1 | // |
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2 | // Cforall Version 1.0.0 Copyright (C) 2015 University of Waterloo |
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3 | // |
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4 | // The contents of this file are covered under the licence agreement in the |
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5 | // file "LICENCE" distributed with Cforall. |
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6 | // |
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7 | // Unify.cpp -- |
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8 | // |
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9 | // Author : Richard C. Bilson |
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10 | // Created On : Sun May 17 12:27:10 2015 |
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11 | // Last Modified By : Peter A. Buhr |
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12 | // Last Modified On : Fri Dec 13 23:43:05 2019 |
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13 | // Update Count : 46 |
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14 | // |
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15 | |
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16 | #include "Unify.hpp" |
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17 | |
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18 | #include <cassert> // for assertf, assert |
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19 | #include <iterator> // for back_insert_iterator, back_inserter |
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20 | #include <map> // for _Rb_tree_const_iterator, _Rb_tree_i... |
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21 | #include <memory> // for unique_ptr |
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22 | #include <set> // for set |
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23 | #include <string> // for string, operator==, operator!=, bas... |
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24 | #include <utility> // for pair, move |
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25 | #include <vector> |
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26 | |
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27 | #include "AST/Copy.hpp" |
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28 | #include "AST/Decl.hpp" |
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29 | #include "AST/Node.hpp" |
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30 | #include "AST/Pass.hpp" |
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31 | #include "AST/Print.hpp" |
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32 | #include "AST/Type.hpp" |
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33 | #include "AST/TypeEnvironment.hpp" |
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34 | #include "Common/Eval.hpp" // for eval |
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35 | #include "CommonType.hpp" // for commonType |
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36 | #include "FindOpenVars.hpp" // for findOpenVars |
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37 | #include "SpecCost.hpp" // for SpecCost |
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38 | #include "Tuples/Tuples.hpp" // for isTtype |
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39 | #include "Typeops.hpp" // for flatten, occurs |
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40 | |
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41 | namespace ast { |
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42 | class SymbolTable; |
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43 | } |
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44 | |
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45 | // #define DEBUG |
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46 | |
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47 | namespace ResolvExpr { |
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48 | |
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49 | bool typesCompatible( |
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50 | const ast::Type * first, const ast::Type * second, |
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51 | const ast::TypeEnvironment & env ) { |
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52 | ast::TypeEnvironment newEnv; |
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53 | ast::OpenVarSet open, closed; |
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54 | ast::AssertionSet need, have; |
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55 | |
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56 | ast::ptr<ast::Type> newFirst( first ), newSecond( second ); |
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57 | env.apply( newFirst ); |
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58 | env.apply( newSecond ); |
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59 | |
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60 | // findOpenVars( newFirst, open, closed, need, have, FirstClosed ); |
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61 | findOpenVars( newSecond, open, closed, need, have, newEnv, FirstOpen ); |
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62 | |
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63 | return unifyExact(newFirst, newSecond, newEnv, need, have, open, noWiden() ); |
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64 | } |
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65 | |
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66 | bool typesCompatibleIgnoreQualifiers( |
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67 | const ast::Type * first, const ast::Type * second, |
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68 | const ast::TypeEnvironment & env ) { |
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69 | ast::TypeEnvironment newEnv; |
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70 | ast::OpenVarSet open; |
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71 | ast::AssertionSet need, have; |
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72 | |
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73 | ast::Type * newFirst = shallowCopy( first ); |
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74 | ast::Type * newSecond = shallowCopy( second ); |
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75 | |
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76 | newFirst ->qualifiers = {}; |
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77 | newSecond->qualifiers = {}; |
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78 | ast::ptr< ast::Type > t1_(newFirst ); |
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79 | ast::ptr< ast::Type > t2_(newSecond); |
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80 | |
