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annotate src/fftw-3.3.8/libbench2/problem.c @ 167:bd3cc4d1df30

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Add FFTW 3.3.8 source, and a Linux build
author Chris Cannam <cannam@all-day-breakfast.com>
date Tue, 19 Nov 2019 14:52:55 +0000
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rev   line source
cannam@167 1 /*
cannam@167 2 * Copyright (c) 2001 Matteo Frigo
cannam@167 3 * Copyright (c) 2001 Massachusetts Institute of Technology
cannam@167 4 *
cannam@167 5 * This program is free software; you can redistribute it and/or modify
cannam@167 6 * it under the terms of the GNU General Public License as published by
cannam@167 7 * the Free Software Foundation; either version 2 of the License, or
cannam@167 8 * (at your option) any later version.
cannam@167 9 *
cannam@167 10 * This program is distributed in the hope that it will be useful,
cannam@167 11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
cannam@167 12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
cannam@167 13 * GNU General Public License for more details.
cannam@167 14 *
cannam@167 15 * You should have received a copy of the GNU General Public License
cannam@167 16 * along with this program; if not, write to the Free Software
cannam@167 17 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
cannam@167 18 *
cannam@167 19 */
cannam@167 20
cannam@167 21
cannam@167 22 #include "config.h"
cannam@167 23 #include "libbench2/bench.h"
cannam@167 24 #include <stdio.h>
cannam@167 25 #include <stdlib.h>
cannam@167 26 #include <string.h>
cannam@167 27 #include <ctype.h>
cannam@167 28
cannam@167 29 int always_pad_real = 0; /* by default, only pad in-place case */
cannam@167 30
cannam@167 31 typedef enum {
cannam@167 32 SAME, PADDED, HALFISH
cannam@167 33 } n_transform;
cannam@167 34
cannam@167 35 /* funny transformations for last dimension of PROBLEM_REAL */
cannam@167 36 static int transform_n(int n, n_transform nt)
cannam@167 37 {
cannam@167 38 switch (nt) {
cannam@167 39 case SAME: return n;
cannam@167 40 case PADDED: return 2*(n/2+1);
cannam@167 41 case HALFISH: return (n/2+1);
cannam@167 42 default: BENCH_ASSERT(0); return 0;
cannam@167 43 }
cannam@167 44 }
cannam@167 45
cannam@167 46 /* do what I mean */
cannam@167 47 static bench_tensor *dwim(bench_tensor *t, bench_iodim **last_iodim,
cannam@167 48 n_transform nti, n_transform nto,
cannam@167 49 bench_iodim *dt)
cannam@167 50 {
cannam@167 51 int i;
cannam@167 52 bench_iodim *d, *d1;
cannam@167 53
cannam@167 54 if (!BENCH_FINITE_RNK(t->rnk) || t->rnk < 1)
cannam@167 55 return t;
cannam@167 56
cannam@167 57 i = t->rnk;
cannam@167 58 d1 = *last_iodim;
cannam@167 59
cannam@167 60 while (--i >= 0) {
cannam@167 61 d = t->dims + i;
cannam@167 62 if (!d->is)
cannam@167 63 d->is = d1->is * transform_n(d1->n, d1==dt ? nti : SAME);
cannam@167 64 if (!d->os)
cannam@167 65 d->os = d1->os * transform_n(d1->n, d1==dt ? nto : SAME);
