852, 14635, 17978, 22680, 16002, 17732, 20373, 23544, + 11373, 14134, 19534, 22707, 17329, 19151, 21241, 23462, 15612, 17296, 19362, 22850, + 15422, 19104, 21285, 23164, 13792, 17111, 19349, 21370, 15352, 17876, 20776, 22667, + 15253, 16961, 18921, 22123, 14108, 17264, 20294, 23246, 15785, 17897, 20010, 21822, + 17399, 19147, 20915, 22753, 13010, 15659, 18127, 20840, 16826, 19422, 22218, 24084, + 18108, 20641, 22695, 24237, 18018, 20273, 22268, 23920, 16057, 17821, 21365, 23665, + 16005, 17901, 19892, 23016, 13232, 16683, 21107, 23221, 13280, 16615, 19915, 21829, + 14950, 18575, 20599, 22511, 16337, 18261, 20277, 23216, 14306, 16477, 21203, 23158, + 12803, 17498, 20248, 22014, 14327, 17068, 20160, 22006, 14402, 17461, 21599, 23688, + 16968, 18834, 20896, 23055, 15070, 17157, 20451, 22315, 15419, 17107, 21601, 23946, + 16039, 17639, 19533, 21424, 16326, 19261, 21745, 23673, 16489, 18534, 21658, 23782, + 16594, 18471, 20549, 22807, 18973, 21212, 22890, 24278, 14264, 18674, 21123, 23071, + 15117, 16841, 19239, 23118, 13762, 15782, 20478, 23230, 14111, 15949, 20058, 22354, + 14990, 16738, 21139, 23492, 13735, 16971, 19026, 22158, 14676, 17314, 20232, 22807, + 16196, 18146, 20459, 22339, 14747, 17258, 19315, 22437, 14973, 17778, 20692, 23367, + 15715, 17472, 20385, 22349, 15702, 18228, 20829, 23410, 14428, 16188, 20541, 23630, + 16824, 19394, 21365, 23246, 13069, 16392, 18900, 21121, 12047, 16640, 19463, 21689, + 14757, 17433, 19659, 23125, 15185, 16930, 19900, 22540, 16026, 17725, 19618, 22399, + 16086, 18643, 21179, 23472, 15462, 17248, 19102, 21196, 17368, 20016, 22396, 24096, + 12340, 14475, 19665, 23362, 13636, 16229, 19462, 22728, 14096, 16211, 19591, 21635, + 12152, 14867, 19943, 22301, 14492, 17503, 21002, 22728, 14834, 16788, 19447, 21411, + 14650, 16433, 19326, 22308, 14624, 16328, 19659, 23204, 13888, 16572, 20665, 22488, + 12977, 16102, 18841, 22246, 15523, 18431, 21757, 23738, 14095, 16349, 18837, 20947, + 13266, 17809, 21088, 22839, 15427, 18190, 20270, 23143, 11859, 16753, 20935, 22486, + 12310, 17667, 21736, 23319, 14021, 15926, 18702, 22002, 12286, 15299, 19178, 21126, + 15703, 17491, 21039, 23151, 12272, 14018, 18213, 22570, 14817, 16364, 18485, 22598, + 17109, 19683, 21851, 23677, 12657, 14903, 19039, 22061, 14713, 16487, 20527, 22814, + 14635, 16726, 18763, 21715, 15878, 18550, 20718, 22906 +}; + +static const int16_t gain3[9]={ + -16384, -10813, -5407, 0, 4096, 8192, 12288, 16384, 32767 +}; + +static const int16_t gain4[17]={ + -17203, -14746, -12288, -9830, -7373, -4915, -2458, 0, 2458, 4915, 7373, 9830, + 12288, 14746, 17203, 19661, 32767 +}; + +static const int16_t gain5[33]={ + 614, 1229, 1843, 2458, 3072, 3686, + 4301, 4915, 5530, 6144, 6758, 7373, + 7987, 8602, 9216, 9830, 10445, 11059, + 11674, 12288, 12902, 13517, 14131, 14746, + 15360, 15974, 16589, 17203, 17818, 18432, + 19046, 19661, 32767 +}; + +static const int16_t *const ilbc_gain[] = { + gain5, gain4, gain3, +}; + +static const int16_t ilbc_state[8] = { + -30473, -17838, -9257, -2537, 3639, 10893, 19958, 32636 +}; + +static const int16_t frg_quant_mod[64] = { + /* First 37 values in Q8 */ + 569, 671, 786, 916, 1077, 1278, + 1529, 1802, 2109, 2481, 2898, 3440, + 3943, 4535, 5149, 5778, 6464, 7208, + 7904, 8682, 9397, 10285, 11240, 12246, + 13313, 14382, 15492, 16735, 18131, 19693, + 21280, 22912, 24624, 26544, 28432, 30488, + 32720, + /* 22 values in Q5 */ + 4383, 4684, 5012, 5363, 5739, 6146, + 6603, 7113, 7679, 8285, 9040, 9850, + 10838, 11882, 13103, 14467, 15950, 17669, + 19712, 22016, 24800, 28576, + /* 5 values in Q3 */ + 8240, 9792, 12040, 15440, 22472 +}; + +#endif /* AVCODEC_ILBCDATA_H */ diff --git a/libavcodec/ilbcdec.c b/libavcodec/ilbcdec.c new file mode 100644 index 0000000000..7f015d90f2 --- /dev/null +++ b/libavcodec/ilbcdec.c @@ -0,0 +1,1487 @@ +/* + * Copyright (c) 2013, The WebRTC project authors. All rights reserved. + * + * Redistribution and use in source and binary forms, with or without + * modification, are permitted provided that the following conditions are + * met: + * + * * Redistributions of source code must retain the above copyright + * notice, this list of conditions and the following disclaimer. + * + * * Redistributions in binary form must reproduce the above copyright + * notice, this list of conditions and the following disclaimer in + * the documentation and/or other materials provided with the + * distribution. + * + * * Neither the name of Google nor the names of its contributors may + * be used to endorse or promote products derived from this software + * without specific prior written permission. + * + * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS + * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT + * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR + * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT + * HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, + * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT + * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, + * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY + * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT + * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE + * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + */ + +#include "avcodec.h" +#include "internal.h" +#include "get_bits.h" +#include "ilbcdata.h" + +#define LPC_N_20MS 1 +#define LPC_N_30MS 2 +#define LPC_N_MAX 2 +#define LSF_NSPLIT 3 +#define NASUB_MAX 4 +#define LPC_FILTERORDER 10 +#define NSUB_MAX 6 +#define SUBL 40 + +#define ST_MEM_L_TBL 85 +#define MEM_LF_TBL 147 +#define STATE_SHORT_LEN_20MS 57 +#define STATE_SHORT_LEN_30MS 58 + +#define BLOCKL_MAX 240 +#define CB_MEML 147 +#define CB_NSTAGES 3 +#define CB_HALFFILTERLEN 4 +#define CB_FILTERLEN 8 + +#define ENH_NBLOCKS_TOT 8 +#define ENH_BLOCKL 80 +#define ENH_BUFL (ENH_NBLOCKS_TOT)*ENH_BLOCKL +#define ENH_BUFL_FILTEROVERHEAD 3 +#define BLOCKL_MAX 240 +#define