[6eb8948] | 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 | // TupleAssignment.cc -- |
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| 8 | // |
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| 9 | // Author : Rodolfo G. Esteves |
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| 10 | // Created On : Mon May 18 07:44:20 2015 |
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[07de76b] | 11 | // Last Modified By : Peter A. Buhr |
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| 12 | // Last Modified On : Fri Dec 13 23:45:51 2019 |
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| 13 | // Update Count : 24 |
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[6eb8948] | 14 | // |
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| 15 | |
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[03321e4] | 16 | #include <stddef.h> // for size_t |
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| 17 | #include <cassert> // for assert |
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| 18 | #include <list> // for list |
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[9b4f329] | 19 | #include <vector> |
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[03321e4] | 20 | |
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[9b4f329] | 21 | #include "AST/CVQualifiers.hpp" |
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| 22 | #include "AST/Expr.hpp" |
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| 23 | #include "AST/Node.hpp" |
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| 24 | #include "AST/Type.hpp" |
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[03321e4] | 25 | #include "Common/PassVisitor.h" // for PassVisitor, WithDeclsToAdd, WithGu... |
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| 26 | #include "Common/ScopedMap.h" // for ScopedMap |
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| 27 | #include "Common/utility.h" // for CodeLocation |
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| 28 | #include "InitTweak/InitTweak.h" // for getFunction |
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[07de76b] | 29 | #include "SynTree/LinkageSpec.h" // for Spec, C, Intrinsic |
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[03321e4] | 30 | #include "SynTree/Constant.h" // for Constant |
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| 31 | #include "SynTree/Declaration.h" // for StructDecl, DeclarationWithType |
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| 32 | #include "SynTree/Expression.h" // for UntypedMemberExpr, Expression, Uniq... |
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| 33 | #include "SynTree/Label.h" // for operator==, Label |
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| 34 | #include "SynTree/Mutator.h" // for Mutator |
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| 35 | #include "SynTree/Type.h" // for Type, Type::Qualifiers, TupleType |
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| 36 | #include "SynTree/Visitor.h" // for Visitor |
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[aee472e] | 37 | #include "Tuples.h" |
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[03321e4] | 38 | |
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| 39 | class CompoundStmt; |
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| 40 | class TypeSubstitution; |
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[6eb8948] | 41 | |
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| 42 | namespace Tuples { |
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[3c13c03] | 43 | namespace { |
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[f240484] | 44 | struct MemberTupleExpander final : public WithShortCircuiting, public WithVisitorRef<MemberTupleExpander> { |
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| 45 | void premutate( UntypedMemberExpr * ) { visit_children = false; } |
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| 46 | Expression * postmutate( UntypedMemberExpr * memberExpr ); |
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[bf32bb8] | 47 | }; |
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| 48 | |
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[9f10c4b8] | 49 | struct UniqueExprExpander final : public WithDeclsToAdd { |
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| 50 | Expression * postmutate( UniqueExpr * unqExpr ); |
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[141b786] | 51 | |
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| 52 | std::map< int, Expression * > decls; // not vector, because order added may not be increasing order |
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| 53 | |
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| 54 | ~UniqueExprExpander() { |
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| 55 | for ( std::pair<const int, Expression *> & p : decls ) { |
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| 56 | delete p.second; |
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| 57 | } |
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| 58 | } |
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[3c13c03] | 59 | }; |
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| 60 | |
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[9f10c4b8] | 61 | struct TupleAssignExpander { |
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| 62 | Expression * postmutate( TupleAssignExpr * tupleExpr ); |
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[3c13c03] | 63 | }; |
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| 64 | |
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[02fdb8e] | 65 | struct TupleTypeReplacer : public WithDeclsToAdd, public WithGuards, public WithConstTypeSubstitution { |
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[c92c09c] | 66 | Type * postmutate( TupleType * tupleType ); |
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[3c13c03] | 67 | |
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[c92c09c] | 68 | void premutate( CompoundStmt * ) { |
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| 69 | GuardScope( typeMap ); |
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[3c13c03] | 70 | } |
