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1 (* Copyright (c) 2008, Adam Chlipala
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2 * All rights reserved.
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3 *
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4 * Redistribution and use in source and binary forms, with or without
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5 * modification, are permitted provided that the following conditions are met:
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6 *
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7 * - Redistributions of source code must retain the above copyright notice,
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8 * this list of conditions and the following disclaimer.
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9 * - Redistributions in binary form must reproduce the above copyright notice,
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10 * this list of conditions and the following disclaimer in the documentation
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11 * and/or other materials provided with the distribution.
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12 * - The names of contributors may not be used to endorse or promote products
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13 * derived from this software without specific prior written permission.
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14 *
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15 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
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16 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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17 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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18 * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
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19 * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
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20 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
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21 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
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22 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
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23 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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24 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
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25 * POSSIBILITY OF SUCH DAMAGE.
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26 *)
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27
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28 structure Corify :> CORIFY = struct
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29
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30 structure EM = ErrorMsg
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31 structure L = Expl
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32 structure L' = Core
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33
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34 structure IM = IntBinaryMap
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35 structure SM = BinaryMapFn(struct
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36 type ord_key = string
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37 val compare = String.compare
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38 end)
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39
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40 local
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41 val count = ref 0
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42 in
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43
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44 fun reset v = count := v
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45
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46 fun alloc () =
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47 let
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48 val r = !count
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49 in
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50 count := r + 1;
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51 r
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52 end
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53
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54 end
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55
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56 structure St : sig
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57 type t
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58
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59 val empty : t
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60
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61 val enter : t -> t
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62 val leave : t -> {outer : t, inner : t}
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63 val ffi : string -> L'.con SM.map -> t
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64
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65 datatype core_con =
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66 CNormal of int
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67 | CFfi of string
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68 val bindCon : t -> string -> int -> t * int
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69 val lookupConById : t -> int -> int option
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70 val lookupConByName : t -> string -> core_con
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71
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72 datatype core_val =
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73 ENormal of int
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74 | EFfi of string * L'.con
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75 val bindVal : t -> string -> int -> t * int
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76 val lookupValById : t -> int -> int option
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77 val lookupValByName : t -> string -> core_val
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78
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79 val bindStr : t -> string -> int -> t -> t
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80 val lookupStrById : t -> int -> t
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81 val lookupStrByName : string * t -> t
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82
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83 val bindFunctor : t -> string -> int -> int -> L.str -> t
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84 val lookupFunctorById : t -> int -> int * L.str
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85 val lookupFunctorByName : string * t -> int * L.str
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86 end = struct
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87
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88 datatype flattening =
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89 FNormal of {cons : int SM.map,
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90 vals : int SM.map,
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91 strs : flattening SM.map,
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92 funs : (int * L.str) SM.map}
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93 | FFfi of {mod : string,
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94 vals : L'.con SM.map}
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95
