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annotate src/fftw-3.3.3/mpi/dtensor.c @ 169:223a55898ab9 tip default

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Add null config files
author Chris Cannam <cannam@all-day-breakfast.com>
date Mon, 02 Mar 2020 14:03:47 +0000
parents 89f5e221ed7b
children
rev   line source
cannam@95 1 /*
cannam@95 2 * Copyright (c) 2003, 2007-11 Matteo Frigo
cannam@95 3 * Copyright (c) 2003, 2007-11 Massachusetts Institute of Technology
cannam@95 4 *
cannam@95 5 * This program is free software; you can redistribute it and/or modify
cannam@95 6 * it under the terms of the GNU General Public License as published by
cannam@95 7 * the Free Software Foundation; either version 2 of the License, or
cannam@95 8 * (at your option) any later version.
cannam@95 9 *
cannam@95 10 * This program is distributed in the hope that it will be useful,
cannam@95 11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
cannam@95 12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
cannam@95 13 * GNU General Public License for more details.
cannam@95 14 *
cannam@95 15 * You should have received a copy of the GNU General Public License
cannam@95 16 * along with this program; if not, write to the Free Software
cannam@95 17 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
cannam@95 18 *
cannam@95 19 */
cannam@95 20
cannam@95 21 #include "ifftw-mpi.h"
cannam@95 22
cannam@95 23 dtensor *XM(mkdtensor)(int rnk)
cannam@95 24 {
cannam@95 25 dtensor *x;
cannam@95 26
cannam@95 27 A(rnk >= 0);
cannam@95 28
cannam@95 29 #if defined(STRUCT_HACK_KR)
cannam@95 30 if (FINITE_RNK(rnk) && rnk > 1)
cannam@95 31 x = (dtensor *)MALLOC(sizeof(dtensor) + (rnk - 1) * sizeof(ddim),
cannam@95 32 TENSORS);
cannam@95 33 else
cannam@95 34 x = (dtensor *)MALLOC(sizeof(dtensor), TENSORS);
cannam@95 35 #elif defined(STRUCT_HACK_C99)
cannam@95 36 if (FINITE_RNK(rnk))
cannam@95 37 x = (dtensor *)MALLOC(sizeof(dtensor) + rnk * sizeof(ddim),
cannam@95 38 TENSORS);
cannam@95 39 else
cannam@95 40 x = (dtensor *)MALLOC(sizeof(dtensor), TENSORS);
cannam@95 41 #else
cannam@95 42 x = (dtensor *)MALLOC(sizeof(dtensor), TENSORS);
cannam@95 43 if (FINITE_RNK(rnk) && rnk > 0)
cannam@95 44 x->dims = (ddim *)MALLOC(sizeof(ddim) * rnk, TENSORS);
cannam@95 45 else
cannam@95 46 x->dims = 0;
cannam@95 47 #endif
cannam@95 48
cannam@95 49 x->rnk = rnk;
cannam@95 50 return x;
cannam@95 51 }
cannam@95 52
cannam@95 53 void XM(dtensor_destroy)(dtensor *sz)
cannam@95 54 {
cannam@95 55 #if !defined(STRUCT_HACK_C99) && !defined(STRUCT_HACK_KR)
cannam@95 56 X(ifree0)(sz->dims);
cannam@95 57 #endif
cannam@95 58 X(ifree)(sz);
cannam@95 59 }
cannam@95 60
cannam@95 61 void XM(dtensor_md5)(md5 *p, const dtensor *t)