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| 71 | private: |
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[e6512c8] | 72 | ScopedMap< int, StructDecl * > typeMap; |
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[3c13c03] | 73 | }; |
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| 74 | |
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[c93bc28] | 75 | struct TupleIndexExpander { |
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[ab904dc] | 76 | Expression * postmutate( TupleIndexExpr * tupleExpr ); |
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[3c13c03] | 77 | }; |
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| 78 | |
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[9f10c4b8] | 79 | struct TupleExprExpander final { |
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| 80 | Expression * postmutate( TupleExpr * tupleExpr ); |
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[3c13c03] | 81 | }; |
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| 82 | } |
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[f006f01] | 83 | |
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[bf32bb8] | 84 | void expandMemberTuples( std::list< Declaration * > & translationUnit ) { |
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[f240484] | 85 | PassVisitor<MemberTupleExpander> expander; |
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[bf32bb8] | 86 | mutateAll( translationUnit, expander ); |
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| 87 | } |
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| 88 | |
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[aefcc3b] | 89 | void expandUniqueExpr( std::list< Declaration * > & translationUnit ) { |
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[9f10c4b8] | 90 | PassVisitor<UniqueExprExpander> unqExpander; |
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| 91 | mutateAll( translationUnit, unqExpander ); |
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[aefcc3b] | 92 | } |
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[3c13c03] | 93 | |
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[aefcc3b] | 94 | void expandTuples( std::list< Declaration * > & translationUnit ) { |
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[9f10c4b8] | 95 | PassVisitor<TupleAssignExpander> assnExpander; |
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[3c13c03] | 96 | mutateAll( translationUnit, assnExpander ); |
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[f006f01] | 97 | |
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[c92c09c] | 98 | PassVisitor<TupleTypeReplacer> replacer; |
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| 99 | mutateAll( translationUnit, replacer ); |
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[3c13c03] | 100 | |
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[ab904dc] | 101 | PassVisitor<TupleIndexExpander> idxExpander; |
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[3c13c03] | 102 | mutateAll( translationUnit, idxExpander ); |
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| 103 | |
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[9f10c4b8] | 104 | PassVisitor<TupleExprExpander> exprExpander; |
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[3c13c03] | 105 | mutateAll( translationUnit, exprExpander ); |
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| 106 | } |
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| 107 | |
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[bf32bb8] | 108 | namespace { |
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| 109 | /// given a expression representing the member and an expression representing the aggregate, |
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| 110 | /// reconstructs a flattened UntypedMemberExpr with the right precedence |
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[64ac636] | 111 | Expression * reconstructMemberExpr( Expression * member, Expression * aggr, CodeLocation & loc ) { |
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[bf32bb8] | 112 | if ( UntypedMemberExpr * memberExpr = dynamic_cast< UntypedMemberExpr * >( member ) ) { |
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| 113 | // construct a new UntypedMemberExpr with the correct structure , and recursively |
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| 114 | // expand that member expression. |
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[f240484] | 115 | PassVisitor<MemberTupleExpander> expander; |
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| 116 | UntypedMemberExpr * inner = new UntypedMemberExpr( memberExpr->aggregate, aggr->clone() ); |
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| 117 | UntypedMemberExpr * newMemberExpr = new UntypedMemberExpr( memberExpr->member, inner ); |
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[64ac636] | 118 | inner->location = newMemberExpr->location = loc; |
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[f240484] | 119 | memberExpr->member = nullptr; |
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| 120 | memberExpr->aggregate = nullptr; |
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[bf32bb8] | 121 | delete memberExpr; |
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| 122 | return newMemberExpr->acceptMutator( expander ); |
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| 123 | } else { |
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| 124 | // not a member expression, so there is nothing to do but attach and return |
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[64ac636] | 125 | UntypedMemberExpr * newMemberExpr = new UntypedMemberExpr( member, aggr->clone() ); |
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| 126 | newMemberExpr->location = loc; |
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| 127 | return newMemberExpr; |
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[bf32bb8] | 128 | } |
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| 129 | } |
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| 130 | } |
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| 131 | |