NSUB_20MS 4 +#define NSUB_30MS 6 +#define NSUB_MAX 6 +#define NASUB_20MS 2 +#define NASUB_30MS 4 +#define NASUB_MAX 4 +#define STATE_LEN 80 +#define STATE_SHORT_LEN_30MS 58 +#define STATE_SHORT_LEN_20MS 57 + +#define SPL_MUL_16_16(a, b) ((int32_t) (((int16_t)(a)) * ((int16_t)(b)))) +#define SPL_MUL_16_16_RSFT(a, b, c) (SPL_MUL_16_16(a, b) >> (c)) + +typedef struct ILBCFrame { + int16_t lsf[LSF_NSPLIT*LPC_N_MAX]; + int16_t cb_index[CB_NSTAGES*(NASUB_MAX + 1)]; + int16_t gain_index[CB_NSTAGES*(NASUB_MAX + 1)]; + int16_t ifm; + int16_t state_first; + int16_t idx[STATE_SHORT_LEN_30MS]; + int16_t firstbits; + int16_t start; +} ILBCFrame; + +typedef struct ILBCContext { + AVClass *class; + int enhancer; + + int mode; + GetBitContext gb; + ILBCFrame frame; + + int prev_enh_pl; + int consPLICount; + int last_lag; + int state_short_len; + int lpc_n; + int16_t nasub; + int16_t nsub; + int block_samples; + int16_t no_of_words; + int16_t no_of_bytes; + int16_t lsfdeq[LPC_FILTERORDER*LPC_N_MAX]; + int16_t lsfold[LPC_FILTERORDER]; + int16_t syntMem[LPC_FILTERORDER]; + int16_t lsfdeqold[LPC_FILTERORDER]; + int16_t weightdenum[(LPC_FILTERORDER + 1) * NSUB_MAX]; + int16_t syntdenum[NSUB_MAX * (LPC_FILTERORDER + 1)]; + int16_t old_syntdenum[NSUB_MAX * (LPC_FILTERORDER + 1)]; + int16_t enh_buf[ENH_BUFL+ENH_BUFL_FILTEROVERHEAD]; + int16_t enh_period[ENH_NBLOCKS_TOT]; + int16_t prevResidual[NSUB_MAX*SUBL]; + int16_t decresidual[BLOCKL_MAX]; + int16_t plc_residual[BLOCKL_MAX + LPC_FILTERORDER]; + int16_t seed; + int16_t prevPLI; + int16_t prevScale; + int16_t prevLag; + int16_t per_square; + int16_t prev_lpc[LPC_FILTERORDER + 1]; + int16_t plc_lpc[LPC_FILTERORDER + 1]; + int16_t hpimemx[2]; + int16_t hpimemy[4]; +} ILBCContext; + +static int unpack_frame(ILBCContext *s) +{ + ILBCFrame *frame = &s->frame; + GetBitContext *gb = &s->gb; + int j; + + frame->lsf[0] = get_bits(gb, 6); + frame->lsf[1] = get_bits(gb, 7); + frame->lsf[2] = get_bits(gb, 7); + + if (s->mode = 20) { + frame->start = get_bits(gb, 2); + frame->state_first = get_bits1(gb); + frame->ifm = get_bits(gb, 6); + frame->cb_index[0] = get_bits(gb, 6) << 1; + frame->gain_index[0] = get_bits(gb, 2) << 3; + frame->gain_index[1] = get_bits1(gb) << 3; + frame->cb_index[3] = get_bits(gb, 7) << 1; + frame->gain_index[3] = get_bits1(gb) << 4; + frame->gain_index[4] = get_bits1(gb) << 3; + frame->gain_index[6] = get_bits1(gb) << 4; + } else { + frame->lsf[3] = get_bits(gb, 6); + frame->lsf[4] = get_bits(gb, 7); + frame->lsf[5] = get_bits(gb, 7); + frame->start = get_bits(gb, 3); + frame->state_first = get_bits1(gb); + frame->ifm = get_bits(gb, 6); + frame->cb_index[0] = get_bits(gb, 4) << 3; + frame->gain_index[0] = get_bits1(gb) << 4; + frame->gain_index[1] = get_bits1(gb) << 3; + frame->cb_index[3] = get_bits(gb, 6) << 2; + frame->gain_index[3] = get_bits1(gb) << 4; + frame->gain_index[4] = get_bits1(gb) << 3; + } + + for (j = 0; j < 48; j++) + frame->idx[j] = get_bits1(gb) << 2; + + if (s->mode == 20) { + for (; j < 57; j++) + frame->idx[j] = get_bits1(gb) << 2; + + frame->gain_index[1] |= get_bits1(gb) << 2; + frame->gain_index[3] |= get_bits(gb, 2) << 2; + frame->gain_index[4] |= get_bits1(gb) << 2; + frame->gain_index[6] |= get_bits1(gb) << 3; + frame->gain_index[7] = get_bits(gb, 2) << 2; + } else { + for (; j < 58; j++) + frame->idx[j] = get_bits1(gb) << 2; + + frame->cb_index[0] |= get_bits(gb, 2) << 1; + frame->gain_index[0] |= get_bits1(gb) << 3; + frame->gain_index[1] |= get_bits1(gb) << 2; + frame->cb_index[3] |= get_bits1(gb) << 1; + frame->cb_index[6] = get_bits1(gb) << 7; + frame->cb_index[6] |= get_bits(gb, 6) << 1; + frame->cb_index[9] = get_bits(gb, 7) << 1; + frame->cb_index[12] = get_bits(gb, 3) << 5; + frame->cb_index[12] |= get_bits(gb, 4) << 1; + frame->gain_index[3] |= get_bits(gb, 2) << 2; + frame->gain_index[4] |= get_bits(gb, 2) << 1; + frame->gain_index[6] = get_bits(gb, 2) << 3; + frame->gain_index[7] = get_bits(gb, 2) << 2; + frame->gain_index[9] = get_bits1(gb) << 4; + frame->gain_index[10] = get_bits1(gb) << 3; + frame->gain_index[12] = get_bits1(gb) << 4; + frame->gain_index[13] = get_bits1(gb) << 3; + } + + for (j = 0; j < 56; j++) + frame->idx[j] |= get_bits(gb, 2); + + if (s->mode == 20) { + frame->idx[56] |= get_bits(gb, 2); + frame->cb_index[0] |= get_bits1(gb); + frame->cb_index[1] = get_bits(gb, 7); + frame->cb_index[2] = get_bits(gb, 6) << 1; + frame->cb_index[2] |= get_bits1(gb); + frame->gain_index[0] |= get_bits(gb, 3); + frame->gain_index[1] |= get_bits(gb, 2); + frame->gain_index[2] = get_bits(gb, 3); + frame->cb_index[3] |= get_bits1(gb); + frame->cb_index[4] = get_bits(gb, 6) << 1; + frame->cb_index[4] |= get_bits1(gb); + frame->cb_index[5] = get_bits(gb, 7); + frame->cb_index[6] = get_bits(gb, 8); + frame->cb_index[7] = get_bits(gb, 8); + frame->cb_index[8] = get_bits(gb, 8); + frame->gain_index[3] |= get_bits(gb, 2); + frame->gain_index[4] |= get_bits(gb, 2); + frame->gain_index[5] = get_bits(gb, 3); + frame->gain_index[6] |= get_bits(gb, 3); + frame->gain_index[7] |= get_bits(gb, 2); + frame->gain_index[8] = get_bits(gb, 3); + } else { + frame->idx[56] |= get_bits(gb, 2); + frame->idx[57] |= get_bits(gb, 2); + frame->cb_index[0] |= get_bits1(gb); + frame->cb_index[1] = get_bits(gb, 7); + frame->cb_index[2] = get_bits(gb, 4) << 3; + frame->cb_index[2] |= get_bits(gb, 3); + frame->gain_index[0] |= get_bits(gb, 3); + frame->gain_index[1] |= get_bits(gb, 2); + frame->gain_index[2] = get_bits(gb, 3); + frame->cb_index[3] |= get_bits1(gb); + frame->cb_index[4] = get_bits(gb, 4) << 3; + frame->cb_index[4] |= get_bits(gb, 3); + frame->cb_index[5] = get_bits(gb, 7); + frame->cb_index[6] |= get_bits1(gb); + frame->cb_index[7] = get_bits(gb, 5) << 3; + frame->cb_index[7] |= get_bits(gb, 3); + frame->cb_index[8] = get_bits(gb, 8); + frame->cb_index[9] |= get_bits1(gb); + frame->cb_index[10] = get_bits(gb, 4) << 4; + frame->cb_index[10] |= get_bits(gb, 