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cannam@95
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1 /*
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cannam@95
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2 * Copyright (c) 2003, 2007-11 Matteo Frigo
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cannam@95
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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
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22 #include "ct.h"
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23
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24 typedef struct {
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25 ct_solver super;
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26 const ct_desc *desc;
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27 int bufferedp;
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28 kdftw k;
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29 } S;
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30
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31 typedef struct {
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32 plan_dftw super;
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33 kdftw k;
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34 INT r;
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35 stride rs;
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36 INT m, ms, v, vs, mb, me, extra_iter;
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37 stride brs;
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38 twid *td;
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39 const S *slv;
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40 } P;
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41
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42
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43 /*************************************************************
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44 Nonbuffered code
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45 *************************************************************/
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46 static void apply(const plan *ego_, R *rio, R *iio)
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47 {
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48 const P *ego = (const P *) ego_;
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49 INT i;
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50 ASSERT_ALIGNED_DOUBLE;
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51 for (i = 0; i < ego->v; ++i, rio += ego->vs, iio += ego->vs) {
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52 INT mb = ego->mb, ms = ego->ms;
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53 ego->k(rio + mb*ms, iio + mb*ms, ego->td->W,
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54 ego->rs, mb, ego->me, ms);
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55 }
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56 }
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57
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58 static void apply_extra_iter(const plan *ego_, R *rio, R *iio)
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59 {
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60 const P *ego = (const P *) ego_;
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61 INT i, v = ego->v, vs = ego->vs;
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62 INT mb = ego->mb, me = ego->me, mm = me - 1, ms = ego->ms;
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63 ASSERT_ALIGNED_DOUBLE;
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64 for (i = 0; i < v; ++i, rio += vs, iio += vs) {
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65 ego->k(rio + mb*ms, iio + mb*ms, ego->td->W,
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66 ego->rs, mb, mm, ms);
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67 ego->k(rio + mm*ms, iio + mm*ms, ego->td->W,
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68 ego->rs, mm, mm+2, 0);
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69 }
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70 }
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71
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72 /*************************************************************
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73 Buffered code
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74 *************************************************************/
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75 static void dobatch(const P *ego, R *rA, R *iA, INT mb, INT me, R *buf)
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76 {
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77 INT brs = WS(ego->brs, 1);
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78 INT rs = WS(ego->rs, 1);
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79 INT ms = ego->ms;
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80
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81 X(cpy2d_pair_ci)(rA + mb*ms, iA + mb*ms, buf, buf + 1,
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82 ego->r, rs, brs,
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83 me - mb, ms, 2);
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84 ego->k(buf, buf + 1, ego->td->W, ego->brs, mb, me, 2);
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85 X(cpy2d_pair_co)(buf, buf + 1, rA + mb*ms, iA + mb*ms,
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86 ego->r, brs, rs,
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87 me - mb, 2, ms);
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88 }
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89
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90 /* must be even for SIMD alignment; should not be 2^k to avoid
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91 associativity conflicts */
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92 static INT compute_batchsize(INT radix)
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93 {
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94 /* round up to multiple of 4 */
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95 radix += 3;
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96 radix &= -4;
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97
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98 return (radix + 2);
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99 }
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100
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101 static void apply_buf(const plan *ego_, R *rio, R *iio)
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102 {
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103 const P *ego = (const P *) ego_;
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104 INT i, j, v = ego->v, r = ego->r;
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105 INT batchsz = compute_batchsize(r);
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106 R *buf;
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107 INT mb = ego->mb, me = ego->me;
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108 size_t bufsz = r * batchsz * 2 * sizeof(R);
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109
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110 BUF_ALLOC(R *, buf, bufsz);
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111
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112 for (i = 0; i < v; ++i, rio += ego->vs, iio += ego->vs) {
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113 for (j = mb; j + batchsz < me; j += batchsz)
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114 dobatch(ego, rio, iio, j, j + batchsz, buf);
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115
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116 dobatch(ego, rio, iio, j, me, buf);
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117 }
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118
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119 BUF_FREE(buf, bufsz);
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120 }
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121
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122 /*************************************************************
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123 common code
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124 *************************************************************/
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125 static void awake(plan *ego_, enum wakefulness wakefulness)
