📄 hf2_32.c
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/* * Copyright (c) 2003, 2006 Matteo Frigo * Copyright (c) 2003, 2006 Massachusetts Institute of Technology * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * *//* This file was automatically generated --- DO NOT EDIT *//* Generated on Sat Oct 4 10:31:02 EDT 2008 */#include "codelet-rdft.h"#ifdef HAVE_FMA/* Generated by: ../../../genfft/gen_hc2hc -fma -reorder-insns -schedule-for-pipeline -compact -variables 4 -pipeline-latency 4 -twiddle-log3 -precompute-twiddles -n 32 -dit -name hf2_32 -include hf.h *//* * This function contains 488 FP additions, 350 FP multiplications, * (or, 236 additions, 98 multiplications, 252 fused multiply/add), * 181 stack variables, and 128 memory accesses *//* * Generator Id's : * $Id: algsimp.ml,v 1.9 2006-02-12 23:34:12 athena Exp $ * $Id: fft.ml,v 1.4 2006-01-05 03:04:27 stevenj Exp $ * $Id: gen_hc2hc.ml,v 1.16 2006-02-12 23:34:12 athena Exp $ */#include "hf.h"static const R *hf2_32(R *rio, R *iio, const R *W, stride ios, INT m, INT dist){ DK(KP831469612, +0.831469612302545237078788377617905756738560812); DK(KP980785280, +0.980785280403230449126182236134239036973933731); DK(KP198912367, +0.198912367379658006911597622644676228597850501); DK(KP668178637, +0.668178637919298919997757686523080761552472251); DK(KP923879532, +0.923879532511286756128183189396788286822416626); DK(KP414213562, +0.414213562373095048801688724209698078569671875); DK(KP707106781, +0.707106781186547524400844362104849039284835938); INT i; for (i = m - 2; i > 0; i = i - 2, rio = rio + dist, iio = iio - dist, W = W + 8, MAKE_VOLATILE_STRIDE(ios)) { E T9A, T9z; { E T2, T8, T3, T6, Te, Tr, T18, T4, Ta, Tz, T1n, T10, Ti, T5, Tc; T2 = W[0]; T8 = W[4]; T3 = W[2]; T6 = W[3]; Te = W[6]; Tr = T2 * T8; T18 = T3 * T8; T4 = T2 * T3; Ta = T2 * T6; Tz = T3 * Te; T1n = T8 * Te; T10 = T2 * Te; Ti = W[7]; T5 = W[1]; Tc = W[5]; { E TR, TP, T3r, T3n, Tq, T46, T8H, T97, T4b, T8D, TH, T98, TZ, T7f, T4j; E T6t, T1g, T7g, T4q, T6u, T1J, T7m, T6y, T4z, T7l, T8d, T6x, T4G, T2k, T7o; E T7r, T8e, T6B, T4O, T6A, T4V, T7A, T2N, T6I, T5s, T6F, T55, T8i, T7x, T5c; E T5t, T3c, T7y, T5j, T5u, T7D, T8j, T5L, T62, T43, T7G, T5S, T63, T7O, T8o; E T3o, T3l, T3p, T5W, T3E, T5C, T3s, T3v, T3x; { E T1K, T23, T1N, T26, T2b, T1U, T3C, T3j, T3z, T3f, T1R, T29, Th, T34, T2J; E