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81 | ast::ptr< ast::Type > subFirst = env.apply(newFirst).node; |
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82 | ast::ptr< ast::Type > subSecond = env.apply(newSecond).node; |
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83 | |
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84 | return unifyExact( |
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85 | subFirst, |
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86 | subSecond, |
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87 | newEnv, need, have, open, noWiden() ); |
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88 | } |
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89 | |
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90 | namespace { |
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91 | /// Replaces ttype variables with their bound types. |
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92 | /// If this isn't done when satifying ttype assertions, then argument lists can have |
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93 | /// different size and structure when they should be compatible. |
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94 | struct TtypeExpander : public ast::WithShortCircuiting, public ast::PureVisitor { |
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95 | ast::TypeEnvironment & tenv; |
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96 | |
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97 | TtypeExpander( ast::TypeEnvironment & env ) : tenv( env ) {} |
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98 | |
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99 | const ast::Type * postvisit( const ast::TypeInstType * typeInst ) { |
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100 | if ( const ast::EqvClass * clz = tenv.lookup( *typeInst ) ) { |
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101 | // expand ttype parameter into its actual type |
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102 | if ( clz->data.kind == ast::TypeDecl::Ttype && clz->bound ) { |
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103 | return clz->bound; |
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104 | } |
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105 | } |
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106 | return typeInst; |
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107 | } |
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108 | }; |
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109 | } |
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110 | |
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111 | std::vector< ast::ptr< ast::Type > > flattenList( |
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112 | const std::vector< ast::ptr< ast::Type > > & src, ast::TypeEnvironment & env |
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113 | ) { |
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114 | std::vector< ast::ptr< ast::Type > > dst; |
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115 | dst.reserve( src.size() ); |
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116 | for ( const auto & d : src ) { |
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117 | ast::Pass<TtypeExpander> expander( env ); |
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118 | // TtypeExpander pass is impure (may mutate nodes in place) |
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119 | // need to make nodes shared to prevent accidental mutation |
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120 | ast::ptr<ast::Type> dc = d->accept(expander); |
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121 | auto types = flatten( dc ); |
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122 | for ( ast::ptr< ast::Type > & t : types ) { |
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123 | // outermost const, volatile, _Atomic qualifiers in parameters should not play |
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124 | // a role in the unification of function types, since they do not determine |
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125 | // whether a function is callable. |
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126 | // NOTE: **must** consider at least mutex qualifier, since functions can be |
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127 | // overloaded on outermost mutex and a mutex function has different |
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128 | // requirements than a non-mutex function |
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129 | remove_qualifiers( t, ast::CV::Const | ast::CV::Volatile | ast::CV::Atomic ); |
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130 | dst.emplace_back( t ); |
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131 | } |
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132 | } |
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133 | return dst; |
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134 | } |
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135 | |
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136 | // Unification of Expressions |
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137 | // |
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138 | // Boolean outcome (obvious): Are they basically spelled the same? |
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139 | // Side effect of binding variables (subtle): if `sizeof(int)` ===_expr `sizeof(T)` then `int` ===_ty `T` |
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140 | // |
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141 | // Context: if `float[VAREXPR1]` ===_ty `float[VAREXPR2]` then `VAREXPR1` ===_expr `VAREXPR2` |
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142 | // where the VAREXPR are meant as notational metavariables representing the fact that unification always |
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143 | // sees distinct ast::VariableExpr objects at these positions |
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144 | |
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145 | static bool unify( const ast::Expr * e1, const ast::Expr * e2, ast::TypeEnvironment & env, |
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146 | ast::AssertionSet & need, ast::AssertionSet & have, const ast::OpenVarSet & open, |
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147 | WidenMode widen ); |
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148 | |
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149 | class UnifyExpr final : public ast::WithShortCircuiting { |
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150 | const ast::Expr * e2; |
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151 | ast::TypeEnvironment & tenv; |
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152 | ast::AssertionSet & need; |