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126 {
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127 P *ego = (P *) ego_;
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128
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129 X(twiddle_awake)(wakefulness, &ego->td, ego->slv->desc->tw,
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130 ego->r * ego->m, ego->r, ego->m + ego->extra_iter);
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131 }
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132
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133 static void destroy(plan *ego_)
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134 {
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135 P *ego = (P *) ego_;
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136 X(stride_destroy)(ego->brs);
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137 X(stride_destroy)(ego->rs);
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138 }
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139
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140 static void print(const plan *ego_, printer *p)
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141 {
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142 const P *ego = (const P *) ego_;
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143 const S *slv = ego->slv;
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144 const ct_desc *e = slv->desc;
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145
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146 if (slv->bufferedp)
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147 p->print(p, "(dftw-directbuf/%D-%D/%D%v \"%s\")",
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148 compute_batchsize(ego->r), ego->r,
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149 X(twiddle_length)(ego->r, e->tw), ego->v, e->nam);
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150 else
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151 p->print(p, "(dftw-direct-%D/%D%v \"%s\")",
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152 ego->r, X(twiddle_length)(ego->r, e->tw), ego->v, e->nam);
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153 }
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154
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155 static int applicable0(const S *ego,
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156 INT r, INT irs, INT ors,
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157 INT m, INT ms,
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158 INT v, INT ivs, INT ovs,
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159 INT mb, INT me,
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160 R *rio, R *iio,
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161 const planner *plnr, INT *extra_iter)
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162 {
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163 const ct_desc *e = ego->desc;
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164 UNUSED(v);
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165
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166 return (
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167 1
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168 && r == e->radix
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169 && irs == ors /* in-place along R */
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170 && ivs == ovs /* in-place along V */
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171
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172 /* check for alignment/vector length restrictions */
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173 && ((*extra_iter = 0,
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174 e->genus->okp(e, rio, iio, irs, ivs, m, mb, me, ms, plnr))
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175 ||
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176 (*extra_iter = 1,
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177 (1
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178 /* FIXME: require full array, otherwise some threads
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179 may be extra_iter and other threads won't be.
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180 Generating the proper twiddle factors is a pain in
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181 this case */
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182 && mb == 0 && me == m
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183 && e->genus->okp(e, rio, iio, irs, ivs,
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184 m, mb, me - 1, ms, plnr)
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185 && e->genus->okp(e, rio, iio, irs, ivs,
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186 m, me - 1, me + 1, ms, plnr))))
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187
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188 && (e->genus->okp(e, rio + ivs, iio + ivs, irs, ivs,
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189 m, mb, me - *extra_iter, ms, plnr))
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190
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191 );
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192 }
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193
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194 static int applicable0_buf(const S *ego,
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195 INT r, INT irs, INT ors,
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196 INT m, INT ms,
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197 INT v, INT ivs, INT ovs,
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198 INT mb, INT me,
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199 R *rio, R *iio,
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200 const planner *plnr)
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201 {
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202 const ct_desc *e = ego->desc;
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203 INT batchsz;
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204 UNUSED(v); UNUSED(ms); UNUSED(rio); UNUSED(iio);
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205
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206 return (
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207 1
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208 && r == e->radix
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209 && irs == ors /* in-place along R */
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210 && ivs == ovs /* in-place along V */
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211
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212 /* check for alignment/vector length restrictions, both for
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213 batchsize and for the remainder */
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214 && (batchsz = compute_batchsize(r), 1)
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215 && (e->genus->okp(e, 0, ((const R *)0) + 1, 2 * batchsz, 0,
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216 m, mb, mb + batchsz, 2, plnr))
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217 && (e->genus->okp(e, 0, ((const R *)0) + 1, 2 * batchsz, 0,
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218 m, mb, me, 2, plnr))
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219 );
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220 }
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221
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222 static int applicable(const S *ego,
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223 INT r, INT irs, INT ors,
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224 INT m, INT ms,
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225 INT v, INT ivs, INT ovs,
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226 INT mb, INT me,
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227 R *rio, R *iio,
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228 const planner *plnr, INT *extra_iter)
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229 {
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230 if (ego->bufferedp) {
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231 *extra_iter = 0;
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232 if (!applicable0_buf(ego,
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233 r, irs, ors, m, ms, v, ivs, ovs, mb, me,
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234 rio, iio, plnr))
