source: src/Tuples/Explode.hpp @ 0766399

Last change on this file since 0766399 was c92bdcc, checked in by Andrew Beach <ajbeach@…>, 6 months ago

Updated the rest of the names in src/ (except for the generated files).

  • Property mode set to 100644
File size: 5.4 KB
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[141b786]1//
2// Cforall Version 1.0.0 Copyright (C) 2015 University of Waterloo
3//
4// The contents of this file are covered under the licence agreement in the
5// file "LICENCE" distributed with Cforall.
6//
[c92bdcc]7// Explode.hpp --
[141b786]8//
9// Author           : Rob Schluntz
10// Created On       : Wed Nov 9 13:12:24 2016
[b910d15]11// Last Modified By : Andrew Beach
12// Last Modified On : Mon Jun 17 14:36:00 2019
13// Update Count     : 4
[141b786]14//
15
[6b0b624]16#pragma once
[141b786]17
[62194cb]18#include <iterator>                     // for back_inserter, back_insert_iterator
19#include <utility>                      // for forward
[141b786]20
[432ce7a]21#include "AST/Expr.hpp"
22#include "ResolvExpr/Candidate.hpp"     // for Candidate, CandidateList
23#include "ResolvExpr/ExplodedArg.hpp"   // for ExplodedArg
[c92bdcc]24#include "Tuples.hpp"                   // for maybeImpure
[141b786]25
[432ce7a]26namespace ast {
27        class SymbolTable;
28}
29
[141b786]30namespace Tuples {
[432ce7a]31
[b910d15]32const ast::Expr * distributeReference( const ast::Expr * );
33
34/// Append candidate to an OutputIterator of Candidates.
35template<typename OutputIterator>
36void append( OutputIterator out, const ast::Expr * expr, const ast::TypeEnvironment & env,
37                const ast::OpenVarSet & open, const ast::AssertionList & need,
38                const ResolvExpr::Cost & cost, const ResolvExpr::Cost & cvtCost ) {
39        ast::TypeEnvironment copyEnv = env;
40        ast::OpenVarSet copyOpen = open;
41        ast::AssertionSet set;
42        mergeAssertionSet( set, need );
43        *out++ = std::make_shared<ResolvExpr::Candidate>( expr, std::move( copyEnv ),
44                std::move( copyOpen ), std::move( set ), cost, cvtCost );
45}
46
47/// Append candidate to an ExplodedArg.
48static inline void append( ResolvExpr::ExplodedArg& ea, const ast::Expr * expr,
49                const ast::TypeEnvironment&, const ast::OpenVarSet&,
50                const ast::AssertionList&, const ResolvExpr::Cost&, const ResolvExpr::Cost& ) {
51        // I'm not sure why most of the arguments are unused. But they were in the old version.
52        ea.exprs.emplace_back( expr );
53}
54
55/// Check if the expression is a cast to a reference type, return it if it is.
56static inline const ast::CastExpr * isReferenceCast( const ast::Expr * expr ) {
57        if ( const ast::CastExpr * cast = dynamic_cast< const ast::CastExpr * >( expr ) ) {
58                if ( dynamic_cast< const ast::ReferenceType * >( cast->result.get() ) ) {
59                        return cast;
60                }
61        }
62        return nullptr;
63}
64
65/// helper function (indirectely) used by explode
66template< typename Output >
67void explodeRecursive(
[7870799]68        const ast::CastExpr *, const ResolvExpr::Candidate &,
69        const ast::SymbolTable &, Output &&
[b910d15]70) {
71}
72
[432ce7a]73/// helper function used by explode
74template< typename Output >
[b910d15]75void explodeUnique(
76        const ast::ptr< ast::Expr > & expr, const ResolvExpr::Candidate & arg,
77        const ast::SymbolTable & symtab, Output && out, bool isTupleAssign
[432ce7a]78) {
[b910d15]79        // Tuple assignment can use a faster method if it is cast. Uses recursive exploding.
80        if ( isTupleAssign ) if ( const ast::CastExpr * castExpr = isReferenceCast( expr ) ) {
81                ResolvExpr::CandidateList candidates;
82                explodeUnique( castExpr->arg, arg, symtab, back_inserter( candidates ), true );
83                for ( ResolvExpr::CandidateRef & cand : candidates ) {
84                        // Distribute the reference cast over all components of the candidate.
85                        append( std::forward<Output>(out), distributeReference( cand->expr ), cand->env,
86                                cand->open, cand->need, cand->cost, cand->cvtCost );
87                }
88                return;
89        }
90        const ast::Type * res = expr->result->stripReferences();
91        if ( const ast::TupleType * tupleType = dynamic_cast< const ast::TupleType * >( res ) ) {
92                if ( const ast::ptr< ast::TupleExpr > & tupleExpr = expr.as< ast::TupleExpr >() ) {
93                        // Open the tuple expr and continue on its components.
94                        for ( const ast::Expr * expr : tupleExpr->exprs ) {
95                                explodeUnique( expr, arg, symtab, std::forward<Output>(out), isTupleAssign );
96                        }
97                } else {
98                        ast::ptr< ast::Expr > local = expr;
99                        // Expressions which may have side effects require a single unique instance.
100                        if ( Tuples::maybeImpureIgnoreUnique( local ) ) {
101                                local = new ast::UniqueExpr( local->location, local );
102                        }
103                        // Cast a reference away to a value-type to allow further explosion.
[417117e]104                        if ( local->result.as< ast::ReferenceType >() ) {
[b8524ca]105                                local = new ast::CastExpr{ local, tupleType };
[b910d15]106                        }
107                        // Now we have to go across the tuple via indexing.
108                        for ( unsigned int i = 0 ; i < tupleType->size() ; ++i ) {
109                                ast::TupleIndexExpr * idx = new ast::TupleIndexExpr( local->location, local, i );
110                                explodeUnique( idx, arg, symtab, std::forward<Output>(out), isTupleAssign );
111                                // TODO: We need more input to figure out the exact lifetimes of these types.
112                                // delete idx;
113                        }
114                }
115        } else {
116                // For atomic/non-tuple types, no explosion is used.
117                append( std::forward<Output>(out), expr, arg.env, arg.open, arg.need, arg.cost,
118                        arg.cvtCost );
119        }
[432ce7a]120}
121
122/// expands a tuple-valued candidate into multiple candidates, each with a non-tuple type
123template< typename Output >
[b910d15]124void explode(
125        const ResolvExpr::Candidate & arg, const ast::SymbolTable & symtab, Output && out,
[432ce7a]126        bool isTupleAssign = false
127) {
128        explodeUnique( arg.expr, arg, symtab, std::forward< Output >( out ), isTupleAssign );
129}
130
[234b1cb]131/// explode list of candidates into flattened list of candidates
132template< typename Output >
[7870799]133void explode(
134        const ResolvExpr::CandidateList & cands, const ast::SymbolTable & symtab, Output && out,
[234b1cb]135        bool isTupleAssign = false
136) {
137        for ( const ResolvExpr::CandidateRef & cand : cands ) {
138                explode( *cand, symtab, std::forward< Output >( out ), isTupleAssign );
139        }
140}
141
[141b786]142} // namespace Tuples
143
144// Local Variables: //
145// tab-width: 4 //
146// mode: c++ //
147// compile-command: "make install" //
148// End: //
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