cannam@167 66 d1 = d;
cannam@167 67 }
cannam@167 68
cannam@167 69 *last_iodim = d1;
cannam@167 70 return t;
cannam@167 71 }
cannam@167 72
cannam@167 73 static void transpose_tensor(bench_tensor *t)
cannam@167 74 {
cannam@167 75 if (!BENCH_FINITE_RNK(t->rnk) || t->rnk < 2)
cannam@167 76 return;
cannam@167 77
cannam@167 78 t->dims[0].os = t->dims[1].os;
cannam@167 79 t->dims[1].os = t->dims[0].os * t->dims[0].n;
cannam@167 80 }
cannam@167 81
cannam@167 82 static const char *parseint(const char *s, int *n)
cannam@167 83 {
cannam@167 84 int sign = 1;
cannam@167 85
cannam@167 86 *n = 0;
cannam@167 87
cannam@167 88 if (*s == '-') {
cannam@167 89 sign = -1;
cannam@167 90 ++s;
cannam@167 91 } else if (*s == '+') {
cannam@167 92 sign = +1;
cannam@167 93 ++s;
cannam@167 94 }
cannam@167 95
cannam@167 96 BENCH_ASSERT(isdigit(*s));
cannam@167 97 while (isdigit(*s)) {
cannam@167 98 *n = *n * 10 + (*s - '0');
cannam@167 99 ++s;
cannam@167 100 }
cannam@167 101
cannam@167 102 *n *= sign;
cannam@167 103
cannam@167 104 if (*s == 'k' || *s == 'K') {
cannam@167 105 *n *= 1024;
cannam@167 106 ++s;
cannam@167 107 }
cannam@167 108
cannam@167 109 if (*s == 'm' || *s == 'M') {
cannam@167 110 *n *= 1024 * 1024;
cannam@167 111 ++s;
cannam@167 112 }
cannam@167 113
cannam@167 114 return s;
cannam@167 115 }
cannam@167 116
cannam@167 117 struct dimlist { bench_iodim car; r2r_kind_t k; struct dimlist *cdr; };
cannam@167 118
cannam@167 119 static const char *parsetensor(const char *s, bench_tensor **tp,
cannam@167 120 r2r_kind_t **k)
cannam@167 121 {
cannam@167 122 struct dimlist *l = 0, *m;
cannam@167 123 bench_tensor *t;
cannam@167 124 int rnk = 0;
cannam@167 125
cannam@167 126 L1:
cannam@167 127 m = (struct dimlist *)bench_malloc(sizeof(struct dimlist));
cannam@167 128 /* nconc onto l */
cannam@167 129 m->cdr = l; l = m;
cannam@167 130 ++rnk;
cannam@167 131
cannam@167 132 s = parseint(s, &m->car.n);
cannam@167 133
cannam@167 134 if (*s == ':') {
cannam@167 135 /* read input stride */
cannam@167 136 ++s;
cannam@167 137 s = parseint(s, &m->car.is);
cannam@167 138 if (*s == ':') {
cannam@167 139 /* read output stride */
cannam@167 140 ++s;
cannam@167 141 s = parseint(s, &m->car.os);
cannam@167 142 } else {
cannam@167 143 /* default */
cannam@167 144 m->car.os = m->car.is;
cannam@167 145 }
cannam@167 146 } else {
cannam@167 147 m->car.is = 0;
cannam@167 148 m->car.os = 0;
cannam@167 149 }
cannam@167 150
cannam@167 151 if (*s == 'f' || *s == 'F') {
cannam@167 152 m->k = R2R_R2HC;
cannam@167 153 ++s;
cannam@167 154 }
cannam@167 155 else if (*s == 'b' || *s == 'B') {
cannam@167 156 m->k = R2R_HC2R;
cannam@167 157 ++s;
cannam@167 158 }
cannam@167 159 else if (*s == 'h' || *s == 'H') {
cannam@167 160 m->k = R2R_DHT;
cannam@167 161 ++s;
cannam@167 162 }
cannam@167 163 else if (*s == 'e' || *s == 'E' || *s == 'o' || *s == 'O') {
cannam@167 164 char c = *(s++);
cannam@167 165 int ab;
