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annotate src/fftw-3.3.3/kernel/twiddle.c @ 46:efe5b9f38b13

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Debug build of Rubber Band Library
author Chris Cannam
date Wed, 19 Oct 2016 17:32:56 +0100
parents 37bf6b4a2645
children
rev   line source
Chris@10 1 /*
Chris@10 2 * Copyright (c) 2003, 2007-11 Matteo Frigo
Chris@10 3 * Copyright (c) 2003, 2007-11 Massachusetts Institute of Technology
Chris@10 4 *
Chris@10 5 * This program is free software; you can redistribute it and/or modify
Chris@10 6 * it under the terms of the GNU General Public License as published by
Chris@10 7 * the Free Software Foundation; either version 2 of the License, or
Chris@10 8 * (at your option) any later version.
Chris@10 9 *
Chris@10 10 * This program is distributed in the hope that it will be useful,
Chris@10 11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
Chris@10 12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
Chris@10 13 * GNU General Public License for more details.
Chris@10 14 *
Chris@10 15 * You should have received a copy of the GNU General Public License
Chris@10 16 * along with this program; if not, write to the Free Software
Chris@10 17 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
Chris@10 18 *
Chris@10 19 */
Chris@10 20
Chris@10 21
Chris@10 22 /* Twiddle manipulation */
Chris@10 23
Chris@10 24 #include "ifftw.h"
Chris@10 25 #include <math.h>
Chris@10 26
Chris@10 27 #define HASHSZ 109
Chris@10 28
Chris@10 29 /* hash table of known twiddle factors */
Chris@10 30 static twid *twlist[HASHSZ];
Chris@10 31
Chris@10 32 static INT hash(INT n, INT r)
Chris@10 33 {
Chris@10 34 INT h = n * 17 + r;
Chris@10 35
Chris@10 36 if (h < 0) h = -h;
Chris@10 37
Chris@10 38 return (h % HASHSZ);
Chris@10 39 }
Chris@10 40
Chris@10 41 static int equal_instr(const tw_instr *p, const tw_instr *q)
Chris@10 42 {
Chris@10 43 if (p == q)
Chris@10 44 return 1;
Chris@10 45
Chris@10 46 for (;; ++p, ++q) {
Chris@10 47 if (p->op != q->op)
Chris@10 48 return 0;
Chris@10 49
Chris@10 50 switch (p->op) {
Chris@10 51 case TW_NEXT:
Chris@10 52 return (p->v == q->v); /* p->i is ignored */
Chris@10 53
Chris@10 54 case TW_FULL:
Chris@10 55 case TW_HALF:
Chris@10 56 if (p->v != q->v) return 0; /* p->i is ignored */
Chris@10 57 break;
Chris@10 58
Chris@10 59 default:
Chris@10 60 if (p->v != q->v || p->i != q->i) return 0;
Chris@10 61 break;
Chris@10 62 }
Chris@10 63 }
Chris@10 64 A(0 /* can't happen */);
Chris@10 65 }
Chris@10 66
Chris@10 67 static int ok_twid(const twid *t,
Chris@10 68 enum wakefulness wakefulness,
Chris@10 69 const tw_instr *q, INT n, INT r, INT m)
Chris@10 70 {
Chris@10 71 return (wakefulness == t->wakefulness &&
Chris@10 72 n == t->n &&
Chris@10 73 r == t->r &&
Chris@10 74 m <= t->m &&
Chris@10 75 equal_instr(t->instr, q));
Chris@10 76 }
Chris@10 77
Chris@10 78 static twid *lookup(enum wakefulness wakefulness,
Chris@10 79 const tw_instr *q, INT n, INT r, INT m)
Chris@10 80 {
Chris@10 81 twid *p;
Chris@10 82
Chris@10 83 for (p = twlist[hash(n,r)];
Chris@10 84 p && !ok_twid(p, wakefulness, q, n, r, m);
Chris@10 85 p = p->cdr)
Chris@10 86 ;
Chris@10 87 return p;
Chris@10 88 }
Chris@10 89
Chris@10 90 static INT twlen0(INT r, const tw_instr *p, INT *vl)
Chris@10 91 {
Chris@10 92 INT ntwiddle = 0;
Chris@10 93
Chris@10 94 /* compute length of bytecode program */
Chris@10 95 A(r > 0);
Chris@10 96 for ( ; p->op != TW_NEXT; ++p) {
Chris@10 97 switch (p->op) {
Chris@10 98 case TW_FULL:
Chris@10 99 ntwiddle += (r - 1) * 2;
Chris@10 100 break;
Chris@10 101 case TW_HALF:
Chris@10 102 ntwiddle += (r - 1);
Chris@10 103 break;
Chris@10 104 case TW_CEXP:
Chris@10 105 ntwiddle += 2;
Chris@10 106 break;
Chris@10 107 case TW_COS:
Chris@10 108 case TW_SIN:
Chris@10 109 ntwiddle += 1;
Chris@10 110 break;
Chris@10 111 }
Chris@10 112 }
Chris@10 113
Chris@10 114 *vl = (INT)p->v;
Chris@10 115 return ntwiddle;
Chris@10 116 }
Chris@10 117
Chris@10 118 INT X(twiddle_length)(INT r, const tw_instr *p)
Chris@10 119 {