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[f240484] | 132 | Expression * MemberTupleExpander::postmutate( UntypedMemberExpr * memberExpr ) { |
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| 133 | if ( UntypedTupleExpr * tupleExpr = dynamic_cast< UntypedTupleExpr * > ( memberExpr->member ) ) { |
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| 134 | Expression * aggr = memberExpr->aggregate->clone()->acceptMutator( *visitor ); |
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[141b786] | 135 | // aggregate expressions which might be impure must be wrapped in unique expressions |
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[aee472e] | 136 | if ( Tuples::maybeImpureIgnoreUnique( memberExpr->aggregate ) ) aggr = new UniqueExpr( aggr ); |
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[f240484] | 137 | for ( Expression *& expr : tupleExpr->exprs ) { |
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[64ac636] | 138 | expr = reconstructMemberExpr( expr, aggr, memberExpr->location ); |
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| 139 | expr->location = memberExpr->location; |
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[bf32bb8] | 140 | } |
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[141b786] | 141 | delete aggr; |
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[64ac636] | 142 | tupleExpr->location = memberExpr->location; |
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[bf32bb8] | 143 | return tupleExpr; |
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| 144 | } else { |
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[f0121d7] | 145 | // there may be a tuple expr buried in the aggregate |
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| 146 | // xxx - this is a memory leak |
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[f240484] | 147 | UntypedMemberExpr * newMemberExpr = new UntypedMemberExpr( memberExpr->member->clone(), memberExpr->aggregate->acceptMutator( *visitor ) ); |
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[64ac636] | 148 | newMemberExpr->location = memberExpr->location; |
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| 149 | return newMemberExpr; |
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[bf32bb8] | 150 | } |
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| 151 | } |
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| 152 | |
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[9f10c4b8] | 153 | Expression * UniqueExprExpander::postmutate( UniqueExpr * unqExpr ) { |
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[141b786] | 154 | const int id = unqExpr->get_id(); |
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| 155 | |
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| 156 | // on first time visiting a unique expr with a particular ID, generate the expression that replaces all UniqueExprs with that ID, |
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| 157 | // and lookup on subsequent hits. This ensures that all unique exprs with the same ID reference the same variable. |
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| 158 | if ( ! decls.count( id ) ) { |
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| 159 | Expression * assignUnq; |
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| 160 | Expression * var = unqExpr->get_var(); |
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| 161 | if ( unqExpr->get_object() ) { |
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| 162 | // an object was generated to represent this unique expression -- it should be added to the list of declarations now |
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[9f10c4b8] | 163 | declsToAddBefore.push_back( unqExpr->get_object() ); |
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[141b786] | 164 | unqExpr->set_object( nullptr ); |
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| 165 | // steal the expr from the unqExpr |
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| 166 | assignUnq = UntypedExpr::createAssign( unqExpr->get_var()->clone(), unqExpr->get_expr() ); |
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| 167 | unqExpr->set_expr( nullptr ); |
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| 168 | } else { |
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| 169 | // steal the already generated assignment to var from the unqExpr - this has been generated by FixInit |
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| 170 | Expression * expr = unqExpr->get_expr(); |
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[e3e16bc] | 171 | CommaExpr * commaExpr = strict_dynamic_cast< CommaExpr * >( expr ); |
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[141b786] | 172 | assignUnq = commaExpr->get_arg1(); |
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| 173 | commaExpr->set_arg1( nullptr ); |
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| 174 | } |
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[e15853c] | 175 | ObjectDecl * finished = new ObjectDecl( toString( "_unq", id, "_finished_" ), Type::StorageClasses(), LinkageSpec::Cforall, nullptr, new BasicType( Type::Qualifiers(), BasicType::Bool ), |
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[579263a] | 176 | new SingleInit( new ConstantExpr( Constant::from_int( 0 ) ) ) ); |
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[9f10c4b8] | 177 | declsToAddBefore.push_back( finished ); |
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[141b786] | 178 | // (finished ? _unq_expr_N : (_unq_expr_N = <unqExpr->get_expr()>, finished = 1, _unq_expr_N)) |
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| 179 | // This pattern ensures that each unique expression is evaluated once, regardless of evaluation order of the generated C code. |
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[d56e5bc] | 180 | Expression * assignFinished = UntypedExpr::createAssign( new VariableExpr(finished), new ConstantExpr( Constant::from_int( 1 ) ) ); |
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[141b786] | 181 | ConditionalExpr * condExpr = new ConditionalExpr( new VariableExpr( finished ), var->clone(), |