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96 type t = {
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97 cons : int IM.map,
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98 vals : int IM.map,
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99 strs : flattening IM.map,
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100 funs : (int * L.str) IM.map,
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101 current : flattening,
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102 nested : flattening list
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103 }
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104
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105 val empty = {
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106 cons = IM.empty,
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107 vals = IM.empty,
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108 strs = IM.empty,
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109 funs = IM.empty,
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110 current = FNormal { cons = SM.empty, vals = SM.empty, strs = SM.empty, funs = SM.empty },
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111 nested = []
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112 }
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113
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114 datatype core_con =
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115 CNormal of int
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116 | CFfi of string
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117
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118 datatype core_val =
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119 ENormal of int
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120 | EFfi of string * L'.con
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121
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122 fun bindCon {cons, vals, strs, funs, current, nested} s n =
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123 let
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124 val n' = alloc ()
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125
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126 val current =
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127 case current of
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128 FFfi _ => raise Fail "Binding inside FFfi"
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129 | FNormal {cons, vals, strs, funs} =>
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130 FNormal {cons = SM.insert (cons, s, n'),
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131 vals = vals,
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132 strs = strs,
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133 funs = funs}
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134 in
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135 ({cons = IM.insert (cons, n, n'),
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136 vals = vals,
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137 strs = strs,
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138 funs = funs,
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139 current = current,
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140 nested = nested},
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141 n')
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142 end
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143
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144 fun lookupConById ({cons, ...} : t) n = IM.find (cons, n)
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145
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146 fun lookupConByName ({current, ...} : t) x =
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147 case current of
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148 FFfi {mod = m, ...} => CFfi m
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149 | FNormal {cons, ...} =>
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150 case SM.find (cons, x) of
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151 NONE => raise Fail "Corify.St.lookupConByName"
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152 | SOME n => CNormal n
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153
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154 fun bindVal {cons, vals, strs, funs, current, nested} s n =
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155 let
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156 val n' = alloc ()
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157
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158 val current =
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159 case current of
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160 FFfi _ => raise Fail "Binding inside FFfi"
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161 | FNormal {cons, vals, strs, funs} =>
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162 FNormal {cons = cons,
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163 vals = SM.insert (vals, s, n'),
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164 strs = strs,
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165 funs = funs}
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166 in
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167 ({cons = cons,
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168 vals = IM.insert (vals, n, n'),
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169 strs = strs,
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170 funs = funs,
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171 current = current,
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172 nested = nested},
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173 n')
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174 end
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175
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176 fun lookupValById ({vals, ...} : t) n = IM.find (vals, n)
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177
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178 fun lookupValByName ({current, ...} : t) x =
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179 case current of
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180 FFfi {mod = m, vals, ...} =>
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181 (case SM.find (vals, x) of
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182 NONE => raise Fail "Corify.St.lookupValByName: no type for FFI val"
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183 | SOME t => EFfi (m, t))
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184 | FNormal {vals, ...} =>
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185 case SM.find (vals, x) of
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186 NONE => raise Fail "Corify.St.lookupValByName"
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187 | SOME n => ENormal n
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188
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189 fun enter {cons, vals, strs, funs, current, nested} =
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190 {cons = cons,
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191 vals = vals,
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192 strs = strs,
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193 funs = funs,
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194 current = FNormal {cons = SM.empty,
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195 vals = SM.empty,
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196 strs = SM.empty,
