sv-dependency-builds: src/fftw-3.3.5/dft/simd/common/genus.c annotate

annotate src/fftw-3.3.5/dft/simd/common/genus.c @ 165:7e6e71a29886

Update build for AUDIO_COMPONENT_FIX

author	Chris Cannam <cannam@all-day-breakfast.com>
date	Wed, 30 Oct 2019 12:40:34 +0000
parents	7867fa7e1b6b
children

rev	line source
cannam@127	1 /*
cannam@127	2 * Copyright (c) 2003, 2007-14 Matteo Frigo
cannam@127	3 * Copyright (c) 2003, 2007-14 Massachusetts Institute of Technology
cannam@127	4 *
cannam@127	5 * This program is free software; you can redistribute it and/or modify
cannam@127	6 * it under the terms of the GNU General Public License as published by
cannam@127	7 * the Free Software Foundation; either version 2 of the License, or
cannam@127	8 * (at your option) any later version.
cannam@127	9 *
cannam@127	10 * This program is distributed in the hope that it will be useful,
cannam@127	11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
cannam@127	12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
cannam@127	13 * GNU General Public License for more details.
cannam@127	14 *
cannam@127	15 * You should have received a copy of the GNU General Public License
cannam@127	16 * along with this program; if not, write to the Free Software
cannam@127	17 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
cannam@127	18 *
cannam@127	19 */
cannam@127	20
cannam@127	21 #include "codelet-dft.h"
cannam@127	22 #include SIMD_HEADER
cannam@127	23
cannam@127	24 #define EXTERN_CONST(t, x) extern const t x; const t x
cannam@127	25
cannam@127	26 static int n1b_okp(const kdft_desc *d,
cannam@127	27 const R ri, const R ii, const R ro, const R io,
cannam@127	28 INT is, INT os, INT vl, INT ivs, INT ovs,
cannam@127	29 const planner *plnr)
cannam@127	30 {
cannam@127	31 return (1
cannam@127	32 && ALIGNED(ii)
cannam@127	33 && ALIGNED(io)
cannam@127	34 && !NO_SIMDP(plnr)
cannam@127	35 && SIMD_STRIDE_OK(is)
cannam@127	36 && SIMD_STRIDE_OK(os)
cannam@127	37 && SIMD_VSTRIDE_OK(ivs)
cannam@127	38 && SIMD_VSTRIDE_OK(ovs)
cannam@127	39 && ri == ii + 1
cannam@127	40 && ro == io + 1
cannam@127	41 && (vl % VL) == 0
cannam@127	42 && (!d->is \|\| (d->is == is))
cannam@127	43 && (!d->os \|\| (d->os == os))
cannam@127	44 && (!d->ivs \|\| (d->ivs == ivs))
cannam@127	45 && (!d->ovs \|\| (d->ovs == ovs))
cannam@127	46 );
cannam@127	47 }
cannam@127	48
cannam@127	49 EXTERN_CONST(kdft_genus, XSIMD(dft_n1bsimd_genus)) = { n1b_okp, VL };
cannam@127	50
cannam@127	51 static int n1f_okp(const kdft_desc *d,
cannam@127	52 const R ri, const R ii, const R ro, const R io,
cannam@127	53 INT is, INT os, INT vl, INT ivs, INT ovs,
cannam@127	54 const planner *plnr)
