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furnace/extern/fftw/rdft/scalar/r2cf/r2cfII_9.c
tildearrow 54e93db207 GUI: try using FFTW for per-chan osc wave center 
not reliable yet
2022-05-31 03:24:29 -05:00

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/*
* Copyright (c) 2003, 2007-14 Matteo Frigo
* Copyright (c) 2003, 2007-14 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
*/
/* This file was automatically generated --- DO NOT EDIT */
/* Generated on Tue Sep 14 10:46:24 EDT 2021 */
#include "rdft/codelet-rdft.h"
#if defined(ARCH_PREFERS_FMA) || defined(ISA_EXTENSION_PREFERS_FMA)
/* Generated by: ../../../genfft/gen_r2cf.native -fma -compact -variables 4 -pipeline-latency 4 -n 9 -name r2cfII_9 -dft-II -include rdft/scalar/r2cfII.h */
/*
* This function contains 42 FP additions, 34 FP multiplications,
* (or, 12 additions, 4 multiplications, 30 fused multiply/add),
* 48 stack variables, 17 constants, and 18 memory accesses
*/
#include "rdft/scalar/r2cfII.h"
static void r2cfII_9(R *R0, R *R1, R *Cr, R *Ci, stride rs, stride csr, stride csi, INT v, INT ivs, INT ovs)
{
DK(KP852868531, +0.852868531952443209628250963940074071936020296);
DK(KP879385241, +0.879385241571816768108218554649462939872416269);
DK(KP984807753, +0.984807753012208059366743024589523013670643252);
DK(KP898197570, +0.898197570222573798468955502359086394667167570);
DK(KP673648177, +0.673648177666930348851716626769314796000375677);
DK(KP939692620, +0.939692620785908384054109277324731469936208134);
DK(KP907603734, +0.907603734547952313649323976213898122064543220);
DK(KP666666666, +0.666666666666666666666666666666666666666666667);
DK(KP826351822, +0.826351822333069651148283373230685203999624323);
DK(KP866025403, +0.866025403784438646763723170752936183471402627);
DK(KP315207469, +0.315207469095904627298647952427796244129086440);
DK(KP420276625, +0.420276625461206169731530603237061658838781920);
DK(KP203604859, +0.203604859554852403062088995281827210665664861);
DK(KP152703644, +0.152703644666139302296566746461370407999248646);
DK(KP726681596, +0.726681596905677465811651808188092531873167623);
DK(KP968908795, +0.968908795874236621082202410917456709164223497);
DK(KP500000000, +0.500000000000000000000000000000000000000000000);
{
INT i;
for (i = v; i > 0; i = i - 1, R0 = R0 + ivs, R1 = R1 + ivs, Cr = Cr + ovs, Ci = Ci + ovs, MAKE_VOLATILE_STRIDE(36, rs), MAKE_VOLATILE_STRIDE(36, csr), MAKE_VOLATILE_STRIDE(36, csi)) {
E T1, T4, To, Ta, Tm, TB, Tq, Tt, Tf, Tj, TA, Tr, Ts, T2, T3;
E T5, Tg;
T1 = R0[0];
T2 = R0[WS(rs, 3)];
T3 = R1[WS(rs, 1)];
T4 = T2 - T3;
To = T2 + T3;
{
E T6, T9, Tk, T7, T8, Tl;
T6 = R0[WS(rs, 1)];
T7 = R0[WS(rs, 4)];
T8 = R1[WS(rs, 2)];
T9 = T7 - T8;
Tk = T7 + T8;
Ta = T6 + T9;
Tl = FNMS(KP500000000, T9, T6);
Tm = FMA(KP968908795, Tl, Tk);
TB = FNMS(KP726681596, Tk, Tl);
Tq = FNMS(KP152703644, Tk, Tl);
Tt = FMA(KP203604859, Tl, Tk);
}
{
E Tb, Te, Ti, Tc, Td, Th;
Tb = R0[WS(rs, 2)];
Tc = R1[0];
Td = R1[WS(rs, 3)];
Te = Tc + Td;
Ti = Tc - Td;
Tf = Tb - Te;
Th = FMA(KP500000000, Te, Tb);
Tj = FNMS(KP152703644, Ti, Th);
TA = FMA(KP203604859, Th, Ti);
Tr = FNMS(KP420276625, Th, Ti);
Ts = FMA(KP315207469, Ti, Th);
}
Ci[WS(csi, 1)] = KP866025403 * (Tf - Ta);
T5 = T1 + T4;
Tg = Ta + Tf;
Cr[WS(csr, 1)] = FNMS(KP500000000, Tg, T5);
Cr[WS(csr, 4)] = T5 + Tg;
{
E Ty, Tx, Tz, Tn, TD, TC;
Tx = FNMS(KP826351822, Tr, Tq);
Ty = FNMS(KP666666666, Tx, Tt);
Tz = FMA(KP907603734, Ty, Ts);
Ci[WS(csi, 2)] = KP866025403 * (FNMS(KP939692620, Tz, To));
Tn = FMA(KP673648177, Tm, Tj);
TC = FNMS(KP898197570, TB, TA);
TD = FNMS(KP666666666, Tn, TC);
Ci[0] = -(KP984807753 * (FMA(KP879385241, To, Tn)));
Ci[WS(csi, 3)] = -(KP866025403 * (FMA(KP852868531, TD, To)));
{
E Tp, Tv, TF, TG, Tu, TE, Tw;