Chris@10 120 INT vl;
Chris@10 121 return twlen0(r, p, &vl);
Chris@10 122 }
Chris@10 123
Chris@10 124 static R *compute(enum wakefulness wakefulness,
Chris@10 125 const tw_instr *instr, INT n, INT r, INT m)
Chris@10 126 {
Chris@10 127 INT ntwiddle, j, vl;
Chris@10 128 R *W, *W0;
Chris@10 129 const tw_instr *p;
Chris@10 130 triggen *t = X(mktriggen)(wakefulness, n);
Chris@10 131
Chris@10 132 p = instr;
Chris@10 133 ntwiddle = twlen0(r, p, &vl);
Chris@10 134
Chris@10 135 A(m % vl == 0);
Chris@10 136
Chris@10 137 W0 = W = (R *)MALLOC((ntwiddle * (m / vl)) * sizeof(R), TWIDDLES);
Chris@10 138
Chris@10 139 for (j = 0; j < m; j += vl) {
Chris@10 140 for (p = instr; p->op != TW_NEXT; ++p) {
Chris@10 141 switch (p->op) {
Chris@10 142 case TW_FULL: {
Chris@10 143 INT i;
Chris@10 144 for (i = 1; i < r; ++i) {
Chris@10 145 A((j + (INT)p->v) * i < n);
Chris@10 146 A((j + (INT)p->v) * i > -n);
Chris@10 147 t->cexp(t, (j + (INT)p->v) * i, W);
Chris@10 148 W += 2;
Chris@10 149 }
Chris@10 150 break;
Chris@10 151 }
Chris@10 152
Chris@10 153 case TW_HALF: {
Chris@10 154 INT i;
Chris@10 155 A((r % 2) == 1);
Chris@10 156 for (i = 1; i + i < r; ++i) {
Chris@10 157 t->cexp(t, MULMOD(i, (j + (INT)p->v), n), W);
Chris@10 158 W += 2;
Chris@10 159 }
Chris@10 160 break;
Chris@10 161 }
Chris@10 162
Chris@10 163 case TW_COS: {
Chris@10 164 R d[2];
Chris@10 165
Chris@10 166 A((j + (INT)p->v) * p->i < n);
Chris@10 167 A((j + (INT)p->v) * p->i > -n);
Chris@10 168 t->cexp(t, (j + (INT)p->v) * (INT)p->i, d);
Chris@10 169 *W++ = d[0];
Chris@10 170 break;
Chris@10 171 }
Chris@10 172
Chris@10 173 case TW_SIN: {
Chris@10 174 R d[2];
Chris@10 175
Chris@10 176 A((j + (INT)p->v) * p->i < n);
Chris@10 177 A((j + (INT)p->v) * p->i > -n);
Chris@10 178 t->cexp(t, (j + (INT)p->v) * (INT)p->i, d);
Chris@10 179 *W++ = d[1];
Chris@10 180 break;
Chris@10 181 }
Chris@10 182
Chris@10 183 case TW_CEXP:
Chris@10 184 A((j + (INT)p->v) * p->i < n);
Chris@10 185 A((j + (INT)p->v) * p->i > -n);
Chris@10 186 t->cexp(t, (j + (INT)p->v) * (INT)p->i, W);
Chris@10 187 W += 2;
Chris@10 188 break;
Chris@10 189 }
Chris@10 190 }
Chris@10 191 }
Chris@10 192
Chris@10 193 X(triggen_destroy)(t);
Chris@10 194 return W0;
Chris@10 195 }
Chris@10 196
Chris@10 197 static void mktwiddle(enum wakefulness wakefulness,
Chris@10 198 twid **pp, const tw_instr *instr, INT n, INT r, INT m)
Chris@10 199 {
Chris@10 200 twid *p;
Chris@10 201 INT h;
Chris@10 202
Chris@10 203 if ((p = lookup(wakefulness, instr, n, r, m))) {
Chris@10 204 ++p->refcnt;
Chris@10 205 } else {
Chris@10 206 p = (twid *) MALLOC(sizeof(twid), TWIDDLES);
Chris@10 207 p->n = n;
Chris@10 208 p->r = r;
Chris@10 209 p->m = m;
Chris@10 210 p->instr = instr;
Chris@10 211 p->refcnt = 1;
Chris@10 212 p->wakefulness = wakefulness;
Chris@10 213 p->W = compute(wakefulness, instr, n, r, m);
Chris@10 214
Chris@10 215 /* cons! onto twlist */
Chris@10 216 h = hash(n, r);
Chris@10 217 p->cdr = twlist[h];
Chris@10 218 twlist[h] = p;
Chris@10 219 }
Chris@10 220
Chris@10 221 *pp = p;
Chris@10 222 }
Chris@10 223
Chris@10 224 static void twiddle_destroy(twid **pp)
Chris@10 225 {
Chris@10 226 twid *p = *pp;
Chris@10 227 twid **q;
Chris@10 228
Chris@10 229 if ((--p->refcnt) == 0) {
Chris@10 230 /* remove p from twiddle list */
Chris@10 231 for (q = &twlist[hash(p->n, p->r)]; *q; q = &((*q)->cdr)) {
Chris@10 232 if (*q == p) {
Chris@10 233 *q = p->cdr;
Chris@10 234 X(ifree)(p->W);
Chris@10 235 X(ifree)(p);
Chris@10 236 *pp = 0;
Chris@10 237 return;
Chris@10 238 }
Chris@10 239 }
Chris@10 240 A(0 /* can't happen */ );
Chris@10 241 }
Chris@10 242 }
Chris@10 243
Chris@10 244
Chris@10 245 void X(twiddle_awake)(enum wakefulness wakefulness, twid **pp,
Chris@10 246 const tw_instr *instr, INT n, INT r, INT m)
Chris@10 247 {
Chris@10 248 switch (wakefulness) {
Chris@10 249 case SLEEPY:
Chris@10 250 twiddle_destroy(pp);
Chris@10 251 break;
Chris@10 252 default:
Chris@10 253 mktwiddle(wakefulness, pp, instr, n, r, m);
Chris@10 254 break;
Chris@10 255 }
Chris@10 256 }