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annotate src/fftw-3.3.5/api/apiplan.c @ 54:5f67a29f0fc7

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Rebuild MAD with 64-bit FPM
author Chris Cannam <cannam@all-day-breakfast.com>
date Wed, 30 Nov 2016 20:59:17 +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 #include "api.h"
Chris@42 22
Chris@42 23 static planner_hook_t before_planner_hook = 0, after_planner_hook = 0;
Chris@42 24
Chris@42 25 void X(set_planner_hooks)(planner_hook_t before, planner_hook_t after)
Chris@42 26 {
Chris@42 27 before_planner_hook = before;
Chris@42 28 after_planner_hook = after;
Chris@42 29 }
Chris@42 30
Chris@42 31 static plan *mkplan0(planner *plnr, unsigned flags,
Chris@42 32 const problem *prb, unsigned hash_info,
Chris@42 33 wisdom_state_t wisdom_state)
Chris@42 34 {
Chris@42 35 /* map API flags into FFTW flags */
Chris@42 36 X(mapflags)(plnr, flags);
Chris@42 37
Chris@42 38 plnr->flags.hash_info = hash_info;
Chris@42 39 plnr->wisdom_state = wisdom_state;
Chris@42 40
Chris@42 41 /* create plan */
Chris@42 42 return plnr->adt->mkplan(plnr, prb);
Chris@42 43 }
Chris@42 44
Chris@42 45 static unsigned force_estimator(unsigned flags)
Chris@42 46 {
Chris@42 47 flags &= ~(FFTW_MEASURE | FFTW_PATIENT | FFTW_EXHAUSTIVE);
Chris@42 48 return (flags | FFTW_ESTIMATE);
Chris@42 49 }
Chris@42 50
Chris@42 51 static plan *mkplan(planner *plnr, unsigned flags,
Chris@42 52 const problem *prb, unsigned hash_info)
Chris@42 53 {
Chris@42 54 plan *pln;
Chris@42 55
Chris@42 56 pln = mkplan0(plnr, flags, prb, hash_info, WISDOM_NORMAL);
Chris@42 57
Chris@42 58 if (plnr->wisdom_state == WISDOM_NORMAL && !pln) {
Chris@42 59 /* maybe the planner failed because of inconsistent wisdom;
Chris@42 60 plan again ignoring infeasible wisdom */
Chris@42 61 pln = mkplan0(plnr, force_estimator(flags), prb,
Chris@42 62 hash_info, WISDOM_IGNORE_INFEASIBLE);
Chris@42 63 }
Chris@42 64
Chris@42 65 if (plnr->wisdom_state == WISDOM_IS_BOGUS) {
Chris@42 66 /* if the planner detected a wisdom inconsistency,
Chris@42 67 forget all wisdom and plan again */
Chris@42 68 plnr->adt->forget(plnr, FORGET_EVERYTHING);
Chris@42 69
Chris@42 70 A(!pln);
Chris@42 71 pln = mkplan0(plnr, flags, prb, hash_info, WISDOM_NORMAL);
Chris@42 72
Chris@42 73 if (plnr->wisdom_state == WISDOM_IS_BOGUS) {
Chris@42 74 /* if it still fails, plan without wisdom */
Chris@42 75 plnr->adt->forget(plnr, FORGET_EVERYTHING);
Chris@42 76
Chris@42 77 A(!pln);
Chris@42 78 pln = mkplan0(plnr, force_estimator(flags),
Chris@42 79 prb, hash_info, WISDOM_IGNORE_ALL);
Chris@42 80 }
Chris@42 81 }
Chris@42 82
Chris@42 83 return pln;
Chris@42 84 }
Chris@42 85
Chris@42 86 apiplan *X(mkapiplan)(int sign, unsigned flags, problem *prb)
Chris@42 87 {
Chris@42 88 apiplan *p = 0;
Chris@42 89 plan *pln;
Chris@42 90 unsigned flags_used_for_planning;
Chris@42 91 planner *plnr;
Chris@42 92 static const unsigned int pats[] = {FFTW_ESTIMATE, FFTW_MEASURE,
Chris@42 93 FFTW_PATIENT, FFTW_EXHAUSTIVE};
Chris@42 94 int pat, pat_max;
Chris@42 95 double pcost = 0;
Chris@42 96
Chris@42 97 if (before_planner_hook)
Chris@42 98 before_planner_hook();
Chris@42 99
Chris@42 100 plnr = X(the_planner)();
Chris@42 101
Chris@42 102 if (flags & FFTW_WISDOM_ONLY) {
Chris@42 103 /* Special mode that returns a plan only if wisdom is present,