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153 | ast::AssertionSet & have; |
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154 | const ast::OpenVarSet & open; |
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155 | WidenMode widen; |
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156 | public: |
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157 | bool result; |
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158 | |
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159 | private: |
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160 | |
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161 | void tryMatchOnStaticValue( const ast::Expr * e1 ) { |
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162 | Evaluation r1 = eval(e1); |
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163 | Evaluation r2 = eval(e2); |
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164 | |
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165 | if ( !r1.hasKnownValue ) return; |
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166 | if ( !r2.hasKnownValue ) return; |
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167 | |
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168 | if ( r1.knownValue != r2.knownValue ) return; |
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169 | |
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170 | visit_children = false; |
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171 | result = true; |
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172 | } |
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173 | |
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174 | public: |
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175 | |
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176 | void previsit( const ast::Node * ) { assert(false); } |
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177 | |
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178 | void previsit( const ast::Expr * e1 ) { |
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179 | tryMatchOnStaticValue( e1 ); |
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180 | visit_children = false; |
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181 | } |
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182 | |
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183 | void previsit( const ast::CastExpr * e1 ) { |
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184 | tryMatchOnStaticValue( e1 ); |
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185 | |
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186 | if ( result ) { |
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187 | assert( visit_children == false ); |
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188 | } else { |
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189 | assert( visit_children == true ); |
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190 | visit_children = false; |
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191 | |
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192 | auto e2c = dynamic_cast< const ast::CastExpr * >( e2 ); |
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193 | if ( !e2c ) return; |
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194 | |
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195 | // inspect casts' target types |
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196 | if ( !unifyExact( |
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197 | e1->result, e2c->result, tenv, need, have, open, widen ) ) return; |
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198 | |
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199 | // inspect casts' inner expressions |
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200 | result = unify( e1->arg, e2c->arg, tenv, need, have, open, widen ); |
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201 | } |
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202 | } |
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203 | |
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204 | void previsit( const ast::VariableExpr * e1 ) { |
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205 | tryMatchOnStaticValue( e1 ); |
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206 | |
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207 | if ( result ) { |
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208 | assert( visit_children == false ); |
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209 | } else { |
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210 | assert( visit_children == true ); |
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211 | visit_children = false; |
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212 | |
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213 | auto e2v = dynamic_cast< const ast::VariableExpr * >( e2 ); |
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214 | if ( !e2v ) return; |
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215 | |
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216 | assert(e1->var); |
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217 | assert(e2v->var); |
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218 | |
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219 | // conservative: variable exprs match if their declarations are represented by the same C++ AST object |
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220 | result = (e1->var == e2v->var); |
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221 | } |
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222 | } |
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223 | |
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224 | void previsit( const ast::SizeofExpr * e1 ) { |
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225 | tryMatchOnStaticValue( e1 ); |
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226 | |
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227 | if ( result ) { |
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228 | assert( visit_children == false ); |
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229 | } else { |
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230 | assert( visit_children == true ); |
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231 | visit_children = false; |
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232 | |
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233 | auto e2so = dynamic_cast< const ast::SizeofExpr * >( e2 ); |
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234 | if ( !e2so ) return; |
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235 | |
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236 | assert((e1->type != nullptr) ^ (e1->expr != nullptr)); |
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237 | assert((e2so->type != nullptr) ^ (e2so->expr != nullptr)); |
