sv-dependency-builds: src/fftw-3.3.5/simd-support/simd-altivec.h annotate

annotate src/fftw-3.3.5/simd-support/simd-altivec.h @ 84:08ae793730bd

Add null config files

author	Chris Cannam
date	Mon, 02 Mar 2020 14:03:47 +0000
parents	2cd0e3b3e1fd
children

rev	line source
Chris@42	1 /*
Chris@42	2 * Copyright (c) 2003, 2007-14 Matteo Frigo
Chris@42	3 * Copyright (c) 2003, 2007-14 Massachusetts Institute of Technology
Chris@42	4 *
Chris@42	5 * This program is free software; you can redistribute it and/or modify
Chris@42	6 * it under the terms of the GNU General Public License as published by
Chris@42	7 * the Free Software Foundation; either version 2 of the License, or
Chris@42	8 * (at your option) any later version.
Chris@42	9 *
Chris@42	10 * This program is distributed in the hope that it will be useful,
Chris@42	11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
Chris@42	12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
Chris@42	13 * GNU General Public License for more details.
Chris@42	14 *
Chris@42	15 * You should have received a copy of the GNU General Public License
Chris@42	16 * along with this program; if not, write to the Free Software
Chris@42	17 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
Chris@42	18 *
Chris@42	19 */
Chris@42	20
Chris@42	21 #ifndef FFTW_SINGLE
Chris@42	22 #error "ALTIVEC only works in single precision"
Chris@42	23 #endif
Chris@42	24
Chris@42	25 /* define these unconditionally, because they are used by
Chris@42	26 taint.c which is compiled without altivec */
Chris@42	27 #define SIMD_SUFFIX _altivec /* for renaming */
Chris@42	28 #define VL 2 /* SIMD complex vector length */
Chris@42	29 #define SIMD_VSTRIDE_OKA(x) ((x) == 2)
Chris@42	30 #define SIMD_STRIDE_OKPAIR SIMD_STRIDE_OKA
Chris@42	31
Chris@42	32 #if !defined(__VEC__) && !defined(FAKE__VEC__)
Chris@42	33 # error "compiling simd-altivec.h requires -maltivec or equivalent"
Chris@42	34 #endif
Chris@42	35
Chris@42	36 #ifdef HAVE_ALTIVEC_H
Chris@42	37 # include <altivec.h>
Chris@42	38 #endif
Chris@42	39
Chris@42	40 typedef vector float V;
Chris@42	41 #define VLIT(x0, x1, x2, x3) {x0, x1, x2, x3}
Chris@42	42 #define LDK(x) x
Chris@42	43 #define DVK(var, val) const V var = VLIT(val, val, val, val)
Chris@42	44
Chris@42	45 static inline V VADD(V a, V b) { return vec_add(a, b); }
Chris@42	46 static inline V VSUB(V a, V b) { return vec_sub(a, b); }
Chris@42	47 static inline V VFMA(V a, V b, V c) { return vec_madd(a, b, c); }
Chris@42	48 static inline V VFNMS(V a, V b, V c) { return vec_nmsub(a, b, c); }
Chris@42	49
Chris@42	50 static inline V VMUL(V a, V b)
Chris@42	51 {
Chris@42	52 DVK(zero, -0.0);
Chris@42	53 return VFMA(a, b, zero);
Chris@42	54 }
Chris@42	55
Chris@42	56 static inline V VFMS(V a, V b, V c) { return VSUB(VMUL(a, b), c); }
Chris@42	57
Chris@42	58 static inline V LDA(const R x, INT ivs, const R aligned_like)
Chris@42	59 {
Chris@42	60 UNUSED(ivs);
Chris@42	61 UNUSED(aligned_like);
Chris@42	62 return vec_ld(0, x);
Chris@42	63 }
Chris@42	64