cannam@127	55 {
cannam@127	56 return (1
cannam@127	57 && ALIGNED(ri)
cannam@127	58 && ALIGNED(ro)
cannam@127	59 && !NO_SIMDP(plnr)
cannam@127	60 && SIMD_STRIDE_OK(is)
cannam@127	61 && SIMD_STRIDE_OK(os)
cannam@127	62 && SIMD_VSTRIDE_OK(ivs)
cannam@127	63 && SIMD_VSTRIDE_OK(ovs)
cannam@127	64 && ii == ri + 1
cannam@127	65 && io == ro + 1
cannam@127	66 && (vl % VL) == 0
cannam@127	67 && (!d->is \|\| (d->is == is))
cannam@127	68 && (!d->os \|\| (d->os == os))
cannam@127	69 && (!d->ivs \|\| (d->ivs == ivs))
cannam@127	70 && (!d->ovs \|\| (d->ovs == ovs))
cannam@127	71 );
cannam@127	72 }
cannam@127	73
cannam@127	74 EXTERN_CONST(kdft_genus, XSIMD(dft_n1fsimd_genus)) = { n1f_okp, VL };
cannam@127	75
cannam@127	76 static int n2b_okp(const kdft_desc *d,
cannam@127	77 const R ri, const R ii, const R ro, const R io,
cannam@127	78 INT is, INT os, INT vl, INT ivs, INT ovs,
cannam@127	79 const planner *plnr)
cannam@127	80 {
cannam@127	81 return (1
cannam@127	82 && ALIGNEDA(ii)
cannam@127	83 && ALIGNEDA(io)
cannam@127	84 && !NO_SIMDP(plnr)
cannam@127	85 && SIMD_STRIDE_OKA(is)
cannam@127	86 && SIMD_VSTRIDE_OKA(ivs)
cannam@127	87 && SIMD_VSTRIDE_OKA(os) /* os == 2 enforced by codelet */
cannam@127	88 && SIMD_STRIDE_OKPAIR(ovs)
cannam@127	89 && ri == ii + 1
cannam@127	90 && ro == io + 1
cannam@127	91 && (vl % VL) == 0
cannam@127	92 && (!d->is \|\| (d->is == is))
cannam@127	93 && (!d->os \|\| (d->os == os))
cannam@127	94 && (!d->ivs \|\| (d->ivs == ivs))
cannam@127	95 && (!d->ovs \|\| (d->ovs == ovs))
cannam@127	96 );
cannam@127	97 }
cannam@127	98
cannam@127	99 EXTERN_CONST(kdft_genus, XSIMD(dft_n2bsimd_genus)) = { n2b_okp, VL };
cannam@127	100
cannam@127	101 static int n2f_okp(const kdft_desc *d,
cannam@127	102 const R ri, const R ii, const R ro, const R io,
cannam@127	103 INT is, INT os, INT vl, INT ivs, INT ovs,
cannam@127	104 const planner *plnr)
cannam@127	105 {
cannam@127	106 return (1
cannam@127	107 && ALIGNEDA(ri)
cannam@127	108 && ALIGNEDA(ro)
cannam@127	109 && !NO_SIMDP(plnr)
cannam@127	110 && SIMD_STRIDE_OKA(is)
cannam@127	111 && SIMD_VSTRIDE_OKA(ivs)
cannam@127	112 && SIMD_VSTRIDE_OKA(os) /* os == 2 enforced by codelet */
cannam@127	113 && SIMD_STRIDE_OKPAIR(ovs)
cannam@127	114 && ii == ri + 1
cannam@127	115 && io == ro + 1
cannam@127	116 && (vl % VL) == 0
cannam@127	117 && (!d->is \|\| (d->is == is))
cannam@127	118 && (!d->os \|\| (d->os == os))
cannam@127	119 && (!d->ivs \|\| (d->ivs == ivs))
cannam@127	120 && (!d->ovs \|\| (d->ovs == ovs))
cannam@127	121 );
cannam@127	122 }
cannam@127	123
cannam@127	124 EXTERN_CONST(kdft_genus, XSIMD(dft_n2fsimd_genus)) = { n2f_okp, VL };
cannam@127	125
cannam@127	126 static int n2s_okp(const kdft_desc *d,