cannam@167 166
cannam@167 167 s = parseint(s, &ab);
cannam@167 168
cannam@167 169 if (c == 'e' || c == 'E') {
cannam@167 170 if (ab == 0)
cannam@167 171 m->k = R2R_REDFT00;
cannam@167 172 else if (ab == 1)
cannam@167 173 m->k = R2R_REDFT01;
cannam@167 174 else if (ab == 10)
cannam@167 175 m->k = R2R_REDFT10;
cannam@167 176 else if (ab == 11)
cannam@167 177 m->k = R2R_REDFT11;
cannam@167 178 else
cannam@167 179 BENCH_ASSERT(0);
cannam@167 180 }
cannam@167 181 else {
cannam@167 182 if (ab == 0)
cannam@167 183 m->k = R2R_RODFT00;
cannam@167 184 else if (ab == 1)
cannam@167 185 m->k = R2R_RODFT01;
cannam@167 186 else if (ab == 10)
cannam@167 187 m->k = R2R_RODFT10;
cannam@167 188 else if (ab == 11)
cannam@167 189 m->k = R2R_RODFT11;
cannam@167 190 else
cannam@167 191 BENCH_ASSERT(0);
cannam@167 192 }
cannam@167 193 }
cannam@167 194 else
cannam@167 195 m->k = R2R_R2HC;
cannam@167 196
cannam@167 197 if (*s == 'x' || *s == 'X') {
cannam@167 198 ++s;
cannam@167 199 goto L1;
cannam@167 200 }
cannam@167 201
cannam@167 202 /* now we have a dimlist. Build bench_tensor, etc. */
cannam@167 203
cannam@167 204 if (k && rnk > 0) {
cannam@167 205 int i;
cannam@167 206 *k = (r2r_kind_t *) bench_malloc(sizeof(r2r_kind_t) * rnk);
cannam@167 207 for (m = l, i = rnk - 1; i >= 0; --i, m = m->cdr) {
cannam@167 208 BENCH_ASSERT(m);
cannam@167 209 (*k)[i] = m->k;
cannam@167 210 }
cannam@167 211 }
cannam@167 212
cannam@167 213 t = mktensor(rnk);
cannam@167 214 while (--rnk >= 0) {
cannam@167 215 bench_iodim *d = t->dims + rnk;
cannam@167 216 BENCH_ASSERT(l);
cannam@167 217 m = l; l = m->cdr;
cannam@167 218 d->n = m->car.n;
cannam@167 219 d->is = m->car.is;
cannam@167 220 d->os = m->car.os;
cannam@167 221 bench_free(m);
cannam@167 222 }
cannam@167 223
cannam@167 224 *tp = t;
cannam@167 225 return s;
cannam@167 226 }
cannam@167 227
cannam@167 228 /* parse a problem description, return a problem */
cannam@167 229 bench_problem *problem_parse(const char *s)
cannam@167 230 {
cannam@167 231 bench_problem *p;
cannam@167 232 bench_iodim last_iodim0 = {1,1,1}, *last_iodim = &last_iodim0;
cannam@167 233 bench_iodim *sz_last_iodim;
cannam@167 234 bench_tensor *sz;
cannam@167 235 n_transform nti = SAME, nto = SAME;
cannam@167 236 int transpose = 0;
cannam@167 237
cannam@167 238 p = (bench_problem *) bench_malloc(sizeof(bench_problem));
cannam@167 239 p->kind = PROBLEM_COMPLEX;
cannam@167 240 p->k = 0;
cannam@167 241 p->sign = -1;
cannam@167 242 p->in = p->out = 0;
cannam@167 243 p->inphys = p->outphys = 0;
cannam@167 244 p->iphyssz = p->ophyssz = 0;
cannam@167 245 p->in_place = 0;
cannam@167 246 p->destroy_input = 0;
cannam@167 247 p->split = 0;
cannam@167 248 p->userinfo = 0;
cannam@167 249 p->scrambled_in = p->scrambled_out = 0;
cannam@167 250 p->sz = p->vecsz = 0;
cannam@167 251 p->ini = p->outi = 0;
cannam@167 252 p->pstring = (char *) bench_malloc(sizeof(char) * (strlen(s) + 1));