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235 return 0;
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236 } else {
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237 if (!applicable0(ego,
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238 r, irs, ors, m, ms, v, ivs, ovs, mb, me,
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239 rio, iio, plnr, extra_iter))
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240 return 0;
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241 }
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242
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243 if (NO_UGLYP(plnr) && X(ct_uglyp)((ego->bufferedp? (INT)512 : (INT)16),
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244 v, m * r, r))
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245 return 0;
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246
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247 if (m * r > 262144 && NO_FIXED_RADIX_LARGE_NP(plnr))
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248 return 0;
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249
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250 return 1;
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251 }
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252
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253 static plan *mkcldw(const ct_solver *ego_,
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254 INT r, INT irs, INT ors,
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255 INT m, INT ms,
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256 INT v, INT ivs, INT ovs,
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257 INT mstart, INT mcount,
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258 R *rio, R *iio,
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259 planner *plnr)
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260 {
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261 const S *ego = (const S *) ego_;
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262 P *pln;
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263 const ct_desc *e = ego->desc;
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264 INT extra_iter;
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265
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266 static const plan_adt padt = {
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267 0, awake, print, destroy
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268 };
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269
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270 A(mstart >= 0 && mstart + mcount <= m);
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cannam@95
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271 if (!applicable(ego,
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272 r, irs, ors, m, ms, v, ivs, ovs, mstart, mstart + mcount,
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273 rio, iio, plnr, &extra_iter))
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cannam@95
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274 return (plan *)0;
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cannam@95
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275
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cannam@95
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276 if (ego->bufferedp) {
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cannam@95
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277 pln = MKPLAN_DFTW(P, &padt, apply_buf);
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cannam@95
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278 } else {
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279 pln = MKPLAN_DFTW(P, &padt, extra_iter ? apply_extra_iter : apply);
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280 }
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cannam@95
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281
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cannam@95
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282 pln->k = ego->k;
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cannam@95
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283 pln->rs = X(mkstride)(r, irs);
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cannam@95
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284 pln->td = 0;
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cannam@95
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285 pln->r = r;
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cannam@95
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286 pln->m = m;
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287 pln->ms = ms;
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288 pln->v = v;
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289 pln->vs = ivs;
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290 pln->mb = mstart;
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291 pln->me = mstart + mcount;
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cannam@95
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292 pln->slv = ego;
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cannam@95
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293 pln->brs = X(mkstride)(r, 2 * compute_batchsize(r));
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cannam@95
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294 pln->extra_iter = extra_iter;
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cannam@95
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295
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cannam@95
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296 X(ops_zero)(&pln->super.super.ops);
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cannam@95
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297 X(ops_madd2)(v * (mcount/e->genus->vl), &e->ops, &pln->super.super.ops);
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cannam@95
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298
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cannam@95
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299 if (ego->bufferedp) {
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cannam@95
|
300 /* 8 load/stores * N * V */
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cannam@95
|
301 pln->super.super.ops.other += 8 * r * mcount * v;
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cannam@95
|
302 }
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|
cannam@95
|
303
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cannam@95
|
304 pln->super.super.could_prune_now_p =
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cannam@95
|
305 (!ego->bufferedp && r >= 5 && r < 64 && m >= r);
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cannam@95
|
306 return &(pln->super.super);
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|
cannam@95
|
307 }
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|
cannam@95
|
308
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|
cannam@95
|
309 static void regone(planner *plnr, kdftw codelet,
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|
cannam@95
|
310 const ct_desc *desc, int dec, int bufferedp)
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|
cannam@95
|
311 {
|
|
cannam@95
|
312 S *slv = (S *)X(mksolver_ct)(sizeof(S), desc->radix, dec, mkcldw, 0);
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|
cannam@95
|
313 slv->k = codelet;
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|
cannam@95
|
314 slv->desc = desc;
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|
cannam@95
|
315 slv->bufferedp = bufferedp;
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|
cannam@95
|
316 REGISTER_SOLVER(plnr, &(slv->super.super));
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|
cannam@95
|
317 if (X(mksolver_ct_hook)) {
|
|
cannam@95
|
318 slv = (S *)X(mksolver_ct_hook)(sizeof(S), desc->radix,
|
|
cannam@95
|
319 dec, mkcldw, 0);
|
|
cannam@95
|
320 slv->k = codelet;
|
|
cannam@95
|
321 slv->desc = desc;
|
|
cannam@95
|
322 slv->bufferedp = bufferedp;
|
|
cannam@95
|
323 REGISTER_SOLVER(plnr, &(slv->super.super));
|
|
cannam@95
|
324 }
|
|
cannam@95
|
325 }
|
|
cannam@95
|
326
|
|
cannam@95
|
327 void X(regsolver_ct_directw)(planner *plnr, kdftw codelet,
|
|
cannam@95
|
328 const ct_desc *desc, int dec)
|
|
cannam@95
|
329 {
|
|
cannam@95
|
330 regone(plnr, codelet, desc, dec, /* bufferedp */ 0);
|
|
cannam@95
|
331 regone(plnr, codelet, desc, dec, /* bufferedp */ 1);
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|
cannam@95
|
332 }
|
