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adamc@2
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1 (* Copyright (c) 2008, Adam Chlipala
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adamc@2
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2 * All rights reserved.
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adamc@2
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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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adamc@2
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8 * this list of conditions and the following disclaimer.
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adamc@2
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9 * - Redistributions in binary form must reproduce the above copyright notice,
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adamc@2
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10 * this list of conditions and the following disclaimer in the documentation
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adamc@2
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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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adamc@2
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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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adamc@2
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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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adamc@2
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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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adamc@2
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26 *)
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27
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28 structure ElabUtil :> ELAB_UTIL = struct
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29
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30 open Elab
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31
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32 structure S = Search
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33
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34 structure Kind = struct
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35
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36 fun mapfold f =
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37 let
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38 fun mfk k acc =
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39 S.bindP (mfk' k acc, f)
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40
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41 and mfk' (kAll as (k, loc)) =
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42 case k of
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43 KType => S.return2 kAll
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44
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45 | KArrow (k1, k2) =>
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46 S.bind2 (mfk k1,
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47 fn k1' =>
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48 S.map2 (mfk k2,
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49 fn k2' =>
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50 (KArrow (k1', k2'), loc)))
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51
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52 | KName => S.return2 kAll
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53
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54 | KRecord k =>
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55 S.map2 (mfk k,
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56 fn k' =>
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57 (KRecord k', loc))
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58
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59 | KError => S.return2 kAll
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60
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61 | KUnif (_, ref (SOME k)) => mfk' k
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62 | KUnif _ => S.return2 kAll
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63 in
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64 mfk
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65 end
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66
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67 fun exists f k =
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68 case mapfold (fn k => fn () =>
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69 if f k then
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70 S.Return ()
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71 else
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72 S.Continue (k, ())) k () of
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73 S.Return _ => true
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74 | S.Continue _ => false
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75
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76 end
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77
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78 structure Con = struct
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79
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80 datatype binder =
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81 Rel of string * Elab.kind
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82 | Named of string * Elab.kind
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83
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84 fun mapfoldB {kind = fk, con = fc, bind} =
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85 let
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86 val mfk = Kind.mapfold fk
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87
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88 fun mfc ctx c acc =
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89 S.bindP (mfc' ctx c acc, fc ctx)
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90
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91 and mfc' ctx (cAll as (c, loc)) =
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92 case c of
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93 TFun (c1, c2) =>
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94 S.bind2 (mfc ctx c1,
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95 fn c1' =>
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96 S.map2 (mfc ctx c2,
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97 fn c2' =>
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98 (TFun (c1', c2'), loc)))
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99 | TCFun (e, x, k, c) =>
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100 S.bind2 (mfk k,
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101 fn k' =>
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102 S.map2 (mfc (bind (ctx, Rel (x, k))) c,
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103 fn c' =>
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104 (TCFun (e, x, k', c'), loc)))
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105 | TRecord c =>
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106 S.map2 (mfc ctx c,
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107 fn c' =>
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108 (TRecord c', loc))
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109
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110 | CRel _ => S.return2 cAll
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111 | CNamed _ => S.return2 cAll
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112 | CModProj _ => S.return2 cAll
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113 | CApp (c1, c2) =>
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114 S.bind2 (mfc ctx c1,
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115 fn c1' =>
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116 S.map2 (mfc ctx c2,
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117 fn c2' =>
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118 (CApp (c1', c2'), loc)))
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119 | CAbs (x, k, c) =>
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120 S.bind2 (mfk k,
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121 fn k' =>
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122 S.map2 (mfc (bind (ctx, Rel (x, k))) c,
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123 fn c' =>
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124 (CAbs (x, k', c'), loc)))
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125
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126 | CName _ => S.return2 cAll
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127
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128 | CRecord (k, xcs) =>
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129 S.bind2 (mfk k,
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130 fn k' =>
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131 S.map2 (ListUtil.mapfold (fn (x, c) =>
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132 S.bind2 (mfc ctx x,
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133 fn x' =>
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134 S.map2 (mfc ctx c,
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135 fn c' =>
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136 (x', c'))))
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137 xcs,
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138 fn xcs' =>
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139 (CRecord (k', xcs'), loc)))
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140 | CConcat (c1, c2) =>
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141 S.bind2 (mfc ctx c1,
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142 fn c1' =>
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143 S.map2 (mfc ctx c2,
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144 fn c2' =>
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145 (CConcat (c1', c2'), loc)))
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146
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147 | CError => S.return2 cAll
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148 | CUnif (_, _, ref (SOME c)) => mfc' ctx c
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149 | CUnif _ => S.return2 cAll
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150 in
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151 mfc
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152 end
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153
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adamc@11
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154 fun mapfold {kind = fk, con = fc} =
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155 mapfoldB {kind = fk,
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156 con = fn () => fc,