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238 | if ( !(e1->type && e2so->type) ) return; |
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239 | |
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240 | // expression unification calls type unification (mutual recursion) |
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241 | result = unifyExact( e1->type, e2so->type, tenv, need, have, open, widen ); |
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242 | } |
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243 | } |
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244 | |
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245 | UnifyExpr( const ast::Expr * e2, ast::TypeEnvironment & env, ast::AssertionSet & need, |
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246 | ast::AssertionSet & have, const ast::OpenVarSet & open, WidenMode widen ) |
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247 | : e2( e2 ), tenv(env), need(need), have(have), open(open), widen(widen), result(false) {} |
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248 | }; |
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249 | |
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250 | static bool unify( const ast::Expr * e1, const ast::Expr * e2, ast::TypeEnvironment & env, |
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251 | ast::AssertionSet & need, ast::AssertionSet & have, const ast::OpenVarSet & open, |
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252 | WidenMode widen ) { |
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253 | assert( e1 && e2 ); |
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254 | return ast::Pass<UnifyExpr>::read( e1, e2, env, need, have, open, widen ); |
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255 | } |
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256 | |
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257 | class Unify final : public ast::WithShortCircuiting { |
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258 | const ast::Type * type2; |
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259 | ast::TypeEnvironment & tenv; |
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260 | ast::AssertionSet & need; |
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261 | ast::AssertionSet & have; |
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262 | const ast::OpenVarSet & open; |
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263 | WidenMode widen; |
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264 | public: |
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265 | static size_t traceId; |
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266 | bool result; |
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267 | |
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268 | Unify( |
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269 | const ast::Type * type2, ast::TypeEnvironment & env, ast::AssertionSet & need, |
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270 | ast::AssertionSet & have, const ast::OpenVarSet & open, WidenMode widen ) |
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271 | : type2(type2), tenv(env), need(need), have(have), open(open), widen(widen), |
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272 | result(false) {} |
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273 | |
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274 | void previsit( const ast::Node * ) { visit_children = false; } |
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275 | |
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276 | void postvisit( const ast::VoidType * vt) { |
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277 | result = dynamic_cast< const ast::VoidType * >( type2 ) |
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278 | || tryToUnifyWithEnumValue(vt, type2, tenv, need, have, open, noWiden()); |
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279 | ; |
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280 | } |
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281 | |
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282 | void postvisit( const ast::BasicType * basic ) { |
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283 | if ( auto basic2 = dynamic_cast< const ast::BasicType * >( type2 ) ) { |
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284 | result = basic->kind == basic2->kind; |
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285 | } |
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286 | result = result || tryToUnifyWithEnumValue(basic, type2, tenv, need, have, open, noWiden()); |
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287 | } |
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288 | |
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289 | void postvisit( const ast::PointerType * pointer ) { |
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290 | if ( auto pointer2 = dynamic_cast< const ast::PointerType * >( type2 ) ) { |
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291 | result = unifyExact( |
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292 | pointer->base, pointer2->base, tenv, need, have, open, |
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293 | noWiden()); |
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294 | } |
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295 | result = result || tryToUnifyWithEnumValue(pointer, type2, tenv, need, have, open, noWiden()); |
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296 | } |
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297 | |
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298 | void postvisit( const ast::ArrayType * array ) { |
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299 | auto array2 = dynamic_cast< const ast::ArrayType * >( type2 ); |
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300 | if ( !array2 ) return; |
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301 | |
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302 | if ( array->isVarLen != array2->isVarLen ) return; |
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303 | if ( (array->dimension != nullptr) != (array2->dimension != nullptr) ) return; |
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304 | |
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305 | if ( array->dimension ) { |
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306 | assert( array2->dimension ); |
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307 | // type unification calls expression unification (mutual recursion) |
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308 | if ( !unify(array->dimension, array2->dimension, |
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309 | tenv, need, have, open, widen) ) return; |
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310 | } |