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| 182 | new CommaExpr( new CommaExpr( assignUnq, assignFinished ), var->clone() ) ); |
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| 183 | condExpr->set_result( var->get_result()->clone() ); |
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[d5556a3] | 184 | condExpr->set_env( maybeClone( unqExpr->get_env() ) ); |
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[141b786] | 185 | decls[id] = condExpr; |
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[3c13c03] | 186 | } |
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[141b786] | 187 | delete unqExpr; |
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| 188 | return decls[id]->clone(); |
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[6eb8948] | 189 | } |
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| 190 | |
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[9f10c4b8] | 191 | Expression * TupleAssignExpander::postmutate( TupleAssignExpr * assnExpr ) { |
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[d5556a3] | 192 | StmtExpr * ret = assnExpr->get_stmtExpr(); |
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| 193 | assnExpr->set_stmtExpr( nullptr ); |
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| 194 | // move env to StmtExpr |
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| 195 | ret->set_env( assnExpr->get_env() ); |
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| 196 | assnExpr->set_env( nullptr ); |
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[3c13c03] | 197 | delete assnExpr; |
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[d5556a3] | 198 | return ret; |
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[6eb8948] | 199 | } |
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| 200 | |
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[c92c09c] | 201 | Type * TupleTypeReplacer::postmutate( TupleType * tupleType ) { |
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[e6512c8] | 202 | unsigned tupleSize = tupleType->size(); |
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| 203 | if ( ! typeMap.count( tupleSize ) ) { |
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| 204 | // generate struct type to replace tuple type based on the number of components in the tuple |
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[94a8123] | 205 | StructDecl * decl = new StructDecl( toString( "_tuple", tupleSize, "_" ) ); |
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[c470ada] | 206 | decl->location = tupleType->location; |
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[f006f01] | 207 | decl->set_body( true ); |
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[e6512c8] | 208 | for ( size_t i = 0; i < tupleSize; ++i ) { |
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[f0ecf9b] | 209 | TypeDecl * tyParam = new TypeDecl( toString( "tuple_param_", tupleSize, "_", i ), Type::StorageClasses(), nullptr, TypeDecl::Dtype, true ); |
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[68fe077a] | 210 | decl->get_members().push_back( new ObjectDecl( toString("field_", i ), Type::StorageClasses(), LinkageSpec::C, nullptr, new TypeInstType( Type::Qualifiers(), tyParam->get_name(), tyParam ), nullptr ) ); |
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[d9fa60a] | 211 | decl->get_parameters().push_back( tyParam ); |
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[f006f01] | 212 | } |
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[e6512c8] | 213 | if ( tupleSize == 0 ) { |
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[4c8621ac] | 214 | // empty structs are not standard C. Add a dummy field to empty tuples to silence warnings when a compound literal Tuple0 is created. |
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[68fe077a] | 215 | decl->get_members().push_back( new ObjectDecl( "dummy", Type::StorageClasses(), LinkageSpec::C, nullptr, new BasicType( Type::Qualifiers(), BasicType::SignedInt ), nullptr ) ); |
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[4c8621ac] | 216 | } |
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[e6512c8] | 217 | typeMap[tupleSize] = decl; |
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[c92c09c] | 218 | declsToAddBefore.push_back( decl ); |
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[f006f01] | 219 | } |
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[d9fa60a] | 220 | Type::Qualifiers qualifiers = tupleType->get_qualifiers(); |
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| 221 | |
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[e6512c8] | 222 | StructDecl * decl = typeMap[tupleSize]; |
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[d9fa60a] | 223 | StructInstType * newType = new StructInstType( qualifiers, decl ); |
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[c92c09c] | 224 | for ( auto p : group_iterate( tupleType->get_types(), decl->get_parameters() ) ) { |
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| 225 | Type * t = std::get<0>(p); |
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[d9fa60a] | 226 | newType->get_parameters().push_back( new TypeExpr( t->clone() ) ); |
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| 227 | } |
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| 228 | delete tupleType; |
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| 229 | return newType; |
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[f006f01] | 230 | } |
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| 231 | |
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[ab904dc] | 232 | Expression * TupleIndexExpander::postmutate( TupleIndexExpr * tupleExpr ) { |
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[4f68f6d] | 233 | Expression * tuple = tupleExpr->tuple; |
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[3c13c03] | 234 | assert( tuple ); |
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[4f68f6d] | 235 | tupleExpr->tuple = nullptr; |
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| 236 | unsigned int idx = tupleExpr->index; |
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| 237 | TypeSubstitution * env = tupleExpr->env; |