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197 funs = SM.empty},
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198 nested = current :: nested}
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199
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200 fun dummy f = {cons = IM.empty,
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201 vals = IM.empty,
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202 strs = IM.empty,
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203 funs = IM.empty,
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204 current = f,
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205 nested = []}
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206
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207 fun leave {cons, vals, strs, funs, current, nested = m1 :: rest} =
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208 {outer = {cons = cons,
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209 vals = vals,
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210 strs = strs,
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211 funs = funs,
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212 current = m1,
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213 nested = rest},
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214 inner = dummy current}
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215 | leave _ = raise Fail "Corify.St.leave"
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216
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217 fun ffi m vals = dummy (FFfi {mod = m, vals = vals})
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218
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219 fun bindStr ({cons, vals, strs, funs,
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220 current = FNormal {cons = mcons, vals = mvals, strs = mstrs, funs = mfuns}, nested} : t)
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221 x n ({current = f, ...} : t) =
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222 {cons = cons,
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223 vals = vals,
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224 strs = IM.insert (strs, n, f),
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225 funs = funs,
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226 current = FNormal {cons = mcons,
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227 vals = mvals,
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228 strs = SM.insert (mstrs, x, f),
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229 funs = mfuns},
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230 nested = nested}
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231 | bindStr _ _ _ _ = raise Fail "Corify.St.bindStr"
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232
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233 fun lookupStrById ({strs, ...} : t) n =
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234 case IM.find (strs, n) of
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235 NONE => raise Fail "Corify.St.lookupStrById"
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236 | SOME f => dummy f
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237
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238 fun lookupStrByName (m, {current = FNormal {strs, ...}, ...} : t) =
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239 (case SM.find (strs, m) of
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240 NONE => raise Fail "Corify.St.lookupStrByName"
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241 | SOME f => dummy f)
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242 | lookupStrByName _ = raise Fail "Corify.St.lookupStrByName"
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243
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244 fun bindFunctor ({cons, vals, strs, funs,
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245 current = FNormal {cons = mcons, vals = mvals, strs = mstrs, funs = mfuns}, nested} : t)
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246 x n na str =
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247 {cons = cons,
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248 vals = vals,
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249 strs = strs,
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250 funs = IM.insert (funs, n, (na, str)),
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251 current = FNormal {cons = mcons,
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252 vals = mvals,
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253 strs = mstrs,
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254 funs = SM.insert (mfuns, x, (na, str))},
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255 nested = nested}
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256 | bindFunctor _ _ _ _ _ = raise Fail "Corify.St.bindFunctor"
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257
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258 fun lookupFunctorById ({funs, ...} : t) n =
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259 case IM.find (funs, n) of
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260 NONE => raise Fail "Corify.St.lookupFunctorById"
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261 | SOME v => v
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262
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263 fun lookupFunctorByName (m, {current = FNormal {funs, ...}, ...} : t) =
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264 (case SM.find (funs, m) of
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265 NONE => raise Fail "Corify.St.lookupFunctorByName"
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266 | SOME v => v)
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267 | lookupFunctorByName _ = raise Fail "Corify.St.lookupFunctorByName"
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268
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269 end
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270
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271
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272 fun corifyKind (k, loc) =
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273 case k of
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274 L.KType => (L'.KType, loc)
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275 | L.KArrow (k1, k2) => (L'.KArrow (corifyKind k1, corifyKind k2), loc)
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276 | L.KName => (L'.KName, loc)
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277 | L.KRecord k => (L'.KRecord (corifyKind k), loc)
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278
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279 fun corifyCon st (c, loc) =
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280 case c of
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281 L.TFun (t1, t2) => (L'.TFun (corifyCon st t1, corifyCon st t2), loc)
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282 | L.TCFun (x, k, t) => (L'.TCFun (x, corifyKind k, corifyCon st t), loc)
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283 | L.TRecord c => (L'.TRecord (corifyCon st c), loc)
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284
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285 | L.CRel n => (L'.CRel n, loc)
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286 | L.CNamed n =>
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287 (case St.lookupConById st n of
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288 NONE => (L'.CNamed n, loc)
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289 | SOME n => (L'.CNamed n, loc))
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290 | L.CModProj (m, ms, x) =>