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311 | |
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312 | result = unifyExact( |
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313 | array->base, array2->base, tenv, need, have, open, noWiden()) |
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314 | || tryToUnifyWithEnumValue(array, type2, tenv, need, have, open, noWiden()); |
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315 | } |
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316 | |
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317 | void postvisit( const ast::ReferenceType * ref ) { |
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318 | if ( auto ref2 = dynamic_cast< const ast::ReferenceType * >( type2 ) ) { |
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319 | result = unifyExact( |
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320 | ref->base, ref2->base, tenv, need, have, open, noWiden()); |
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321 | } |
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322 | } |
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323 | |
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324 | private: |
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325 | |
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326 | template< typename Iter > |
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327 | static bool unifyTypeList( |
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328 | Iter crnt1, Iter end1, Iter crnt2, Iter end2, ast::TypeEnvironment & env, |
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329 | ast::AssertionSet & need, ast::AssertionSet & have, const ast::OpenVarSet & open |
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330 | ) { |
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331 | while ( crnt1 != end1 && crnt2 != end2 ) { |
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332 | const ast::Type * t1 = *crnt1; |
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333 | const ast::Type * t2 = *crnt2; |
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334 | bool isTuple1 = Tuples::isTtype( t1 ); |
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335 | bool isTuple2 = Tuples::isTtype( t2 ); |
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336 | |
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337 | // assumes here that ttype *must* be last parameter |
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338 | if ( isTuple1 && !isTuple2 ) { |
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339 | // combine remainder of list2, then unify |
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340 | return unifyExact( |
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341 | t1, tupleFromTypes( crnt2, end2 ), env, need, have, open, |
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342 | noWiden() ); |
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343 | } else if ( !isTuple1 && isTuple2 ) { |
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344 | // combine remainder of list1, then unify |
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345 | return unifyExact( |
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346 | tupleFromTypes( crnt1, end1 ), t2, env, need, have, open, |
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347 | noWiden() ); |
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348 | } |
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349 | |
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350 | if ( !unifyExact( |
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351 | t1, t2, env, need, have, open, noWiden() ) |
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352 | ) return false; |
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353 | |
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354 | ++crnt1; ++crnt2; |
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355 | } |
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356 | |
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357 | // May get to the end of one argument list before the other. This is only okay if the |
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358 | // other is a ttype |
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359 | if ( crnt1 != end1 ) { |
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360 | // try unifying empty tuple with ttype |
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361 | const ast::Type * t1 = *crnt1; |
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362 | if ( !Tuples::isTtype( t1 ) ) return false; |
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363 | return unifyExact( |
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364 | t1, tupleFromTypes( crnt2, end2 ), env, need, have, open, |
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365 | noWiden() ); |
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366 | } else if ( crnt2 != end2 ) { |
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367 | // try unifying empty tuple with ttype |
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368 | const ast::Type * t2 = *crnt2; |
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369 | if ( !Tuples::isTtype( t2 ) ) return false; |
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370 | return unifyExact( |
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371 | tupleFromTypes( crnt1, end1 ), t2, env, need, have, open, |
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372 | noWiden() ); |
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373 | } |
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374 | |
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375 | return true; |
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376 | } |
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377 | |
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378 | static bool unifyTypeList( |
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379 | const std::vector< ast::ptr< ast::Type > > & list1, |
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380 | const std::vector< ast::ptr< ast::Type > > & list2, |
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381 | ast::TypeEnvironment & env, ast::AssertionSet & need, ast::AssertionSet & have, |
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382 | const ast::OpenVarSet & open |
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383 | ) { |
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384 | return unifyTypeList( |
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385 | list1.begin(), list1.end(), list2.begin(), list2.end(), env, need, have, open); |
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386 | } |
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387 | |
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388 | static void markAssertionSet( ast::AssertionSet & assns, const ast::VariableExpr * assn ) { |
