[51587aa] | 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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[f1e012b] | 7 | // Specialize.cc -- |
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[51587aa] | 8 | // |
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| 9 | // Author : Richard C. Bilson |
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| 10 | // Created On : Mon May 18 07:44:20 2015 |
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[dd020c0] | 11 | // Last Modified By : Peter A. Buhr |
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[68fe077a] | 12 | // Last Modified On : Thu Mar 16 07:53:59 2017 |
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| 13 | // Update Count : 31 |
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[51587aa] | 14 | // |
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[51b7345] | 15 | |
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| 16 | #include <cassert> |
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| 17 | |
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| 18 | #include "Specialize.h" |
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[7754cde] | 19 | #include "GenPoly.h" |
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[51b7345] | 20 | #include "PolyMutator.h" |
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| 21 | |
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[68cd1ce] | 22 | #include "Parser/ParseNode.h" |
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| 23 | |
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[51b7345] | 24 | #include "SynTree/Expression.h" |
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[68cd1ce] | 25 | #include "SynTree/Statement.h" |
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[51b7345] | 26 | #include "SynTree/Type.h" |
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[64a32c6] | 27 | #include "SynTree/Attribute.h" |
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[51b7345] | 28 | #include "SynTree/TypeSubstitution.h" |
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| 29 | #include "SynTree/Mutator.h" |
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| 30 | #include "ResolvExpr/FindOpenVars.h" |
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[d3b7937] | 31 | #include "Common/UniqueName.h" |
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| 32 | #include "Common/utility.h" |
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[aedfd91] | 33 | #include "InitTweak/InitTweak.h" |
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[4c8621ac] | 34 | #include "Tuples/Tuples.h" |
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[51b7345] | 35 | |
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| 36 | namespace GenPoly { |
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[62e5546] | 37 | class Specialize final : public PolyMutator { |
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[01aeade] | 38 | public: |
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[62e5546] | 39 | using PolyMutator::mutate; |
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| 40 | virtual Expression * mutate( ApplicationExpr *applicationExpr ) override; |
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| 41 | virtual Expression * mutate( AddressExpr *castExpr ) override; |
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| 42 | virtual Expression * mutate( CastExpr *castExpr ) override; |
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[fea7ca7] | 43 | // virtual Expression * mutate( LogicalExpr *logicalExpr ); |
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| 44 | // virtual Expression * mutate( ConditionalExpr *conditionalExpr ); |
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| 45 | // virtual Expression * mutate( CommaExpr *commaExpr ); |
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[01aeade] | 46 | |
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| 47 | void handleExplicitParams( ApplicationExpr *appExpr ); |
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[f3b0a07] | 48 | Expression * createThunkFunction( FunctionType *funType, Expression *actual, InferredParams *inferParams ); |
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| 49 | Expression * doSpecialization( Type *formalType, Expression *actual, InferredParams *inferParams = nullptr ); |
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[626dbc10] | 50 | |
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| 51 | std::string paramPrefix = "_p"; |
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| 52 | }; |
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[01aeade] | 53 | |
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[698664b3] | 54 | /// Looks up open variables in actual type, returning true if any of them are bound in the environment or formal type. |
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[f3b0a07] | 55 | bool needsPolySpecialization( Type *formalType, Type *actualType, TypeSubstitution *env ) { |
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[01aeade] | 56 | if ( env ) { |
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| 57 | using namespace ResolvExpr; |
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| 58 | OpenVarSet openVars, closedVars; |
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| 59 | AssertionSet need, have; |
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| 60 | findOpenVars( formalType, openVars, closedVars, need, have, false ); |
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| 61 | findOpenVars( actualType, openVars, closedVars, need, have, true ); |
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| 62 | for ( OpenVarSet::const_iterator openVar = openVars.begin(); openVar != openVars.end(); ++openVar ) { |
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| 63 | Type *boundType = env->lookup( openVar->first ); |
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| 64 | if ( ! boundType ) continue; |
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| 65 | if ( TypeInstType *typeInst = dynamic_cast< TypeInstType* >( boundType ) ) { |
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| 66 | if ( closedVars.find( typeInst->get_name() ) == closedVars.end() ) { |
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| 67 | return true; |
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| 68 | } // if |
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| 69 | } else { |
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| 70 | return true; |
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| 71 | } // if |
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| 72 | } // for |
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| 73 | return false; |
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| 74 | } else { |
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| 75 | return false; |
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| 76 | } // if |
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| 77 | } |
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| 78 | |