cannam@127	127 const R ri, const R ii, const R ro, const R io,
cannam@127	128 INT is, INT os, INT vl, INT ivs, INT ovs,
cannam@127	129 const planner *plnr)
cannam@127	130 {
cannam@127	131 return (1
cannam@127	132 && !NO_SIMDP(plnr)
cannam@127	133 && ALIGNEDA(ri)
cannam@127	134 && ALIGNEDA(ii)
cannam@127	135 && ALIGNEDA(ro)
cannam@127	136 && ALIGNEDA(io)
cannam@127	137 && SIMD_STRIDE_OKA(is)
cannam@127	138 && ivs == 1
cannam@127	139 && os == 1
cannam@127	140 && SIMD_STRIDE_OKA(ovs)
cannam@127	141 && (vl % (2 * VL)) == 0
cannam@127	142 && (!d->is \|\| (d->is == is))
cannam@127	143 && (!d->os \|\| (d->os == os))
cannam@127	144 && (!d->ivs \|\| (d->ivs == ivs))
cannam@127	145 && (!d->ovs \|\| (d->ovs == ovs))
cannam@127	146 );
cannam@127	147 }
cannam@127	148
cannam@127	149 EXTERN_CONST(kdft_genus, XSIMD(dft_n2ssimd_genus)) = { n2s_okp, 2 * VL };
cannam@127	150
cannam@127	151 static int q1b_okp(const ct_desc *d,
cannam@127	152 const R rio, const R iio,
cannam@127	153 INT rs, INT vs, INT m, INT mb, INT me, INT ms,
cannam@127	154 const planner *plnr)
cannam@127	155 {
cannam@127	156 return (1
cannam@127	157 && ALIGNED(iio)
cannam@127	158 && !NO_SIMDP(plnr)
cannam@127	159 && SIMD_STRIDE_OK(rs)
cannam@127	160 && SIMD_STRIDE_OK(vs)
cannam@127	161 && SIMD_VSTRIDE_OK(ms)
cannam@127	162 && rio == iio + 1
cannam@127	163 && (m % VL) == 0
cannam@127	164 && (mb % VL) == 0
cannam@127	165 && (me % VL) == 0
cannam@127	166 && (!d->rs \|\| (d->rs == rs))
cannam@127	167 && (!d->vs \|\| (d->vs == vs))
cannam@127	168 && (!d->ms \|\| (d->ms == ms))
cannam@127	169 );
cannam@127	170 }
cannam@127	171 EXTERN_CONST(ct_genus, XSIMD(dft_q1bsimd_genus)) = { q1b_okp, VL };
cannam@127	172
cannam@127	173 static int q1f_okp(const ct_desc *d,
cannam@127	174 const R rio, const R iio,
cannam@127	175 INT rs, INT vs, INT m, INT mb, INT me, INT ms,
cannam@127	176 const planner *plnr)
cannam@127	177 {
cannam@127	178 return (1
cannam@127	179 && ALIGNED(rio)
cannam@127	180 && !NO_SIMDP(plnr)
cannam@127	181 && SIMD_STRIDE_OK(rs)
cannam@127	182 && SIMD_STRIDE_OK(vs)
cannam@127	183 && SIMD_VSTRIDE_OK(ms)
cannam@127	184 && iio == rio + 1
cannam@127	185 && (m % VL) == 0
cannam@127	186 && (mb % VL) == 0
cannam@127	187 && (me % VL) == 0
cannam@127	188 && (!d->rs \|\| (d->rs == rs))
cannam@127	189 && (!d->vs \|\| (d->vs == vs))
cannam@127	190 && (!d->ms \|\| (d->ms == ms))
cannam@127	191 );
cannam@127	192 }
cannam@127	193 EXTERN_CONST(ct_genus, XSIMD(dft_q1fsimd_genus)) = { q1f_okp, VL };
cannam@127	194
cannam@127	195 static int t_okp_common(const ct_desc *d,
cannam@127	196 const R rio, const R iio,
cannam@127	197 INT rs, INT vs, INT m, INT mb, INT me, INT ms,