T31, T2F, Td, T2X, T2T, T2w, T2s, T3Q, T3M, T1Z, T1V, T2g, T2c; { E T11, T1C, TM, Tb, TJ, T7, T1o, T19, T1w, T1F, T15, T1s, T1d, T1z, TW; E TS, Ty, T4a, T48, TG; { E T1, TA, Ts, TE, Tw, Tn, Tj, T8G, Tk, To, T14; T1 = rio[0]; TA = FMA(T6, Ti, Tz); T1K = FNMS(T6, Ti, Tz); T14 = T2 * Ti; { E T1r, TD, T1c, Tv; T1r = T8 * Ti; TD = T3 * Ti; T11 = FNMS(T5, Ti, T10); T1C = FMA(T5, Ti, T10); TM = FMA(T5, T3, Ta); Tb = FNMS(T5, T3, Ta); TJ = FNMS(T5, T6, T4); T7 = FMA(T5, T6, T4); T1o = FMA(Tc, Ti, T1n); T23 = FMA(T6, Tc, T18); T19 = FNMS(T6, Tc, T18); T1w = FNMS(T5, Tc, Tr); Ts = FMA(T5, Tc, Tr); T1c = T3 * Tc; Tv = T2 * Tc; T1F = FNMS(T5, Te, T14); T15 = FMA(T5, Te, T14); T1s = FNMS(Tc, Te, T1r); T1N = FMA(T6, Te, TD); TE = FNMS(T6, Te, TD); { E T1T, T3i, T3e, T1Q; T1T = TJ * Tc; T3i = TJ * Ti; T3e = TJ * Te; T1Q = TJ * T8; { E Tg, T2I, T2E, T9; Tg = T7 * Tc; T2I = T7 * Ti; T2E = T7 * Te; T9 = T7 * T8; { E T3q, T3m, T2v, T2r; T3q = T19 * Ti; T3m = T19 * Te; T2v = T1w * Ti; T2r = T1w * Te; { E T2W, T2S, T3P, T3L; T2W = T23 * Ti; T2S = T23 * Te; T3P = Ts * Ti; T3L = Ts * Te; T26 = FNMS(T6, T8, T1c); T1d = FMA(T6, T8, T1c); T1z = FMA(T5, T8, Tv); Tw = FNMS(T5, T8, Tv); T2b = FNMS(TM, T8, T1T); T1U = FMA(TM, T8, T1T); T3C = FNMS(TM, Te, T3i); T3j = FMA(TM, Te, T3i); T3z = FMA(TM, Ti, T3e); T3f = FNMS(TM, Ti, T3e); T1R = FNMS(TM, Tc, T1Q); T29 = FMA(TM, Tc, T1Q); TR = FNMS(Tb, T8, Tg); Th = FMA(Tb, T8, Tg); T34 = FMA(Tb, Te, T2I); T2J = FNMS(Tb, Te, T2I); T31 = FNMS(Tb, Ti, T2E); T2F = FMA(Tb, Ti, T2E); Td = FNMS(Tb, Tc, T9); TP = FMA(Tb, Tc, T9); T2X = FNMS(T26, Te, T2W); T2T = FMA(T26, Ti, T2S); T3r = FNMS(T1d, Te, T3q); T3n = FMA(T1d, Ti, T3m); T2w = FNMS(T1z, Te, T2v); T2s = FMA(T1z, Ti, T2r); T3Q = FNMS(Tw, Te, T3P); T3M = FMA(Tw, Ti, T3L); { E T1Y, T1S, T2f, T2a; T1Y = T1R * Ti; T1S = T1R * Te; T2f = T29 * Ti; T2a = T29 * Te; { E Tm, Tf, TV, TQ; Tm = Td * Ti; Tf = Td * Te; TV = TP * Ti; TQ = TP * Te; T1Z = FNMS(T1U, Te, T1Y); T1V = FMA(T1U, Ti, T1S); T2g = FNMS(T2b, Te, T2f); T2c = FMA(T2b, Ti, T2a); Tn = FNMS(Th, Te, Tm); Tj = FMA(Th, Ti, Tf); TW = FNMS(TR, Te, TV); TS = FMA(TR, Ti, TQ); T8G = iio[-WS(ios, 31)]; } } } } } } } Tk = rio[WS(ios, 16)]; To = iio[-WS(ios, 15)]; { E Tt, TF, Tu, T49, Tx, TB, T47, TC; { E Tl, T8E, Tp, T8F; Tt = rio[WS(ios, 8)]; TF = iio[-WS(ios, 7)]; Tl = Tj * Tk; T8E = Tj * To; Tu = Ts * Tt; T49 = TA * TF; Tp = FMA(Tn, To, Tl); T8F = FNMS(Tn, Tk, T8E); Tx = iio[-WS(ios, 23)]; TB = rio[WS(ios, 24)]; Tq = T1 + Tp; T46 = T1 - Tp; T8H = T8F + T8G; T97 = T8G - T8F; T47 = Ts * Tx; TC = TA * TB; } Ty = FMA(Tw, Tx, Tu); T4a = FNMS(TE, TB, T49); T48 = FNMS(Tw, Tt, T47); TG = FMA(TE, TF, TC); } } { E TT, TX, TO, T4f, TU, T4g; { E TK, TN, TL, T4e; TK = rio[WS(ios, 4)]; TN = iio[-WS(ios, 27)]; T4b = T48 - T4a; T8D = T48 + T4a; TH = Ty + TG; T98 = Ty - TG; TL = TJ * TK; T4e = TJ * TN; TT = rio[WS(ios, 20)]; TX = iio[-WS(ios, 11)]; TO = FMA(TM, TN, TL); T4f = FNMS(TM, TK, T4e); TU = TS * TT; T4g = TS * TX; } { E T17, T4m, T1a, T1e, T4d, T4i; { E T12, T16, TY, T4h, T13, T4l; T12 = rio[WS(ios, 28)]; T16 = iio[-WS(ios, 3)]; TY = FMA(TW, TX, TU); T4h = FNMS(TW, TT, T4g); T13 = T11 * T12; T4l = T11 * T16; TZ = TO + TY; T4d = TO - TY; T7f = T4f + T4h; T4i = T4f - T4h; T17 = FMA(T15, T16, T13); T4m = FNMS(T15, T12, T4l); } T4j = T4d + T4i; T6t = T4i - T4d; T1a = rio[WS(ios, 12)]; T1e = iio[-WS(ios, 19)]; { E T1m, T4B, T1H, T4x, T1x, T1A, T1u, T4D, T1y, T4u; { E T1D, T1G, T1E, T4w; { E T1f, T4o, T4k, T4p; { E T1j, T1l, T1b, T4n, T1k, T4A; T1j = rio[WS(ios, 2)]; T1l = iio[-WS(ios, 29)]; T1b = T19 * T1a; T4n = T19 * T1e; T1k = T7 * T1j; T4A = T7 * T1l; T1f = FMA(T1d, T1e, T1b); T4o = FNMS(T1d, T1a, T4n); T1m = FMA(Tb, T1l, T1k); T4B = FNMS(Tb, T1j, T4A); } T1g = T17 + T1f; T4k = T17 - T1f; T7g = T4m + T4o; T4p = T4m - T4o; T1D = rio[WS(ios, 26)]; T1G = iio[-WS(ios, 5)]; T4q = T4k - T4p; T6u = T4k + T4p; T1E = T1C * T1D; T4w = T1C * T1G; } { E T1p, T1t, T1q, T4C; T1p = rio[WS(ios, 18)]; T1t = iio[-WS(ios, 13)]; T1H = FMA(T1F, T1G, T1E); T4x = FNMS(T1F, T1D, T4w); T1q = T1o * T1p; T4C = T1o * T1t; T1x = rio[WS(ios, 10)]; T1A = iio[-WS(ios, 21)]; T1u = FMA(T1s, T1t, T1q); T4D = FNMS(T1s, T1p, T4C); T1y = T1w * T1x; T4u = T1w * T1A; } } { E T4t, T1v, T7j, T4E, T1B, T4v; T4t = T1m - T1u; T1v = T1m + T1u; T7j = T4B + T4D; T4E = T4B - T4D; T1B = FMA(T1z, T1A, T1y); T4v = FNMS(T1z, T1x, T4u); { E T4F, T1I, T4y, T7k; T4F = T1B - T1H; T1I = T1B + T1H; T4y = T4v - T4x; T7k = T4v + T4x; T1J = T1v + T1I; T7m = T1v - T1I; T6y = T4t - T4y; T4z = T4t + T4y; T7l = T7j - T7k; T8d = T7j + T7k; T6x = T4E + T4F; T4G = T4E - T4F; } } } } } } { E T53, T2z, T4Z, T7v, T5q, T2M, T5r, T51, T4T, T4U; { E T1P, T4Q, T2i, T4M, T21, T4S, T28, T4K; { E T1L, T1O, T1W, T20; T1L = rio[WS(ios, 30)]; T1O = iio[-WS(ios, 