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1 /*
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2 * Copyright (c) 2003, 2007-11 Matteo Frigo
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3 * Copyright (c) 2003, 2007-11 Massachusetts Institute of Technology
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4 *
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5 * This program is free software; you can redistribute it and/or modify
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6 * it under the terms of the GNU General Public License as published by
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7 * the Free Software Foundation; either version 2 of the License, or
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8 * (at your option) any later version.
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9 *
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10 * This program is distributed in the hope that it will be useful,
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11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
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12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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13 * GNU General Public License for more details.
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14 *
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15 * You should have received a copy of the GNU General Public License
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16 * along with this program; if not, write to the Free Software
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17 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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18 *
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19 */
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20
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21 /* Complex DFTs of rank == 1 when the vector length vn is >= # processes.
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22 In this case, we don't need to use a six-step type algorithm, and can
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23 instead transpose the DFT dimension with the vector dimension to
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24 make the DFT local. */
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25
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26 #include "mpi-dft.h"
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27 #include "mpi-transpose.h"
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28 #include "dft.h"
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29
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30 typedef struct {
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31 solver super;
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32 int preserve_input; /* preserve input even if DESTROY_INPUT was passed */
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33 rearrangement rearrange;
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34 } S;
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35
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36 typedef struct {
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37 plan_mpi_dft super;
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38
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39 plan *cldt_before, *cld, *cldt_after;
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40 INT roff, ioff;
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41 int preserve_input;
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42 rearrangement rearrange;
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43 } P;
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44
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45 static void apply(const plan *ego_, R *I, R *O)
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46 {
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47 const P *ego = (const P *) ego_;
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48 plan_dft *cld;
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49 plan_rdft *cldt_before, *cldt_after;
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50 INT roff = ego->roff, ioff = ego->ioff;
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51
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52 /* global transpose */
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53 cldt_before = (plan_rdft *) ego->cldt_before;
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54 cldt_before->apply(ego->cldt_before, I, O);
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55
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56 if (ego->preserve_input) I = O;
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57
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58 /* 1d DFT(s) */
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59 cld = (plan_dft *) ego->cld;
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60 cld->apply(ego->cld, O+roff, O+ioff, I+roff, I+ioff);
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61
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62 /* global transpose */
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63 cldt_after = (plan_rdft *) ego->cldt_after;
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64 cldt_after->apply(ego->cldt_after, I, O);
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65 }
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66
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67 static int applicable(const S *ego, const problem *p_,
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68 const planner *plnr)
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69 {
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70 const problem_mpi_dft *p = (const problem_mpi_dft *) p_;
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71 int n_pes;
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72 MPI_Comm_size(p->comm, &n_pes);
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73 return (1
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74 && p->sz->rnk == 1
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75 && !(p->flags & ~RANK1_BIGVEC_ONLY)
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76 && (!ego->preserve_input || (!NO_DESTROY_INPUTP(plnr)
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77 && p->I != p->O))
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78 && (p->vn >= n_pes /* TODO: relax this, using more memory? */
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79 || (p->flags & RANK1_BIGVEC_ONLY))
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80
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81 && XM(rearrange_applicable)(ego->rearrange,
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82 p->sz->dims[0], p->vn, n_pes)
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83
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84 && (!NO_SLOWP(plnr) /* slow if dft-serial is applicable */
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85 || !XM(dft_serial_applicable)(p))
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86 );
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87 }
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88
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89 static void awake(plan *ego_, enum wakefulness wakefulness)
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90 {
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91 P *ego = (P *) ego_;
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92 X(plan_awake)(ego->cldt_before, wakefulness);
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93 X(plan_awake)(ego->cld, wakefulness);
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94 X(plan_awake)(ego->cldt_after, wakefulness);
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95 }
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96
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97 static void destroy(plan *ego_)
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98 {
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99 P *ego = (P *) ego_;
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100 X(plan_destroy_internal)(ego->cldt_after);
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101 X(plan_destroy_internal)(ego->cld);
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102 X(plan_destroy_internal)(ego->cldt_before);
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103 }
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104
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105 static void print(const plan *ego_, printer *p)
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106 {