Chris@42 104 and returns 0 otherwise. This is now documented in the manual,
Chris@42 105 as a way to detect whether wisdom is available for a problem. */
Chris@42 106 flags_used_for_planning = flags;
Chris@42 107 pln = mkplan0(plnr, flags, prb, 0, WISDOM_ONLY);
Chris@42 108 } else {
Chris@42 109 pat_max = flags & FFTW_ESTIMATE ? 0 :
Chris@42 110 (flags & FFTW_EXHAUSTIVE ? 3 :
Chris@42 111 (flags & FFTW_PATIENT ? 2 : 1));
Chris@42 112 pat = plnr->timelimit >= 0 ? 0 : pat_max;
Chris@42 113
Chris@42 114 flags &= ~(FFTW_ESTIMATE | FFTW_MEASURE |
Chris@42 115 FFTW_PATIENT | FFTW_EXHAUSTIVE);
Chris@42 116
Chris@42 117 plnr->start_time = X(get_crude_time)();
Chris@42 118
Chris@42 119 /* plan at incrementally increasing patience until we run
Chris@42 120 out of time */
Chris@42 121 for (pln = 0, flags_used_for_planning = 0; pat <= pat_max; ++pat) {
Chris@42 122 plan *pln1;
Chris@42 123 unsigned tmpflags = flags | pats[pat];
Chris@42 124 pln1 = mkplan(plnr, tmpflags, prb, 0u);
Chris@42 125
Chris@42 126 if (!pln1) {
Chris@42 127 /* don't bother continuing if planner failed or timed out */
Chris@42 128 A(!pln || plnr->timed_out);
Chris@42 129 break;
Chris@42 130 }
Chris@42 131
Chris@42 132 X(plan_destroy_internal)(pln);
Chris@42 133 pln = pln1;
Chris@42 134 flags_used_for_planning = tmpflags;
Chris@42 135 pcost = pln->pcost;
Chris@42 136 }
Chris@42 137 }
Chris@42 138
Chris@42 139 if (pln) {
Chris@42 140 /* build apiplan */
Chris@42 141 p = (apiplan *) MALLOC(sizeof(apiplan), PLANS);
Chris@42 142 p->prb = prb;
Chris@42 143 p->sign = sign; /* cache for execute_dft */
Chris@42 144
Chris@42 145 /* re-create plan from wisdom, adding blessing */
Chris@42 146 p->pln = mkplan(plnr, flags_used_for_planning, prb, BLESSING);
Chris@42 147
Chris@42 148 /* record pcost from most recent measurement for use in X(cost) */
Chris@42 149 p->pln->pcost = pcost;
Chris@42 150
Chris@42 151 if (sizeof(trigreal) > sizeof(R)) {
Chris@42 152 /* this is probably faster, and we have enough trigreal
Chris@42 153 bits to maintain accuracy */
Chris@42 154 X(plan_awake)(p->pln, AWAKE_SQRTN_TABLE);
Chris@42 155 } else {
Chris@42 156 /* more accurate */
Chris@42 157 X(plan_awake)(p->pln, AWAKE_SINCOS);
Chris@42 158 }
Chris@42 159
Chris@42 160 /* we don't use pln for p->pln, above, since by re-creating the
Chris@42 161 plan we might use more patient wisdom from a timed-out mkplan */
Chris@42 162 X(plan_destroy_internal)(pln);
Chris@42 163 } else
Chris@42 164 X(problem_destroy)(prb);
Chris@42 165
Chris@42 166 /* discard all information not necessary to reconstruct the plan */
Chris@42 167 plnr->adt->forget(plnr, FORGET_ACCURSED);
Chris@42 168
Chris@42 169 #ifdef FFTW_RANDOM_ESTIMATOR
Chris@42 170 X(random_estimate_seed)++; /* subsequent "random" plans are distinct */
Chris@42 171 #endif
Chris@42 172
Chris@42 173 if (after_planner_hook)
Chris@42 174 after_planner_hook();
Chris@42 175
Chris@42 176 return p;
Chris@42 177 }
Chris@42 178
Chris@42 179 void X(destroy_plan)(X(plan) p)
Chris@42 180 {
Chris@42 181 if (p) {
Chris@42 182 X(plan_awake)(p->pln, SLEEPY);
Chris@42 183 X(plan_destroy_internal)(p->pln);
Chris@42 184 X(problem_destroy)(p->prb);
Chris@42 185 X(ifree)(p);
Chris@42 186 }
Chris@42 187 }
Chris@42 188
Chris@42 189 int X(alignment_of)(R *p)
Chris@42 190 {
Chris@42 191 return X(ialignment_of(p));
Chris@42 192 }