4); + frame->cb_index[11] = get_bits(gb, 8); + frame->cb_index[12] |= get_bits1(gb); + frame->cb_index[13] = get_bits(gb, 3) << 5; + frame->cb_index[13] |= get_bits(gb, 5); + frame->cb_index[14] = get_bits(gb, 8); + frame->gain_index[3] |= get_bits(gb, 2); + frame->gain_index[4] |= get_bits1(gb); + frame->gain_index[5] = get_bits(gb, 3); + frame->gain_index[6] |= get_bits(gb, 3); + frame->gain_index[7] |= get_bits(gb, 2); + frame->gain_index[8] = get_bits(gb, 3); + frame->gain_index[9] |= get_bits(gb, 4); + frame->gain_index[10] |= get_bits1(gb) << 2; + frame->gain_index[10] |= get_bits(gb, 2); + frame->gain_index[11] = get_bits(gb, 3); + frame->gain_index[12] |= get_bits(gb, 4); + frame->gain_index[13] |= get_bits(gb, 3); + frame->gain_index[14] = get_bits(gb, 3); + } + + return get_bits1(gb); +} + +static void index_conv(int16_t *index) +{ + int k; + + for (k = 4; k < 6; k++) { + if (index[k] >= 44 && index[k] < 108) { + index[k] += 64; + } else if (index[k] >= 108 && index[k] < 128) { + index[k] += 128; + } + } +} + +static void lsf_dequantization(int16_t *lsfdeq, int16_t *index, int16_t lpc_n) +{ + int i, j, pos = 0, cb_pos = 0; + + for (i = 0; i < LSF_NSPLIT; i++) { + for (j = 0; j < lsf_dim_codebook[i]; j++) { + lsfdeq[pos + j] = lsf_codebook[cb_pos + index[i] * lsf_dim_codebook[i] + j]; + } + + pos += lsf_dim_codebook[i]; + cb_pos += lsf_size_codebook[i] * lsf_dim_codebook[i]; + } + + if (lpc_n > 1) { + pos = 0; + cb_pos = 0; + for (i = 0; i < LSF_NSPLIT; i++) { + for (j = 0; j < lsf_dim_codebook[i]; j++) { + lsfdeq[LPC_FILTERORDER + pos + j] = lsf_codebook[cb_pos + + index[LSF_NSPLIT + i] * lsf_dim_codebook[i] + j]; + } + + pos += lsf_dim_codebook[i]; + cb_pos += lsf_size_codebook[i] * lsf_dim_codebook[i]; + } + } +} + +static void lsf_check_stability(int16_t *lsf, int dim, int nb_vectors) +{ + for (int n = 0; n < 2; n++) { + for (int m = 0; m < nb_vectors; m++) { + for (int k = 0; k < dim - 1; k++) { + int i = m * dim + k; + + if ((lsf[i + 1] - lsf[i]) < 319) { + if (lsf[i + 1] < lsf[i]) { + lsf[i + 1] = lsf[i] + 160; + lsf[i] = lsf[i + 1] - 160; + } else { + lsf[i] -= 160; + lsf[i + 1] += 160; + } + } + + lsf[i] = av_clip(lsf[i], 82, 25723); + } + } + } +} + +static void lsf_interpolate(int16_t *out, int16_t *in1, + int16_t *in2, int16_t coef, + int size) +{ + int invcoef = 16384 - coef, i; + + for (i = 0; i < size; i++) + out[i] = (coef * in1[i] + invcoef * in2[i] + 8192) >> 14; +} + +static void lsf2lsp(int16_t *lsf, int16_t *lsp, int order) +{ + int16_t diff, freq; + int32_t tmp; + int i, k; + + for (i = 0; i < order; i++) { + freq = (lsf[i] * 20861) >> 15; + /* 20861: 1.0/(2.0*PI) in Q17 */ + /* + Upper 8 bits give the index k and + Lower 8 bits give the difference, which needs + to be approximated linearly + */ + k = FFMIN(freq >> 8, 63); + diff = freq & 0xFF; + + /* Calculate linear approximation */ + tmp = cos_derivative_tbl[k] * diff; + lsp[i] = cos_tbl[k] + (tmp >> 12); + } +} + +static void get_lsp_poly(int16_t *lsp, int32_t *f) +{ + int16_t high, low; + int i, j, k, l; + int32_t tmp; + + f[0] = 16777216; + f[1] = lsp[0] * -1024; + + for (i = 2, k = 2, l = 2; i <= 5; i++, k += 2) { + f[l] = f[l - 2]; + + for (j = i; j > 1; j--, l--) { + high = f[l - 1] >> 16; + low = (f[l - 1] - (high << 16)) >> 1; + + tmp = ((high * lsp[k]) << 2) + (((low * lsp[k]) >> 15) << 2); + + f[l] += f[l - 2]; + f[l] -= tmp; + } + + f[l] -= lsp[k] << 10; + l += i; + } +} + +static void lsf2poly(int16_t *a, int16_t *lsf) +{ + int32_t f[2][6]; + int16_t lsp[10]; + int32_t tmp; + int i; + + lsf2lsp(lsf, lsp, LPC_FILTERORDER); + + get_lsp_poly(&lsp[0], f[0]); + get_lsp_poly(&lsp[1], f[1]); + + for (i = 5; i > 0; i--) { + f[0][i] += f[0][i - 1]; + f[1][i] -= f[1][i - 1]; + } + + a[0] = 4096; + for (i = 5; i > 0; i--) { + tmp = f[0][6 - i] + f[1][6 - i]; + a[6 - i] = (tmp + 4096) >> 13; + + tmp = f[0][6 - i] - f[1][6 - i]; + a[5 + i] = (tmp + 4096) >> 13; + } +} + +static void lsp_interpolate2polydec(int16_t *a, int16_t *lsf1, + int16_t *lsf2, int coef, int length) +{ + int16_t lsftmp[LPC_FILTERORDER]; + + lsf_interpolate(lsftmp, lsf1, lsf2, coef, length); + lsf2poly(a, lsftmp); +} + +static void bw_expand(int16_t *out, const int16_t *in, const int16_t *coef, int length) +{ + int i; + + out[0] = in[0]; + for (i = 1; i < length; i++) + out[i] = (coef[i] * in[i] + 16384) >> 15; +} + +static void lsp_interpolate(int16_t *syntdenum, int16_t *weightdenum, + int16_t *lsfdeq, int16_t length, + ILBCContext *s) +{ + int16_t lp[LPC_FILTERORDER + 1], *lsfdeq2; + int i, pos, lp_length; + + lsfdeq2 = lsfdeq + length; + lp_length = length + 1; + + if (s->mode == 30) { + lsp_interpolate2polydec(lp, (*s).lsfdeqold, lsfdeq, lsf_weight_30ms[0], length); + memcpy(syntdenum, lp, lp_length * 2); + bw_expand(weightdenum, lp, kLpcChirpSyntDenum, lp_length); + + pos = lp_length; + for (i = 1; i < 6; i++) { + lsp_interpolate2polydec(lp, lsfdeq, lsfdeq2, + lsf_weight_30ms[i], + length); + memcpy(syntdenum + pos, lp, lp_length * 2); + bw_expand(weightdenum + pos, lp, kLpcChirpSyntDenum, lp_length); + pos += lp_length; + } + } else { + pos = 0; + for (i = 0; i < s->nsub; i++) { + lsp_interpolate2polydec(lp, s->lsfdeqold, lsfdeq, + lsf_weight_20ms[i], length); + memcpy(syntdenum + pos, lp, lp_length * 2); + bw_expand(weightdenum + pos, lp, kLpcChirpSyntDenum, lp_length); + pos += lp_length; + } + } + + if (s->mode == 30) { + memcpy(s->lsfdeqold, lsfdeq2, length * 2); + } else { + memcpy(s->lsfdeqold, lsfdeq, length * 2); + } +} + +static void filter_mafq12(int16_t *in_ptr, int16_t *out_ptr, + int16_t *B, int16_t B_length, + int16_t length) +{ + int o, i, j; + + for (i = 0; i < length; i++) { + const int16_t *b_ptr = &B[0]; + const int16_t *x_ptr = &in_ptr[i]; + + o = 0; + for (j = 0; j < B_length; j++) + o += b_ptr[j] * *x_ptr--; + + o = av_clip(o, -134217728, 134215679); + + out_ptr[i] = ((o + 2048) >> 12); + } +} + +static void filter_arfq12(const