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1 (*
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2 * Copyright (c) 1997-1999 Massachusetts Institute of Technology
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3 * Copyright (c) 2003, 2007-14 Matteo Frigo
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4 * Copyright (c) 2003, 2007-14 Massachusetts Institute of Technology
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5 *
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6 * This program is free software; you can redistribute it and/or modify
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7 * it under the terms of the GNU General Public License as published by
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8 * the Free Software Foundation; either version 2 of the License, or
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9 * (at your option) any later version.
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10 *
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11 * This program is distributed in the hope that it will be useful,
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12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
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13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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14 * GNU General Public License for more details.
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15 *
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16 * You should have received a copy of the GNU General Public License
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17 * along with this program; if not, write to the Free Software
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18 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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19 *
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20 *)
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21
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22 (* generation of trigonometric transforms *)
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23
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24 open Util
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25 open Genutil
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26 open C
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27
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28
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29 let usage = "Usage: " ^ Sys.argv.(0) ^ " -n <number>"
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30
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31 let uistride = ref Stride_variable
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32 let uostride = ref Stride_variable
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33 let uivstride = ref Stride_variable
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34 let uovstride = ref Stride_variable
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35
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36 type mode =
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37 | RDFT
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38 | HDFT
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39 | DHT
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40 | REDFT00
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41 | REDFT10
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42 | REDFT01
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43 | REDFT11
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44 | RODFT00
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45 | RODFT10
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46 | RODFT01
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47 | RODFT11
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48 | NONE
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49
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50 let mode = ref NONE
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51 let normsqr = ref 1
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52 let unitary = ref false
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53 let noloop = ref false
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54
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55 let speclist = [
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56 "-with-istride",
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57 Arg.String(fun x -> uistride := arg_to_stride x),
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58 " specialize for given input stride";
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59
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60 "-with-ostride",
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61 Arg.String(fun x -> uostride := arg_to_stride x),
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62 " specialize for given output stride";
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63
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64 "-with-ivstride",
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65 Arg.String(fun x -> uivstride := arg_to_stride x),
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66 " specialize for given input vector stride";
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67
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68 "-with-ovstride",
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69 Arg.String(fun x -> uovstride := arg_to_stride x),
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70 " specialize for given output vector stride";
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71
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72 "-rdft",
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73 Arg.Unit(fun () -> mode := RDFT),
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74 " generate a real DFT codelet";
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75
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76 "-hdft",
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77 Arg.Unit(fun () -> mode := HDFT),
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78 " generate a Hermitian DFT codelet";
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79
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80 "-dht",
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81 Arg.Unit(fun () -> mode := DHT),
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82 " generate a DHT codelet";
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83
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84 "-redft00",
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85 Arg.Unit(fun () -> mode := REDFT00),
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86 " generate a DCT-I codelet";
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87
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88 "-redft10",
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89 Arg.Unit(fun () -> mode := REDFT10),
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90 " generate a DCT-II codelet";
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91
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92 "-redft01",
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93 Arg.Unit(fun () -> mode := REDFT01),
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94 " generate a DCT-III codelet";
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95
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96 "-redft11",
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97 Arg.Unit(fun () -> mode := REDFT11),
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98 " generate a DCT-IV codelet";
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99
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100 "-rodft00",
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101 Arg.Unit(fun () -> mode := RODFT00),
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102 " generate a DST-I codelet";
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103
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104 "-rodft10",
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105 Arg.Unit(fun () -> mode := RODFT10),
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106 " generate a DST-II codelet";
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107
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108 "-rodft01",
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109 Arg.Unit(fun () -> mode := RODFT01),
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110 " generate a DST-III codelet";
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111
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112 "-rodft11",
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113 Arg.Unit(fun () -> mode := RODFT11),
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114 " generate a DST-IV codelet";
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115
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116 "-normalization",
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117 Arg.String(fun x -> let ix = int_of_string x in normsqr := ix * ix),
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118 " normalization integer to divide by";
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119
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120 "-normsqr",
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121 Arg.String(fun x -> normsqr := int_of_string x),
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122 " integer square of normalization to divide by";
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123
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124 "-unitary",
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125 Arg.Unit(fun () -> unitary := true),
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126 " unitary normalization (up overall scale factor)";
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127
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128 "-noloop",
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129 Arg.Unit(fun () -> noloop := true),
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130 " no vector loop";
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131 ]
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132
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133 let sqrt_half = Complex.inverse_int_sqrt 2
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134 let sqrt_two = Complex.int_sqrt 2
