ref: c9f19b1f41a962f549dd75c5c1b925f148c9ea8f
dir: /src/itx_1d.c/
/* * Copyright © 2018, VideoLAN and dav1d authors * Copyright © 2018, Two Orioles, LLC * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * * 2. 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. * * 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 OWNER 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 "config.h" #include <stddef.h> #include <stdint.h> #include "common/attributes.h" #define CLIP(a) iclip(a, min, max) /* * In some places, we use the pattern like this: * t2 = ((in1 * 1567 - in3 * (3784 - 4096) + 2048) >> 12) - in3; * even though the reference code might use something like: * t2 = (in1 * 1567 - in3 * 3784 + 2048) >> 12; * * The reason for this is that for 12 bits/component bitstreams (corrupt/ * invalid ones, but they are codable nonetheless), each coefficient or * input can be 19(+sign) bits, and therefore if the combination of the * two multipliers (each 12 bits) is >= 4096, the result of the add/sub * after the pair of multiplies will exceed the 31+sign bit range. Signed * integer overflows are UB in C, and we'd like to prevent that. * * To workaround this, we invert one of the two coefficients (or, if both are * multiples of 2, we reduce their magnitude by one bit). It should be noted * that SIMD implementations do not have to follow this exact behaviour. The * AV1 spec clearly states that the result of the multiply/add pairs should * fit in 31+sign bit intermediates, and that streams violating this convention * are not AV1-compliant. So, as long as we don't trigger UB (which some people * would consider a security vulnerability), we're fine. So, SIMD can simply * use the faster implementation, even if that might in some cases result in * integer overflows, since these are not considered valid AV1 anyway, and in * e.g. x86 assembly, integer overflows are not considered UB, but they merely * wrap around. */ static void NOINLINE inv_dct4_1d(const coef *const in, const ptrdiff_t in_s, coef *const out, const ptrdiff_t out_s, const int max) { const int min = -max - 1; const int in0 = in[0 * in_s], in1 = in[1 * in_s]; const int in2 = in[2 * in_s], in3 = in[3 * in_s]; int t0 = ((in0 + in2) * 181 + 128) >> 8; int t1 = ((in0 - in2) * 181 + 128) >> 8; int t2 = ((in1 * 1567 - in3 * (3784 - 4096) + 2048) >> 12) - in3; int t3 = ((in1 * (3784 - 4096) + in3 * 1567 + 2048) >> 12) + in1; out[0 * out_s] = CLIP(t0 + t3); out[1 * out_s] = CLIP(t1 + t2); out[2 * out_s] = CLIP(t1 - t2); out[3 * out_s] = CLIP(t0 - t3); } static void NOINLINE inv_dct8_1d(const coef *const in, const ptrdiff_t in_s, coef *const out, const ptrdiff_t out_s, const int max) { const int min = -max - 1; coef tmp[4]; inv_dct4_1d(in, in_s * 2, tmp, 1, max); const int in1 = in[1 * in_s], in3 = in[3 * in_s]; const int in5 = in[5 * in_s], in7 = in[7 * in_s]; int t4a = ((in1 * 799 - in7 * (4017 - 4096) + 2048) >> 12) - in7; int t5a = (in5 * 1703 - in3 * 1138 + 1024) >> 11; int t6a = (in5 * 1138 + in3 * 1703 + 1024) >> 11; int t7a = ((in1 * (4017 - 4096) + in7 * 799 + 2048) >> 12) + in1; int t4 = CLIP(t4a + t5a); t5a = CLIP(t4a - t5a); int t7 = CLIP(t7a + t6a); t6a = CLIP(t7a - t6a); int t5 = ((t6a - t5a) * 181 + 128) >> 8; int t6 = ((t6a + t5a) * 181 + 128) >> 8; out[0 * out_s] = CLIP(tmp[0] + t7); out[1 * out_s] = CLIP(tmp[1] + t6); out[2 * out_s] = CLIP(tmp[2] + t5); out[3 * out_s] = CLIP(tmp[3] + t4); out[4 * out_s] = CLIP(tmp[3] - t4); out[5 * out_s] = CLIP(tmp[2] - t5); out[6 * out_s] = CLIP(tmp[1] - t6); out[7 * out_s] = CLIP(tmp[0] - t7); } static void NOINLINE inv_dct16_1d(const coef *const in, const ptrdiff_t in_s, coef *const out, const ptrdiff_t out_s, const int max) { const int min = -max - 1; coef tmp[8]; inv_dct8_1d(in, in_s * 2, tmp, 1, max); const int in1 = in[ 1 * in_s], in3 = in[ 3 * in_s]; const int in5 = in[ 5 * in_s], in7 = in[ 7 * in_s]; const int in9 = in[ 9 * in_s], in11 = in[11 * in_s]; const int in13 = in[13 * in_s], in15 = in[15 * in_s]; int t8a = ((in1 * 401 - in15 * (4076 - 4096) + 2048) >> 12) - in15; int t15a = ((in1 * (4076 - 4096) + in15 * 401 + 2048) >> 12) + in1; int t9a = (in9 * 1583 - in7 * 1299 + 1024) >> 11; int t14a = (in9 * 1299 + in7 * 1583 + 1024) >> 11; int t10a = ((in5 * 1931 - in11 * (3612 - 4096) + 2048) >> 12) - in11; int t13a = ((in5 * (3612 - 4096) + in11 * 1931 + 2048) >> 12) + in5; int t11a = ((in13 * (3920 - 4096) - in3 * 1189 + 2048) >> 12) + in13; int t12a = ((in13 * 1189 + in3 * (3920 - 4096) + 2048) >> 12) + in3; int t8 = CLIP(t8a + t9a); int t9 = CLIP(t8a - t9a); int t10 = CLIP(t11a - t10a); int t11 = CLIP(t11a + t10a); int t12 = CLIP(t12a + t13a); int t13 = CLIP(t12a - t13a); int t14 = CLIP(t15a - t14a); int t15 = CLIP(t15a + t14a); t9a = (( t14 * 1567 - t9 * (3784 - 4096) + 2048) >> 12) - t9; t14a = (( t14 * (3784 - 4096) + t9 * 1567 + 2048) >> 12) + t14; t10a = ((-(t13 * (3784 - 4096) + t10 * 1567) + 2048) >> 12) - t13; t13a = (( t13 * 1567 - t10 * (3784 - 4096) + 2048) >> 12) - t10; t8a = CLIP(t8 + t11); t9 = CLIP(t9a + t10a); t10 = CLIP(t9a - t10a); t11a = CLIP(t8 - t11); t12a = CLIP(t15 - t12); t13 = CLIP(t14a - t13a); t14 = CLIP(t14a + t13a); t15a = CLIP(t15 + t12); t10a = ((t13 - t10) * 181 + 128) >> 8; t13a = ((t13 + t10) * 181 + 128) >> 8; t11 = ((t12a - t11a) * 181 + 128) >> 8; t12 = ((t12a + t11a) * 181 + 128) >> 8; out[ 0 * out_s] = CLIP(tmp[0] + t15a); out[ 1 * out_s] = CLIP(tmp[1] + t14); out[ 2 * out_s] = CLIP(tmp[2] + t13a); out[ 3 * out_s] = CLIP(tmp[3] + t12); out[ 4 * out_s] = CLIP(tmp[4] + t11); out[ 5 * out_s] = CLIP(tmp[5] + t10a); out[ 6 * out_s] = CLIP(tmp[6] + t9); out[ 7 * out_s] = CLIP(tmp[7] + t8a); out[ 8 * out_s] = CLIP(tmp[7] - t8a); out[ 9 * out_s] = CLIP(tmp[6] - t9); out[10 * out_s] = CLIP(tmp[5] - t10a); out[11 * out_s] = CLIP(tmp[4] - t11); out[12 * out_s] = CLIP(tmp[3] - t12); out[13 * out_s] = CLIP(tmp[2] - t13a); out[14 * out_s] = CLIP(tmp[1] - t14); out[15 * out_s] = CLIP(tmp[0] - t15a); } static void NOINLINE inv_dct32_1d(const coef *const in, const ptrdiff_t in_s, coef *const out, const ptrdiff_t out_s, const int max) { const int min = -max - 1; coef tmp[16]; inv_dct16_1d(in, in_s * 2, tmp, 1, max); const int in1 = in[ 1 * in_s], in3 = in[ 3 * in_s]; const int in5 = in[ 5 * in_s], in7 = in[ 7 * in_s]; const int in9 = in[ 9 * in_s], in11 = in[11 * in_s]; const int in13 = in[13 * in_s], in15 = in[15 * in_s]; const int in17 = in[17 * in_s], in19 = in[19 * in_s]; const int in21 = in[21 * in_s], in23 = in[23 * in_s]; const int in25 = in[25 * in_s], in27 = in[27 * in_s]; const int in29 = in[29 * in_s], in31 = in[31 * in_s]; int t16a = ((in1 * 201 - in31 * (4091 - 4096) + 2048) >> 12) - in31; int t31a = ((in1 * (4091 - 4096) + in31 * 201 + 2048) >> 12) + in1; int t17a = ((in17 * (3035 - 4096) - in15 * 2751 + 2048) >> 12) + in17; int t30a = ((in17 * 2751 + in15 * (3035 - 4096) + 2048) >> 12) + in15; int t18a = ((in9 * 1751 - in23 * (3703 - 4096) + 2048) >> 12) - in23; int t29a = ((in9 * (3703 - 4096) + in23 * 1751 + 2048) >> 12) + in9; int t19a = ((in25 * (3857 - 4096) - in7 * 1380 + 2048) >> 12) + in25; int t28a = ((in25 * 1380 + in7 * (3857 - 4096) + 2048) >> 12) + in7; int t20a = ((in5 * 995 - in27 * (3973 - 4096) + 2048) >> 12) - in27; int t27a = ((in5 * (3973 - 4096) + in27 * 995 + 2048) >> 12) + in5; int t21a = ((in21 * (3513 - 4096) - in11 * 2106 + 2048) >> 12) + in21; int t26a = ((in21 * 2106 + in11 * (3513 - 4096) + 2048) >> 12) + in11; int t22a = (in13 * 1220 - in19 * 1645 + 1024) >> 11; int t25a = (in13 * 1645 + in19 * 1220 + 1024) >> 11; int t23a = ((in29 * (4052 - 4096) - in3 * 601 + 2048) >> 12) + in29; int t24a = ((in29 * 601 + in3 * (4052 - 4096) + 2048) >> 12) + in3; int t16 = CLIP(t16a + t17a); int t17 = CLIP(t16a - t17a); int t18 = CLIP(t19a - t18a); int t19 = CLIP(t19a + t18a); int t20 = CLIP(t20a + t21a); int t21 = CLIP(t20a - t21a); int t22 = CLIP(t23a - t22a); int t23 = CLIP(t23a + t22a); int t24 = CLIP(t24a + t25a); int t25 = CLIP(t24a - t25a); int t26 = CLIP(t27a - t26a); int t27 = CLIP(t27a + t26a); int t28 = CLIP(t28a + t29a); int t29 = CLIP(t28a - t29a); int t30 = CLIP(t31a - t30a); int t31 = CLIP(t31a + t30a); t17a = (( t30 * 799 - t17 * (4017 - 4096) + 2048) >> 12) - t17; t30a = (( t30 * (4017 - 4096) + t17 * 799 + 2048) >> 12) + t30; t18a = ((-(t29 * (4017 - 4096) + t18 * 799) + 2048) >> 12) - t29; t29a = (( t29 * 799 - t18 * (4017 - 4096) + 2048) >> 12) - t18; t21a = ( t26 * 1703 - t21 * 1138 + 1024) >> 11; t26a = ( t26 * 1138 + t21 * 1703 + 1024) >> 11; t22a = (-(t25 * 1138 + t22 * 1703 ) + 1024) >> 11; t25a = ( t25 * 1703 - t22 * 1138 + 1024) >> 11; t16a = CLIP(t16 + t19); t17 = CLIP(t17a + t18a); t18 = CLIP(t17a - t18a); t19a = CLIP(t16 - t19); t20a = CLIP(t23 - t20); t21 = CLIP(t22a - t21a); t22 = CLIP(t22a + t21a); t23a = CLIP(t23 + t20); t24a = CLIP(t24 + t27); t25 = CLIP(t25a + t26a); t26 = CLIP(t25a - t26a); t27a = CLIP(t24 - t27); t28a = CLIP(t31 - t28); t29 = CLIP(t30a - t29a); t30 = CLIP(t30a + t29a); t31a = CLIP(t31 + t28); t18a = (( t29 * 1567 - t18 * (3784 - 4096) + 2048) >> 12) - t18; t29a = (( t29 * (3784 - 4096) + t18 * 1567 + 2048) >> 12) + t29; t19 = (( t28a * 1567 - t19a * (3784 - 4096) + 2048) >> 12) - t19a; t28 = (( t28a * (3784 - 4096) + t19a * 1567 + 2048) >> 12) + t28a; t20 = ((-(t27a * (3784 - 4096) + t20a * 1567) + 2048) >> 12) - t27a; t27 = (( t27a * 1567 - t20a * (3784 - 4096) + 2048) >> 12) - t20a; t21a = ((-(t26 * (3784 - 4096) + t21 * 1567) + 2048) >> 12) - t26; t26a = (( t26 * 1567 - t21 * (3784 - 4096) + 2048) >> 12) - t21; t16 = CLIP(t16a + t23a); t17a = CLIP(t17 + t22); t18 = CLIP(t18a + t21a); t19a = CLIP(t19 + t20); t20a = CLIP(t19 - t20); t21 = CLIP(t18a - t21a); t22a = CLIP(t17 - t22); t23 = CLIP(t16a - t23a); t24 = CLIP(t31a - t24a); t25a = CLIP(t30 - t25); t26 = CLIP(t29a - t26a); t27a = CLIP(t28 - t27); t28a = CLIP(t28 + t27); t29 = CLIP(t29a + t26a); t30a = CLIP(t30 + t25); t31 = CLIP(t31a + t24a); t20 = ((t27a - t20a) * 181 + 128) >> 8; t27 = ((t27a + t20a) * 181 + 128) >> 8; t21a = ((t26 - t21 ) * 181 + 128) >> 8; t26a = ((t26 + t21 ) * 181 + 128) >> 8; t22 = ((t25a - t22a) * 181 + 128) >> 8; t25 = ((t25a + t22a) * 181 + 128) >> 8; t23a = ((t24 - t23 ) * 181 + 128) >> 8; t24a = ((t24 + t23 ) * 181 + 128) >> 8; out[ 0 * out_s] = CLIP(tmp[ 0] + t31); out[ 1 * out_s] = CLIP(tmp[ 1] + t30a); out[ 2 * out_s] = CLIP(tmp[ 2] + t29); out[ 3 * out_s] = CLIP(tmp[ 3] + t28a); out[ 4 * out_s] = CLIP(tmp[ 4] + t27); out[ 5 * out_s] = CLIP(tmp[ 5] + t26a); out[ 6 * out_s] = CLIP(tmp[ 6] + t25); out[ 7 * out_s] = CLIP(tmp[ 7] + t24a); out[ 8 * out_s] = CLIP(tmp[ 8] + t23a); out[ 9 * out_s] = CLIP(tmp[ 9] + t22); out[10 * out_s] = CLIP(tmp[10] + t21a); out[11 * out_s] = CLIP(tmp[11] + t20); out[12 * out_s] = CLIP(tmp[12] + t19a); out[13 * out_s] = CLIP(tmp[13] + t18); out[14 * out_s] = CLIP(tmp[14] + t17a); out[15 * out_s] = CLIP(tmp[15] + t16); out[16 * out_s] = CLIP(tmp[15] - t16); out[17 * out_s] = CLIP(tmp[14] - t17a); out[18 * out_s] = CLIP(tmp[13] - t18); out[19 * out_s] = CLIP(tmp[12] - t19a); out[20 * out_s] = CLIP(tmp[11] - t20); out[21 * out_s] = CLIP(tmp[10] - t21a); out[22 * out_s] = CLIP(tmp[ 9] - t22); out[23 * out_s] = CLIP(tmp[ 8] - t23a); out[24 * out_s] = CLIP(tmp[ 7] - t24a); out[25 * out_s] = CLIP(tmp[ 6] - t25); out[26 * out_s] = CLIP(tmp[ 5] - t26a); out[27 * out_s] = CLIP(tmp[ 4] - t27); out[28 * out_s] = CLIP(tmp[ 3] - t28a); out[29 * out_s] = CLIP(tmp[ 2] - t29); out[30 * out_s] = CLIP(tmp[ 1] - t30a); out[31 * out_s] = CLIP(tmp[ 0] - t31); } static void NOINLINE inv_dct64_1d(const coef *const in, const ptrdiff_t in_s, coef *const out, const ptrdiff_t out_s, const int max) { const int min = -max - 1; coef tmp[32]; inv_dct32_1d(in, in_s * 2, tmp, 1, max); const int in1 = in[ 1 * in_s], in3 = in[ 3 * in_s]; const int in5 = in[ 5 * in_s], in7 = in[ 7 * in_s]; const int in9 = in[ 9 * in_s], in11 = in[11 * in_s]; const int in13 = in[13 * in_s], in15 = in[15 * in_s]; const int in17 = in[17 * in_s], in19 = in[19 * in_s]; const int in21 = in[21 * in_s], in23 = in[23 * in_s]; const int in25 = in[25 * in_s], in27 = in[27 * in_s]; const int in29 = in[29 * in_s], in31 = in[31 * in_s]; const int in33 = in[33 * in_s], in35 = in[35 * in_s]; const int in37 = in[37 * in_s], in39 = in[39 * in_s]; const int in41 = in[41 * in_s], in43 = in[43 * in_s]; const int in45 = in[45 * in_s], in47 = in[47 * in_s]; const int in49 = in[49 * in_s], in51 = in[51 * in_s]; const int in53 = in[53 * in_s], in55 = in[55 * in_s]; const int in57 = in[57 * in_s], in59 = in[59 * in_s]; const int in61 = in[61 * in_s], in63 = in[63 * in_s]; int t32a = ((in1 * 101 - in63 * (4095 - 4096) + 2048) >> 12) - in63; int t33a = ((in33 * (2967 - 4096) - in31 * 2824 + 2048) >> 12) + in33; int t34a = ((in17 * 1660 - in47 * (3745 - 4096) + 2048) >> 12) - in47; int t35a = (in49 * 1911 - in15 * 737 + 1024) >> 11; int t36a = ((in9 * 897 - in55 * (3996 - 4096) + 2048) >> 12) - in55; int t37a = ((in41 * (3461 - 4096) - in23 * 2191 + 2048) >> 12) + in41; int t38a = ((in25 * 2359 - in39 * (3349 - 4096) + 2048) >> 12) - in39; int t39a = (in57 * 2018 - in7 * 350 + 1024) >> 11; int t40a = ((in5 * 501 - in59 * (4065 - 4096) + 2048) >> 12) - in59; int t41a = ((in37 * (3229 - 4096) - in27 * 2520 + 2048) >> 12) + in37; int t42a = ((in21 * 2019 - in43 * (3564 - 4096) + 2048) >> 12) - in43; int t43a = (in53 * 1974 - in11 * 546 + 1024) >> 11; int t44a = ((in13 * 1285 - in51 * (3889 - 4096) + 2048) >> 12) - in51; int t45a = ((in45 * (3659 - 4096) - in19 * 1842 + 2048) >> 12) + in45; int t46a = ((in29 * 2675 - in35 * (3102 - 4096) + 2048) >> 12) - in35; int t47a = ((in61 * (4085 - 4096) - in3 * 301 + 2048) >> 12) + in61; int t48a = ((in61 * 301 + in3 * (4085 - 4096) + 2048) >> 12) + in3; int t49a = ((in29 * (3102 - 4096) + in35 * 2675 + 2048) >> 12) + in29; int t50a = ((in45 * 1842 + in19 * (3659 - 4096) + 2048) >> 12) + in19; int t51a = ((in13 * (3889 - 4096) + in51 * 1285 + 2048) >> 12) + in13; int t52a = (in53 * 546 + in11 * 1974 + 1024) >> 11; int t53a = ((in21 * (3564 - 4096) + in43 * 2019 + 2048) >> 12) + in21; int t54a = ((in37 * 2520 + in27 * (3229 - 4096) + 2048) >> 12) + in27; int t55a = ((in5 * (4065 - 4096) + in59 * 501 + 2048) >> 12) + in5; int t56a = (in57 * 350 + in7 * 2018 + 1024) >> 11; int t57a = ((in25 * (3349 - 4096) + in39 * 2359 + 2048) >> 12) + in25; int t58a = ((in41 * 2191 + in23 * (3461 - 4096) + 2048) >> 12) + in23; int t59a = ((in9 * (3996 - 4096) + in55 * 897 + 2048) >> 12) + in9; int t60a = (in49 * 737 + in15 * 1911 + 1024) >> 11; int t61a = ((in17 * (3745 - 4096) + in47 * 1660 + 2048) >> 12) + in17; int t62a = ((in33 * 2824 + in31 * (2967 - 4096) + 2048) >> 12) + in31; int t63a = ((in1 * (4095 - 4096) + in63 * 101 + 2048) >> 12) + in1; int t32 = CLIP(t32a + t33a); int t33 = CLIP(t32a - t33a); int t34 = CLIP(t35a - t34a); int t35 = CLIP(t35a + t34a); int t36 = CLIP(t36a + t37a); int t37 = CLIP(t36a - t37a); int t38 = CLIP(t39a - t38a); int t39 = CLIP(t39a + t38a); int t40 = CLIP(t40a + t41a); int t41 = CLIP(t40a - t41a); int t42 = CLIP(t43a - t42a); int t43 = CLIP(t43a + t42a); int t44 = CLIP(t44a + t45a); int t45 = CLIP(t44a - t45a); int t46 = CLIP(t47a - t46a); int t47 = CLIP(t47a + t46a); int t48 = CLIP(t48a + t49a); int t49 = CLIP(t48a - t49a); int t50 = CLIP(t51a - t50a); int t51 = CLIP(t51a + t50a); int t52 = CLIP(t52a + t53a); int t53 = CLIP(t52a - t53a); int t54 = CLIP(t55a - t54a); int t55 = CLIP(t55a + t54a); int t56 = CLIP(t56a + t57a); int t57 = CLIP(t56a - t57a); int t58 = CLIP(t59a - t58a); int t59 = CLIP(t59a + t58a); int t60 = CLIP(t60a + t61a); int t61 = CLIP(t60a - t61a); int t62 = CLIP(t63a - t62a); int t63 = CLIP(t63a + t62a); t33a = ((t33 * (4096 - 4076) + t62 * 401 + 2048) >> 12) - t33; t34a = ((t34 * -401 + t61 * (4096 - 4076) + 2048) >> 12) - t61; t37a = (t37 * -1299 + t58 * 1583 + 1024) >> 11; t38a = (t38 * -1583 + t57 * -1299 + 1024) >> 11; t41a = ((t41 * (4096 - 3612) + t54 * 1931 + 2048) >> 12) - t41; t42a = ((t42 * -1931 + t53 * (4096 - 3612) + 2048) >> 12) - t53; t45a = ((t45 * -1189 + t50 * (3920 - 4096) + 2048) >> 12) + t50; t46a = ((t46 * (4096 - 3920) + t49 * -1189 + 2048) >> 12) - t46; t49a = ((t46 * -1189 + t49 * (3920 - 4096) + 2048) >> 12) + t49; t50a = ((t45 * (3920 - 4096) + t50 * 1189 + 2048) >> 12) + t45; t53a = ((t42 * (4096 - 3612) + t53 * 1931 + 2048) >> 12) - t42; t54a = ((t41 * 1931 + t54 * (3612 - 4096) + 2048) >> 12) + t54; t57a = (t38 * -1299 + t57 * 1583 + 1024) >> 11; t58a = (t37 * 1583 + t58 * 1299 + 1024) >> 11; t61a = ((t34 * (4096 - 4076) + t61 * 401 + 2048) >> 12) - t34; t62a = ((t33 * 401 + t62 * (4076 - 4096) + 2048) >> 12) + t62; t32a = CLIP(t32 + t35); t33 = CLIP(t33a + t34a); t34 = CLIP(t33a - t34a); t35a = CLIP(t32 - t35); t36a = CLIP(t39 - t36); t37 = CLIP(t38a - t37a); t38 = CLIP(t38a + t37a); t39a = CLIP(t39 + t36); t40a = CLIP(t40 + t43); t41 = CLIP(t41a + t42a); t42 = CLIP(t41a - t42a); t43a = CLIP(t40 - t43); t44a = CLIP(t47 - t44); t45 = CLIP(t46a - t45a); t46 = CLIP(t46a + t45a); t47a = CLIP(t47 + t44); t48a = CLIP(t48 + t51); t49 = CLIP(t49a + t50a); t50 = CLIP(t49a - t50a); t51a = CLIP(t48 - t51); t52a = CLIP(t55 - t52); t53 = CLIP(t54a - t53a); t54 = CLIP(t54a + t53a); t55a = CLIP(t55 + t52); t56a = CLIP(t56 + t59); t57 = CLIP(t57a + t58a); t58 = CLIP(t57a - t58a); t59a = CLIP(t56 - t59); t60a = CLIP(t63 - t60); t61 = CLIP(t62a - t61a); t62 = CLIP(t62a + t61a); t63a = CLIP(t63 + t60); t34a = ((t34 * (4096 - 4017) + t61 * 799 + 2048) >> 12) - t34; t35 = ((t35a * (4096 - 4017) + t60a * 799 + 2048) >> 12) - t35a; t36 = ((t36a * -799 + t59a * (4096 - 4017) + 2048) >> 12) - t59a; t37a = ((t37 * -799 + t58 * (4096 - 4017) + 2048) >> 12) - t58; t42a = (t42 * -1138 + t53 * 1703 + 1024) >> 11; t43 = (t43a * -1138 + t52a * 1703 + 1024) >> 11; t44 = (t44a * -1703 + t51a * -1138 + 1024) >> 11; t45a = (t45 * -1703 + t50 * -1138 + 1024) >> 11; t50a = (t45 * -1138 + t50 * 1703 + 1024) >> 11; t51 = (t44a * -1138 + t51a * 1703 + 1024) >> 11; t52 = (t43a * 1703 + t52a * 1138 + 1024) >> 11; t53a = (t42 * 1703 + t53 * 1138 + 1024) >> 11; t58a = ((t37 * (4096 - 4017) + t58 * 799 + 2048) >> 12) - t37; t59 = ((t36a * (4096 - 4017) + t59a * 799 + 2048) >> 12) - t36a; t60 = ((t35a * 799 + t60a * (4017 - 4096) + 2048) >> 12) + t60a; t61a = ((t34 * 799 + t61 * (4017 - 4096) + 2048) >> 12) + t61; t32 = CLIP(t32a + t39a); t33a = CLIP(t33 + t38); t34 = CLIP(t34a + t37a); t35a = CLIP(t35 + t36); t36a = CLIP(t35 - t36); t37 = CLIP(t34a - t37a); t38a = CLIP(t33 - t38); t39 = CLIP(t32a - t39a); t40 = CLIP(t47a - t40a); t41a = CLIP(t46 - t41); t42 = CLIP(t45a - t42a); t43a = CLIP(t44 - t43); t44a = CLIP(t44 + t43); t45 = CLIP(t45a + t42a); t46a = CLIP(t46 + t41); t47 = CLIP(t47a + t40a); t48 = CLIP(t48a + t55a); t49a = CLIP(t49 + t54); t50 = CLIP(t50a + t53a); t51a = CLIP(t51 + t52); t52a = CLIP(t51 - t52); t53 = CLIP(t50a - t53a); t54a = CLIP(t49 - t54); t55 = CLIP(t48a - t55a); t56 = CLIP(t63a - t56a); t57a = CLIP(t62 - t57); t58 = CLIP(t61a - t58a); t59a = CLIP(t60 - t59); t60a = CLIP(t60 + t59); t61 = CLIP(t61a + t58a); t62a = CLIP(t62 + t57); t63 = CLIP(t63a + t56a); t36 = ((t36a * (4096 - 3784) + t59a * 1567 + 2048) >> 12) - t36a; t37a = ((t37 * (4096 - 3784) + t58 * 1567 + 2048) >> 12) - t37; t38 = ((t38a * (4096 - 3784) + t57a * 1567 + 2048) >> 12) - t38a; t39a = ((t39 * (4096 - 3784) + t56 * 1567 + 2048) >> 12) - t39; t40a = ((t40 * -1567 + t55 * (4096 - 3784) + 2048) >> 12) - t55; t41 = ((t41a * -1567 + t54a * (4096 - 3784) + 2048) >> 12) - t54a; t42a = ((t42 * -1567 + t53 * (4096 - 3784) + 2048) >> 12) - t53; t43 = ((t43a * -1567 + t52a * (4096 - 3784) + 2048) >> 12) - t52a; t52 = ((t43a * (4096 - 3784) + t52a * 1567 + 2048) >> 12) - t43a; t53a = ((t42 * (4096 - 3784) + t53 * 1567 + 2048) >> 12) - t42; t54 = ((t41a * (4096 - 3784) + t54a * 1567 + 2048) >> 12) - t41a; t55a = ((t40 * (4096 - 3784) + t55 * 1567 + 2048) >> 12) - t40; t56a = ((t39 * 1567 + t56 * (3784 - 4096) + 2048) >> 12) + t56; t57 = ((t38a * 1567 + t57a * (3784 - 4096) + 2048) >> 12) + t57a; t58a = ((t37 * 1567 + t58 * (3784 - 4096) + 2048) >> 12) + t58; t59 = ((t36a * 1567 + t59a * (3784 - 4096) + 2048) >> 12) + t59a; t32a = CLIP(t32 + t47); t33 = CLIP(t33a + t46a); t34a = CLIP(t34 + t45); t35 = CLIP(t35a + t44a); t36a = CLIP(t36 + t43); t37 = CLIP(t37a + t42a); t38a = CLIP(t38 + t41); t39 = CLIP(t39a + t40a); t40 = CLIP(t39a - t40a); t41a = CLIP(t38 - t41); t42 = CLIP(t37a - t42a); t43a = CLIP(t36 - t43); t44 = CLIP(t35a - t44a); t45a = CLIP(t34 - t45); t46 = CLIP(t33a - t46a); t47a = CLIP(t32 - t47); t48a = CLIP(t63 - t48); t49 = CLIP(t62a - t49a); t50a = CLIP(t61 - t50); t51 = CLIP(t60a - t51a); t52a = CLIP(t59 - t52); t53 = CLIP(t58a - t53a); t54a = CLIP(t57 - t54); t55 = CLIP(t56a - t55a); t56 = CLIP(t56a + t55a); t57a = CLIP(t57 + t54); t58 = CLIP(t58a + t53a); t59a = CLIP(t59 + t52); t60 = CLIP(t60a + t51a); t61a = CLIP(t61 + t50); t62 = CLIP(t62a + t49a); t63a = CLIP(t63 + t48); t40a = ((t55 - t40 ) * 181 + 128) >> 8; t41 = ((t54a - t41a) * 181 + 128) >> 8; t42a = ((t53 - t42 ) * 181 + 128) >> 8; t43 = ((t52a - t43a) * 181 + 128) >> 8; t44a = ((t51 - t44 ) * 181 + 128) >> 8; t45 = ((t50a - t45a) * 181 + 128) >> 8; t46a = ((t49 - t46 ) * 181 + 128) >> 8; t47 = ((t48a - t47a) * 181 + 128) >> 8; t48 = ((t47a + t48a) * 181 + 128) >> 8; t49a = ((t46 + t49 ) * 181 + 128) >> 8; t50 = ((t45a + t50a) * 181 + 128) >> 8; t51a = ((t44 + t51 ) * 181 + 128) >> 8; t52 = ((t43a + t52a) * 181 + 128) >> 8; t53a = ((t42 + t53 ) * 181 + 128) >> 8; t54 = ((t41a + t54a) * 181 + 128) >> 8; t55a = ((t40 + t55 ) * 181 + 128) >> 8; out[ 0 * out_s] = CLIP(tmp[ 0] + t63a); out[ 1 * out_s] = CLIP(tmp[ 1] + t62); out[ 2 * out_s] = CLIP(tmp[ 2] + t61a); out[ 3 * out_s] = CLIP(tmp[ 3] + t60); out[ 4 * out_s] = CLIP(tmp[ 4] + t59a); out[ 5 * out_s] = CLIP(tmp[ 5] + t58); out[ 6 * out_s] = CLIP(tmp[ 6] + t57a); out[ 7 * out_s] = CLIP(tmp[ 7] + t56); out[ 8 * out_s] = CLIP(tmp[ 8] + t55a); out[ 9 * out_s] = CLIP(tmp[ 9] + t54); out[10 * out_s] = CLIP(tmp[10] + t53a); out[11 * out_s] = CLIP(tmp[11] + t52); out[12 * out_s] = CLIP(tmp[12] + t51a); out[13 * out_s] = CLIP(tmp[13] + t50); out[14 * out_s] = CLIP(tmp[14] + t49a); out[15 * out_s] = CLIP(tmp[15] + t48); out[16 * out_s] = CLIP(tmp[16] + t47); out[17 * out_s] = CLIP(tmp[17] + t46a); out[18 * out_s] = CLIP(tmp[18] + t45); out[19 * out_s] = CLIP(tmp[19] + t44a); out[20 * out_s] = CLIP(tmp[20] + t43); out[21 * out_s] = CLIP(tmp[21] + t42a); out[22 * out_s] = CLIP(tmp[22] + t41); out[23 * out_s] = CLIP(tmp[23] + t40a); out[24 * out_s] = CLIP(tmp[24] + t39); out[25 * out_s] = CLIP(tmp[25] + t38a); out[26 * out_s] = CLIP(tmp[26] + t37); out[27 * out_s] = CLIP(tmp[27] + t36a); out[28 * out_s] = CLIP(tmp[28] + t35); out[29 * out_s] = CLIP(tmp[29] + t34a); out[30 * out_s] = CLIP(tmp[30] + t33); out[31 * out_s] = CLIP(tmp[31] + t32a); out[32 * out_s] = CLIP(tmp[31] - t32a); out[33 * out_s] = CLIP(tmp[30] - t33); out[34 * out_s] = CLIP(tmp[29] - t34a); out[35 * out_s] = CLIP(tmp[28] - t35); out[36 * out_s] = CLIP(tmp[27] - t36a); out[37 * out_s] = CLIP(tmp[26] - t37); out[38 * out_s] = CLIP(tmp[25] - t38a); out[39 * out_s] = CLIP(tmp[24] - t39); out[40 * out_s] = CLIP(tmp[23] - t40a); out[41 * out_s] = CLIP(tmp[22] - t41); out[42 * out_s] = CLIP(tmp[21] - t42a); out[43 * out_s] = CLIP(tmp[20] - t43); out[44 * out_s] = CLIP(tmp[19] - t44a); out[45 * out_s] = CLIP(tmp[18] - t45); out[46 * out_s] = CLIP(tmp[17] - t46a); out[47 * out_s] = CLIP(tmp[16] - t47); out[48 * out_s] = CLIP(tmp[15] - t48); out[49 * out_s] = CLIP(tmp[14] - t49a); out[50 * out_s] = CLIP(tmp[13] - t50); out[51 * out_s] = CLIP(tmp[12] - t51a); out[52 * out_s] = CLIP(tmp[11] - t52); out[53 * out_s] = CLIP(tmp[10] - t53a); out[54 * out_s] = CLIP(tmp[ 9] - t54); out[55 * out_s] = CLIP(tmp[ 8] - t55a); out[56 * out_s] = CLIP(tmp[ 7] - t56); out[57 * out_s] = CLIP(tmp[ 6] - t57a); out[58 * out_s] = CLIP(tmp[ 5] - t58); out[59 * out_s] = CLIP(tmp[ 4] - t59a); out[60 * out_s] = CLIP(tmp[ 3] - t60); out[61 * out_s] = CLIP(tmp[ 2] - t61a); out[62 * out_s] = CLIP(tmp[ 1] - t62); out[63 * out_s] = CLIP(tmp[ 0] - t63a); } static void NOINLINE inv_adst4_1d(const coef *const in, const ptrdiff_t in_s, coef *const out, const ptrdiff_t out_s, const int range) { const int in0 = in[0 * in_s], in1 = in[1 * in_s]; const int in2 = in[2 * in_s], in3 = in[3 * in_s]; out[0 * out_s] = (( 1321 * in0 + (3803 - 4096) * in2 + (2482 - 4096) * in3 + (3344 - 4096) * in1 + 2048) >> 12) + in2 + in3 + in1; out[1 * out_s] = (((2482 - 4096) * in0 - 1321 * in2 - (3803 - 4096) * in3 + (3344 - 4096) * in1 + 2048) >> 12) + in0 - in3 + in1; out[2 * out_s] = (209 * (in0 - in2 + in3) + 128) >> 8; out[3 * out_s] = (((3803 - 4096) * in0 + (2482 - 4096) * in2 - 1321 * in3 - (3344 - 4096) * in1 + 2048) >> 12) + in0 + in2 - in1; } static void NOINLINE inv_adst8_1d(const coef *const in, const ptrdiff_t in_s, coef *const out, const ptrdiff_t out_s, const int max) { const int min = -max - 1; const int in0 = in[0 * in_s], in1 = in[1 * in_s]; const int in2 = in[2 * in_s], in3 = in[3 * in_s]; const int in4 = in[4 * in_s], in5 = in[5 * in_s]; const int in6 = in[6 * in_s], in7 = in[7 * in_s]; int t0a = (((4076 - 4096) * in7 + 401 * in0 + 2048) >> 12) + in7; int t1a = (( 401 * in7 - (4076 - 4096) * in0 + 2048) >> 12) - in0; int t2a = (((3612 - 4096) * in5 + 1931 * in2 + 2048) >> 12) + in5; int t3a = (( 1931 * in5 - (3612 - 4096) * in2 + 2048) >> 12) - in2; int t4a = ( 1299 * in3 + 1583 * in4 + 1024) >> 11; int t5a = ( 1583 * in3 - 1299 * in4 + 1024) >> 11; int t6a = (( 1189 * in1 + (3920 - 4096) * in6 + 2048) >> 12) + in6; int t7a = (((3920 - 4096) * in1 - 1189 * in6 + 2048) >> 12) + in1; int t0 = CLIP(t0a + t4a); int t1 = CLIP(t1a + t5a); int t2 = CLIP(t2a + t6a); int t3 = CLIP(t3a + t7a); int t4 = CLIP(t0a - t4a); int t5 = CLIP(t1a - t5a); int t6 = CLIP(t2a - t6a); int t7 = CLIP(t3a - t7a); t4a = (((3784 - 4096) * t4 + 1567 * t5 + 2048) >> 12) + t4; t5a = (( 1567 * t4 - (3784 - 4096) * t5 + 2048) >> 12) - t5; t6a = (((3784 - 4096) * t7 - 1567 * t6 + 2048) >> 12) + t7; t7a = (( 1567 * t7 + (3784 - 4096) * t6 + 2048) >> 12) + t6; out[0 * out_s] = CLIP( t0 + t2); out[7 * out_s] = CLIP(-(t1 + t3)); t2 = CLIP( t0 - t2); t3 = CLIP( t1 - t3); out[1 * out_s] = CLIP(-(t4a + t6a)); out[6 * out_s] = CLIP( t5a + t7a ); t6 = CLIP( t4a - t6a ); t7 = CLIP( t5a - t7a ); out[3 * out_s] = -(((t2 + t3) * 181 + 128) >> 8); out[4 * out_s] = ((t2 - t3) * 181 + 128) >> 8; out[2 * out_s] = ((t6 + t7) * 181 + 128) >> 8; out[5 * out_s] = -(((t6 - t7) * 181 + 128) >> 8); } static void NOINLINE inv_adst16_1d(const coef *const in, const ptrdiff_t in_s, coef *const out, const ptrdiff_t out_s, const int max) { const int min = -max - 1; const int in0 = in[ 0 * in_s], in1 = in[ 1 * in_s]; const int in2 = in[ 2 * in_s], in3 = in[ 3 * in_s]; const int in4 = in[ 4 * in_s], in5 = in[ 5 * in_s]; const int in6 = in[ 6 * in_s], in7 = in[ 7 * in_s]; const int in8 = in[ 8 * in_s], in9 = in[ 9 * in_s]; const int in10 = in[10 * in_s], in11 = in[11 * in_s]; const int in12 = in[12 * in_s], in13 = in[13 * in_s]; const int in14 = in[14 * in_s], in15 = in[15 * in_s]; int t0 = ((in15 * (4091 - 4096) + in0 * 201 + 2048) >> 12) + in15; int t1 = ((in15 * 201 - in0 * (4091 - 4096) + 2048) >> 12) - in0; int t2 = ((in13 * (3973 - 4096) + in2 * 995 + 2048) >> 12) + in13; int t3 = ((in13 * 995 - in2 * (3973 - 4096) + 2048) >> 12) - in2; int t4 = ((in11 * (3703 - 4096) + in4 * 1751 + 2048) >> 12) + in11; int t5 = ((in11 * 1751 - in4 * (3703 - 4096) + 2048) >> 12) - in4; int t6 = (in9 * 1645 + in6 * 1220 + 1024) >> 11; int t7 = (in9 * 1220 - in6 * 1645 + 1024) >> 11; int t8 = ((in7 * 2751 + in8 * (3035 - 4096) + 2048) >> 12) + in8; int t9 = ((in7 * (3035 - 4096) - in8 * 2751 + 2048) >> 12) + in7; int t10 = ((in5 * 2106 + in10 * (3513 - 4096) + 2048) >> 12) + in10; int t11 = ((in5 * (3513 - 4096) - in10 * 2106 + 2048) >> 12) + in5; int t12 = ((in3 * 1380 + in12 * (3857 - 4096) + 2048) >> 12) + in12; int t13 = ((in3 * (3857 - 4096) - in12 * 1380 + 2048) >> 12) + in3; int t14 = ((in1 * 601 + in14 * (4052 - 4096) + 2048) >> 12) + in14; int t15 = ((in1 * (4052 - 4096) - in14 * 601 + 2048) >> 12) + in1; int t0a = CLIP(t0 + t8 ); int t1a = CLIP(t1 + t9 ); int t2a = CLIP(t2 + t10); int t3a = CLIP(t3 + t11); int t4a = CLIP(t4 + t12); int t5a = CLIP(t5 + t13); int t6a = CLIP(t6 + t14); int t7a = CLIP(t7 + t15); int t8a = CLIP(t0 - t8 ); int t9a = CLIP(t1 - t9 ); int t10a = CLIP(t2 - t10); int t11a = CLIP(t3 - t11); int t12a = CLIP(t4 - t12); int t13a = CLIP(t5 - t13); int t14a = CLIP(t6 - t14); int t15a = CLIP(t7 - t15); t8 = ((t8a * (4017 - 4096) + t9a * 799 + 2048) >> 12) + t8a; t9 = ((t8a * 799 - t9a * (4017 - 4096) + 2048) >> 12) - t9a; t10 = ((t10a * 2276 + t11a * (3406 - 4096) + 2048) >> 12) + t11a; t11 = ((t10a * (3406 - 4096) - t11a * 2276 + 2048) >> 12) + t10a; t12 = ((t13a * (4017 - 4096) - t12a * 799 + 2048) >> 12) + t13a; t13 = ((t13a * 799 + t12a * (4017 - 4096) + 2048) >> 12) + t12a; t14 = ((t15a * 2276 - t14a * (3406 - 4096) + 2048) >> 12) - t14a; t15 = ((t15a * (3406 - 4096) + t14a * 2276 + 2048) >> 12) + t15a; t0 = CLIP(t0a + t4a); t1 = CLIP(t1a + t5a); t2 = CLIP(t2a + t6a); t3 = CLIP(t3a + t7a); t4 = CLIP(t0a - t4a); t5 = CLIP(t1a - t5a); t6 = CLIP(t2a - t6a); t7 = CLIP(t3a - t7a); t8a = CLIP(t8 + t12); t9a = CLIP(t9 + t13); t10a = CLIP(t10 + t14); t11a = CLIP(t11 + t15); t12a = CLIP(t8 - t12); t13a = CLIP(t9 - t13); t14a = CLIP(t10 - t14); t15a = CLIP(t11 - t15); t4a = ((t4 * (3784 - 4096) + t5 * 1567 + 2048) >> 12) + t4; t5a = ((t4 * 1567 - t5 * (3784 - 4096) + 2048) >> 12) - t5; t6a = ((t7 * (3784 - 4096) - t6 * 1567 + 2048) >> 12) + t7; t7a = ((t7 * 1567 + t6 * (3784 - 4096) + 2048) >> 12) + t6; t12 = ((t12a * (3784 - 4096) + t13a * 1567 + 2048) >> 12) + t12a; t13 = ((t12a * 1567 - t13a * (3784 - 4096) + 2048) >> 12) - t13a; t14 = ((t15a * (3784 - 4096) - t14a * 1567 + 2048) >> 12) + t15a; t15 = ((t15a * 1567 + t14a * (3784 - 4096) + 2048) >> 12) + t14a; out[ 0 * out_s] = CLIP( t0 + t2 ); out[15 * out_s] = CLIP(-(t1 + t3) ); t2a = CLIP( t0 - t2 ); t3a = CLIP( t1 - t3 ); out[ 3 * out_s] = CLIP(-(t4a + t6a) ); out[12 * out_s] = CLIP( t5a + t7a ); t6 = CLIP( t4a - t6a ); t7 = CLIP( t5a - t7a ); out[ 1 * out_s] = CLIP(-(t8a + t10a)); out[14 * out_s] = CLIP( t9a + t11a ); t10 = CLIP( t8a - t10a ); t11 = CLIP( t9a - t11a ); out[ 2 * out_s] = CLIP( t12 + t14 ); out[13 * out_s] = CLIP(-(t13 + t15) ); t14a = CLIP( t12 - t14 ); t15a = CLIP( t13 - t15 ); out[ 7 * out_s] = -(((t2a + t3a) * 181 + 128) >> 8); out[ 8 * out_s] = ((t2a - t3a) * 181 + 128) >> 8; out[ 4 * out_s] = ((t6 + t7) * 181 + 128) >> 8; out[11 * out_s] = -(((t6 - t7) * 181 + 128) >> 8); out[ 6 * out_s] = ((t10 + t11) * 181 + 128) >> 8; out[ 9 * out_s] = -(((t10 - t11) * 181 + 128) >> 8); out[ 5 * out_s] = -(((t14a + t15a) * 181 + 128) >> 8); out[10 * out_s] = ((t14a - t15a) * 181 + 128) >> 8; } #define flip_inv_adst(sz) \ static void inv_flipadst##sz##_1d(const coef *const in, const ptrdiff_t in_s, \ coef *const out, const ptrdiff_t out_s, const int range) \ { \ inv_adst##sz##_1d(in, in_s, &out[(sz - 1) * out_s], -out_s, range); \ } flip_inv_adst(4) flip_inv_adst(8) flip_inv_adst(16) #undef flip_inv_adst static void NOINLINE inv_identity4_1d(const coef *const in, const ptrdiff_t in_s, coef *const out, const ptrdiff_t out_s, const int range) { for (int i = 0; i < 4; i++) out[out_s * i] = in[in_s * i] + ((in[in_s * i] * 1697 + 2048) >> 12); } static void NOINLINE inv_identity8_1d(const coef *const in, const ptrdiff_t in_s, coef *const out, const ptrdiff_t out_s, const int range) { for (int i = 0; i < 8; i++) out[out_s * i] = in[in_s * i] * 2; } static void NOINLINE inv_identity16_1d(const coef *const in, const ptrdiff_t in_s, coef *const out, const ptrdiff_t out_s, const int range) { for (int i = 0; i < 16; i++) out[out_s * i] = 2 * in[in_s * i] + ((in[in_s * i] * 1697 + 1024) >> 11); } static void NOINLINE inv_identity32_1d(const coef *const in, const ptrdiff_t in_s, coef *const out, const ptrdiff_t out_s, const int range) { for (int i = 0; i < 32; i++) out[out_s * i] = in[in_s * i] * 4; } static void NOINLINE inv_wht4_1d(const coef *const in, const ptrdiff_t in_s, coef *const out, const ptrdiff_t out_s, const int pass) { const int sh = 2 * !pass; const int in0 = in[0 * in_s] >> sh, in1 = in[1 * in_s] >> sh; const int in2 = in[2 * in_s] >> sh, in3 = in[3 * in_s] >> sh; const int t0 = in0 + in1; const int t2 = in2 - in3; const int t4 = (t0 - t2) >> 1; const int t3 = t4 - in3; const int t1 = t4 - in1; out[0 * out_s] = t0 - t3; out[1 * out_s] = t3; out[2 * out_s] = t1; out[3 * out_s] = t2 + t1; }