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adamc@82
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1 (* Copyright (c) 2008, Adam Chlipala
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adamc@82
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2 * All rights reserved.
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adamc@82
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3 *
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adamc@82
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4 * Redistribution and use in source and binary forms, with or without
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adamc@82
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5 * modification, are permitted provided that the following conditions are met:
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adamc@82
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6 *
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adamc@82
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7 * - Redistributions of source code must retain the above copyright notice,
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adamc@82
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8 * this list of conditions and the following disclaimer.
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adamc@82
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9 * - Redistributions in binary form must reproduce the above copyright notice,
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adamc@82
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10 * this list of conditions and the following disclaimer in the documentation
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adamc@82
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11 * and/or other materials provided with the distribution.
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adamc@82
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12 * - The names of contributors may not be used to endorse or promote products
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adamc@82
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13 * derived from this software without specific prior written permission.
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adamc@82
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14 *
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adamc@82
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15 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
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adamc@82
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16 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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adamc@82
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17 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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adamc@82
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18 * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
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adamc@82
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19 * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
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adamc@82
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20 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
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adamc@82
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21 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
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adamc@82
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22 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
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adamc@82
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23 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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adamc@82
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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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adamc@82
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25 * POSSIBILITY OF SUCH DAMAGE.
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adamc@82
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26 *)
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adamc@82
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27
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adamc@82
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28 structure Disjoint :> DISJOINT = struct
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adamc@82
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29
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adamc@82
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30 open Elab
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adamc@82
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31 open ElabOps
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adamc@82
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32
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adamc@207
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33 datatype piece_fst =
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34 NameC of string
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35 | NameR of int
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36 | NameN of int
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adamc@88
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37 | NameM of int * string list * string
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adamc@82
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38 | RowR of int
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adamc@82
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39 | RowN of int
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40 | RowM of int * string list * string
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41
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adamc@207
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42 type piece = piece_fst * int list
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adamc@207
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43
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adamc@88
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44 fun p2s p =
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adamc@88
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45 case p of
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adamc@88
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46 NameC s => "NameC(" ^ s ^ ")"
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adamc@88
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47 | NameR n => "NameR(" ^ Int.toString n ^ ")"
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adamc@88
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48 | NameN n => "NameN(" ^ Int.toString n ^ ")"
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adamc@88
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49 | NameM (n, _, s) => "NameR(" ^ Int.toString n ^ ", " ^ s ^ ")"
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adamc@88
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50 | RowR n => "RowR(" ^ Int.toString n ^ ")"
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adamc@88
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51 | RowN n => "RowN(" ^ Int.toString n ^ ")"
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adamc@88
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52 | RowM (n, _, s) => "RowR(" ^ Int.toString n ^ ", " ^ s ^ ")"
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adamc@88
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53
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adamc@88
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54 fun pp p = print (p2s p ^ "\n")
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55
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adamc@478
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56 fun rp2s (p, ns) = String.concatWith " " (p2s p :: map Int.toString ns)
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adamc@478
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57
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adamc@88
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58 structure PK = struct
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59
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adamc@88
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60 type ord_key = piece
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61
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adamc@207
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62 open Order
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63
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adamc@207
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64 fun compare' (p1, p2) =
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adamc@88
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65 case (p1, p2) of
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adamc@88
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66 (NameC s1, NameC s2) => String.compare (s1, s2)
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adamc@88
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67 | (NameR n1, NameR n2) => Int.compare (n1, n2)
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adamc@88
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68 | (NameN n1, NameN n2) => Int.compare (n1, n2)
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69 | (NameM (n1, ss1, s1), NameM (n2, ss2, s2)) =>
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adamc@88
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70 join (Int.compare (n1, n2),
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71 fn () => join (String.compare (s1, s2), fn () =>
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72 joinL String.compare (ss1, ss2)))
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73 | (RowR n1, RowR n2) => Int.compare (n1, n2)
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74 | (RowN n1, RowN n2) => Int.compare (n1, n2)
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75 | (RowM (n1, ss1, s1), RowM (n2, ss2, s2)) =>
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76 join (Int.compare (n1, n2),
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77 fn () => join (String.compare (s1, s2), fn () =>
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78 joinL String.compare (ss1, ss2)))
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79
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80 | (NameC _, _) => LESS
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81 | (_, NameC _) => GREATER
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82
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83 | (NameR _, _) => LESS
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84 | (_, NameR _) => GREATER
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85
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adamc@88
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86 | (NameN _, _) => LESS
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adamc@88