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157 bind = fn ((), _) => ()} ()
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158
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159 fun mapB {kind, con, bind} ctx c =
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160 case mapfoldB {kind = fn k => fn () => S.Continue (kind k, ()),
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161 con = fn ctx => fn c => fn () => S.Continue (con ctx c, ()),
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162 bind = bind} ctx c () of
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163 S.Continue (c, ()) => c
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164 | S.Return _ => raise Fail "ElabUtil.Con.mapB: Impossible"
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165
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166 fun map {kind, con} s =
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167 case mapfold {kind = fn k => fn () => S.Continue (kind k, ()),
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168 con = fn c => fn () => S.Continue (con c, ())} s () of
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169 S.Return () => raise Fail "ElabUtil.Con.map: Impossible"
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170 | S.Continue (s, ()) => s
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171
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172 fun exists {kind, con} k =
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173 case mapfold {kind = fn k => fn () =>
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174 if kind k then
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175 S.Return ()
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176 else
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177 S.Continue (k, ()),
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178 con = fn c => fn () =>
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179 if con c then
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180 S.Return ()
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181 else
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182 S.Continue (c, ())} k () of
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183 S.Return _ => true
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184 | S.Continue _ => false
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185
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186 end
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187
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188 structure Exp = struct
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189
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190 datatype binder =
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191 RelC of string * Elab.kind
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192 | NamedC of string * Elab.kind
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193 | RelE of string * Elab.con
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194 | NamedE of string * Elab.con
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195
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196 fun mapfoldB {kind = fk, con = fc, exp = fe, bind} =
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197 let
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198 val mfk = Kind.mapfold fk
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199
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200 fun bind' (ctx, b) =
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201 let
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202 val b' = case b of
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203 Con.Rel x => RelC x
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204 | Con.Named x => NamedC x
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205 in
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206 bind (ctx, b')
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207 end
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208 val mfc = Con.mapfoldB {kind = fk, con = fc, bind = bind'}
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209
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210 fun mfe ctx e acc =
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211 S.bindP (mfe' ctx e acc, fe ctx)
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212
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213 and mfe' ctx (eAll as (e, loc)) =
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214 case e of
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215 EPrim _ => S.return2 eAll
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216 | ERel _ => S.return2 eAll
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217 | ENamed _ => S.return2 eAll
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218 | EModProj _ => S.return2 eAll
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219 | EApp (e1, e2) =>
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220 S.bind2 (mfe ctx e1,
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221 fn e1' =>
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222 S.map2 (mfe ctx e2,
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223 fn e2' =>
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224 (EApp (e1', e2'), loc)))
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225 | EAbs (x, dom, ran, e) =>
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226 S.bind2 (mfc ctx dom,
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227 fn dom' =>
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228 S.bind2 (mfc ctx ran,
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229 fn ran' =>
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230 S.map2 (mfe (bind (ctx, RelE (x, dom'))) e,
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231 fn e' =>
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232 (EAbs (x, dom', ran', e'), loc))))
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233
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234 | ECApp (e, c) =>
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235 S.bind2 (mfe ctx e,
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236 fn e' =>
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237 S.map2 (mfc ctx c,
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238 fn c' =>
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239 (ECApp (e', c'), loc)))
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240 | ECAbs (expl, x, k, e) =>
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241 S.bind2 (mfk k,
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242 fn k' =>
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243 S.map2 (mfe (bind (ctx, RelC (x, k))) e,
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244 fn e' =>
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245 (ECAbs (expl, x, k', e'), loc)))
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246
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247 | ERecord xes =>
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248 S.map2 (ListUtil.mapfold (fn (x, e, t) =>
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249 S.bind2 (mfc ctx x,
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250 fn x' =>
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251 S.bind2 (mfe ctx e,
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252 fn e' =>
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253 S.map2 (mfc ctx t,
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254 fn t' =>
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255 (x', e', t')))))
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256 xes,
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257 fn xes' =>
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adamc@12
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258 (ERecord xes', loc))
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259 | EField (e, c, {field, rest}) =>
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260 S.bind2 (mfe ctx e,
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261 fn e' =>
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262 S.bind2 (mfc ctx c,
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263 fn c' =>
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264 S.bind2 (mfc ctx field,
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265 fn field' =>
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266 S.map2 (mfc ctx rest,
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267 fn rest' =>
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adamc@12
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268 (EField (e', c', {field = field', rest = rest'}), loc)))))
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269
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270 | EError => S.return2 eAll
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271 in
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272 mfe
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273 end
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274
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275 fun mapfold {kind = fk, con = fc, exp = fe} =
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276 mapfoldB {kind = fk,
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277 con = fn () => fc,
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278 exp = fn () => fe,
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279 bind = fn ((), _) => ()} ()
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280
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281 fun exists {kind, con, exp} k =
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282 case mapfold {kind = fn k => fn () =>
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283 if kind k then
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284 S.Return ()
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285 else
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286 S.Continue (k, ()),
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287 con = fn c => fn () =>
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288 if con c then
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289 S.Return ()
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290 else
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291 S.Continue (c, ()),
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292 exp = fn e => fn () =>
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293 if exp e then
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294 S.Return ()
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295 else
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296 S.Continue (e, ())} k () of
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297 S.Return _ => true
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298 | S.Continue _ => false
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299
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300 end
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301