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| 238 | tupleExpr->env = nullptr; |
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[3c13c03] | 239 | delete tupleExpr; |
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| 240 | |
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[aee472e] | 241 | if ( TupleExpr * tupleExpr = dynamic_cast< TupleExpr * > ( tuple ) ) { |
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| 242 | if ( ! maybeImpureIgnoreUnique( tupleExpr ) ) { |
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| 243 | // optimization: definitely pure tuple expr => can reduce to the only relevant component. |
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| 244 | assert( tupleExpr->exprs.size() > idx ); |
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| 245 | Expression *& expr = *std::next(tupleExpr->exprs.begin(), idx); |
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| 246 | Expression * ret = expr; |
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| 247 | ret->env = env; |
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| 248 | expr = nullptr; // remove from list so it can safely be deleted |
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| 249 | delete tupleExpr; |
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| 250 | return ret; |
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| 251 | } |
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| 252 | } |
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| 253 | |
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[4f68f6d] | 254 | StructInstType * type = strict_dynamic_cast< StructInstType * >( tuple->result ); |
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| 255 | StructDecl * structDecl = type->baseStruct; |
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| 256 | assert( structDecl->members.size() > idx ); |
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| 257 | Declaration * member = *std::next(structDecl->members.begin(), idx); |
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[e3e16bc] | 258 | MemberExpr * memExpr = new MemberExpr( strict_dynamic_cast< DeclarationWithType * >( member ), tuple ); |
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[4f68f6d] | 259 | memExpr->env = env; |
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[d5556a3] | 260 | return memExpr; |
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[3c13c03] | 261 | } |
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| 262 | |
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[d5556a3] | 263 | Expression * replaceTupleExpr( Type * result, const std::list< Expression * > & exprs, TypeSubstitution * env ) { |
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[65660bd] | 264 | if ( result->isVoid() ) { |
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| 265 | // void result - don't need to produce a value for cascading - just output a chain of comma exprs |
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| 266 | assert( ! exprs.empty() ); |
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| 267 | std::list< Expression * >::const_iterator iter = exprs.begin(); |
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[d5556a3] | 268 | Expression * expr = new CastExpr( *iter++ ); |
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[65660bd] | 269 | for ( ; iter != exprs.end(); ++iter ) { |
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[d5556a3] | 270 | expr = new CommaExpr( expr, new CastExpr( *iter ) ); |
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[65660bd] | 271 | } |
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[d5556a3] | 272 | expr->set_env( env ); |
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[65660bd] | 273 | return expr; |
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| 274 | } else { |
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| 275 | // typed tuple expression - produce a compound literal which performs each of the expressions |
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| 276 | // as a distinct part of its initializer - the produced compound literal may be used as part of |
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| 277 | // another expression |
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| 278 | std::list< Initializer * > inits; |
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| 279 | for ( Expression * expr : exprs ) { |
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| 280 | inits.push_back( new SingleInit( expr ) ); |
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| 281 | } |
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[d5556a3] | 282 | Expression * expr = new CompoundLiteralExpr( result, new ListInit( inits ) ); |
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| 283 | expr->set_env( env ); |
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| 284 | return expr; |
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[3c13c03] | 285 | } |
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| 286 | } |
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| 287 | |
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[9f10c4b8] | 288 | Expression * TupleExprExpander::postmutate( TupleExpr * tupleExpr ) { |
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[65660bd] | 289 | Type * result = tupleExpr->get_result(); |
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| 290 | std::list< Expression * > exprs = tupleExpr->get_exprs(); |
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| 291 | assert( result ); |
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[d5556a3] | 292 | TypeSubstitution * env = tupleExpr->get_env(); |
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[65660bd] | 293 | |
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[bf32bb8] | 294 | // remove data from shell and delete it |
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[65660bd] | 295 | tupleExpr->set_result( nullptr ); |
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| 296 | tupleExpr->get_exprs().clear(); |
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[d5556a3] | 297 | tupleExpr->set_env( nullptr ); |