cannam@95 62 {
cannam@95 63 int i;
cannam@95 64 X(md5int)(p, t->rnk);
cannam@95 65 if (FINITE_RNK(t->rnk)) {
cannam@95 66 for (i = 0; i < t->rnk; ++i) {
cannam@95 67 const ddim *q = t->dims + i;
cannam@95 68 X(md5INT)(p, q->n);
cannam@95 69 X(md5INT)(p, q->b[IB]);
cannam@95 70 X(md5INT)(p, q->b[OB]);
cannam@95 71 }
cannam@95 72 }
cannam@95 73 }
cannam@95 74
cannam@95 75 dtensor *XM(dtensor_copy)(const dtensor *sz)
cannam@95 76 {
cannam@95 77 dtensor *x = XM(mkdtensor)(sz->rnk);
cannam@95 78 int i;
cannam@95 79 if (FINITE_RNK(sz->rnk))
cannam@95 80 for (i = 0; i < sz->rnk; ++i)
cannam@95 81 x->dims[i] = sz->dims[i];
cannam@95 82 return x;
cannam@95 83 }
cannam@95 84
cannam@95 85 dtensor *XM(dtensor_canonical)(const dtensor *sz, int compress)
cannam@95 86 {
cannam@95 87 int i, rnk;
cannam@95 88 dtensor *x;
cannam@95 89 block_kind k;
cannam@95 90
cannam@95 91 if (!FINITE_RNK(sz->rnk))
cannam@95 92 return XM(mkdtensor)(sz->rnk);
cannam@95 93 for (i = rnk = 0; i < sz->rnk; ++i) {
cannam@95 94 if (sz->dims[i].n <= 0)
cannam@95 95 return XM(mkdtensor)(RNK_MINFTY);
cannam@95 96 else if (!compress || sz->dims[i].n > 1)
cannam@95 97 ++rnk;
cannam@95 98 }
cannam@95 99 x = XM(mkdtensor)(rnk);
cannam@95 100 for (i = rnk = 0; i < sz->rnk; ++i) {
cannam@95 101 if (!compress || sz->dims[i].n > 1) {
cannam@95 102 x->dims[rnk].n = sz->dims[i].n;
cannam@95 103 FORALL_BLOCK_KIND(k) {
cannam@95 104 if (XM(num_blocks)(sz->dims[i].n, sz->dims[i].b[k]) == 1)
cannam@95 105 x->dims[rnk].b[k] = sz->dims[i].n;
cannam@95 106 else
cannam@95 107 x->dims[rnk].b[k] = sz->dims[i].b[k];
cannam@95 108 }
cannam@95 109 ++rnk;
cannam@95 110 }
cannam@95 111 }
cannam@95 112 return x;
cannam@95 113 }
cannam@95 114
cannam@95 115 int XM(dtensor_validp)(const dtensor *sz)
cannam@95 116 {
cannam@95 117 int i;
cannam@95 118 if (sz->rnk < 0) return 0;
cannam@95 119 if (FINITE_RNK(sz->rnk))
cannam@95 120 for (i = 0; i < sz->rnk; ++i)
cannam@95 121 if (sz->dims[i].n < 0
cannam@95 122 || sz->dims[i].b[IB] <= 0
cannam@95 123 || sz->dims[i].b[OB] <= 0)
cannam@95 124 return 0;
cannam@95 125 return 1;
cannam@95 126 }
cannam@95 127
cannam@95 128 void XM(dtensor_print)(const dtensor *t, printer *p)
cannam@95 129 {
cannam@95 130 if (FINITE_RNK(t->rnk)) {
cannam@95 131 int i;
cannam@95 132 int first = 1;
cannam@95 133 p->print(p, "(");
cannam@95 134 for (i = 0; i < t->rnk; ++i) {
cannam@95 135 const ddim *d = t->dims + i;
cannam@95 136 p->print(p, "%s(%D %D %D)",
cannam@95 137 first ? "" : " ",
cannam@95 138 d->n, d->b[IB], d->b[OB]);
cannam@95 139 first = 0;
cannam@95 140 }
cannam@95 141 p->print(p, ")");
cannam@95 142 } else {
cannam@95 143 p->print(p, "rank-minfty");
cannam@95 144 }
cannam@95 145
cannam@95 146 }