int16_t *data_in, + int16_t *data_out, + const int16_t *coefficients, + int coefficients_length, + int data_length) +{ + int i, j; + + for (i = 0; i < data_length; i++) { + int output = 0, sum = 0; + + for (j = coefficients_length - 1; j > 0; j--) { + sum += coefficients[j] * data_out[i - j]; + } + + output = coefficients[0] * data_in[i] - sum; + output = av_clip(output, -134217728, 134215679); + + data_out[i] = (output + 2048) >> 12; + } +} + +static void state_construct(int16_t ifm, int16_t *idx, + int16_t *synt_denum, int16_t *Out_fix, + int16_t len) +{ + int k; + int16_t maxVal; + int16_t *tmp1, *tmp2, *tmp3; + /* Stack based */ + int16_t numerator[1 + LPC_FILTERORDER]; + int16_t sampleValVec[2 * STATE_SHORT_LEN_30MS + LPC_FILTERORDER]; + int16_t sampleMaVec[2 * STATE_SHORT_LEN_30MS + LPC_FILTERORDER]; + int16_t *sampleVal = &sampleValVec[LPC_FILTERORDER]; + int16_t *sampleMa = &sampleMaVec[LPC_FILTERORDER]; + int16_t *sampleAr = &sampleValVec[LPC_FILTERORDER]; + + /* initialization of coefficients */ + + for (k = 0; k < LPC_FILTERORDER + 1; k++) { + numerator[k] = synt_denum[LPC_FILTERORDER - k]; + } + + /* decoding of the maximum value */ + + maxVal = frg_quant_mod[ifm]; + + /* decoding of the sample values */ + tmp1 = sampleVal; + tmp2 = &idx[len - 1]; + + if (ifm < 37) { + for (k = 0; k < len; k++) { + /*the shifting is due to the Q13 in sq4_fixQ13[i], also the adding of 2097152 (= 0.5 << 22) + maxVal is in Q8 and result is in Q(-1) */ + (*tmp1) = (int16_t) ((SPL_MUL_16_16(maxVal, ilbc_state[(*tmp2)]) + 2097152) >> 22); + tmp1++; + tmp2--; + } + } else if (ifm < 59) { + for (k = 0; k < len; k++) { + /*the shifting is due to the Q13 in sq4_fixQ13[i], also the adding of 262144 (= 0.5 << 19) + maxVal is in Q5 and result is in Q(-1) */ + (*tmp1) = (int16_t) ((SPL_MUL_16_16(maxVal, ilbc_state[(*tmp2)]) + 262144) >> 19); + tmp1++; + tmp2--; + } + } else { + for (k = 0; k < len; k++) { + /*the shifting is due to the Q13 in sq4_fixQ13[i], also the adding of 65536 (= 0.5 << 17) + maxVal is in Q3 and result is in Q(-1) */ + (*tmp1) = (int16_t) ((SPL_MUL_16_16(maxVal, ilbc_state[(*tmp2)]) + 65536) >> 17); + tmp1++; + tmp2--; + } + } + + /* Set the rest of the data to zero */ + memset(&sampleVal[len], 0, len * 2); + + /* circular convolution with all-pass filter */ + + /* Set the state to zero */ + memset(sampleValVec, 0, LPC_FILTERORDER * 2); + + /* Run MA filter + AR filter */ + filter_mafq12(sampleVal, sampleMa, numerator, LPC_FILTERORDER + 1, len + LPC_FILTERORDER); + memset(&sampleMa[len + LPC_FILTERORDER], 0, (len - LPC_FILTERORDER) * 2); + filter_arfq12(sampleMa, sampleAr, synt_denum, LPC_FILTERORDER + 1, 2 * len); + + tmp1 = &sampleAr[len - 1]; + tmp2 = &sampleAr[2 * len - 1]; + tmp3 = Out_fix; + for (k = 0; k < len; k++) { + (*tmp3) = (*tmp1) + (*tmp2); + tmp1--; + tmp2--; + tmp3++; + } +} + +static int16_t gain_dequantization(int index, int max_in, int stage) +{ + int16_t scale = FFMAX(1638, FFABS(max_in)); + + return ((scale * ilbc_gain[stage][index]) + 8192) >> 14; +} + +static void vector_rmultiplication(int16_t *out, const int16_t *in, + const int16_t *win, + int length, int shift) +{ + for (int i = 0; i < length; i++) + out[i] = (in[i] * win[-i]) >> shift; +} + +static void vector_multiplication(int16_t *out, const int16_t *in, + const int16_t *win, int length, + int shift) +{ + for (int i = 0; i < length; i++) + out[i] = (in[i] * win[i]) >> shift; +} + +static void add_vector_and_shift(int16_t *out, const int16_t *in1, + const int16_t *in2, int length, + int shift) +{ + for (int i = 0; i < length; i++) + out[i] = (in1[i] + in2[i]) >> shift; +} + +static void create_augmented_vector(int index, int16_t *buffer, int16_t *cbVec) +{ + int16_t cbVecTmp[4]; + int16_t ilow = index - 4; + + memcpy(cbVec, buffer - index, index * 2); + + vector_multiplication(&cbVec[ilow], buffer - index - 4, alpha, 4, 15); + vector_rmultiplication(cbVecTmp, buffer - 4, &alpha[3], 4, 15); + add_vector_and_shift(&cbVec[ilow], &cbVec[ilow], cbVecTmp, 4, 0); + + memcpy(cbVec + index, buffer - index, (SUBL - index) * sizeof(*cbVec)); +} + +static void get_codebook(int16_t * cbvec, /* (o) Constructed codebook vector */ + int16_t * mem, /* (i) Codebook buffer */ + int16_t index, /* (i) Codebook index */ + int16_t lMem, /* (i) Length of codebook buffer */ + int16_t cbveclen /* (i) Codebook vector length */ +) +{ + int16_t k, base_size; + int16_t lag; + /* Stack based */ + int16_t tempbuff2[SUBL + 5]; + + /* Determine size of codebook sections */ + base_size = lMem - cbveclen + 1; + + if (cbveclen == SUBL) { + base_size += cbveclen / 2; + } + + /* No filter -> First codebook section */ + if (index < lMem - cbveclen + 1) { + /* first non-interpolated vectors */ + + k = index + cbveclen; + /* get vector */ + memcpy(cbvec, mem + lMem - k, cbveclen * 2); + } else if (index < base_size) { + + /* Calculate lag */ + + k = (int16_t) SPL_MUL_16_16(2, (index - (lMem - cbveclen + 1))) + cbveclen; + + lag = k / 2; + + create_augmented_vector(lag, mem + lMem, cbvec); + } else { + int16_t memIndTest; + + /* first non-interpolated vectors */ + + if (index - base_size < lMem - cbveclen + 1) { + + /* Set up filter memory, stuff zeros outside memory buffer */ + + memIndTest = lMem - (index - base_size + cbveclen); + + memset(mem - CB_HALFFILTERLEN, 0, CB_HALFFILTERLEN * 2); + memset(mem + lMem, 0, CB_HALFFILTERLEN * 2); + + /* do filtering to get the codebook vector */ + + filter_mafq12(&mem[memIndTest + 4], cbvec, (int16_t *) kCbFiltersRev, CB_FILTERLEN, cbveclen); + } else { + /* interpolated vectors */ + /* Stuff zeros outside memory buffer */ + memIndTest = lMem - cbveclen - CB_FILTERLEN; + memset(mem + lMem, 0, CB_HALFFILTERLEN * 2); + + /* do filtering */ + filter_mafq12(&mem[memIndTest + 7], tempbuff2, (int16_t *) kCbFiltersRev, CB_FILTERLEN, (int16_t) (cbveclen + 5)); + + /* Calculate lag index */ + lag = (cbveclen << 1) - 20 + index - base_size - lMem - 1; + + create_augmented_vector(lag, tempbuff2 + SUBL + 5, cbvec); + } + } +} + +static void construct_vector ( + int16_t *decvector, /* (o) Decoded vector */ + int16_t *index, /* (i) Codebook indices */ + int16_t *gain_index, /* (i) Gain quantization indices */ + int16_t *mem, /* (i) Buffer for codevector construction */ + int16_t lMem, /* (i) Length of buffer */ + int16_t veclen) +{ + int16_t gain[CB_NSTAGES]; + int16_t cbvec0[SUBL]; + int16_t cbvec1[SUBL]; + int16_t cbvec2[SUBL]; + int32_t a32; + int16_t *gainPtr; + int j; + + /* gain de-quantization */ + + gain[0] = gain_dequantization(gain_index[0], 16384, 0); + gain[1] = gain_dequantization(gain_index[1], gain[0], 1); + gain[2] = gain_dequantization(gain_index[2], gain[1], 2); + + /* codebook vector construction and construction of total vector */ + + /* Stack based */ + get_codebook(cbvec0, mem, index[0], lMem, veclen); + get_codebook(cbvec1, mem, index[1], lMem, veclen); + get_codebook(cbvec2, mem, index[2], lMem, veclen); + + gainPtr = &gain[0]; + for (j = 0; j < veclen; j++) { + a32 = SPL_MUL_16_16(*gainPtr++, cbvec0[j]); + a32 += SPL_MUL_16_16(*gainPtr++, cbvec1[j]); + a32 += SPL_MUL_16_16(*gainPtr, cbvec2[j]); + gainPtr -= 2; + decvector[j] = (a32 + 8192) >> 14; + } +} + +static void reverse_memcpy(int16_t *dest, int16_t *source, int length) +{ + int16_t* destPtr = dest; + int16_t* sourcePtr = source; + int j; + + for (j = 0; j < length; j++) + *destPtr-- = *sourcePtr++; +} + +static void decode_residual(ILBCContext *s, + ILBCFrame *encbits, + int16_t *decresidual, + int16_t *syntdenum) +{ + int16_t meml_gotten, Nfor, Nback, diff, start_pos; + int16_t subcount, subframe; + int16_t *reverseDecresidual = s->enh_buf; /* Reversed decoded data, used for decoding backwards in time (reuse memory in state) */ + int16_t *memVec = s->prevResidual; + int16_t *mem = &memVec[CB_HALFFILTERLEN]; /* Memory for codebook */ + + diff = STATE_LEN - s->state_short_len; + + if (encbits->state_first == 1) { + start_pos = (encbits->start - 1) * SUBL; + } else { + start_pos = (encbits->start - 1) * SUBL + diff; + } + + /* decode scalar part of start state */ + + state_construct(encbits->ifm, encbits->idx, &syntdenum[(encbits->start - 1) * (LPC_FILTERORDER + 1)], &decresidual[start_pos], s->state_short_len); + + if (encbits->state_first) { /* put adaptive part in the end */ + /* setup memory */ + memset(mem, 0, (int16_t) (CB_MEML - s->state_short_len) * 2); + memcpy(mem + CB_MEML - s->state_short_len, decresidual + start_pos, s->state_short_len * 2); + + /* construct decoded vector */ + + construct_vector(&decresidual[start_pos + s->state_short_len], encbits->cb_index, encbits->gain_index, mem + CB_MEML - ST_MEM_L_TBL, ST_MEM_L_TBL, (int16_t) diff); + + } else { /* put adaptive part in the beginning */ + /* setup memory */ + meml_gotten = s->state_short_len; + reverse_memcpy(mem + CB_MEML - 1, decresidual + start_pos, meml_gotten); + memset(mem, 0, (int16_t) (CB_MEML - meml_gotten) * 2); + + /* construct decoded vector */ + construct_vector(reverseDecresidual, encbits->cb_index, encbits->gain_index, mem + CB_MEML - ST_MEM_L_TBL, ST_MEM_L_TBL, diff); + + /* get decoded residual from reversed vector */ + reverse_memcpy(&decresidual[start_pos - 1], reverseDecresidual, diff); + } + + /* counter for predicted subframes */ + subcount = 1; + + /* forward prediction of subframes */ + Nfor = s->nsub - encbits->start - 1; + + if (Nfor > 0) { + /* setup memory */ + memset(mem, 0, (CB_MEML - STATE_LEN) * 2); + memcpy(mem + CB_MEML - STATE_LEN, decresidual + (encbits->start - 1) * SUBL, STATE_LEN * 2); + + /* loop over subframes to encode */ + for (subframe = 0; subframe < Nfor; subframe++) { + /* construct decoded vector */ + construct_vector(&decresidual[(encbits->start + 1 + subframe) * SUBL], encbits->cb_index + subcount * CB_NSTAGES, encbits->gain_index + subcount * CB_NSTAGES, mem, MEM_LF_TBL, SUBL); + + /* update memory */ + memmove(mem, mem + SUBL, (CB_MEML - SUBL) * sizeof(*mem)); + memcpy(mem + CB_MEML - SUBL, &decresidual[(encbits->start + 1 + subframe) * SUBL], SUBL * 2); + + subcount++; + } + + } + + /* backward prediction of subframes */ + Nback = encbits->start - 1; + + if (Nback > 0) { + /* setup memory */ + meml_gotten = SUBL * (s->nsub + 1 - encbits->start); + if (meml_gotten > CB_MEML) { + meml_gotten = CB_MEML; + } + + reverse_memcpy(mem + CB_MEML - 1, decresidual + (encbits->start - 1) * SUBL, meml_gotten); + memset(mem, 0, (int16_t) (CB_MEML - meml_gotten) * 2); + + /* loop over subframes to decode */ + for (subframe = 0; subframe < Nback; subframe++) { + /* construct decoded vector */ + construct_vector(&reverseDecresidual[subframe * SUBL], encbits->cb_index + subcount * CB_NSTAGES, + encbits->gain_index + subcount * CB_NSTAGES, mem, MEM_LF_TBL, SUBL); + + /* update memory */ + memmove(mem, mem + SUBL, (CB_MEML - SUBL) * sizeof(*mem)); + memcpy(mem + CB_MEML - SUBL, &reverseDecresidual[subframe * SUBL], SUBL * 2); + + subcount++; + } + + /* get decoded residual from reversed vector */ + reverse_memcpy(decresidual + SUBL * Nback - 1, reverseDecresidual, SUBL * Nback); + } +} + +static int16_t max_abs_value_w16(const int16_t* vector, int length) +{ + int i = 0, absolute = 0, maximum = 0; + + if (vector == NULL || length <= 0) { + return -1; + } + + for (i = 0; i < length; i++) { + absolute = FFABS(vector[i]); + if (absolute > maximum) + maximum = absolute; + } + + // Guard the case for abs(-32768). + return FFMIN(maximum, INT16_MAX); +} + +static int16_t get_size_in_bits(uint32_t n) +{ + int16_t bits; + + if (0xFFFF0000 & n) { + bits = 16; + } else { + bits = 0; + } + + if (0x0000FF00 & (n >> bits)) bits += 8; + if (0x000000F0 & (n >> bits)) bits += 4; + if (0x0000000C & (n >> bits)) bits += 2; + if (0x00000002 & (n >> bits)) bits += 1; + if (0x00000001 & (n >> bits)) bits += 1; + + return bits; +} + +static int32_t scale_dot_product(const int16_t *v1, const int16_t *v2, int length, int scaling) +{ + int32_t sum = 0; + + for (int i = 0; i < length; i++) + sum += (v1[i] * v2[i]) >> scaling; + + return sum; +} + +static void correlation(int32_t *corr, int32_t *ener, int16_t *buffer, + int16_t lag, int16_t blen, int16_t srange, int16_t scale) +{ + int16_t *w16ptr; + + w16ptr = &buffer[blen - srange - lag]; + + *corr = scale_dot_product(&buffer[blen - srange], w16ptr, srange, scale); + *ener = scale_dot_product(w16ptr, w16ptr, srange, scale); + + if (*ener == 0) { + *corr = 0; + *ener = 1; + } +} + +#define SPL_SHIFT_W32(x, c) (((c) >= 0) ? ((x) << (c)) : ((x) >> (-(c)))) + +static int16_t norm_w32(int32_t a) +{ + if (a == 0) { + return 0; + } else if (a < 0) { + a = ~a; + } + + return ff_clz(a); +} + +static int32_t div_w32_w16(int32_t num, int16_t den) +{ + if (den != 0) + return num / den; + else + return 0x7FFFFFFF; +} + +static void do_plc(int16_t *plc_residual, /* (o) concealed residual */ + int16_t *plc_lpc, /* (o) concealed LP parameters */ + int16_t PLI, /* (i) packet loss indicator + 0 - no PL, 1 = PL */ + int16_t *decresidual, /* (i) decoded residual */ + int16_t *lpc, /* (i) decoded LPC (only used for no PL) */ + int16_t inlag, /* (i) pitch lag */ + ILBCContext *s) /* (i/o) decoder instance */ +{ + int16_t i, pick; + int32_t cross, ener, cross_comp, ener_comp = 0; + int32_t measure, max_measure, energy; + int16_t max, cross_square_max, cross_square; + int16_t j, lag, tmp1, tmp2, randlag; + int16_t shift1, shift2, shift3, shift_max; + int16_t scale3; + int16_t corrLen; + int32_t tmpW32, tmp2W32; + int16_t use_gain; + int16_t tot_gain; + int16_t max_perSquare; + int16_t scale1, scale2; + int16_t totscale; + int32_t nom; + int16_t denom; + int16_t pitchfact; + int16_t use_lag; + int ind; + int16_t randvec[BLOCKL_MAX]; + + /* Packet Loss */ + if (PLI == 1) { + + s->consPLICount += 1; + + /* if previous frame not lost, + determine pitch pred. gain */ + + if (s->prevPLI != 1) { + + /* Maximum 60 samples are correlated, preserve as high accuracy + as possible without getting overflow */ + max = max_abs_value_w16(s->prevResidual, s->block_samples); + scale3 = (get_size_in_bits(max) << 1) - 25; + if (scale3 < 0) { + scale3 = 0; + } + + /* Store scale for use when interpolating between the + * concealment and the received packet */ + s->prevScale = scale3; + + /* Search around the previous lag +/-3 to find the + best pitch period */ + lag = inlag - 3; + + /* Guard against getting outside the frame */ + corrLen = FFMIN(60, s->block_samples - (inlag + 3)); + + correlation(&cross, &ener, s->prevResidual, lag, s->block_samples, corrLen, scale3); + + /* Normalize and store cross^2 and the number of shifts */ + shift_max = get_size_in_bits(FFABS(cross)) - 15; + cross_square_max = (int16_t) SPL_MUL_16_16_RSFT(SPL_SHIFT_W32(cross, -shift_max), SPL_SHIFT_W32(cross, -shift_max), 15); + + for (j = inlag - 2; j <= inlag + 3; j++) { + correlation(&cross_comp, &ener_comp, s->prevResidual, j, s->block_samples, corrLen, scale3); + + /* Use the criteria (corr*corr)/energy to compare if + this lag is better or not. To avoid the division, + do a cross multiplication */ + shift1 = get_size_in_bits(FFABS(cross_comp)) - 15; + cross_square = (int16_t) SPL_MUL_16_16_RSFT(SPL_SHIFT_W32(cross_comp, -shift1), SPL_SHIFT_W32(cross_comp, -shift1), 15); + + shift2 = get_size_in_bits(ener) - 15; + measure = SPL_MUL_16_16(SPL_SHIFT_W32(ener, -shift2), cross_square); + + shift3 = get_size_in_bits(ener_comp) - 15; + max_measure = SPL_MUL_16_16(SPL_SHIFT_W32(ener_comp, -shift3), cross_square_max); + + /* Calculate shift value, so that the two measures can + be put in the same Q domain */ + if (((shift_max << 1) + shift3) > ((shift1 << 1) + shift2)) { + tmp1 = FFMIN(31, (shift_max << 1) + shift3 - (shift1 << 1) - shift2); + tmp2 = 0; + } else { + tmp1 = 0; + tmp2 = FFMIN(31, (shift1 << 1) + shift2 - (shift_max << 1) - shift3); + } + + if ((measure >> tmp1) > (max_measure >> tmp2)) { + /* New lag is better => record lag, measure and domain */ + lag = j; + cross_square_max = cross_square; + cross = cross_comp; + shift_max = shift1; + ener = ener_comp; + } + } + + /* Calculate the periodicity for the lag with the maximum correlation. + + Definition of the periodicity: + abs(corr(vec1, vec2))/(sqrt(energy(vec1))*sqrt(energy(vec2))) + + Work in the Square domain to simplify the calculations + max_perSquare is less than 1 (in Q15) + */ + tmp2W32 = scale_dot_product(&s->prevResidual[s->block_samples - corrLen], &s->prevResidual[s->block_samples - corrLen], corrLen, scale3); + + if ((tmp2W32 > 0) && (ener_comp > 0)) { + /* norm energies to int16_t, compute the product of the energies and + use the upper int16_t as the denominator */ + + scale1 = norm_w32(tmp2W32) - 16; + tmp1 = SPL_SHIFT_W32(tmp2W32, scale1); + + scale2 = norm_w32(ener) - 16; + tmp2 = SPL_SHIFT_W32(ener, scale2); + denom = SPL_MUL_16_16_RSFT(tmp1, tmp2, 16); /* denom in Q(scale1+scale2-16) */ + + /* Square the cross correlation and norm it such that max_perSquare + will be in Q15 after the division */ + + totscale = scale1 + scale2 - 1; + tmp1 = SPL_SHIFT_W32(cross, (totscale >> 1)); + tmp2 = SPL_SHIFT_W32(cross, totscale - (totscale >> 1)); + + nom = SPL_MUL_16_16(tmp1, tmp2); + max_perSquare = div_w32_w16(nom, denom); + } else { + max_perSquare = 0; + } + } else { + /* previous frame lost, use recorded lag and gain */ + lag = s->prevLag; + max_perSquare = s->per_square; + } + + /* Attenuate signal and scale down pitch pred gain if + several frames lost consecutively */ + + use_gain = 32767; /* 1.0 in Q15 */ + + if (s->consPLICount * s->block_samples > 320) { + use_gain = 29491; /* 0.9 in Q15 */ + } else if (s->consPLICount * s->block_samples > 640) { + use_gain = 22938; /* 0.7 in Q15 */ + } else if (s->consPLICount * s->block_samples > 960) { + use_gain = 16384; /* 0.5 in Q15 */ + } else if (s->consPLICount * s->block_samples > 