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[dc0557d] | 79 | /// True if both types have the same structure, but not necessarily the same types. |
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| 80 | /// That is, either both types are tuple types with the same size (recursively), or |
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| 81 | /// both are not tuple types. |
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| 82 | bool matchingTupleStructure( Type * t1, Type * t2 ) { |
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| 83 | TupleType * tuple1 = dynamic_cast< TupleType * >( t1 ); |
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| 84 | TupleType * tuple2 = dynamic_cast< TupleType * >( t2 ); |
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| 85 | if ( tuple1 && tuple2 ) { |
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| 86 | if ( tuple1->size() != tuple2->size() ) return false; |
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| 87 | for ( auto types : group_iterate( tuple1->get_types(), tuple2->get_types() ) ) { |
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| 88 | if ( ! matchingTupleStructure( std::get<0>( types ), std::get<1>( types ) ) ) return false; |
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| 89 | } |
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| 90 | return true; |
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| 91 | } else if ( ! tuple1 && ! tuple2 ) return true; |
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| 92 | return false; |
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| 93 | } |
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| 94 | |
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[f3b0a07] | 95 | bool needsTupleSpecialization( Type *formalType, Type *actualType, TypeSubstitution *env ) { |
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[dc0557d] | 96 | // Needs tuple specialization if the structure of the formal type and actual type do not match. |
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| 97 | // This is the case if the formal type has ttype polymorphism, or if the structure of tuple types |
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| 98 | // between the function do not match exactly. |
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| 99 | if ( FunctionType * fftype = getFunctionType( formalType ) ) { |
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| 100 | if ( fftype->isTtype() ) return true; |
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| 101 | FunctionType * aftype = getFunctionType( actualType ); |
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| 102 | assertf( aftype, "formal type is a function type, but actual type is not." ); |
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| 103 | if ( fftype->get_parameters().size() != aftype->get_parameters().size() ) return true; |
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| 104 | for ( auto params : group_iterate( fftype->get_parameters(), aftype->get_parameters() ) ) { |
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| 105 | DeclarationWithType * formal = std::get<0>(params); |
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| 106 | DeclarationWithType * actual = std::get<1>(params); |
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| 107 | if ( ! matchingTupleStructure( formal->get_type(), actual->get_type() ) ) return true; |
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| 108 | } |
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[f3b0a07] | 109 | } |
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| 110 | return false; |
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| 111 | } |
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[698664b3] | 112 | |
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[f3b0a07] | 113 | bool needsSpecialization( Type *formalType, Type *actualType, TypeSubstitution *env ) { |
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| 114 | return needsPolySpecialization( formalType, actualType, env ) || needsTupleSpecialization( formalType, actualType, env ); |
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[698664b3] | 115 | } |
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[f1e012b] | 116 | |
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[f3b0a07] | 117 | Expression * Specialize::doSpecialization( Type *formalType, Expression *actual, InferredParams *inferParams ) { |
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[b3b2077] | 118 | assertf( actual->has_result(), "attempting to specialize an untyped expression" ); |
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[906e24d] | 119 | if ( needsSpecialization( formalType, actual->get_result(), env ) ) { |
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[6c3a988f] | 120 | if ( FunctionType *funType = getFunctionType( formalType ) ) { |
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[698664b3] | 121 | ApplicationExpr *appExpr; |
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| 122 | VariableExpr *varExpr; |
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| 123 | if ( ( appExpr = dynamic_cast<ApplicationExpr*>( actual ) ) ) { |
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| 124 | return createThunkFunction( funType, appExpr->get_function(), inferParams ); |
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| 125 | } else if ( ( varExpr = dynamic_cast<VariableExpr*>( actual ) ) ) { |
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| 126 | return createThunkFunction( funType, varExpr, inferParams ); |
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[01aeade] | 127 | } else { |
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[698664b3] | 128 | // This likely won't work, as anything that could build an ApplicationExpr probably hit one of the previous two branches |
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| 129 | return createThunkFunction( funType, actual, inferParams ); |
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| 130 | } |
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[01aeade] | 131 | } else { |
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| 132 | return actual; |
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| 133 | } // if |
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| 134 | } else { |
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| 135 | return actual; |
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| 136 | } // if |
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| 137 | } |
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| 138 | |
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[dc0557d] | 139 | /// restructures the arguments to match the structure of the formal parameters of the actual function. |
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| 140 | /// [begin, end) are the exploded arguments. |
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| 141 | template< typename Iterator, typename OutIterator > |
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| 142 | void structureArg( Type * type, Iterator & begin, Iterator end, OutIterator out ) { |