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291 let
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292 val st = St.lookupStrById st m
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293 val st = foldl St.lookupStrByName st ms
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294 in
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295 case St.lookupConByName st x of
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296 St.CNormal n => (L'.CNamed n, loc)
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297 | St.CFfi m => (L'.CFfi (m, x), loc)
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298 end
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299
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300 | L.CApp (c1, c2) => (L'.CApp (corifyCon st c1, corifyCon st c2), loc)
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301 | L.CAbs (x, k, c) => (L'.CAbs (x, corifyKind k, corifyCon st c), loc)
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302
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303 | L.CName s => (L'.CName s, loc)
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304
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305 | L.CRecord (k, xcs) =>
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306 (L'.CRecord (corifyKind k, map (fn (c1, c2) => (corifyCon st c1, corifyCon st c2)) xcs), loc)
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307 | L.CConcat (c1, c2) => (L'.CConcat (corifyCon st c1, corifyCon st c2), loc)
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308 | L.CFold (k1, k2) => (L'.CFold (corifyKind k1, corifyKind k2), loc)
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309
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310 fun corifyExp st (e, loc) =
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311 case e of
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312 L.EPrim p => (L'.EPrim p, loc)
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313 | L.ERel n => (L'.ERel n, loc)
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314 | L.ENamed n =>
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315 (case St.lookupValById st n of
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316 NONE => (L'.ENamed n, loc)
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317 | SOME n => (L'.ENamed n, loc))
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318 | L.EModProj (m, ms, x) =>
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319 let
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320 val st = St.lookupStrById st m
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321 val st = foldl St.lookupStrByName st ms
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322 in
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323 case St.lookupValByName st x of
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324 St.ENormal n => (L'.ENamed n, loc)
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325 | St.EFfi (m, t) =>
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326 case t of
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327 (L'.TFun (dom as (L'.TRecord (L'.CRecord (_, []), _), _), ran), _) =>
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328 (L'.EAbs ("arg", dom, ran, (L'.EFfiApp (m, x, []), loc)), loc)
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329 | t as (L'.TFun _, _) =>
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330 let
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331 fun getArgs (all as (t, _), args) =
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332 case t of
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333 L'.TFun (dom, ran) => getArgs (ran, dom :: args)
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334 | _ => (all, rev args)
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335
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336 val (result, args) = getArgs (t, [])
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337
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338 val (actuals, _) = foldr (fn (_, (actuals, n)) =>
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339 ((L'.ERel n, loc) :: actuals,
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340 n + 1)) ([], 0) args
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341 val app = (L'.EFfiApp (m, x, actuals), loc)
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adamc@49
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342 val (abs, _, _) = foldr (fn (t, (abs, ran, n)) =>
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adamc@49
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343 ((L'.EAbs ("arg" ^ Int.toString n,
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adamc@49
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344 t,
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adamc@49
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345 ran,
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adamc@49
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346 abs), loc),
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adamc@49
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347 (L'.TFun (t, ran), loc),
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adamc@49
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348 n - 1)) (app, result, length args - 1) args
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adamc@49
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349 in
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adamc@49
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350 abs
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adamc@49
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351 end
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adamc@49
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352 | _ => (L'.EFfi (m, x), loc)
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adamc@39
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353 end
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adamc@39
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354 | L.EApp (e1, e2) => (L'.EApp (corifyExp st e1, corifyExp st e2), loc)
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adamc@39
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355 | L.EAbs (x, dom, ran, e1) => (L'.EAbs (x, corifyCon st dom, corifyCon st ran, corifyExp st e1), loc)
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adamc@39
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356 | L.ECApp (e1, c) => (L'.ECApp (corifyExp st e1, corifyCon st c), loc)
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adamc@39
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357 | L.ECAbs (x, k, e1) => (L'.ECAbs (x, corifyKind k, corifyExp st e1), loc)
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adamc@16
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358
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adamc@39
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359 | L.ERecord xes => (L'.ERecord (map (fn (c, e, t) => (corifyCon st c, corifyExp st e, corifyCon st t)) xes), loc)
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adamc@39
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360 | L.EField (e1, c, {field, rest}) => (L'.EField (corifyExp st e1, corifyCon st c,
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adamc@39
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361 {field = corifyCon st field, rest = corifyCon st rest}), loc)
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adamc@73
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362 | L.EFold k => (L'.EFold (corifyKind k), loc)
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adamc@16
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363