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389 | auto i = assns.find( assn ); |
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390 | if ( i != assns.end() ) { |
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391 | i->second.isUsed = true; |
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392 | } |
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393 | } |
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394 | |
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395 | /// mark all assertions in `type` used in both `assn1` and `assn2` |
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396 | static void markAssertions( |
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397 | ast::AssertionSet & assn1, ast::AssertionSet & assn2, |
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398 | const ast::FunctionType * type |
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399 | ) { |
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400 | for ( auto & assert : type->assertions ) { |
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401 | markAssertionSet( assn1, assert ); |
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402 | markAssertionSet( assn2, assert ); |
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403 | } |
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404 | } |
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405 | |
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406 | bool tryToUnifyWithEnumValue( const ast::Type * type1, const ast::Type * type2, ast::TypeEnvironment & env, |
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407 | ast::AssertionSet & need, ast::AssertionSet & have, const ast::OpenVarSet & open, |
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408 | WidenMode widen) { |
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409 | if ( auto attrType2 = dynamic_cast<const ast::EnumAttrType *>(type2)) { |
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410 | if (attrType2->attr == ast::EnumAttribute::Value) { |
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411 | return unifyExact( type1, attrType2->instance->base->base, env, need, have, open, |
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412 | widen); |
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413 | } else if (attrType2->attr == ast::EnumAttribute::Posn) { |
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414 | return unifyExact( type1, attrType2->instance, env, need, have, open, widen ); |
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415 | } |
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416 | } |
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417 | return false; |
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418 | } |
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419 | |
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420 | public: |
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421 | void postvisit( const ast::FunctionType * func ) { |
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422 | auto func2 = dynamic_cast< const ast::FunctionType * >( type2 ); |
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423 | if ( !func2 ) return; |
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424 | |
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425 | if ( func->isVarArgs != func2->isVarArgs ) return; |
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426 | |
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427 | // Flatten the parameter lists for both functions so that tuple structure does not |
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428 | // affect unification. Does not actually mutate function parameters. |
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429 | auto params = flattenList( func->params, tenv ); |
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430 | auto params2 = flattenList( func2->params, tenv ); |
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431 | |
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432 | // sizes don't have to match if ttypes are involved; need to be more precise w.r.t. |
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433 | // where the ttype is to prevent errors |
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434 | if ( |
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435 | ( params.size() != params2.size() || func->returns.size() != func2->returns.size() ) |
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436 | && !func->isTtype() |
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437 | && !func2->isTtype() |
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438 | ) return; |
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439 | |
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440 | if ( !unifyTypeList( params, params2, tenv, need, have, open ) ) return; |
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441 | if ( !unifyTypeList( |
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442 | func->returns, func2->returns, tenv, need, have, open ) ) return; |
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443 | |
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444 | markAssertions( have, need, func ); |
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445 | markAssertions( have, need, func2 ); |
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446 | |
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447 | result = true; |
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448 | } |
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449 | |
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450 | private: |
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451 | // Returns: other, cast as XInstType |
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452 | // Assigns this->result: whether types are compatible (up to generic parameters) |
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453 | template< typename XInstType > |
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454 | const XInstType * handleRefType( const XInstType * inst, const ast::Type * other ) { |
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455 | // check that the other type is compatible and named the same |
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456 | auto otherInst = dynamic_cast< const XInstType * >( other ); |
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457 | if ( otherInst && inst->name == otherInst->name ) { |
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458 | this->result = otherInst; |
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459 | } |
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460 | return otherInst; |
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461 | } |
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462 | |
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463 | /// Creates a tuple type based on a list of TypeExpr |