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87 | (_, NameN _) => GREATER
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88
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adamc@88
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89 | (NameM _, _) => LESS
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adamc@88
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90 | (_, NameM _) => GREATER
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91
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92 | (RowR _, _) => LESS
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adamc@88
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93 | (_, RowR _) => GREATER
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94
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adamc@88
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95 | (RowN _, _) => LESS
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adamc@88
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96 | (_, RowN _) => GREATER
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97
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adamc@207
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98 fun compare ((p1, ns1), (p2, ns2)) =
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99 join (compare' (p1, p2),
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100 fn () => joinL Int.compare (ns1, ns2))
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101
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102 end
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103
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104 structure PS = BinarySetFn(PK)
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adamc@88
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105 structure PM = BinaryMapFn(PK)
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106
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adamc@88
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107 type env = PS.set PM.map
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108
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adamc@478
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109 fun p_env x =
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110 (print "\nDENV:\n";
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111 PM.appi (fn (p1, ps) =>
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112 PS.app (fn p2 =>
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113 print (rp2s p1 ^ " ~ " ^ rp2s p2 ^ "\n")) ps) x)
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adamc@478
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114
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adamc@251
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115 structure E = ElabEnv
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116
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adamc@251
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117 type goal = ErrorMsg.span * E.env * env * Elab.con * Elab.con
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adamc@90
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118
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119 val empty = PM.empty
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adamc@82
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120
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adamc@82
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121 fun nameToRow (c, loc) =
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adamc@82
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122 (CRecord ((KUnit, loc), [((c, loc), (CUnit, loc))]), loc)
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123
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adamc@207
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124 fun pieceToRow' (p, loc) =
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adamc@82
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125 case p of
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126 NameC s => nameToRow (CName s, loc)
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127 | NameR n => nameToRow (CRel n, loc)
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adamc@82
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128 | NameN n => nameToRow (CNamed n, loc)
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adamc@88
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129 | NameM (n, xs, x) => nameToRow (CModProj (n, xs, x), loc)
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130 | RowR n => (CRel n, loc)
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131 | RowN n => (CNamed n, loc)
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adamc@88
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132 | RowM (n, xs, x) => (CModProj (n, xs, x), loc)
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133
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adamc@207
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134 fun pieceToRow ((p, ns), loc) =
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adamc@207
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135 foldl (fn (n, c) => (CProj (c, n), loc)) (pieceToRow' (p, loc)) ns
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adamc@207
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136
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adamc@88
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137 datatype piece' =
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adamc@88
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138 Piece of piece
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139 | Unknown of con
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140
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adamc@207
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141 fun pieceEnter' p =
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adamc@88
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142 case p of
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adamc@88
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143 NameR n => NameR (n + 1)
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144 | RowR n => RowR (n + 1)
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adamc@88
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145 | _ => p
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adamc@82
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146
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adamc@207
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147 fun pieceEnter (p, n) = (pieceEnter' p, n)
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adamc@207
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148
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adamc@88
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149 fun enter denv =
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150 PM.foldli (fn (p, pset, denv') =>
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151 PM.insert (denv', pieceEnter p, PS.map pieceEnter pset))
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adamc@88
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152 PM.empty denv
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adamc@82
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153
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adamc@335
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154 val lowercase = CharVector.map Char.toLower
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adamc@335
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155
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adamc@82
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156 fun prove1 denv (p1, p2) =
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adamc@82
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157 case (p1, p2) of
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adamc@335
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158 ((NameC s1, _), (NameC s2, _)) => lowercase s1 <> lowercase s2
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159 | _ =>
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adamc@88
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160 case PM.find (denv, p1) of
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161 NONE => false
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adamc@88
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162 | SOME pset => PS.member (pset, p2)
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163
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adamc@628
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164 fun decomposeRow env c =
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adamc@82
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165 let
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adamc@251
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166 val loc = #2 c
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adamc@251
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167
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adamc@207
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168 fun decomposeProj c =
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adamc@207
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169 let
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adamc@628
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170 val c = hnormCon env c
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adamc@207
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171 in
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adamc@207
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172 case #1 c of
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adamc@207
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173 CProj (c, n) =>
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adamc@207
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174 let
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175 val (c', ns) = decomposeProj c
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adamc@207
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176 in
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177 (c', ns @ [n])
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178 end
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179 | _ => (c, [])
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adamc@207
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180 end
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adamc@207
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181
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182 fun decomposeName (c, acc) =
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adamc@90
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183 let
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184 val (cAll as (c, _), ns) = decomposeProj c
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adamc@90
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185 in
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186 case c of
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187 CName s => Piece (NameC s, ns) :: acc
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188 | CRel n => Piece (NameR n, ns) :: acc