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| 143 | if ( TupleType * tuple = dynamic_cast< TupleType * >( type ) ) { |
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[64eae56] | 144 | std::list< Expression * > exprs; |
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[dc0557d] | 145 | for ( Type * t : *tuple ) { |
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| 146 | structureArg( t, begin, end, back_inserter( exprs ) ); |
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[64eae56] | 147 | } |
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| 148 | *out++ = new TupleExpr( exprs ); |
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| 149 | } else { |
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[dc0557d] | 150 | assertf( begin != end, "reached the end of the arguments while structuring" ); |
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| 151 | *out++ = *begin++; |
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[64eae56] | 152 | } |
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| 153 | } |
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| 154 | |
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[dc0557d] | 155 | /// explode assuming simple cases: either type is pure tuple (but not tuple expr) or type is non-tuple. |
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| 156 | template< typename OutputIterator > |
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| 157 | void explodeSimple( Expression * expr, OutputIterator out ) { |
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| 158 | if ( TupleType * tupleType = dynamic_cast< TupleType * > ( expr->get_result() ) ) { |
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| 159 | // tuple type, recursively index into its components |
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| 160 | for ( unsigned int i = 0; i < tupleType->size(); i++ ) { |
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| 161 | explodeSimple( new TupleIndexExpr( expr->clone(), i ), out ); |
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[f3b0a07] | 162 | } |
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[dc0557d] | 163 | delete expr; |
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| 164 | } else { |
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| 165 | // non-tuple type - output a clone of the expression |
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| 166 | *out++ = expr; |
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[626dbc10] | 167 | } |
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| 168 | } |
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| 169 | |
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[623ecf3] | 170 | struct EnvTrimmer : public Visitor { |
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| 171 | TypeSubstitution * env, * newEnv; |
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| 172 | EnvTrimmer( TypeSubstitution * env, TypeSubstitution * newEnv ) : env( env ), newEnv( newEnv ){} |
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| 173 | virtual void visit( TypeDecl * tyDecl ) { |
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| 174 | // transfer known bindings for seen type variables |
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| 175 | if ( Type * t = env->lookup( tyDecl->get_name() ) ) { |
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| 176 | newEnv->add( tyDecl->get_name(), t ); |
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| 177 | } |
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| 178 | } |
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| 179 | }; |
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| 180 | |
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| 181 | /// reduce environment to just the parts that are referenced in a given expression |
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| 182 | TypeSubstitution * trimEnv( ApplicationExpr * expr, TypeSubstitution * env ) { |
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| 183 | if ( env ) { |
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| 184 | TypeSubstitution * newEnv = new TypeSubstitution(); |
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| 185 | EnvTrimmer trimmer( env, newEnv ); |
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| 186 | expr->accept( trimmer ); |
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| 187 | return newEnv; |
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| 188 | } |
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| 189 | return nullptr; |
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| 190 | } |
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| 191 | |
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[f3b0a07] | 192 | /// Generates a thunk that calls `actual` with type `funType` and returns its address |
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| 193 | Expression * Specialize::createThunkFunction( FunctionType *funType, Expression *actual, InferredParams *inferParams ) { |
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| 194 | static UniqueName thunkNamer( "_thunk" ); |
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[626dbc10] | 195 | |
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| 196 | FunctionType *newType = funType->clone(); |
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| 197 | if ( env ) { |
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| 198 | // it is important to replace only occurrences of type variables that occur free in the |
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| 199 | // thunk's type |
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[6c3a988f] | 200 | env->applyFree( newType ); |
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[626dbc10] | 201 | } // if |
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| 202 | // create new thunk with same signature as formal type (C linkage, empty body) |
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[68fe077a] | 203 | FunctionDecl *thunkFunc = new FunctionDecl( thunkNamer.newName(), Type::StorageClasses(), LinkageSpec::C, newType, new CompoundStmt( noLabels ) ); |
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[626dbc10] | 204 | thunkFunc->fixUniqueId(); |
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| 205 | |
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| 206 | // thunks may be generated and not used - silence warning with attribute |
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| 207 | thunkFunc->get_attributes().push_back( new Attribute( "unused" ) ); |
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| 208 | |
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| 209 | // thread thunk parameters into call to actual function, naming thunk parameters as we go |
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| 210 | UniqueName paramNamer( paramPrefix ); |
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| 211 | ApplicationExpr *appExpr = new ApplicationExpr( actual ); |
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| 212 | |