1280) { + use_gain = 0; /* 0.0 in Q15 */ + } + + /* Compute mixing factor of picth repeatition and noise: + for max_per>0.7 set periodicity to 1.0 + 0.4<max_per<0.7 set periodicity to (maxper-0.4)/0.7-0.4) + max_per<0.4 set periodicity to 0.0 + */ + + if (max_perSquare > 7868) { /* periodicity > 0.7 (0.7^4=0.2401 in Q15) */ + pitchfact = 32767; + } else if (max_perSquare > 839) { /* 0.4 < periodicity < 0.7 (0.4^4=0.0256 in Q15) */ + /* find best index and interpolate from that */ + ind = 5; + while ((max_perSquare < kPlcPerSqr[ind]) && (ind > 0)) { + ind--; + } + /* pitch fact is approximated by first order */ + tmpW32 = kPlcPitchFact[ind] + SPL_MUL_16_16_RSFT(kPlcPfSlope[ind], (max_perSquare - kPlcPerSqr[ind]), 11); + + pitchfact = FFMIN(tmpW32, 32767); /* guard against overflow */ + + } else { /* periodicity < 0.4 */ + pitchfact = 0; + } + + /* avoid repetition of same pitch cycle (buzzyness) */ + use_lag = lag; + if (lag < 80) { + use_lag = 2 * lag; + } + + /* compute concealed residual */ + energy = 0; + + for (i = 0; i < s->block_samples; i++) { + /* noise component - 52 < randlagFIX < 117 */ + s->seed = SPL_MUL_16_16(s->seed, 31821) + 13849; + randlag = 53 + (s->seed & 63); + + pick = i - randlag; + + if (pick < 0) { + randvec[i] = s->prevResidual[s->block_samples + pick]; + } else { + randvec[i] = s->prevResidual[pick]; + } + + /* pitch repeatition component */ + pick = i - use_lag; + + if (pick < 0) { + plc_residual[i] = s->prevResidual[s->block_samples + pick]; + } else { + plc_residual[i] = plc_residual[pick]; + } + + /* Attinuate total gain for each 10 ms */ + if (i < 80) { + tot_gain = use_gain; + } else if (i < 160) { + tot_gain = SPL_MUL_16_16_RSFT(31130, use_gain, 15); /* 0.95*use_gain */ + } else { + tot_gain = SPL_MUL_16_16_RSFT(29491, use_gain, 15); /* 0.9*use_gain */ + } + + /* mix noise and pitch repeatition */ + plc_residual[i] = SPL_MUL_16_16_RSFT(tot_gain, (pitchfact * plc_residual[i] + (32767 - pitchfact) * randvec[i] + 16384) >> 15, 15); + + /* Shifting down the result one step extra to ensure that no overflow + will occur */ + energy += SPL_MUL_16_16_RSFT(plc_residual[i], plc_residual[i], (s->prevScale + 1)); + + } + + /* less than 30 dB, use only noise */ + if (energy < SPL_SHIFT_W32(s->block_samples * 900, -s->prevScale - 1)) { + energy = 0; + for (i = 0; i < s->block_samples; i++) { + plc_residual[i] = randvec[i]; + } + } + + /* use the old LPC */ + memcpy(plc_lpc, (*s).prev_lpc, (LPC_FILTERORDER + 1) * 2); + + /* Update state in case there are multiple frame losses */ + s->prevLag = lag; + s->per_square = max_perSquare; + } else { /* no packet loss, copy input */ + memcpy(plc_residual, decresidual, s->block_samples * 2); + memcpy(plc_lpc, lpc, (LPC_FILTERORDER + 1) * 2); + s->consPLICount = 0; + } + + /* update state */ + s->prevPLI = PLI; + memcpy(s->prev_lpc, plc_lpc, (LPC_FILTERORDER + 1) * 2); + memcpy(s->prevResidual, plc_residual, s->block_samples * 2); + + return; +} + +static int xcorr_coeff(int16_t *target, int16_t *regressor, + int16_t subl, int16_t searchLen, + int16_t offset, int16_t step) +{ + int16_t maxlag; + int16_t pos; + int16_t max; + int16_t cross_corr_scale, energy_scale; + int16_t cross_corr_sg_mod, cross_corr_sg_mod_max; + int32_t cross_corr, energy; + int16_t cross_corr_mod, energy_mod, enery_mod_max; + int16_t *tp, *rp; + int16_t *rp_beg, *rp_end; + int16_t totscale, totscale_max; + int16_t scalediff; + int32_t new_crit, max_crit; + int shifts; + int k; + + /* Initializations, to make sure that the first one is selected */ + cross_corr_sg_mod_max = 0; + enery_mod_max = INT16_MAX; + totscale_max = -500; + maxlag = 0; + pos = 0; + + /* Find scale value and start position */ + if (step == 1) { + max = max_abs_value_w16(regressor, (int16_t) (subl + searchLen - 1)); + rp_beg = regressor; + rp_end = ®ressor[subl]; + } else { /* step== -1 */ + max = max_abs_value_w16(®ressor[-searchLen], (int16_t) (subl + searchLen - 1)); + rp_beg = ®ressor[-1]; + rp_end = ®ressor[subl - 1]; + } + + /* Introduce a scale factor on the energy in int32_t in + order to make sure that the calculation does not + overflow */ + + if (max > 5000) { + shifts = 2; + } else { + shifts = 0; + } + + /* Calculate the first energy, then do a +/- to get the other energies */ + energy = scale_dot_product(regressor, regressor, subl, shifts); + + for (k = 0; k < searchLen; k++) { + tp = target; + rp = ®ressor[pos]; + + cross_corr = scale_dot_product(tp, rp, subl, shifts); + + if ((energy > 0) && (cross_corr > 0)) { + /* Put cross correlation and energy on 16 bit word */ + cross_corr_scale = norm_w32(cross_corr) - 16; + cross_corr_mod = (int16_t) SPL_SHIFT_W32(cross_corr, cross_corr_scale); + energy_scale = norm_w32(energy) - 16; + energy_mod = (int16_t) SPL_SHIFT_W32(energy, energy_scale); + + /* Square cross correlation and store upper int16_t */ + cross_corr_sg_mod = (int16_t) SPL_MUL_16_16_RSFT(cross_corr_mod, cross_corr_mod, 16); + + /* Calculate the total number of (dynamic) right shifts that have + been performed on (cross_corr*cross_corr)/energy + */ + totscale = energy_scale - (cross_corr_scale << 1); + + /* Calculate the shift difference in order to be able to compare the two + (cross_corr*cross_corr)/energy in the same domain + */ + scalediff = totscale - totscale_max; + scalediff = FFMIN(scalediff, 31); + scalediff = FFMAX(scalediff, -31); + + /* Compute the cross multiplication between the old best criteria + and the new one to be able to compare them without using a + division */ + + if (scalediff < 0) { + new_crit = ((int32_t) cross_corr_sg_mod * enery_mod_max) >> (-scalediff); + max_crit = ((int32_t) cross_corr_sg_mod_max * energy_mod); + } else { + new_crit = ((int32_t) cross_corr_sg_mod * enery_mod_max); + max_crit = ((int32_t) cross_corr_sg_mod_max * energy_mod) >> scalediff; + } + + /* Store the new lag value if the new criteria is larger + than previous largest criteria */ + + if (new_crit > max_crit) { + cross_corr_sg_mod_max = cross_corr_sg_mod; + enery_mod_max = energy_mod; + totscale_max = totscale; + maxlag = k; + } + } + pos += step; + + /* Do a +/- to get the next energy */ + energy += step * ((*rp_end * *rp_end - *rp_beg * *rp_beg) >> shifts); + rp_beg += step; + rp_end += step; + } + + return maxlag + offset; +} + +static void hp_output(int16_t *signal, const int16_t *ba, int16_t *y, + int16_t *x, int16_t len) +{ + int32_t tmp; + + for (int i = 0; i < len; i++) { + tmp = SPL_MUL_16_16(y[1], ba[3]); /* (-a[1])*y[i-1] (low part) */ + tmp += SPL_MUL_16_16(y[3], ba[4]); /* (-a[2])*y[i-2] (low part) */ + tmp = (tmp >> 15); + tmp += SPL_MUL_16_16(y[0], ba[3]); /* (-a[1])*y[i-1] (high part) */ + tmp += SPL_MUL_16_16(y[2], ba[4]); /* (-a[2])*y[i-2] (high part) */ + tmp = (tmp << 1); + + tmp += SPL_MUL_16_16(signal[i], ba[0]); /* b[0]*x[0] */ + tmp += SPL_MUL_16_16(x[0], ba[1]); /* b[1]*x[i-1] */ + tmp += SPL_MUL_16_16(x[1], ba[2]); /* b[2]*x[i-2] */ + + /* Update state (input part) */ + x[1] = x[0]; + x[0] = signal[i]; + + /* Convert back to Q0 and multiply with 2 */ + signal[i] = av_clip_intp2(tmp + 1024, 26) >> 11; + + /* Update state (filtered part) */ + y[2] = y[0]; + y[3] = y[1]; + + /* upshift tmp by 3 with saturation */ + if (tmp > 268435455) { + tmp = INT32_MAX; + } else if (tmp < -268435456) { + tmp = INT32_MIN; + } else { + tmp = tmp << 3; + } + + y[0] = tmp >> 16; + y[1] = (tmp - (y[0] << 16)) >> 1; + } +} + +static int ilbc_decode_frame(AVCodecContext *avctx, void *data, + int *got_frame_ptr, AVPacket *avpkt) +{ + const uint8_t *buf = avpkt->data; + AVFrame *frame = data; + ILBCContext *s = avctx->priv_data; + int mode = s->mode, ret; + int16_t *plc_data = &s->plc_residual[LPC_FILTERORDER]; + + if ((ret = init_get_bits8(&s->gb, buf, avpkt->size)) < 0) + return ret; + memset(&s->frame, 0, sizeof(ILBCFrame)); + + frame->nb_samples = s->block_samples; + if ((ret = ff_get_buffer(avctx, frame, 0)) < 0) + return ret; + + if (unpack_frame(s)) + mode = 0; + if (s->frame.start < 1) + mode = 0; + + if (mode) { + index_conv(s->frame.cb_index); + + lsf_dequantization(s->lsfdeq, s->frame.lsf, s->lpc_n); + lsf_check_stability(s->lsfdeq, LPC_FILTERORDER, s->lpc_n); + lsp_interpolate(s->syntdenum, s->weightdenum, + s->lsfdeq, LPC_FILTERORDER, s); + decode_residual(s, &s->frame, s->decresidual, s->syntdenum); + + do_plc(s->plc_residual, s->plc_lpc, 0, + s->decresidual, s->syntdenum + (LPC_FILTERORDER + 1) * (s->nsub - 1), + s->last_lag, s); + + memcpy(s->decresidual, s->plc_residual, s->block_samples * 2); + } + + if (s->enhancer) { + /* TODO */ + } else { + int16_t lag, i; + + /* Find last lag (since the enhancer is not called to give this info) */ + if (s->mode == 20) { + lag = xcorr_coeff(&s->decresidual[s->block_samples-60], &s->decresidual[s->block_samples-80], + 60, 80, 20, -1); + } else { + lag = xcorr_coeff(&s->decresidual[s->block_samples-ENH_BLOCKL], + &s->decresidual[s->block_samples-ENH_BLOCKL-20], + ENH_BLOCKL, 100, 20, -1); + } + + /* Store lag (it is needed if next packet is lost) */ + s->last_lag = lag; + + /* copy data and run synthesis filter */ + memcpy(plc_data, s->decresidual, s->block_samples * 2); + + /* Set up the filter state */ + memcpy(&plc_data[-LPC_FILTERORDER], s->syntMem, LPC_FILTERORDER * 2); + + for (i = 0; i < s->nsub; i++) { + filter_arfq12(plc_data+i*SUBL, plc_data+i*SUBL, + s->syntdenum + i*(LPC_FILTERORDER + 1), + LPC_FILTERORDER + 1, SUBL); + } + + /* Save the filter state */ + memcpy(s->syntMem, &plc_data[s->block_samples-LPC_FILTERORDER], LPC_FILTERORDER * 2); + } + + memcpy(frame->data[0], plc_data, s->block_samples * 2); + + hp_output((int16_t *)frame->data[0], hp_out_coeffs, + s->hpimemy, s->hpimemx, s->block_samples); + + memcpy(s->old_syntdenum, s->syntdenum, s->nsub*(LPC_FILTERORDER + 1) * 2); + + s->prev_enh_pl = 0; + if (mode == 0) + s->prev_enh_pl = 1; + + *got_frame_ptr = 1; + + return avpkt->size; +} + +static av_cold int ilbc_decode_init(AVCodecContext *avctx) +{ + ILBCContext *s = avctx->priv_data; + + if (avctx->block_align == 38) + s->mode = 20; + else if (avctx->block_align == 50) + s->mode = 30; + else if (avctx->bit_rate > 0) + s->mode = avctx->bit_rate <= 14000 ? 30 : 20; + else + return AVERROR_INVALIDDATA; + + avctx->channels = 1; + avctx->channel_layout = AV_CH_LAYOUT_MONO; + avctx->sample_rate = 8000; + avctx->sample_fmt = AV_SAMPLE_FMT_S16; + + if (s->mode == 30) { + s->block_samples = 240; + s->nsub = NSUB_30MS; + s->nasub = NASUB_30MS; + s->lpc_n = LPC_N_30MS; + s->state_short_len = STATE_SHORT_LEN_30MS; + } else { + s->block_samples = 160; + s->nsub = NSUB_20MS; + s->nasub = NASUB_20MS; + s->lpc_n = LPC_N_20MS; + s->state_short_len = STATE_SHORT_LEN_20MS; + } + + return 0; +} + +AVCodec ff_ilbc_decoder = { + .name = "ilbc", + .long_name = NULL_IF_CONFIG_SMALL("iLBC (Internet Low Bitrate Codec)"), + .type = AVMEDIA_TYPE_AUDIO, + .id = AV_CODEC_ID_ILBC, + .init = ilbc_decode_init, + .decode = ilbc_decode_frame, + .capabilities = AV_CODEC_CAP_DR1, + .priv_data_size = sizeof(ILBCContext), +}; diff --git a/libavcodec/version.h b/libavcodec/version.h index dbaf531d23..eddbfb9117 100644 --- a/libavcodec/version.h +++ b/libavcodec/version.h @@ -28,7 +28,7 @@ #include "libavutil/version.h" #define LIBAVCODEC_VERSION_MAJOR 58 -#define LIBAVCODEC_VERSION_MINOR 30 +#define LIBAVCODEC_VERSION_MINOR 31 #define LIBAVCODEC_VERSION_MICRO 100 #define LIBAVCODEC_VERSION_INT AV_VERSION_INT(LIBAVCODEC_VERSION_MAJOR, \ diff --git a/tests/ref/fate/source b/tests/ref/fate/source index 809c4632d4..4b9467aa77 100644 --- a/tests/ref/fate/source +++ b/tests/ref/fate/source @@ -2,6 +2,8 @@ Files without standard license headers: compat/avisynth/windowsPorts/basicDataTypeConversions.h compat/avisynth/windowsPorts/windows2linux.h libavcodec/file_open.c +libavcodec/ilbcdata.h +libavcodec/ilbcdec.c libavcodec/interplayacm.c libavcodec/log2_tab.c libavcodec/reverse.c |