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[65660bd] | 298 | delete tupleExpr; |
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| 299 | |
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[d5556a3] | 300 | return replaceTupleExpr( result, exprs, env ); |
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[65660bd] | 301 | } |
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| 302 | |
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| 303 | Type * makeTupleType( const std::list< Expression * > & exprs ) { |
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| 304 | // produce the TupleType which aggregates the types of the exprs |
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[62423350] | 305 | std::list< Type * > types; |
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[b4f8808] | 306 | Type::Qualifiers qualifiers( Type::Const | Type::Volatile | Type::Restrict | Type::Atomic | Type::Mutex ); |
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[3c13c03] | 307 | for ( Expression * expr : exprs ) { |
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| 308 | assert( expr->get_result() ); |
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[65660bd] | 309 | if ( expr->get_result()->isVoid() ) { |
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| 310 | // if the type of any expr is void, the type of the entire tuple is void |
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| 311 | return new VoidType( Type::Qualifiers() ); |
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| 312 | } |
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[3c13c03] | 313 | Type * type = expr->get_result()->clone(); |
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[62423350] | 314 | types.push_back( type ); |
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[65660bd] | 315 | // the qualifiers on the tuple type are the qualifiers that exist on all component types |
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[3c13c03] | 316 | qualifiers &= type->get_qualifiers(); |
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| 317 | } // for |
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[907eccb] | 318 | if ( exprs.empty() ) qualifiers = Type::Qualifiers(); |
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[62423350] | 319 | return new TupleType( qualifiers, types ); |
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[3c13c03] | 320 | } |
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[9b4f329] | 321 | const ast::Type * makeTupleType( const std::vector<ast::ptr<ast::Expr>> & exprs ) { |
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[3ca912a] | 322 | // produce the TupleType which aggregates the types of the exprs |
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| 323 | std::vector<ast::ptr<ast::Type>> types; |
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| 324 | ast::CV::Qualifiers quals{ |
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[3f3bfe5a] | 325 | ast::CV::Const | ast::CV::Volatile | ast::CV::Restrict | |
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[3ca912a] | 326 | ast::CV::Atomic | ast::CV::Mutex }; |
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| 327 | |
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| 328 | for ( const ast::Expr * expr : exprs ) { |
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| 329 | assert( expr->result ); |
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| 330 | // if the type of any expr is void, the type of the entire tuple is void |
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| 331 | if ( expr->result->isVoid() ) return new ast::VoidType{}; |
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| 332 | |
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| 333 | // qualifiers on the tuple type are the qualifiers that exist on all components |
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| 334 | quals &= expr->result->qualifiers; |
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| 335 | |
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| 336 | types.emplace_back( expr->result ); |
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| 337 | } |
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| 338 | |
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| 339 | if ( exprs.empty() ) { quals = ast::CV::Qualifiers{}; } |
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| 340 | return new ast::TupleType{ std::move(types), quals }; |
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[9b4f329] | 341 | } |
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[65660bd] | 342 | |
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[8bf784a] | 343 | TypeInstType * isTtype( Type * type ) { |
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| 344 | if ( TypeInstType * inst = dynamic_cast< TypeInstType * >( type ) ) { |
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[0b150ec] | 345 | if ( inst->get_baseType() && inst->get_baseType()->get_kind() == TypeDecl::Ttype ) { |
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[8bf784a] | 346 | return inst; |
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| 347 | } |
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| 348 | } |
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| 349 | return nullptr; |
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| 350 | } |
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| 351 | |
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[fd642d2] | 352 | const TypeInstType * isTtype( const Type * type ) { |
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| 353 | if ( const TypeInstType * inst = dynamic_cast< const TypeInstType * >( type ) ) { |
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| 354 | if ( inst->baseType && inst->baseType->kind == TypeDecl::Ttype ) { |
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| 355 | return inst; |
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| 356 | } |
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| 357 | } |
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| 358 | return nullptr; |