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302 structure Sgn = struct
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adamc@34
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303
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adamc@34
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304 datatype binder =
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adamc@34
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305 RelC of string * Elab.kind
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adamc@34
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306 | NamedC of string * Elab.kind
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adamc@34
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307 | Str of string * Elab.sgn
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308
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adamc@34
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309 fun mapfoldB {kind, con, sgn_item, sgn, bind} =
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adamc@34
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310 let
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adamc@34
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311 fun bind' (ctx, b) =
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adamc@34
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312 let
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313 val b' = case b of
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adamc@34
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314 Con.Rel x => RelC x
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adamc@34
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315 | Con.Named x => NamedC x
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adamc@34
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316 in
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317 bind (ctx, b')
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318 end
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319 val con = Con.mapfoldB {kind = kind, con = con, bind = bind'}
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adamc@34
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320
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321 val kind = Kind.mapfold kind
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322
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323 fun sgi ctx si acc =
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324 S.bindP (sgi' ctx si acc, sgn_item ctx)
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325
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326 and sgi' ctx (si, loc) =
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327 case si of
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328 SgiConAbs (x, n, k) =>
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329 S.map2 (kind k,
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330 fn k' =>
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331 (SgiConAbs (x, n, k'), loc))
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332 | SgiCon (x, n, k, c) =>
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333 S.bind2 (kind k,
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334 fn k' =>
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335 S.map2 (con ctx c,
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336 fn c' =>
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337 (SgiCon (x, n, k', c'), loc)))
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338 | SgiVal (x, n, c) =>
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339 S.map2 (con ctx c,
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340 fn c' =>
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adamc@34
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341 (SgiVal (x, n, c'), loc))
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adamc@34
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342 | SgiStr (x, n, s) =>
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adamc@34
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343 S.map2 (sg ctx s,
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adamc@34
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344 fn s' =>
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adamc@34
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345 (SgiStr (x, n, s'), loc))
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adamc@34
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346
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adamc@34
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347 and sg ctx s acc =
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adamc@34
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348 S.bindP (sg' ctx s acc, sgn ctx)
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349
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adamc@34
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350 and sg' ctx (sAll as (s, loc)) =
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adamc@34
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351 case s of
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adamc@34
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352 SgnConst sgis =>
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adamc@34
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353 S.map2 (ListUtil.mapfoldB (fn (ctx, si) =>
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adamc@34
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354 (case #1 si of
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adamc@34
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355 SgiConAbs (x, _, k) =>
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adamc@34
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356 bind (ctx, NamedC (x, k))
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adamc@34
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357 | SgiCon (x, _, k, _) =>
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adamc@34
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358 bind (ctx, NamedC (x, k))
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adamc@34
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359 | SgiVal _ => ctx
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adamc@34
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360 | SgiStr (x, _, sgn) =>
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adamc@34
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361 bind (ctx, Str (x, sgn)),
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adamc@34
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362 sgi ctx si)) ctx sgis,
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adamc@34
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363 fn sgis' =>
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adamc@34
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364 (SgnConst sgis', loc))
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adamc@34
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365
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adamc@34
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366 | SgnVar _ => S.return2 sAll
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adamc@41
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367 | SgnFun (m, n, s1, s2) =>
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adamc@41
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368 S.bind2 (sg ctx s1,
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adamc@41
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369 fn s1' =>
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adamc@41
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370 S.map2 (sg (bind (ctx, Str (m, s1'))) s2,
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adamc@41
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371 fn s2' =>
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adamc@41
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372 (SgnFun (m, n, s1', s2'), loc)))
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adamc@34
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373 | SgnError => S.return2 sAll
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adamc@34
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374 in
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adamc@34
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375 sg
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adamc@34
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376 end
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adamc@34
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377
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adamc@34
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378 fun mapfold {kind, con, sgn_item, sgn} =
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adamc@34
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379 mapfoldB {kind = kind,
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adamc@34
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380 con = fn () => con,
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adamc@34
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381 sgn_item = fn () => sgn_item,
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adamc@34
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382 sgn = fn () => sgn,
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adamc@34
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383 bind = fn ((), _) => ()} ()
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adamc@34
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384
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adamc@34
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385 fun map {kind, con, sgn_item, sgn} s =
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adamc@34
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386 case mapfold {kind = fn k => fn () => S.Continue (kind k, ()),
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adamc@34
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387 con = fn c => fn () => S.Continue (con c, ()),
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adamc@34
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388 sgn_item = fn si => fn () => S.Continue (sgn_item si, ()),
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adamc@34
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389 sgn = fn s => fn () => S.Continue (sgn s, ())} s () of
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adamc@34
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390 S.Return () => raise Fail "Elab_util.Sgn.map"
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adamc@34
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391 | S.Continue (s, ()) => s
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adamc@34
|
392
|
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adamc@2
|
393 end
|
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adamc@34
|
394
|
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adamc@34
|
395 end
|