cannam@167 253 strcpy(p->pstring, s);
cannam@167 254
cannam@167 255 L1:
cannam@167 256 switch (tolower(*s)) {
cannam@167 257 case 'i': p->in_place = 1; ++s; goto L1;
cannam@167 258 case 'o': p->in_place = 0; ++s; goto L1;
cannam@167 259 case 'd': p->destroy_input = 1; ++s; goto L1;
cannam@167 260 case '/': p->split = 1; ++s; goto L1;
cannam@167 261 case 'f':
cannam@167 262 case '-': p->sign = -1; ++s; goto L1;
cannam@167 263 case 'b':
cannam@167 264 case '+': p->sign = 1; ++s; goto L1;
cannam@167 265 case 'r': p->kind = PROBLEM_REAL; ++s; goto L1;
cannam@167 266 case 'c': p->kind = PROBLEM_COMPLEX; ++s; goto L1;
cannam@167 267 case 'k': p->kind = PROBLEM_R2R; ++s; goto L1;
cannam@167 268 case 't': transpose = 1; ++s; goto L1;
cannam@167 269
cannam@167 270 /* hack for MPI: */
cannam@167 271 case '[': p->scrambled_in = 1; ++s; goto L1;
cannam@167 272 case ']': p->scrambled_out = 1; ++s; goto L1;
cannam@167 273
cannam@167 274 default : ;
cannam@167 275 }
cannam@167 276
cannam@167 277 s = parsetensor(s, &sz, p->kind == PROBLEM_R2R ? &p->k : 0);
cannam@167 278
cannam@167 279 if (p->kind == PROBLEM_REAL) {
cannam@167 280 if (p->sign < 0) {
cannam@167 281 nti = p->in_place || always_pad_real ? PADDED : SAME;
cannam@167 282 nto = HALFISH;
cannam@167 283 }
cannam@167 284 else {
cannam@167 285 nti = HALFISH;
cannam@167 286 nto = p->in_place || always_pad_real ? PADDED : SAME;
cannam@167 287 }
cannam@167 288 }
cannam@167 289
cannam@167 290 sz_last_iodim = sz->dims + sz->rnk - 1;
cannam@167 291 if (*s == '*') { /* "external" vector */
cannam@167 292 ++s;
cannam@167 293 p->sz = dwim(sz, &last_iodim, nti, nto, sz_last_iodim);
cannam@167 294 s = parsetensor(s, &sz, 0);
cannam@167 295 p->vecsz = dwim(sz, &last_iodim, nti, nto, sz_last_iodim);
cannam@167 296 } else if (*s == 'v' || *s == 'V') { /* "internal" vector */
cannam@167 297 bench_tensor *vecsz;
cannam@167 298 ++s;
cannam@167 299 s = parsetensor(s, &vecsz, 0);
cannam@167 300 p->vecsz = dwim(vecsz, &last_iodim, nti, nto, sz_last_iodim);
cannam@167 301 p->sz = dwim(sz, &last_iodim, nti, nto, sz_last_iodim);
cannam@167 302 } else {
cannam@167 303 p->sz = dwim(sz, &last_iodim, nti, nto, sz_last_iodim);
cannam@167 304 p->vecsz = mktensor(0);
cannam@167 305 }
cannam@167 306
cannam@167 307 if (transpose) {
cannam@167 308 transpose_tensor(p->sz);
cannam@167 309 transpose_tensor(p->vecsz);
cannam@167 310 }
cannam@167 311
cannam@167 312 if (!p->in_place)
cannam@167 313 p->out = ((bench_real *) p->in) + (1 << 20); /* whatever */
cannam@167 314
cannam@167 315 BENCH_ASSERT(p->sz && p->vecsz);
cannam@167 316 BENCH_ASSERT(!*s);
cannam@167 317 return p;
cannam@167 318 }
cannam@167 319
cannam@167 320 void problem_destroy(bench_problem *p)
cannam@167 321 {
cannam@167 322 BENCH_ASSERT(p);
cannam@167 323 problem_free(p);
cannam@167 324 bench_free0(p->k);
cannam@167 325 bench_free0(p->pstring);
cannam@167 326 bench_free(p);
cannam@167 327 }
cannam@167 328