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107 const P *ego = (const P *) ego_;
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108 const char descrip[][16] = { "contig", "discontig", "square-after",
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109 "square-middle", "square-before" };
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110 p->print(p, "(mpi-dft-rank1-bigvec/%s%s %(%p%) %(%p%) %(%p%))",
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111 descrip[ego->rearrange], ego->preserve_input==2 ?"/p":"",
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112 ego->cldt_before, ego->cld, ego->cldt_after);
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113 }
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114
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115 static plan *mkplan(const solver *ego_, const problem *p_, planner *plnr)
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116 {
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117 const S *ego = (const S *) ego_;
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118 const problem_mpi_dft *p;
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119 P *pln;
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120 plan *cld = 0, *cldt_before = 0, *cldt_after = 0;
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121 R *ri, *ii, *ro, *io, *I, *O;
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122 INT yblock, yb, nx, ny, vn;
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123 int my_pe, n_pes;
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124 static const plan_adt padt = {
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125 XM(dft_solve), awake, print, destroy
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126 };
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127
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128 UNUSED(ego);
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129
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130 if (!applicable(ego, p_, plnr))
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131 return (plan *) 0;
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132
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133 p = (const problem_mpi_dft *) p_;
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134
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135 MPI_Comm_rank(p->comm, &my_pe);
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136 MPI_Comm_size(p->comm, &n_pes);
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137
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138 nx = p->sz->dims[0].n;
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139 if (!(ny = XM(rearrange_ny)(ego->rearrange, p->sz->dims[0],p->vn,n_pes)))
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140 return (plan *) 0;
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141 vn = p->vn / ny;
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142 A(ny * vn == p->vn);
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143
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144 yblock = XM(default_block)(ny, n_pes);
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145 cldt_before = X(mkplan_d)(plnr,
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146 XM(mkproblem_transpose)(
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147 nx, ny, vn*2,
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148 I = p->I, O = p->O,
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149 p->sz->dims[0].b[IB], yblock,
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150 p->comm, 0));
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151 if (XM(any_true)(!cldt_before, p->comm)) goto nada;
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152 if (ego->preserve_input || NO_DESTROY_INPUTP(plnr)) { I = O; }
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153
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154 X(extract_reim)(p->sign, I, &ri, &ii);
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155 X(extract_reim)(p->sign, O, &ro, &io);
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156
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157 yb = XM(block)(ny, yblock, my_pe);
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158 cld = X(mkplan_d)(plnr,
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159 X(mkproblem_dft_d)(X(mktensor_1d)(nx, vn*2, vn*2),
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160 X(mktensor_2d)(yb, vn*2*nx, vn*2*nx,
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161 vn, 2, 2),
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162 ro, io, ri, ii));
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163 if (XM(any_true)(!cld, p->comm)) goto nada;
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164
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165 cldt_after = X(mkplan_d)(plnr,
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166 XM(mkproblem_transpose)(
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167 ny, nx, vn*2,
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168 I, O,
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169 yblock, p->sz->dims[0].b[OB],
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170 p->comm, 0));
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171 if (XM(any_true)(!cldt_after, p->comm)) goto nada;
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172
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173 pln = MKPLAN_MPI_DFT(P, &padt, apply);
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174
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175 pln->cldt_before = cldt_before;
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176 pln->cld = cld;
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177 pln->cldt_after = cldt_after;
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178 pln->preserve_input = ego->preserve_input ? 2 : NO_DESTROY_INPUTP(plnr);
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179 pln->roff = ro - p->O;
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180 pln->ioff = io - p->O;
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181 pln->rearrange = ego->rearrange;
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182
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183 X(ops_add)(&cldt_before->ops, &cld->ops, &pln->super.super.ops);
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184 X(ops_add2)(&cldt_after->ops, &pln->super.super.ops);
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185
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186 return &(pln->super.super);
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187
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188 nada:
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189 X(plan_destroy_internal)(cldt_after);
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190 X(plan_destroy_internal)(cld);
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191 X(plan_destroy_internal)(cldt_before);
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192 return (plan *) 0;
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193 }
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194
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195 static solver *mksolver(rearrangement rearrange, int preserve_input)
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196 {
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197 static const solver_adt sadt = { PROBLEM_MPI_DFT, mkplan, 0 };
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198 S *slv = MKSOLVER(S, &sadt);
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199 slv->rearrange = rearrange;
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200 slv->preserve_input = preserve_input;
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201 return &(slv->super);
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202 }
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203
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204 void XM(dft_rank1_bigvec_register)(planner *p)
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205 {
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206 rearrangement rearrange;
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207 int preserve_input;
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208 FORALL_REARRANGE(rearrange)
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209 for (preserve_input = 0; preserve_input <= 1; ++preserve_input)
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210 REGISTER_SOLVER(p, mksolver(rearrange, preserve_input));
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211 }
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