Chris@42	65 static inline V LD(const R x, INT ivs, const R aligned_like)
Chris@42	66 {
Chris@42	67 /* common subexpressions */
Chris@42	68 const INT fivs = sizeof(R) * ivs;
Chris@42	69 /* you are not expected to understand this: */
Chris@42	70 const vector unsigned int perm = VLIT(0, 0, 0xFFFFFFFF, 0xFFFFFFFF);
Chris@42	71 vector unsigned char ml = vec_lvsr(fivs + 8, aligned_like);
Chris@42	72 vector unsigned char mh = vec_lvsl(0, aligned_like);
Chris@42	73 vector unsigned char msk =
Chris@42	74 (vector unsigned char)vec_sel((V)mh, (V)ml, perm);
Chris@42	75 /* end of common subexpressions */
Chris@42	76
Chris@42	77 return vec_perm(vec_ld(0, x), vec_ld(fivs, x), msk);
Chris@42	78 }
Chris@42	79
Chris@42	80 /* store lower half */
Chris@42	81 static inline void STH(R x, V v, R aligned_like)
Chris@42	82 {
Chris@42	83 v = vec_perm(v, v, vec_lvsr(0, aligned_like));
Chris@42	84 vec_ste(v, 0, x);
Chris@42	85 vec_ste(v, sizeof(R), x);
Chris@42	86 }
Chris@42	87
Chris@42	88 static inline void STL(R x, V v, INT ovs, R aligned_like)
Chris@42	89 {
Chris@42	90 const INT fovs = sizeof(R) * ovs;
Chris@42	91 v = vec_perm(v, v, vec_lvsr(fovs + 8, aligned_like));
Chris@42	92 vec_ste(v, fovs, x);
Chris@42	93 vec_ste(v, sizeof(R) + fovs, x);
Chris@42	94 }
Chris@42	95
Chris@42	96 static inline void STA(R x, V v, INT ovs, R aligned_like)
Chris@42	97 {
Chris@42	98 UNUSED(ovs);
Chris@42	99 UNUSED(aligned_like);
Chris@42	100 vec_st(v, 0, x);
Chris@42	101 }
Chris@42	102
Chris@42	103 static inline void ST(R x, V v, INT ovs, R aligned_like)
Chris@42	104 {
Chris@42	105 /* WARNING: the extra_iter hack depends upon STH occurring after
Chris@42	106 STL */
Chris@42	107 STL(x, v, ovs, aligned_like);
Chris@42	108 STH(x, v, aligned_like);
Chris@42	109 }
Chris@42	110
Chris@42	111 #define STM2(x, v, ovs, aligned_like) /* no-op */
Chris@42	112
Chris@42	113 static inline void STN2(R *x, V v0, V v1, INT ovs)
Chris@42	114 {
Chris@42	115 const INT fovs = sizeof(R) * ovs;
Chris@42	116 const vector unsigned int even =
Chris@42	117 VLIT(0x00010203, 0x04050607, 0x10111213, 0x14151617);
Chris@42	118 const vector unsigned int odd =
Chris@42	119 VLIT(0x08090a0b, 0x0c0d0e0f, 0x18191a1b, 0x1c1d1e1f);
Chris@42	120 vec_st(vec_perm(v0, v1, (vector unsigned char)even), 0, x);
Chris@42	121 vec_st(vec_perm(v0, v1, (vector unsigned char)odd), fovs, x);
Chris@42	122 }
Chris@42	123
Chris@42	124 #define STM4(x, v, ovs, aligned_like) /* no-op */
Chris@42	125
Chris@42	126 static inline void STN4(R *x, V v0, V v1, V v2, V v3, INT ovs)
Chris@42	127 {
Chris@42	128 const INT fovs = sizeof(R) * ovs;
Chris@42	129 V x0 = vec_mergeh(v0, v2);
Chris@42	130 V x1 = vec_mergel(v0, v2);
Chris@42	131 V x2 = vec_mergeh(v1, v3);
Chris@42	132 V x3 = vec_mergel(v1, v3);
Chris@42	133 V y0 = vec_mergeh(x0, x2);
Chris@42	134 V y1 = vec_mergel(x0, x2);
Chris@42	135 V y2 = vec_mergeh(x1, x3);
Chris@42	136 V y3 = vec_mergel(x1, x3);
Chris@42	137 vec_st(y0, 0, x);
Chris@42	138 vec_st(y1, fovs, x);
Chris@42	139 vec_st(y2, 2 * fovs, x);