cannam@127	198 const planner *plnr)
cannam@127	199 {
cannam@127	200 UNUSED(rio); UNUSED(iio);
cannam@127	201 return (1
cannam@127	202 && !NO_SIMDP(plnr)
cannam@127	203 && SIMD_STRIDE_OKA(rs)
cannam@127	204 && SIMD_VSTRIDE_OKA(ms)
cannam@127	205 && (m % VL) == 0
cannam@127	206 && (mb % VL) == 0
cannam@127	207 && (me % VL) == 0
cannam@127	208 && (!d->rs \|\| (d->rs == rs))
cannam@127	209 && (!d->vs \|\| (d->vs == vs))
cannam@127	210 && (!d->ms \|\| (d->ms == ms))
cannam@127	211 );
cannam@127	212 }
cannam@127	213
cannam@127	214 static int t_okp_commonu(const ct_desc *d,
cannam@127	215 const R rio, const R iio,
cannam@127	216 INT rs, INT vs, INT m, INT mb, INT me, INT ms,
cannam@127	217 const planner *plnr)
cannam@127	218 {
cannam@127	219 UNUSED(rio); UNUSED(iio); UNUSED(m);
cannam@127	220 return (1
cannam@127	221 && !NO_SIMDP(plnr)
cannam@127	222 && SIMD_STRIDE_OK(rs)
cannam@127	223 && SIMD_VSTRIDE_OK(ms)
cannam@127	224 && (mb % VL) == 0
cannam@127	225 && (me % VL) == 0
cannam@127	226 && (!d->rs \|\| (d->rs == rs))
cannam@127	227 && (!d->vs \|\| (d->vs == vs))
cannam@127	228 && (!d->ms \|\| (d->ms == ms))
cannam@127	229 );
cannam@127	230 }
cannam@127	231
cannam@127	232 static int t_okp_t1f(const ct_desc *d,
cannam@127	233 const R rio, const R iio,
cannam@127	234 INT rs, INT vs, INT m, INT mb, INT me, INT ms,
cannam@127	235 const planner *plnr)
cannam@127	236 {
cannam@127	237 return t_okp_common(d, rio, iio, rs, vs, m, mb, me, ms, plnr)
cannam@127	238 && iio == rio + 1
cannam@127	239 && ALIGNEDA(rio);
cannam@127	240 }
cannam@127	241
cannam@127	242 EXTERN_CONST(ct_genus, XSIMD(dft_t1fsimd_genus)) = { t_okp_t1f, VL };
cannam@127	243
cannam@127	244 static int t_okp_t1fu(const ct_desc *d,
cannam@127	245 const R rio, const R iio,
cannam@127	246 INT rs, INT vs, INT m, INT mb, INT me, INT ms,
cannam@127	247 const planner *plnr)
cannam@127	248 {
cannam@127	249 return t_okp_commonu(d, rio, iio, rs, vs, m, mb, me, ms, plnr)
cannam@127	250 && iio == rio + 1
cannam@127	251 && ALIGNED(rio);
cannam@127	252 }
cannam@127	253
cannam@127	254 EXTERN_CONST(ct_genus, XSIMD(dft_t1fusimd_genus)) = { t_okp_t1fu, VL };
cannam@127	255
cannam@127	256 static int t_okp_t1b(const ct_desc *d,
cannam@127	257 const R rio, const R iio,
cannam@127	258 INT rs, INT vs, INT m, INT mb, INT me, INT ms,
cannam@127	259 const planner *plnr)
cannam@127	260 {
cannam@127	261 return t_okp_common(d, rio, iio, rs, vs, m, mb, me, ms, plnr)
cannam@127	262 && rio == iio + 1
cannam@127	263 && ALIGNEDA(iio);
cannam@127	264 }
cannam@127	265
cannam@127	266 EXTERN_CONST(ct_genus, XSIMD(dft_t1bsimd_genus)) = { t_okp_t1b, VL };
cannam@127	267
