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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, 2007-11 Matteo Frigo
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4 * Copyright (c) 2003, 2007-11 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 open Expr
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23 open List
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24 open Printf
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25 open Variable
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26 open Annotate
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27 open Simdmagic
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28 open C
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29
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30 let realtype = "V"
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31 let realtypep = realtype ^ " *"
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32 let constrealtype = "const " ^ realtype
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33 let constrealtypep = constrealtype ^ " *"
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34 let alignment_mod = 2
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35
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36 (*
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37 * SIMD C AST unparser
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38 *)
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39 let foldr_string_concat l = fold_right (^) l ""
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40
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41 let rec unparse_by_twiddle nam tw src =
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42 sprintf "%s(&(%s),%s)" nam (Variable.unparse tw) (unparse_expr src)
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43
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44 and unparse_store dst = function
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45 | Times (NaN MULTI_A, x) ->
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46 sprintf "STM%d(&(%s),%s,%s,&(%s));\n"
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47 !Simdmagic.store_multiple
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48 (Variable.unparse dst) (unparse_expr x)
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49 (Variable.vstride_of_locative dst)
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50 (Variable.unparse_for_alignment alignment_mod dst)
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51 | Times (NaN MULTI_B, Plus stuff) ->
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52 sprintf "STN%d(&(%s)%s,%s);\n"
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53 !Simdmagic.store_multiple
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54 (Variable.unparse dst)
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55 (List.fold_right (fun x a -> "," ^ (unparse_expr x) ^ a) stuff "")
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56 (Variable.vstride_of_locative dst)
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57 | src_expr ->
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58 sprintf "ST(&(%s),%s,%s,&(%s));\n"
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59 (Variable.unparse dst) (unparse_expr src_expr)
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60 (Variable.vstride_of_locative dst)
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61 (Variable.unparse_for_alignment alignment_mod dst)
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62
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63 and unparse_expr =
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64 let rec unparse_plus = function
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65 | [a] -> unparse_expr a
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66
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67 | (Uminus (Times (NaN I, b))) :: c :: d -> op2 "VFNMSI" [b] (c :: d)
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68 | c :: (Uminus (Times (NaN I, b))) :: d -> op2 "VFNMSI" [b] (c :: d)
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69 | (Uminus (Times (NaN CONJ, b))) :: c :: d -> op2 "VFNMSCONJ" [b] (c :: d)
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70 | c :: (Uminus (Times (NaN CONJ, b))) :: d -> op2 "VFNMSCONJ" [b] (c :: d)
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71 | (Times (NaN I, b)) :: c :: d -> op2 "VFMAI" [b] (c :: d)
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72 | c :: (Times (NaN I, b)) :: d -> op2 "VFMAI" [b] (c :: d)
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73 | (Times (NaN CONJ, b)) :: (Uminus c) :: d -> op2 "VFMSCONJ" [b] (c :: d)
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74 | (Uminus c) :: (Times (NaN CONJ, b)) :: d -> op2 "VFMSCONJ" [b] (c :: d)
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75 | (Times (NaN CONJ, b)) :: c :: d -> op2 "VFMACONJ" [b] (c :: d)
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76 | c :: (Times (NaN CONJ, b)) :: d -> op2 "VFMACONJ" [b] (c :: d)
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77 | (Times (NaN _, b)) :: (Uminus c) :: d -> failwith "VFMS NaN"
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78 | (Uminus c) :: (Times (NaN _, b)) :: d -> failwith "VFMS NaN"
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79
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80 | (Uminus (Times (a, b))) :: c :: d -> op3 "VFNMS" a b (c :: d)
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81 | c :: (Uminus (Times (a, b))) :: d -> op3 "VFNMS" a b (c :: d)
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82 | (Times (a, b)) :: (Uminus c) :: d -> op3 "VFMS" a b (c :: negate d)
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83 | (Uminus c) :: (Times (a, b)) :: d -> op3 "VFMS" a b (c :: negate d)
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84 | (Times (a, b)) :: c :: d -> op3 "VFMA" a b (c :: d)
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85 | c :: (Times (a, b)) :: d -> op3 "VFMA" a b (c :: d)
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86
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87 | (Uminus a :: b) -> op2 "VSUB" b [a]
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88 | (b :: Uminus a :: c) -> op2 "VSUB" (b :: c) [a]
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89 | (a :: b) -> op2 "VADD" [a] b
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90 | [] -> failwith "unparse_plus"
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91 and op3 nam a b c =
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92 nam ^ "(" ^ (unparse_expr a) ^ ", " ^ (unparse_expr b) ^ ", " ^
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93 (unparse_plus c) ^ ")"
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94 and op2 nam a b =
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95 nam ^ "(" ^ (unparse_plus a) ^ ", " ^ (unparse_plus b) ^ ")"
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96 and op1 nam a =
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97 nam ^ "(" ^ (unparse_expr a) ^ ")"
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98 and negate = function
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99 | [] -> []
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100 | (Uminus x) :: y -> x :: negate y
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101 | x :: y -> (Uminus x) :: negate y
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102
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103 in function
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104 | CTimes(Load tw, src)
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105 when Variable.is_constant tw && !Magic.generate_bytw ->
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106 unparse_by_twiddle "BYTW" tw src
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107 | CTimesJ(Load tw, src)
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108 when Variable.is_constant tw && !Magic.generate_bytw ->
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109 unparse_by_twiddle "BYTWJ" tw src
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110 | Load v when is_locative(v) ->
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111 sprintf "LD(&(%s), %s, &(%s))" (Variable.unparse v)
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112 (Variable.vstride_of_locative v)
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113 (Variable.unparse_for_alignment alignment_mod v)
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114 | Load v when is_constant(v) -> sprintf "LDW(&(%s))" (Variable.unparse v)
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115 | Load v -> Variable.unparse v
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116 | Num n -> sprintf "LDK(%s)" (Number.to_konst n)
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117 | NaN n -> failwith "NaN in unparse_expr"
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118 | Plus [] -> "0.0 /* bug */"
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119 | Plus [a] -> " /* bug */ " ^ (unparse_expr a)