Chris@42	140 vec_st(y3, 3 * fovs, x);
Chris@42	141 }
Chris@42	142
Chris@42	143 static inline V FLIP_RI(V x)
Chris@42	144 {
Chris@42	145 const vector unsigned int perm =
Chris@42	146 VLIT(0x04050607, 0x00010203, 0x0c0d0e0f, 0x08090a0b);
Chris@42	147 return vec_perm(x, x, (vector unsigned char)perm);
Chris@42	148 }
Chris@42	149
Chris@42	150 static inline V VCONJ(V x)
Chris@42	151 {
Chris@42	152 const V pmpm = VLIT(0.0, -0.0, 0.0, -0.0);
Chris@42	153 return vec_xor(x, pmpm);
Chris@42	154 }
Chris@42	155
Chris@42	156 static inline V VBYI(V x)
Chris@42	157 {
Chris@42	158 return FLIP_RI(VCONJ(x));
Chris@42	159 }
Chris@42	160
Chris@42	161 static inline V VFMAI(V b, V c)
Chris@42	162 {
Chris@42	163 const V mpmp = VLIT(-1.0, 1.0, -1.0, 1.0);
Chris@42	164 return VFMA(FLIP_RI(b), mpmp, c);
Chris@42	165 }
Chris@42	166
Chris@42	167 static inline V VFNMSI(V b, V c)
Chris@42	168 {
Chris@42	169 const V mpmp = VLIT(-1.0, 1.0, -1.0, 1.0);
Chris@42	170 return VFNMS(FLIP_RI(b), mpmp, c);
Chris@42	171 }
Chris@42	172
Chris@42	173 static inline V VFMACONJ(V b, V c)
Chris@42	174 {
Chris@42	175 const V pmpm = VLIT(1.0, -1.0, 1.0, -1.0);
Chris@42	176 return VFMA(b, pmpm, c);
Chris@42	177 }
Chris@42	178
Chris@42	179 static inline V VFNMSCONJ(V b, V c)
Chris@42	180 {
Chris@42	181 const V pmpm = VLIT(1.0, -1.0, 1.0, -1.0);
Chris@42	182 return VFNMS(b, pmpm, c);
Chris@42	183 }
Chris@42	184
Chris@42	185 static inline V VFMSCONJ(V b, V c)
Chris@42	186 {
Chris@42	187 return VSUB(VCONJ(b), c);
Chris@42	188 }
Chris@42	189
Chris@42	190 static inline V VZMUL(V tx, V sr)
Chris@42	191 {
Chris@42	192 const vector unsigned int real =
Chris@42	193 VLIT(0x00010203, 0x00010203, 0x08090a0b, 0x08090a0b);
Chris@42	194 const vector unsigned int imag =
Chris@42	195 VLIT(0x04050607, 0x04050607, 0x0c0d0e0f, 0x0c0d0e0f);
Chris@42	196 V si = VBYI(sr);
Chris@42	197 V tr = vec_perm(tx, tx, (vector unsigned char)real);
Chris@42	198 V ti = vec_perm(tx, tx, (vector unsigned char)imag);
Chris@42	199 return VFMA(ti, si, VMUL(tr, sr));
Chris@42	200 }
Chris@42	201
Chris@42	202 static inline V VZMULJ(V tx, V sr)
Chris@42	203 {
Chris@42	204 const vector unsigned int real =
Chris@42	205 VLIT(0x00010203, 0x00010203, 0x08090a0b, 0x08090a0b);
Chris@42	206 const vector unsigned int imag =
Chris@42	207 VLIT(0x04050607, 0x04050607, 0x0c0d0e0f, 0x0c0d0e0f);
Chris@42	208 V si = VBYI(sr);
Chris@42	209 V tr = vec_perm(tx, tx, (vector unsigned char)real);
Chris@42	210 V ti = vec_perm(tx, tx, (vector unsigned char)imag);
Chris@42	211 return VFNMS(ti, si, VMUL(tr, sr));
Chris@42	212 }
Chris@42	213
Chris@42	214 static inline V VZMULI(V tx, V si)
Chris@42	215 {
Chris@42	216 const vector unsigned int real =
Chris@42	217 VLIT(0x00010203, 0x00010203, 0x08090a0b, 0x08090a0b);
Chris@42	218 const vector unsigned int imag =
Chris@42	219 VLIT(0x04050607, 0x04050607, 0x0c0d0e0f, 0x0c0d0e0f);
Chris@42	220 V sr = VBYI(si);
Chris@42	221 V tr = vec_perm(tx, tx, (vector unsigned char)real);
Chris@42	222 V ti = vec_perm(tx, tx, (vector unsigned char)imag);