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adamc@39
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364 fun corifyDecl ((d, loc : EM.span), st) =
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adamc@39
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365 case d of
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adamc@39
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366 L.DCon (x, n, k, c) =>
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adamc@39
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367 let
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adamc@73
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368 val (st, n) = St.bindCon st x n
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adamc@39
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369 in
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adamc@39
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370 ([(L'.DCon (x, n, corifyKind k, corifyCon st c), loc)], st)
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adamc@39
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371 end
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adamc@39
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372 | L.DVal (x, n, t, e) =>
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adamc@39
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373 let
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adamc@73
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374 val (st, n) = St.bindVal st x n
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adamc@39
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375 in
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adamc@39
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376 ([(L'.DVal (x, n, corifyCon st t, corifyExp st e), loc)], st)
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adamc@39
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377 end
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adamc@39
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378
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adamc@39
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379 | L.DSgn _ => ([], st)
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adamc@16
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380
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adamc@46
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381 | L.DStr (x, n, _, (L.StrFun (_, na, _, _, str), _)) =>
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adamc@46
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382 ([], St.bindFunctor st x n na str)
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adamc@46
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383
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adamc@39
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384 | L.DStr (x, n, _, str) =>
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adamc@39
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385 let
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adamc@39
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386 val (ds, {inner, outer}) = corifyStr (str, st)
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adamc@39
|
387 val st = St.bindStr outer x n inner
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adamc@39
|
388 in
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adamc@39
|
389 (ds, st)
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adamc@39
|
390 end
|
adamc@16
|
391
|
adamc@49
|
392 | L.DFfiStr (m, n, (sgn, _)) =>
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adamc@49
|
393 (case sgn of
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adamc@49
|
394 L.SgnConst sgis =>
|
adamc@49
|
395 let
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adamc@49
|
396 val (ds, cmap, st) =
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adamc@49
|
397 foldl (fn ((sgi, _), (ds, cmap, st)) =>
|
adamc@49
|
398 case sgi of
|
adamc@49
|
399 L.SgiConAbs (x, n, k) =>
|
adamc@49
|
400 let
|
adamc@73
|
401 val (st, n') = St.bindCon st x n
|
adamc@49
|
402 in
|
adamc@49
|
403 ((L'.DCon (x, n', corifyKind k, (L'.CFfi (m, x), loc)), loc) :: ds,
|
adamc@49
|
404 cmap,
|
adamc@49
|
405 st)
|
adamc@49
|
406 end
|
adamc@49
|
407 | L.SgiCon (x, n, k, _) =>
|
adamc@49
|
408 let
|
adamc@73
|
409 val (st, n') = St.bindCon st x n
|
adamc@49
|
410 in
|
adamc@49
|
411 ((L'.DCon (x, n', corifyKind k, (L'.CFfi (m, x), loc)), loc) :: ds,
|
adamc@49
|
412 cmap,
|
adamc@49
|
413 st)
|
adamc@49
|
414 end
|
adamc@49
|
415
|
adamc@49
|
416 | L.SgiVal (x, _, c) =>
|
adamc@49
|
417 (ds,
|
adamc@49
|
418 SM.insert (cmap, x, corifyCon st c),
|
adamc@49
|
419 st)
|
adamc@49
|
420 | _ => (ds, cmap, st)) ([], SM.empty, st) sgis
|
adamc@49
|
421
|
adamc@49
|
422 val st = St.bindStr st m n (St.ffi m cmap)
|
adamc@49
|
423 in
|
adamc@49
|
424 (rev ds, st)
|
adamc@49
|
425 end
|
adamc@49
|
426 | _ => raise Fail "Non-const signature for FFI structure")
|
adamc@48
|
427
|
adamc@48
|
428
|
adamc@39
|
429 and corifyStr ((str, _), st) =
|
adamc@39
|
430 case str of
|
adamc@39
|
431 L.StrConst ds =>
|
adamc@39
|
432 let
|
adamc@39
|
433 val st = St.enter st
|
adamc@39
|
434 val (ds, st) = ListUtil.foldlMapConcat corifyDecl st ds
|
adamc@39
|
435 in
|
adamc@39
|
436 (ds, St.leave st)
|
adamc@39
|
437 end
|
adamc@39
|
438 | L.StrVar n => ([], {inner = St.lookupStrById st n, outer = st})
|
adamc@39
|
439 | L.StrProj (str, x) =>
|
adamc@39
|
440 let
|
adamc@39
|
441 val (ds, {inner, outer}) = corifyStr (str, st)
|
adamc@39
|
442 in
|
adamc@39
|
443 (ds, {inner = St.lookupStrByName (x, inner), outer = outer})
|
adamc@39
|
444 end
|
adamc@46
|
445 | L.StrFun _ => raise Fail "Corify of nested functor definition"
|
adamc@46
|
446 | L.StrApp (str1, str2) =>
|
adamc@46
|
447 let
|
adamc@46
|
448 fun unwind' (str, _) =
|
adamc@46
|
449 case str of
|
adamc@46
|
450 L.StrVar n => St.lookupStrById st n
|
adamc@46
|
451 | L.StrProj (str, x) => St.lookupStrByName (x, unwind' str)
|
adamc@46
|
452 | _ => raise Fail "Corify of fancy functor application [1]"
|
adamc@46
|
453
|
adamc@46
|
454 fun unwind (str, _) =
|
adamc@46
|
455 case str of
|
adamc@46
|
456 L.StrVar n => St.lookupFunctorById st n
|
adamc@46
|
457 | L.StrProj (str, x) => St.lookupFunctorByName (x, unwind' str)
|
adamc@46
|
458 | _ => raise Fail "Corify of fancy functor application [2]"
|
adamc@46
|
459
|
adamc@46
|
460 val (na, body) = unwind str1
|
adamc@46
|
461
|
adamc@46
|
462 val (ds1, {inner, outer}) = corifyStr (str2, st)
|
adamc@46
|
463 val (ds2, sts) = corifyStr (body, St.bindStr outer "ARG" na inner)
|
adamc@46
|
464 in
|
adamc@46
|
465 (ds1 @ ds2, sts)
|
adamc@46
|
466 end
|
adamc@31
|
467
|
adamc@39
|
468 fun maxName ds = foldl (fn ((d, _), n) =>
|
adamc@39
|
469 case d of
|
adamc@39
|
470 L.DCon (_, n', _, _) => Int.max (n, n')
|
adamc@39
|
471 | L.DVal (_, n', _ , _) => Int.max (n, n')
|
adamc@39
|
472 | L.DSgn (_, n', _) => Int.max (n, n')
|
adamc@48
|
473 | L.DStr (_, n', _, str) => Int.max (n, Int.max (n', maxNameStr str))
|
adamc@48
|
474 | L.DFfiStr (_, n', _) => Int.max (n, n'))
|
adamc@39
|
475 0 ds
|
adamc@39
|
476
|
adamc@39
|
477 and maxNameStr (str, _) =
|
adamc@39
|
478 case str of
|
adamc@39
|
479 L.StrConst ds => maxName ds
|
adamc@39
|
480 | L.StrVar n => n
|
adamc@39
|
481 | L.StrProj (str, _) => maxNameStr str
|
adamc@45
|
482 | L.StrFun (_, _, _, _, str) => maxNameStr str
|
adamc@45
|
483 | L.StrApp (str1, str2) => Int.max (maxNameStr str1, maxNameStr str2)
|
adamc@39
|
484
|
adamc@39
|
485 fun corify ds =
|
adamc@39
|
486 let
|
adamc@39
|
487 val () = reset (maxName ds + 1)
|
adamc@39
|
488 val (ds, _) = ListUtil.foldlMapConcat corifyDecl St.empty ds
|
adamc@39
|
489 in
|
adamc@39
|
490 ds
|
adamc@39
|
491 end
|
adamc@16
|
492
|
adamc@16
|
493 end
|