1)]; { E T2d, T2h, T1M, T4P, T2e, T4L; T2d = rio[WS(ios, 22)]; T2h = iio[-WS(ios, 9)]; T1M = T1K * T1L; T4P = T1K * T1O; T2e = T2c * T2d; T4L = T2c * T2h; T1P = FMA(T1N, T1O, T1M); T4Q = FNMS(T1N, T1L, T4P); T2i = FMA(T2g, T2h, T2e); T4M = FNMS(T2g, T2d, T4L); } T1W = rio[WS(ios, 14)]; T20 = iio[-WS(ios, 17)]; { E T24, T27, T1X, T4R, T25, T4J; T24 = rio[WS(ios, 6)]; T27 = iio[-WS(ios, 25)]; T1X = T1V * T1W; T4R = T1V * T20; T25 = T23 * T24; T4J = T23 * T27; T21 = FMA(T1Z, T20, T1X); T4S = FNMS(T1Z, T1W, T4R); T28 = FMA(T26, T27, T25); T4K = FNMS(T26, T24, T4J); } } { E T4I, T22, T7p, T2j, T7q, T4N; T4I = T1P - T21; T22 = T1P + T21; T7p = T4Q + T4S; T4T = T4Q - T4S; T4U = T28 - T2i; T2j = T28 + T2i; T7q = T4K + T4M; T4N = T4K - T4M; T2k = T22 + T2j; T7o = T22 - T2j; T7r = T7p - T7q; T8e = T7p + T7q; T6B = T4I - T4N; T4O = T4I + T4N; } } { E T2q, T5n, T2L, T2A, T2y, T2B, T2C, T5p, T2G, T2H, T2K, T2D, T50; { E T2n, T2p, T2o, T5m; T2n = rio[WS(ios, 1)]; T2p = iio[-WS(ios, 30)]; T2G = rio[WS(ios, 25)]; T6A = T4T + T4U; T4V = T4T - T4U; T2o = T2 * T2n; T5m = T2 * T2p; T2H = T2F * T2G; T2K = iio[-WS(ios, 6)]; T2q = FMA(T5, T2p, T2o); T5n = FNMS(T5, T2n, T5m); } { E T2t, T52, T2x, T2u, T5o; T2t = rio[WS(ios, 17)]; T2L = FMA(T2J, T2K, T2H); T52 = T2F * T2K; T2x = iio[-WS(ios, 14)]; T2u = T2s * T2t; T2A = rio[WS(ios, 9)]; T53 = FNMS(T2J, T2G, T52); T5o = T2s * T2x; T2y = FMA(T2w, T2x, T2u); T2B = T8 * T2A; T2C = iio[-WS(ios, 22)]; T5p = FNMS(T2w, T2t, T5o); } T2z = T2q + T2y; T4Z = T2q - T2y; T2D = FMA(Tc, T2C, T2B); T50 = T8 * T2C; T7v = T5n + T5p; T5q = T5n - T5p; T2M = T2D + T2L; T5r = T2D - T2L; T51 = FNMS(Tc, T2A, T50); } { E T2U, T2R, T2V, T58, T3a, T5h, T2Y, T32, T35; { E T2O, T2P, T2Q, T37, T39, T54, T7w, T57, T38, T5g; T2O = rio[WS(ios, 5)]; T7A = T2z - T2M; T2N = T2z + T2M; T54 = T51 - T53; T7w = T51 + T53; T6I = T5q + T5r; T5s = T5q - T5r; T6F = T4Z - T54; T55 = T4Z + T54; T8i = T7v + T7w; T7x = T7v - T7w; T2P = T29 * T2O; T2Q = iio[-WS(ios, 26)]; T37 = rio[WS(ios, 13)]; T39 = iio[-WS(ios, 18)]; T2U = rio[WS(ios, 21)]; T2R = FMA(T2b, T2Q, T2P); T57 = T29 * T2Q; T38 = T1R * T37; T5g = T1R * T39; T2V = T2T * T2U; T58 = FNMS(T2b, T2O, T57); T3a = FMA(T1U, T39, T38); T5h = FNMS(T1U, T37, T5g); T2Y = iio[-WS(ios, 10)]; T32 = rio[WS(ios, 29)]; T35 = iio[-WS(ios, 2)]; } {⌨️ 快捷键说明
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