Chris@42	223 return VFNMS(ti, si, VMUL(tr, sr));
Chris@42	224 }
Chris@42	225
Chris@42	226 static inline V VZMULIJ(V tx, V si)
Chris@42	227 {
Chris@42	228 const vector unsigned int real =
Chris@42	229 VLIT(0x00010203, 0x00010203, 0x08090a0b, 0x08090a0b);
Chris@42	230 const vector unsigned int imag =
Chris@42	231 VLIT(0x04050607, 0x04050607, 0x0c0d0e0f, 0x0c0d0e0f);
Chris@42	232 V sr = VBYI(si);
Chris@42	233 V tr = vec_perm(tx, tx, (vector unsigned char)real);
Chris@42	234 V ti = vec_perm(tx, tx, (vector unsigned char)imag);
Chris@42	235 return VFMA(ti, si, VMUL(tr, sr));
Chris@42	236 }
Chris@42	237
Chris@42	238 /* twiddle storage #1: compact, slower */
Chris@42	239 #define VTW1(v,x) \
Chris@42	240 {TW_COS, v, x}, {TW_COS, v+1, x}, {TW_SIN, v, x}, {TW_SIN, v+1, x}
Chris@42	241 #define TWVL1 (VL)
Chris@42	242
Chris@42	243 static inline V BYTW1(const R *t, V sr)
Chris@42	244 {
Chris@42	245 const V twp = (const V )t;
Chris@42	246 V si = VBYI(sr);
Chris@42	247 V tx = twp[0];
Chris@42	248 V tr = vec_mergeh(tx, tx);
Chris@42	249 V ti = vec_mergel(tx, tx);
Chris@42	250 return VFMA(ti, si, VMUL(tr, sr));
Chris@42	251 }
Chris@42	252
Chris@42	253 static inline V BYTWJ1(const R *t, V sr)
Chris@42	254 {
Chris@42	255 const V twp = (const V )t;
Chris@42	256 V si = VBYI(sr);
Chris@42	257 V tx = twp[0];
Chris@42	258 V tr = vec_mergeh(tx, tx);
Chris@42	259 V ti = vec_mergel(tx, tx);
Chris@42	260 return VFNMS(ti, si, VMUL(tr, sr));
Chris@42	261 }
Chris@42	262
Chris@42	263 /* twiddle storage #2: twice the space, faster (when in cache) */
Chris@42	264 #define VTW2(v,x) \
Chris@42	265 {TW_COS, v, x}, {TW_COS, v, x}, {TW_COS, v+1, x}, {TW_COS, v+1, x}, \
Chris@42	266 {TW_SIN, v, -x}, {TW_SIN, v, x}, {TW_SIN, v+1, -x}, {TW_SIN, v+1, x}
Chris@42	267 #define TWVL2 (2 * VL)
Chris@42	268
Chris@42	269 static inline V BYTW2(const R *t, V sr)
Chris@42	270 {
Chris@42	271 const V twp = (const V )t;
Chris@42	272 V si = FLIP_RI(sr);
Chris@42	273 V tr = twp[0], ti = twp[1];
Chris@42	274 return VFMA(ti, si, VMUL(tr, sr));
Chris@42	275 }
Chris@42	276
Chris@42	277 static inline V BYTWJ2(const R *t, V sr)
Chris@42	278 {
Chris@42	279 const V twp = (const V )t;
Chris@42	280 V si = FLIP_RI(sr);
Chris@42	281 V tr = twp[0], ti = twp[1];
Chris@42	282 return VFNMS(ti, si, VMUL(tr, sr));
Chris@42	283 }
Chris@42	284
Chris@42	285 /* twiddle storage #3 */
Chris@42	286 #define VTW3(v,x) {TW_CEXP, v, x}, {TW_CEXP, v+1, x}
Chris@42	287 #define TWVL3 (VL)
Chris@42	288
Chris@42	289 /* twiddle storage for split arrays */
Chris@42	290 #define VTWS(v,x) \
Chris@42	291 {TW_COS, v, x}, {TW_COS, v+1, x}, {TW_COS, v+2, x}, {TW_COS, v+3, x}, \
Chris@42	292 {TW_SIN, v, x}, {TW_SIN, v+1, x}, {TW_SIN, v+2, x}, {TW_SIN, v+3, x}
Chris@42	293 #define TWVLS (2 * VL)
Chris@42	294
Chris@42	295 #define VLEAVE() /* nothing */
Chris@42	296
Chris@42	297 #include "simd-common.h"

Mercurial > hg > sv-dependency-builds

annotate src/fftw-3.3.5/simd-support/simd-altivec.h @ 84:08ae793730bd