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135
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136 let rescale sc s1 s2 input i =
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137 if ((i == s1 || i == s2) && !unitary) then
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138 Complex.times (input i) sc
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139 else
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140 input i
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141
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142 let generate n mode =
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143 let iarray = "I"
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144 and oarray = "O"
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145 and istride = "is"
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146 and ostride = "os"
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147 and i = "i"
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148 and v = "v"
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149 in
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150
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151 let sign = !Genutil.sign
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152 and name = !Magic.codelet_name in
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153
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154 let vistride = either_stride (!uistride) (C.SVar istride)
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155 and vostride = either_stride (!uostride) (C.SVar ostride)
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156 in
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157
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158 let sovs = stride_to_string "ovs" !uovstride in
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159 let sivs = stride_to_string "ivs" !uivstride in
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160
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161 let (transform, load_input, store_output, si1,si2,so1,so2) = match mode with
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162 | RDFT -> Trig.rdft sign, load_array_r, store_array_hc, -1,-1,-1,-1
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163 | HDFT -> Trig.hdft sign, load_array_c, store_array_r, -1,-1,-1,-1 (* TODO *)
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164 | DHT -> Trig.dht 1, load_array_r, store_array_r, -1,-1,-1,-1
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165 | REDFT00 -> Trig.dctI, load_array_r, store_array_r, 0,n-1,0,n-1
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166 | REDFT10 -> Trig.dctII, load_array_r, store_array_r, -1,-1,0,-1
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167 | REDFT01 -> Trig.dctIII, load_array_r, store_array_r, 0,-1,-1,-1
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168 | REDFT11 -> Trig.dctIV, load_array_r, store_array_r, -1,-1,-1,-1
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169 | RODFT00 -> Trig.dstI, load_array_r, store_array_r, -1,-1,-1,-1
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170 | RODFT10 -> Trig.dstII, load_array_r, store_array_r, -1,-1,n-1,-1
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171 | RODFT01 -> Trig.dstIII, load_array_r, store_array_r, n-1,-1,-1,-1
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172 | RODFT11 -> Trig.dstIV, load_array_r, store_array_r, -1,-1,-1,-1
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173 | _ -> failwith "must specify transform kind"
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174 in
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175
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176 let locations = unique_array_c n in
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177 let input = locative_array_c n
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178 (C.array_subscript iarray vistride)
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179 (C.array_subscript "BUG" vistride)
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180 locations sivs in
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181 let output = rescale sqrt_half so1 so2
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182 ((Complex.times (Complex.inverse_int_sqrt !normsqr))
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183 @@ (transform n (rescale sqrt_two si1 si2 (load_array_c n input)))) in
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184 let oloc =
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185 locative_array_c n
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186 (C.array_subscript oarray vostride)
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187 (C.array_subscript "BUG" vostride)
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188 locations sovs in
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189 let odag = store_output n oloc output in
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190 let annot = standard_optimizer odag in
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191
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192 let body = if !noloop then Block([], [Asch annot]) else Block (
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193 [Decl ("INT", i)],
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194 [For (Expr_assign (CVar i, CVar v),
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195 Binop (" > ", CVar i, Integer 0),
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196 list_to_comma
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197 [Expr_assign (CVar i, CPlus [CVar i; CUminus (Integer 1)]);
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198 Expr_assign (CVar iarray, CPlus [CVar iarray; CVar sivs]);
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199 Expr_assign (CVar oarray, CPlus [CVar oarray; CVar sovs]);
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200 make_volatile_stride (2*n) (CVar istride);
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201 make_volatile_stride (2*n) (CVar ostride)
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202 ],
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203 Asch annot)
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204 ])
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205 in
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206
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207 let tree =
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208 Fcn ((if !Magic.standalone then "void" else "static void"), name,
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209 ([Decl (C.constrealtypep, iarray);
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210 Decl (C.realtypep, oarray)]
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211 @ (if stride_fixed !uistride then []
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212 else [Decl (C.stridetype, istride)])
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213 @ (if stride_fixed !uostride then []
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214 else [Decl (C.stridetype, ostride)])
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215 @ (if !noloop then [] else
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216 [Decl ("INT", v)]
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217 @ (if stride_fixed !uivstride then []
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218 else [Decl ("INT", "ivs")])
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219 @ (if stride_fixed !uovstride then []
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220 else [Decl ("INT", "ovs")]))),
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221 finalize_fcn body)
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222
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223 in let desc =
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224 Printf.sprintf
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225 "static const kr2r_desc desc = { %d, \"%s\", %s, &GENUS, %s };\n\n"
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226 n name (flops_of tree)
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227 (match mode with
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228 | RDFT -> "RDFT00"
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229 | HDFT -> "HDFT00"
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230 | DHT -> "DHT"
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231 | REDFT00 -> "REDFT00"
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232 | REDFT10 -> "REDFT10"
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233 | REDFT01 -> "REDFT01"
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234 | REDFT11 -> "REDFT11"
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235 | RODFT00 -> "RODFT00"
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236 | RODFT10 -> "RODFT10"
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237 | RODFT01 -> "RODFT01"
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238 | RODFT11 -> "RODFT11"
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239 | _ -> failwith "must specify a transform kind")
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240
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241 and init =
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242 (declare_register_fcn name) ^
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243 "{" ^
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244 " X(kr2r_register)(p, " ^ name ^ ", &desc);\n" ^
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245 "}\n"
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246
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247 in
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248 (unparse tree) ^ "\n" ^ (if !Magic.standalone then "" else desc ^ init)
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249
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250
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251 let main () =
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252 begin
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253 parse speclist usage;
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254 print_string (generate (check_size ()) !mode);
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255 end
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256
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257 let _ = main()
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