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464 | template< typename Iter > |
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465 | static const ast::Type * tupleFromExprs( |
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466 | const ast::TypeExpr * param, Iter & crnt, Iter end, ast::CV::Qualifiers qs |
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467 | ) { |
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468 | std::vector< ast::ptr< ast::Type > > types; |
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469 | do { |
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470 | types.emplace_back( param->type ); |
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471 | |
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472 | ++crnt; |
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473 | if ( crnt == end ) break; |
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474 | param = strict_dynamic_cast< const ast::TypeExpr * >( crnt->get() ); |
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475 | } while(true); |
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476 | |
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477 | return new ast::TupleType( std::move(types), qs ); |
---|
478 | } |
---|
479 | |
---|
480 | template< typename XInstType > |
---|
481 | void handleGenericRefType( const XInstType * inst, const ast::Type * other ) { |
---|
482 | // check that other type is compatible and named the same |
---|
483 | const XInstType * otherInst = handleRefType( inst, other ); |
---|
484 | if ( !this->result ) return; |
---|
485 | |
---|
486 | // check that parameters of types unify, if any |
---|
487 | const std::vector< ast::ptr< ast::Expr > > & params = inst->params; |
---|
488 | const std::vector< ast::ptr< ast::Expr > > & params2 = otherInst->params; |
---|
489 | |
---|
490 | auto it = params.begin(); |
---|
491 | auto jt = params2.begin(); |
---|
492 | for ( ; it != params.end() && jt != params2.end(); ++it, ++jt ) { |
---|
493 | auto param = strict_dynamic_cast< const ast::TypeExpr * >( it->get() ); |
---|
494 | auto param2 = strict_dynamic_cast< const ast::TypeExpr * >( jt->get() ); |
---|
495 | |
---|
496 | ast::ptr< ast::Type > pty = param->type; |
---|
497 | ast::ptr< ast::Type > pty2 = param2->type; |
---|
498 | |
---|
499 | bool isTuple = Tuples::isTtype( pty ); |
---|
500 | bool isTuple2 = Tuples::isTtype( pty2 ); |
---|
501 | |
---|
502 | if ( isTuple && isTuple2 ) { |
---|
503 | ++it; ++jt; // skip ttype parameters before break |
---|
504 | } else if ( isTuple ) { |
---|
505 | // bundle remaining params into tuple |
---|
506 | pty2 = tupleFromExprs( param2, jt, params2.end(), pty->qualifiers ); |
---|
507 | ++it; // skip ttype parameter for break |
---|
508 | } else if ( isTuple2 ) { |
---|
509 | // bundle remaining params into tuple |
---|
510 | pty = tupleFromExprs( param, it, params.end(), pty2->qualifiers ); |
---|
511 | ++jt; // skip ttype parameter for break |
---|
512 | } |
---|
513 | |
---|
514 | if ( !unifyExact( |
---|
515 | pty, pty2, tenv, need, have, open, noWiden() ) ) { |
---|
516 | result = false; |
---|
517 | return; |
---|
518 | } |
---|
519 | |
---|
520 | // ttype parameter should be last |
---|
521 | if ( isTuple || isTuple2 ) break; |
---|
522 | } |
---|
523 | result = it == params.end() && jt == params2.end(); |
---|
524 | } |
---|
525 | |
---|
526 | public: |
---|
527 | void postvisit( const ast::StructInstType * aggrType ) { |
---|
528 | handleGenericRefType( aggrType, type2 ); |
---|
529 | result = result || tryToUnifyWithEnumValue(aggrType, type2, tenv, need, have, open, noWiden()); |
---|
530 | } |
---|
531 | |
---|
532 | void postvisit( const ast::UnionInstType * aggrType ) { |
---|
533 | handleGenericRefType( aggrType, type2 ); |
---|
534 | result = result || tryToUnifyWithEnumValue(aggrType, type2, tenv, need, have, open, noWiden()); |
---|
535 | } |
---|
536 | |
---|
537 | void postvisit( const ast::EnumInstType * aggrType ) { |
---|
538 | handleRefType( aggrType, type2 ); |
---|
539 | result = result || tryToUnifyWithEnumValue(aggrType, type2, tenv, need, have, open, noWiden()); |
---|
540 | } |
---|
541 | |
---|
542 | void postvisit( const ast::EnumAttrType * enumAttr ) { |
---|
543 | // Lazy approach for now |
---|
544 | if ( auto otherPos = dynamic_cast< const ast::EnumAttrType *>( type2 ) ) { |
---|
545 | if ( enumAttr->match(otherPos) ) { |
---|
546 | result = otherPos; |
---|
547 | } |
---|
548 | } |
---|
549 | } |
---|
550 | |
---|
551 | void postvisit( const ast::TraitInstType * aggrType ) { |
---|
552 | handleRefType( aggrType, type2 ); |
---|
553 | result = result || tryToUnifyWithEnumValue(aggrType, type2, tenv, need, have, open, noWiden()); |
---|
554 | } |
---|
555 | |
---|
556 | void postvisit( const ast::TypeInstType * typeInst ) { |
---|
557 | // assert( open.find( *typeInst ) == open.end() ); |
---|
558 | auto otherInst = dynamic_cast< const ast::TypeInstType * >( type2 ); |
---|
559 | if ( otherInst && typeInst->name == otherInst->name ) { |
---|
560 | this->result = otherInst; |
---|
561 | } |
---|
562 | result = result || tryToUnifyWithEnumValue(typeInst, type2, tenv, need, have, open, noWiden()); |
---|
563 | } |
---|
564 | |
---|
565 | private: |
---|
566 | /// Creates a tuple type based on a list of Type |
---|
567 | static bool unifyList( |
---|
568 | const std::vector< ast::ptr< ast::Type > > & list1, |
---|
569 | const std::vector< ast::ptr< ast::Type > > & list2, ast::TypeEnvironment & env, |
---|
570 | ast::AssertionSet & need, ast::AssertionSet & have, const ast::OpenVarSet & open |
---|
571 | ) { |
---|
572 | auto crnt1 = list1.begin(); |
---|
573 | auto crnt2 = list2.begin(); |
---|
574 | while ( crnt1 != list1.end() && crnt2 != list2.end() ) { |
---|
575 | const ast::Type * t1 = *crnt1; |
---|
576 | const ast::Type * t2 = *crnt2; |
---|
577 | bool isTuple1 = Tuples::isTtype( t1 ); |
---|
578 | bool isTuple2 = Tuples::isTtype( t2 ); |
---|
579 | |
---|
580 | // assumes ttype must be last parameter |
---|
581 | if ( isTuple1 && !isTuple2 ) { |
---|
582 | // combine entirety of list2, then unify |
---|
583 | return unifyExact( |
---|
584 | t1, tupleFromTypes( list2 ), env, need, have, open, |
---|
585 | noWiden() ); |
---|
586 | } else if ( !isTuple1 && isTuple2 ) { |
---|
587 | // combine entirety of list1, then unify |
---|
588 | return unifyExact( |
---|
589 | tupleFromTypes( list1 ), t2, env, need, have, open, |
---|
590 | noWiden() ); |
---|
591 | } |
---|
592 | |
---|
593 | if ( !unifyExact( |
---|
594 | t1, t2, env, need, have, open, noWiden() ) |
---|
595 | ) return false; |
---|
596 | |
---|
597 | ++crnt1; ++crnt2; |
---|
598 | } |
---|
599 | |
---|
600 | if ( crnt1 != list1.end() ) { |
---|
601 | // try unifying empty tuple type with ttype |
---|
602 | const ast::Type * t1 = *crnt1; |
---|
603 | if ( !Tuples::isTtype( t1 ) ) return false; |
---|
604 | // xxx - this doesn't generate an empty tuple, contrary to comment; both ported |