Tp = FNMS(KP500000000, T4, T1);
Tu = FNMS(KP907603734, Tt, Ts);
Tv = FNMS(KP666666666, Tu, Tr);
TE = FNMS(KP673648177, Tm, Tj);
TF = FMA(KP898197570, TB, TA);
TG = FMA(KP500000000, TF, TE);
Cr[WS(csr, 3)] = FNMS(KP852868531, TG, Tp);
Cr[0] = FMA(KP852868531, TF, Tp);
Tw = FMA(KP826351822, Tv, Tq);
Cr[WS(csr, 2)] = FNMS(KP852868531, Tw, Tp);
}
}
}
}
}
static const kr2c_desc desc = { 9, "r2cfII_9", { 12, 4, 30, 0 }, &GENUS };
void X(codelet_r2cfII_9) (planner *p) { X(kr2c_register) (p, r2cfII_9, &desc);
}
#else
/* Generated by: ../../../genfft/gen_r2cf.native -compact -variables 4 -pipeline-latency 4 -n 9 -name r2cfII_9 -dft-II -include rdft/scalar/r2cfII.h */
/*
* This function contains 42 FP additions, 30 FP multiplications,
* (or, 25 additions, 13 multiplications, 17 fused multiply/add),
* 39 stack variables, 14 constants, and 18 memory accesses
*/
#include "rdft/scalar/r2cfII.h"
static void r2cfII_9(R *R0, R *R1, R *Cr, R *Ci, stride rs, stride csr, stride csi, INT v, INT ivs, INT ovs)
{
DK(KP663413948, +0.663413948168938396205421319635891297216863310);
DK(KP642787609, +0.642787609686539326322643409907263432907559884);
DK(KP556670399, +0.556670399226419366452912952047023132968291906);
DK(KP766044443, +0.766044443118978035202392650555416673935832457);
DK(KP852868531, +0.852868531952443209628250963940074071936020296);
DK(KP173648177, +0.173648177666930348851716626769314796000375677);
DK(KP984807753, +0.984807753012208059366743024589523013670643252);
DK(KP150383733, +0.150383733180435296639271897612501926072238258);
DK(KP813797681, +0.813797681349373692844693217248393223289101568);
DK(KP342020143, +0.342020143325668733044099614682259580763083368);
DK(KP939692620, +0.939692620785908384054109277324731469936208134);
DK(KP296198132, +0.296198132726023843175338011893050938967728390);
DK(KP866025403, +0.866025403784438646763723170752936183471402627);
DK(KP500000000, +0.500000000000000000000000000000000000000000000);
{
INT i;
for (i = v; i > 0; i = i - 1, R0 = R0 + ivs, R1 = R1 + ivs, Cr = Cr + ovs, Ci = Ci + ovs, MAKE_VOLATILE_STRIDE(36, rs), MAKE_VOLATILE_STRIDE(36, csr), MAKE_VOLATILE_STRIDE(36, csi)) {
E T1, T4, To, Ta, Tl, Tk, Tf, Ti, Th, T2, T3, T5, Tg;
T1 = R0[0];
T2 = R1[WS(rs, 1)];
T3 = R0[WS(rs, 3)];
T4 = T2 - T3;
To = T2 + T3;
{
E T6, T7, T8, T9;
T6 = R0[WS(rs, 1)];
T7 = R1[WS(rs, 2)];
T8 = R0[WS(rs, 4)];
T9 = T7 - T8;
Ta = T6 - T9;
Tl = T7 + T8;
Tk = FMA(KP500000000, T9, T6);
}
{
E Tb, Tc, Td, Te;
Tb = R0[WS(rs, 2)];
Tc = R1[0];
Td = R1[WS(rs, 3)];
Te = Tc + Td;
Tf = Tb - Te;
Ti = FMA(KP500000000, Te, Tb);
Th = Tc - Td;
}
Ci[WS(csi, 1)] = KP866025403 * (Tf - Ta);
T5 = T1 - T4;
Tg = Ta + Tf;
Cr[WS(csr, 1)] = FNMS(KP500000000, Tg, T5);
Cr[WS(csr, 4)] = T5 + Tg;
{
E Tr, Tt, Tw, Tv, Tu, Tp, Tq, Ts, Tj, Tm, Tn;
Tr = FMA(KP500000000, T4, T1);
Tt = FMA(KP296198132, Th, KP939692620 * Ti);
Tw = FNMS(KP813797681, Th, KP342020143 * Ti);
Tv = FNMS(KP984807753, Tk, KP150383733 * Tl);
Tu = FMA(KP173648177, Tk, KP852868531 * Tl);
Tp = FNMS(KP556670399, Tl, KP766044443 * Tk);
Tq = FMA(KP852868531, Th, KP173648177 * Ti);
Ts = Tp + Tq;
Tj = FNMS(KP984807753, Ti, KP150383733 * Th);
Tm = FMA(KP642787609, Tk, KP663413948 * Tl);
Tn = Tj - Tm;
Ci[0] = FNMS(KP866025403, To, Tn);
Cr[0] = Tr + Ts;
Ci[WS(csi, 3)] = FNMS(KP500000000, Tn, KP866025403 * ((Tp - Tq) - To));
Cr[WS(csr, 3)] = FMA(KP866025403, Tm + Tj, Tr) - (KP500000000 * Ts);
Ci[WS(csi, 2)] = FMA(KP866025403, To - (Tu + Tt), KP500000000 * (Tw - Tv));
Cr[WS(csr, 2)] = FMA(KP500000000, Tt - Tu, Tr) + (KP866025403 * (Tv + Tw));
}
}
}
}
static const kr2c_desc desc = { 9, "r2cfII_9", { 25, 13, 17, 0 }, &GENUS };
void X(codelet_r2cfII_9) (planner *p) { X(kr2c_register) (p, r2cfII_9, &desc);
}
#endif
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