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[6c3a988f] | 213 | FunctionType * actualType = getFunctionType( actual->get_result() )->clone(); |
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| 214 | if ( env ) { |
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| 215 | // need to apply the environment to the actual function's type, since it may itself be polymorphic |
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| 216 | env->apply( actualType ); |
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| 217 | } |
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| 218 | std::unique_ptr< FunctionType > actualTypeManager( actualType ); // for RAII |
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[4c8621ac] | 219 | std::list< DeclarationWithType * >::iterator actualBegin = actualType->get_parameters().begin(); |
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| 220 | std::list< DeclarationWithType * >::iterator actualEnd = actualType->get_parameters().end(); |
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[626dbc10] | 221 | |
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[dc0557d] | 222 | std::list< Expression * > args; |
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[626dbc10] | 223 | for ( DeclarationWithType* param : thunkFunc->get_functionType()->get_parameters() ) { |
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[dc0557d] | 224 | // name each thunk parameter and explode it - these are then threaded back into the actual function call. |
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[626dbc10] | 225 | param->set_name( paramNamer.newName() ); |
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[dc0557d] | 226 | explodeSimple( new VariableExpr( param ), back_inserter( args ) ); |
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| 227 | } |
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| 228 | |
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| 229 | // walk parameters to the actual function alongside the exploded thunk parameters and restructure the arguments to match the actual parameters. |
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| 230 | std::list< Expression * >::iterator argBegin = args.begin(), argEnd = args.end(); |
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| 231 | for ( ; actualBegin != actualEnd; ++actualBegin ) { |
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| 232 | structureArg( (*actualBegin)->get_type(), argBegin, argEnd, back_inserter( appExpr->get_args() ) ); |
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| 233 | } |
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[4c8621ac] | 234 | |
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[623ecf3] | 235 | appExpr->set_env( trimEnv( appExpr, env ) ); |
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[626dbc10] | 236 | if ( inferParams ) { |
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| 237 | appExpr->get_inferParams() = *inferParams; |
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| 238 | } // if |
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| 239 | |
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| 240 | // handle any specializations that may still be present |
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| 241 | std::string oldParamPrefix = paramPrefix; |
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| 242 | paramPrefix += "p"; |
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| 243 | // save stmtsToAdd in oldStmts |
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| 244 | std::list< Statement* > oldStmts; |
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| 245 | oldStmts.splice( oldStmts.end(), stmtsToAdd ); |
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[f3b0a07] | 246 | mutate( appExpr ); |
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[626dbc10] | 247 | paramPrefix = oldParamPrefix; |
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| 248 | // write any statements added for recursive specializations into the thunk body |
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| 249 | thunkFunc->get_statements()->get_kids().splice( thunkFunc->get_statements()->get_kids().end(), stmtsToAdd ); |
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| 250 | // restore oldStmts into stmtsToAdd |
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| 251 | stmtsToAdd.splice( stmtsToAdd.end(), oldStmts ); |
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| 252 | |
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| 253 | // add return (or valueless expression) to the thunk |
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| 254 | Statement *appStmt; |
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| 255 | if ( funType->get_returnVals().empty() ) { |
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| 256 | appStmt = new ExprStmt( noLabels, appExpr ); |
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| 257 | } else { |
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| 258 | appStmt = new ReturnStmt( noLabels, appExpr ); |
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| 259 | } // if |
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| 260 | thunkFunc->get_statements()->get_kids().push_back( appStmt ); |
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| 261 | |
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| 262 | // add thunk definition to queue of statements to add |
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| 263 | stmtsToAdd.push_back( new DeclStmt( noLabels, thunkFunc ) ); |
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| 264 | // return address of thunk function as replacement expression |
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| 265 | return new AddressExpr( new VariableExpr( thunkFunc ) ); |
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| 266 | } |
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| 267 | |
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[01aeade] | 268 | void Specialize::handleExplicitParams( ApplicationExpr *appExpr ) { |
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| 269 | // create thunks for the explicit parameters |
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[906e24d] | 270 | assert( appExpr->get_function()->has_result() ); |
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| 271 | FunctionType *function = getFunctionType( appExpr->get_function()->get_result() ); |
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[698664b3] | 272 | assert( function ); |
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[01aeade] | 273 | std::list< DeclarationWithType* >::iterator formal; |
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| 274 | std::list< Expression* >::iterator actual; |
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| 275 | for ( formal = function->get_parameters().begin(), actual = appExpr->get_args().begin(); formal != function->get_parameters().end() && actual != appExpr->get_args().end(); ++formal, ++actual ) { |