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| 359 | } |
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| 360 | |
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[0588d8c] | 361 | const ast::TypeInstType * isTtype( const ast::Type * type ) { |
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[3ca912a] | 362 | if ( const ast::TypeInstType * inst = dynamic_cast< const ast::TypeInstType * >( type ) ) { |
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[07de76b] | 363 | if ( inst->base && inst->base->kind == ast::TypeDecl::Ttype ) { |
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[3ca912a] | 364 | return inst; |
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| 365 | } |
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| 366 | } |
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[0588d8c] | 367 | return nullptr; |
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| 368 | } |
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| 369 | |
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[65660bd] | 370 | namespace { |
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| 371 | /// determines if impurity (read: side-effects) may exist in a piece of code. Currently gives a very crude approximation, wherein any function call expression means the code may be impure |
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[027c496] | 372 | struct ImpurityDetector : public WithShortCircuiting { |
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[9f10c4b8] | 373 | ImpurityDetector( bool ignoreUnique ) : ignoreUnique( ignoreUnique ) {} |
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| 374 | |
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[335d81f] | 375 | void previsit( const ApplicationExpr * appExpr ) { |
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[027c496] | 376 | visit_children = false; |
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[335d81f] | 377 | if ( const DeclarationWithType * function = InitTweak::getFunction( appExpr ) ) { |
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| 378 | if ( function->linkage == LinkageSpec::Intrinsic ) { |
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| 379 | if ( function->name == "*?" || function->name == "?[?]" ) { |
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[b7b8674] | 380 | // intrinsic dereference, subscript are pure, but need to recursively look for impurity |
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[027c496] | 381 | visit_children = true; |
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[b7b8674] | 382 | return; |
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| 383 | } |
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| 384 | } |
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| 385 | } |
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| 386 | maybeImpure = true; |
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| 387 | } |
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[335d81f] | 388 | void previsit( const UntypedExpr * ) { maybeImpure = true; visit_children = false; } |
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| 389 | void previsit( const UniqueExpr * ) { |
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[9f10c4b8] | 390 | if ( ignoreUnique ) { |
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| 391 | // bottom out at unique expression. |
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| 392 | // The existence of a unique expression doesn't change the purity of an expression. |
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| 393 | // That is, even if the wrapped expression is impure, the wrapper protects the rest of the expression. |
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[027c496] | 394 | visit_children = false; |
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[9f10c4b8] | 395 | return; |
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| 396 | } |
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| 397 | } |
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| 398 | |
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[65660bd] | 399 | bool maybeImpure = false; |
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[9f10c4b8] | 400 | bool ignoreUnique; |
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[65660bd] | 401 | }; |
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| 402 | } // namespace |
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| 403 | |
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[335d81f] | 404 | bool maybeImpure( const Expression * expr ) { |
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[027c496] | 405 | PassVisitor<ImpurityDetector> detector( false ); |
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[9f10c4b8] | 406 | expr->accept( detector ); |
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[027c496] | 407 | return detector.pass.maybeImpure; |
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[9f10c4b8] | 408 | } |
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| 409 | |
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[335d81f] | 410 | bool maybeImpureIgnoreUnique( const Expression * expr ) { |
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[027c496] | 411 | PassVisitor<ImpurityDetector> detector( true ); |
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[65660bd] | 412 | expr->accept( detector ); |
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[027c496] | 413 | return detector.pass.maybeImpure; |
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[65660bd] | 414 | } |
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[6eb8948] | 415 | } // namespace Tuples |
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| 416 | |
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| 417 | // Local Variables: // |
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| 418 | // tab-width: 4 // |
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| 419 | // mode: c++ // |
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| 420 | // compile-command: "make install" // |
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| 421 | // End: // |
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