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120 | Plus a -> unparse_plus a
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121 | Times(NaN I,b) -> op1 "VBYI" b
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122 | Times(NaN CONJ,b) -> op1 "VCONJ" b
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123 | Times(a,b) ->
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124 sprintf "VMUL(%s, %s)" (unparse_expr a) (unparse_expr b)
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125 | CTimes(a,Times(NaN I, b)) ->
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126 sprintf "VZMULI(%s, %s)" (unparse_expr a) (unparse_expr b)
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127 | CTimes(a,b) ->
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128 sprintf "VZMUL(%s, %s)" (unparse_expr a) (unparse_expr b)
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129 | CTimesJ(a,Times(NaN I, b)) ->
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130 sprintf "VZMULIJ(%s, %s)" (unparse_expr a) (unparse_expr b)
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131 | CTimesJ(a,b) ->
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132 sprintf "VZMULJ(%s, %s)" (unparse_expr a) (unparse_expr b)
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133 | Uminus a when !Magic.vneg -> op1 "VNEG" a
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134 | Uminus a -> failwith "SIMD Uminus"
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135 | _ -> failwith "unparse_expr"
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136
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137 and unparse_decl x = C.unparse_decl x
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138
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139 and unparse_ast ast =
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140 let rec unparse_assignment = function
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141 | Assign (v, x) when Variable.is_locative v ->
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142 unparse_store v x
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143 | Assign (v, x) ->
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144 (Variable.unparse v) ^ " = " ^ (unparse_expr x) ^ ";\n"
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145
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146 and unparse_annotated force_bracket =
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147 let rec unparse_code = function
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148 | ADone -> ""
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149 | AInstr i -> unparse_assignment i
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150 | ASeq (a, b) ->
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151 (unparse_annotated false a) ^ (unparse_annotated false b)
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152 and declare_variables l =
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153 let rec uvar = function
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154 [] -> failwith "uvar"
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155 | [v] -> (Variable.unparse v) ^ ";\n"
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156 | a :: b -> (Variable.unparse a) ^ ", " ^ (uvar b)
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157 in let rec vvar l =
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158 let s = if !Magic.compact then 15 else 1 in
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159 if (List.length l <= s) then
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160 match l with
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161 [] -> ""
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162 | _ -> realtype ^ " " ^ (uvar l)
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163 else
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164 (vvar (Util.take s l)) ^ (vvar (Util.drop s l))
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165 in vvar (List.filter Variable.is_temporary l)
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166 in function
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167 Annotate (_, _, decl, _, code) ->
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168 if (not force_bracket) && (Util.null decl) then
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169 unparse_code code
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170 else "{\n" ^
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171 (declare_variables decl) ^
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172 (unparse_code code) ^
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173 "}\n"
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174
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175 (* ---- *)
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176 and unparse_plus = function
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177 | [] -> ""
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178 | (CUminus a :: b) -> " - " ^ (parenthesize a) ^ (unparse_plus b)
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179 | (a :: b) -> " + " ^ (parenthesize a) ^ (unparse_plus b)
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180 and parenthesize x = match x with
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181 | (CVar _) -> unparse_ast x
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182 | (CCall _) -> unparse_ast x
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183 | (Integer _) -> unparse_ast x
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184 | _ -> "(" ^ (unparse_ast x) ^ ")"
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185
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186 in match ast with
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187 | Asch a -> (unparse_annotated true a)
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188 | Return x -> "return " ^ unparse_ast x ^ ";"
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189 | Simd_leavefun -> "VLEAVE();"
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190 | For (a, b, c, d) ->
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191 "for (" ^
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192 unparse_ast a ^ "; " ^ unparse_ast b ^ "; " ^ unparse_ast c
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193 ^ ")" ^ unparse_ast d
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194 | If (a, d) ->
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195 "if (" ^
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196 unparse_ast a
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197 ^ ")" ^ unparse_ast d
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198 | Block (d, s) ->
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199 if (s == []) then ""
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200 else
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201 "{\n" ^
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202 foldr_string_concat (map unparse_decl d) ^
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203 foldr_string_concat (map unparse_ast s) ^
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204 "}\n"
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205 | x -> C.unparse_ast x
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206
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207 and unparse_function = function
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208 Fcn (typ, name, args, body) ->
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209 let rec unparse_args = function
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210 [Decl (a, b)] -> a ^ " " ^ b
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211 | (Decl (a, b)) :: s -> a ^ " " ^ b ^ ", "
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212 ^ unparse_args s
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213 | [] -> ""
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214 | _ -> failwith "unparse_function"
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215 in
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216 (typ ^ " " ^ name ^ "(" ^ unparse_args args ^ ")\n" ^
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217 unparse_ast body)
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218
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219 let extract_constants f =
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220 let constlist = flatten (map expr_to_constants (C.ast_to_expr_list f))
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221 in map
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222 (fun n ->
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223 Tdecl
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224 ("DVK(" ^ (Number.to_konst n) ^ ", " ^ (Number.to_string n) ^
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225 ");\n"))
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226 (unique_constants constlist)
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