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adamc@628
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189 | CNamed n => Piece (NameN n, ns) :: acc
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190 | CModProj (m1, ms, x) => Piece (NameM (m1, ms, x), ns) :: acc
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191 | _ => Unknown cAll :: acc
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adamc@90
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192 end
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adamc@90
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193
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194 fun decomposeRow' (c, acc) =
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adamc@90
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195 let
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adamc@251
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196 fun default () =
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197 let
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198 val (cAll as (c, _), ns) = decomposeProj c
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199 in
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200 case c of
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201 CRecord (_, xcs) => foldl (fn ((x, _), acc) => decomposeName (x, acc)) acc xcs
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202 | CConcat (c1, c2) => decomposeRow' (c1, decomposeRow' (c2, acc))
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203 | CRel n => Piece (RowR n, ns) :: acc
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204 | CNamed n => Piece (RowN n, ns) :: acc
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205 | CModProj (m1, ms, x) => Piece (RowM (m1, ms, x), ns) :: acc
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206 | _ => Unknown cAll :: acc
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adamc@251
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207 end
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adamc@90
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208 in
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209 case #1 (hnormCon env c) of
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adamc@251
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210 CApp (
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adamc@621
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211 (CApp ((CMap _, _), _), _),
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212 r) => decomposeRow' (r, acc)
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adamc@251
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213 | _ => default ()
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adamc@90
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214 end
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adamc@90
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215 in
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216 decomposeRow' (c, [])
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217 end
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218
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219 and assert env denv (c1, c2) =
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adamc@90
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220 let
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adamc@628
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221 val ps1 = decomposeRow env c1
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adamc@628
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222 val ps2 = decomposeRow env c2
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adamc@90
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223
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adamc@90
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224 val unUnknown = List.mapPartial (fn Unknown _ => NONE | Piece p => SOME p)
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adamc@90
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225 val ps1 = unUnknown ps1
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adamc@90
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226 val ps2 = unUnknown ps2
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adamc@90
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227
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adamc@90
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228 (*val () = print "APieces1:\n"
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229 val () = app pp ps1
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adamc@90
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230 val () = print "APieces2:\n"
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adamc@90
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231 val () = app pp ps2*)
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adamc@90
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232
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adamc@90
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233 fun assertPiece ps (p, denv) =
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adamc@90
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234 let
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adamc@90
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235 val pset = Option.getOpt (PM.find (denv, p), PS.empty)
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adamc@90
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236 val ps = case p of
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adamc@207
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237 (NameC _, _) => List.filter (fn (NameC _, _) => false | _ => true) ps
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238 | _ => ps
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adamc@90
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239 val pset = PS.addList (pset, ps)
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adamc@90
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240 in
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adamc@90
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241 PM.insert (denv, p, pset)
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adamc@90
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242 end
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adamc@90
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243
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adamc@90
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244 val denv = foldl (assertPiece ps2) denv ps1
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adamc@90
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245 in
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adamc@628
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246 foldl (assertPiece ps1) denv ps2
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adamc@90
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247 end
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adamc@90
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248
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adamc@90
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249 and prove env denv (c1, c2, loc) =
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adamc@90
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250 let
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adamc@628
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251 val ps1 = decomposeRow env c1
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adamc@628
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252 val ps2 = decomposeRow env c2
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adamc@82
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253
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adamc@88
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254 val hasUnknown = List.exists (fn Unknown _ => true | _ => false)
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adamc@88
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255 val unUnknown = List.mapPartial (fn Unknown _ => NONE | Piece p => SOME p)
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adamc@82
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256 in
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adamc@82
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257 if hasUnknown ps1 orelse hasUnknown ps2 then
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adamc@90
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258 [(loc, env, denv, c1, c2)]
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adamc@82
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259 else
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adamc@88
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260 let
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adamc@88
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261 val ps1 = unUnknown ps1
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adamc@88
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262 val ps2 = unUnknown ps2
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adamc@88
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263 in
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adamc@88
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264 (*print "Pieces1:\n";
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adamc@88
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265 app pp ps1;
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adamc@88
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266 print "Pieces2:\n";
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adamc@88
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267 app pp ps2;*)
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adamc@88
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268
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adamc@88
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269 foldl (fn (p1, rem) =>
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adamc@88
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270 foldl (fn (p2, rem) =>
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adamc@88
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271 if prove1 denv (p1, p2) then
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272 rem
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273 else
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adamc@90
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274 (loc, env, denv, pieceToRow (p1, loc), pieceToRow (p2, loc)) :: rem) rem ps2)
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adamc@628
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275 [] ps1
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adamc@88
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276 end
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adamc@82
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277 end
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adamc@82
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278
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adamc@82
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279 end
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