---|
605 | // from Rob's code |
---|
606 | return unifyExact( |
---|
607 | t1, tupleFromTypes( list2 ), env, need, have, open, |
---|
608 | noWiden() ); |
---|
609 | } else if ( crnt2 != list2.end() ) { |
---|
610 | // try unifying empty tuple with ttype |
---|
611 | const ast::Type * t2 = *crnt2; |
---|
612 | if ( !Tuples::isTtype( t2 ) ) return false; |
---|
613 | // xxx - this doesn't generate an empty tuple, contrary to comment; both ported |
---|
614 | // from Rob's code |
---|
615 | return unifyExact( |
---|
616 | tupleFromTypes( list1 ), t2, env, need, have, open, |
---|
617 | noWiden() ); |
---|
618 | } |
---|
619 | |
---|
620 | return true; |
---|
621 | } |
---|
622 | |
---|
623 | public: |
---|
624 | void postvisit( const ast::TupleType * tuple ) { |
---|
625 | auto tuple2 = dynamic_cast< const ast::TupleType * >( type2 ); |
---|
626 | if ( ! tuple2 ) return; |
---|
627 | |
---|
628 | ast::Pass<TtypeExpander> expander{ tenv }; |
---|
629 | |
---|
630 | const ast::Type * flat = tuple->accept( expander ); |
---|
631 | const ast::Type * flat2 = tuple2->accept( expander ); |
---|
632 | |
---|
633 | auto types = flatten( flat ); |
---|
634 | auto types2 = flatten( flat2 ); |
---|
635 | |
---|
636 | result = unifyList( types, types2, tenv, need, have, open ) |
---|
637 | || tryToUnifyWithEnumValue(tuple, type2, tenv, need, have, open, noWiden()); |
---|
638 | } |
---|
639 | |
---|
640 | void postvisit( const ast::VarArgsType * vat) { |
---|
641 | result = dynamic_cast< const ast::VarArgsType * >( type2 ) |
---|
642 | || tryToUnifyWithEnumValue(vat, type2, tenv, need, have, open, noWiden()); |
---|
643 | } |
---|
644 | |
---|
645 | void postvisit( const ast::ZeroType * zt) { |
---|
646 | result = dynamic_cast< const ast::ZeroType * >( type2 ) |
---|
647 | || tryToUnifyWithEnumValue(zt, type2, tenv, need, have, open, noWiden()); |
---|
648 | } |
---|
649 | |
---|
650 | void postvisit( const ast::OneType * ot) { |
---|
651 | result = dynamic_cast< const ast::OneType * >( type2 ) |
---|
652 | || tryToUnifyWithEnumValue(ot, type2, tenv, need, have, open, noWiden()); |
---|
653 | } |
---|
654 | }; |
---|
655 | |
---|
656 | // size_t Unify::traceId = Stats::Heap::new_stacktrace_id("Unify"); |
---|
657 | |
---|
658 | bool unify( |
---|
659 | const ast::ptr<ast::Type> & type1, const ast::ptr<ast::Type> & type2, |
---|
660 | ast::TypeEnvironment & env, ast::AssertionSet & need, ast::AssertionSet & have, |
---|
661 | ast::OpenVarSet & open |
---|
662 | ) { |
---|
663 | ast::ptr<ast::Type> common; |
---|
664 | return unify( type1, type2, env, need, have, open, common ); |
---|
665 | } |
---|
666 | |
---|
667 | bool unify( |
---|
668 | const ast::ptr<ast::Type> & type1, const ast::ptr<ast::Type> & type2, |
---|
669 | ast::TypeEnvironment & env, ast::AssertionSet & need, ast::AssertionSet & have, |
---|
670 | ast::OpenVarSet & open, ast::ptr<ast::Type> & common |
---|
671 | ) { |
---|
672 | ast::OpenVarSet closed; |
---|
673 | // findOpenVars( type1, open, closed, need, have, FirstClosed ); |
---|
674 | findOpenVars( type2, open, closed, need, have, env, FirstOpen ); |
---|
675 | return unifyInexact( |
---|
676 | type1, type2, env, need, have, open, WidenMode{ true, true }, common ); |
---|
677 | } |
---|
678 | |
---|
679 | bool unifyExact( |
---|
680 | const ast::Type * type1, const ast::Type * type2, ast::TypeEnvironment & env, |
---|
681 | ast::AssertionSet & need, ast::AssertionSet & have, const ast::OpenVarSet & open, |
---|
682 | WidenMode widen |
---|
683 | ) { |
---|
684 | if ( type1->qualifiers != type2->qualifiers ) return false; |
---|
685 | |
---|
686 | auto var1 = dynamic_cast< const ast::TypeInstType * >( type1 ); |
---|
687 | auto var2 = dynamic_cast< const ast::TypeInstType * >( type2 ); |
---|
688 | bool isopen1 = var1 && env.lookup(*var1); |
---|
689 | bool isopen2 = var2 && env.lookup(*var2); |
---|
690 | |
---|
691 | if ( isopen1 && isopen2 ) { |
---|
692 | if ( var1->base->kind != var2->base->kind ) return false; |
---|
693 | return env.bindVarToVar( |
---|
694 | var1, var2, ast::TypeData{ var1->base->kind, var1->base->sized||var2->base->sized }, need, have, |
---|
695 | open, widen ); |
---|
696 | } else if ( isopen1 ) { |
---|
697 | return env.bindVar( var1, type2, ast::TypeData{var1->base}, need, have, open, widen ); |
---|
698 | } else if ( isopen2 ) { |
---|
699 | return env.bindVar( var2, type1, ast::TypeData{var2->base}, need, have, open, widen ); |
---|
700 | } else { |
---|
701 | return ast::Pass<Unify>::read( |
---|
702 | type1, type2, env, need, have, open, widen ); |
---|
703 | } |
---|
704 | } |
---|
705 | |
---|
706 | bool unifyInexact( |
---|
707 | const ast::ptr<ast::Type> & type1, const ast::ptr<ast::Type> & type2, |
---|
708 | ast::TypeEnvironment & env, ast::AssertionSet & need, ast::AssertionSet & have, |
---|
709 | const ast::OpenVarSet & open, WidenMode widen, |
---|
710 | ast::ptr<ast::Type> & common |
---|
711 | ) { |
---|
712 | ast::CV::Qualifiers q1 = type1->qualifiers, q2 = type2->qualifiers; |
---|
713 | |
---|
714 | // force t1 and t2 to be cloned if their qualifiers must be stripped, so that type1 and |
---|
715 | // type2 are left unchanged; calling convention forces type{1,2}->strong_ref >= 1 |
---|
716 | ast::Type * t1 = shallowCopy(type1.get()); |
---|
717 | ast::Type * t2 = shallowCopy(type2.get()); |
---|
718 | t1->qualifiers = {}; |
---|
719 | t2->qualifiers = {}; |
---|
720 | ast::ptr< ast::Type > t1_(t1); |
---|
721 | ast::ptr< ast::Type > t2_(t2); |
---|
722 | |
---|
723 | if ( unifyExact( t1, t2, env, need, have, open, widen ) ) { |
---|
724 | // if exact unification on unqualified types, try to merge qualifiers |
---|
725 | if ( q1 == q2 || ( ( q1 > q2 || widen.first ) && ( q2 > q1 || widen.second ) ) ) { |
---|
726 | t1->qualifiers = q1 | q2; |
---|
727 | common = t1; |
---|
728 | return true; |
---|
729 | } else { |
---|
730 | return false; |
---|
731 | } |
---|
732 | } else if (( common = commonType( t1, t2, env, need, have, open, widen ))) { |
---|
733 | // no exact unification, but common type |
---|
734 | auto c = shallowCopy(common.get()); |
---|
735 | c->qualifiers = q1 | q2; |
---|
736 | common = c; |
---|
737 | return true; |
---|
738 | } else { |
---|
739 | return false; |
---|
740 | } |
---|
741 | } |
---|
742 | |
---|
743 | ast::ptr<ast::Type> extractResultType( const ast::FunctionType * func ) { |
---|
744 | if ( func->returns.empty() ) return new ast::VoidType(); |
---|
745 | if ( func->returns.size() == 1 ) return func->returns[0]; |
---|
746 | |
---|
747 | std::vector<ast::ptr<ast::Type>> tys; |
---|
748 | for ( const auto & decl : func->returns ) { |
---|
749 | tys.emplace_back( decl ); |
---|
750 | } |
---|
751 | return new ast::TupleType( std::move(tys) ); |
---|
752 | } |
---|
753 | |
---|
754 | } // namespace ResolvExpr |
---|
755 | |
---|
756 | // Local Variables: // |
---|
757 | // tab-width: 4 // |
---|
758 | // mode: c++ // |
---|
759 | // compile-command: "make install" // |
---|
760 | // End: // |
---|