cannam@127	268 static int t_okp_t1bu(const ct_desc *d,
cannam@127	269 const R rio, const R iio,
cannam@127	270 INT rs, INT vs, INT m, INT mb, INT me, INT ms,
cannam@127	271 const planner *plnr)
cannam@127	272 {
cannam@127	273 return t_okp_commonu(d, rio, iio, rs, vs, m, mb, me, ms, plnr)
cannam@127	274 && rio == iio + 1
cannam@127	275 && ALIGNED(iio);
cannam@127	276 }
cannam@127	277
cannam@127	278 EXTERN_CONST(ct_genus, XSIMD(dft_t1busimd_genus)) = { t_okp_t1bu, VL };
cannam@127	279
cannam@127	280 /* use t2* codelets only when n = m*radix is small, because
cannam@127	281 t2* codelets use ~2n twiddle factors (instead of ~n) */
cannam@127	282 static int small_enough(const ct_desc *d, INT m)
cannam@127	283 {
cannam@127	284 return m * d->radix <= 16384;
cannam@127	285 }
cannam@127	286
cannam@127	287 static int t_okp_t2f(const ct_desc *d,
cannam@127	288 const R rio, const R iio,
cannam@127	289 INT rs, INT vs, INT m, INT mb, INT me, INT ms,
cannam@127	290 const planner *plnr)
cannam@127	291 {
cannam@127	292 return t_okp_t1f(d, rio, iio, rs, vs, m, mb, me, ms, plnr)
cannam@127	293 && small_enough(d, m);
cannam@127	294 }
cannam@127	295
cannam@127	296 EXTERN_CONST(ct_genus, XSIMD(dft_t2fsimd_genus)) = { t_okp_t2f, VL };
cannam@127	297
cannam@127	298 static int t_okp_t2b(const ct_desc *d,
cannam@127	299 const R rio, const R iio,
cannam@127	300 INT rs, INT vs, INT m, INT mb, INT me, INT ms,
cannam@127	301 const planner *plnr)
cannam@127	302 {
cannam@127	303 return t_okp_t1b(d, rio, iio, rs, vs, m, mb, me, ms, plnr)
cannam@127	304 && small_enough(d, m);
cannam@127	305 }
cannam@127	306
cannam@127	307 EXTERN_CONST(ct_genus, XSIMD(dft_t2bsimd_genus)) = { t_okp_t2b, VL };
cannam@127	308
cannam@127	309 static int ts_okp(const ct_desc *d,
cannam@127	310 const R rio, const R iio,
cannam@127	311 INT rs, INT vs, INT m, INT mb, INT me, INT ms,
cannam@127	312 const planner *plnr)
cannam@127	313 {
cannam@127	314 UNUSED(rio);
cannam@127	315 UNUSED(iio);
cannam@127	316 return (1
cannam@127	317 && !NO_SIMDP(plnr)
cannam@127	318 && ALIGNEDA(rio)
cannam@127	319 && ALIGNEDA(iio)
cannam@127	320 && SIMD_STRIDE_OKA(rs)
cannam@127	321 && ms == 1
cannam@127	322 && (m % (2 * VL)) == 0
cannam@127	323 && (mb % (2 * VL)) == 0
cannam@127	324 && (me % (2 * VL)) == 0
cannam@127	325 && (!d->rs \|\| (d->rs == rs))
cannam@127	326 && (!d->vs \|\| (d->vs == vs))
cannam@127	327 && (!d->ms \|\| (d->ms == ms))
cannam@127	328 );
cannam@127	329 }
cannam@127	330
cannam@127	331 EXTERN_CONST(ct_genus, XSIMD(dft_tssimd_genus)) = { ts_okp, 2 * VL };

Mercurial > hg > sv-dependency-builds

annotate src/fftw-3.3.5/dft/simd/common/genus.c @ 165:7e6e71a29886