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[f3b0a07] | 276 | *actual = doSpecialization( (*formal )->get_type(), *actual, &appExpr->get_inferParams() ); |
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[01aeade] | 277 | } |
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| 278 | } |
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| 279 | |
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| 280 | Expression * Specialize::mutate( ApplicationExpr *appExpr ) { |
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| 281 | appExpr->get_function()->acceptMutator( *this ); |
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| 282 | mutateAll( appExpr->get_args(), *this ); |
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| 283 | |
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[aedfd91] | 284 | if ( ! InitTweak::isIntrinsicCallExpr( appExpr ) ) { |
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| 285 | // create thunks for the inferred parameters |
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| 286 | // don't need to do this for intrinsic calls, because they aren't actually passed |
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[f3b0a07] | 287 | // need to handle explicit params before inferred params so that explicit params do not recieve a changed set of inferParams (and change them again) |
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| 288 | // alternatively, if order starts to matter then copy appExpr's inferParams and pass them to handleExplicitParams. |
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| 289 | handleExplicitParams( appExpr ); |
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[aedfd91] | 290 | for ( InferredParams::iterator inferParam = appExpr->get_inferParams().begin(); inferParam != appExpr->get_inferParams().end(); ++inferParam ) { |
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[f3b0a07] | 291 | inferParam->second.expr = doSpecialization( inferParam->second.formalType, inferParam->second.expr, inferParam->second.inferParams.get() ); |
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[aedfd91] | 292 | } |
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| 293 | } |
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[01aeade] | 294 | return appExpr; |
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| 295 | } |
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| 296 | |
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| 297 | Expression * Specialize::mutate( AddressExpr *addrExpr ) { |
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| 298 | addrExpr->get_arg()->acceptMutator( *this ); |
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[906e24d] | 299 | assert( addrExpr->has_result() ); |
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[f3b0a07] | 300 | addrExpr->set_arg( doSpecialization( addrExpr->get_result(), addrExpr->get_arg() ) ); |
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[01aeade] | 301 | return addrExpr; |
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| 302 | } |
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| 303 | |
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| 304 | Expression * Specialize::mutate( CastExpr *castExpr ) { |
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| 305 | castExpr->get_arg()->acceptMutator( *this ); |
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[906e24d] | 306 | if ( castExpr->get_result()->isVoid() ) { |
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[803deb1] | 307 | // can't specialize if we don't have a return value |
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| 308 | return castExpr; |
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| 309 | } |
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[f3b0a07] | 310 | Expression *specialized = doSpecialization( castExpr->get_result(), castExpr->get_arg() ); |
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[698664b3] | 311 | if ( specialized != castExpr->get_arg() ) { |
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| 312 | // assume here that the specialization incorporates the cast |
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| 313 | return specialized; |
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| 314 | } else { |
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| 315 | return castExpr; |
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| 316 | } |
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[01aeade] | 317 | } |
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| 318 | |
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[fea7ca7] | 319 | // Removing these for now. Richard put these in for some reason, but it's not clear why. |
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| 320 | // In particular, copy constructors produce a comma expression, and with this code the parts |
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| 321 | // of that comma expression are not specialized, which causes problems. |
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[01aeade] | 322 | |
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[fea7ca7] | 323 | // Expression * Specialize::mutate( LogicalExpr *logicalExpr ) { |
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| 324 | // return logicalExpr; |
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| 325 | // } |
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[01aeade] | 326 | |
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[fea7ca7] | 327 | // Expression * Specialize::mutate( ConditionalExpr *condExpr ) { |
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| 328 | // return condExpr; |
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| 329 | // } |
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| 330 | |
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| 331 | // Expression * Specialize::mutate( CommaExpr *commaExpr ) { |
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| 332 | // return commaExpr; |
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| 333 | // } |
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[626dbc10] | 334 | |
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| 335 | void convertSpecializations( std::list< Declaration* >& translationUnit ) { |
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| 336 | Specialize spec; |
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| 337 | mutateAll( translationUnit, spec ); |
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| 338 | } |
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[51b7345] | 339 | } // namespace GenPoly |
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[01aeade] | 340 | |
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[51587aa] | 341 | // Local Variables: // |
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| 342 | // tab-width: 4 // |
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| 343 | // mode: c++ // |
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| 344 | // compile-command: "make install" // |
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| 345 | // End: // |
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