source: src/AST/Decl.cpp @ c2dfa56a

ADTast-experimental
Last change on this file since c2dfa56a was 8f06277, checked in by Andrew Beach <ajbeach@…>, 21 months ago

Some clean-up in Common/utility.h. Deleted some unused declarations and moved others to one of two new headers.

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File size: 7.4 KB
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[2bb4a01]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//
7// Decl.cpp --
8//
9// Author           : Aaron B. Moss
10// Created On       : Thu May 9 10:00:00 2019
[7edd5c1]11// Last Modified By : Andrew Beach
12// Last Modified On : Thu May  5 12:10:00 2022
13// Update Count     : 24
[2bb4a01]14//
15
16#include "Decl.hpp"
17
[360b2e13]18#include <cassert>             // for assert, strict_dynamic_cast
[d76c588]19#include <iostream>
[360b2e13]20#include <unordered_map>
21
[8f06277]22#include "Common/Eval.h"       // for eval
[87701b6]23
[360b2e13]24#include "Fwd.hpp"             // for UniqueId
[a300e4a]25#include "Init.hpp"
[360b2e13]26#include "Node.hpp"            // for readonly
[87701b6]27#include "Type.hpp"            // for readonly
[a4a6802]28#include "Expr.hpp"
[2bb4a01]29
30namespace ast {
[a300e4a]31
[2bb4a01]32// To canonicalize declarations
33static UniqueId lastUniqueId = 0;
34
35using IdMapType = std::unordered_map< UniqueId, readonly<Decl> >;
36static IdMapType idMap;
37
38void Decl::fixUniqueId() {
39        if ( uniqueId ) return;  // ensure only set once
40        uniqueId = ++lastUniqueId;
[7d7ef6f]41        // The extra readonly pointer is causing some reference counting issues.
42        // idMap[ uniqueId ] = this;
[2bb4a01]43}
44
45readonly<Decl> Decl::fromId( UniqueId id ) {
[7d7ef6f]46        // Right now this map is always empty, so don't use it.
[9490621]47        assert( false );
[2bb4a01]48        IdMapType::const_iterator i = idMap.find( id );
49        if ( i != idMap.end() ) return i->second;
50        return {};
51}
[a300e4a]52
[8a5530c]53// --- FunctionDecl
54
[7edd5c1]55FunctionDecl::FunctionDecl( const CodeLocation & loc, const std::string & name,
[3e5dd913]56        std::vector<ptr<TypeDecl>>&& forall,
57        std::vector<ptr<DeclWithType>>&& params, std::vector<ptr<DeclWithType>>&& returns,
58        CompoundStmt * stmts, Storage::Classes storage, Linkage::Spec linkage,
59        std::vector<ptr<Attribute>>&& attrs, Function::Specs fs, bool isVarArgs)
[b859f59]60: DeclWithType( loc, name, storage, linkage, std::move(attrs), fs ),
61        type_params(std::move(forall)), assertions(),
62        params(std::move(params)), returns(std::move(returns)), stmts( stmts ) {
[3e5dd913]63        FunctionType * ftype = new FunctionType(static_cast<ArgumentFlag>(isVarArgs));
64        for (auto & param : this->params) {
65                ftype->params.emplace_back(param->get_type());
66        }
67        for (auto & ret : this->returns) {
68                ftype->returns.emplace_back(ret->get_type());
69        }
70        for (auto & tp : this->type_params) {
[b230091]71                ftype->forall.emplace_back(new TypeInstType(tp));
[a4a6802]72                for (auto & ap: tp->assertions) {
73                        ftype->assertions.emplace_back(new VariableExpr(loc, ap));
74                }
[3e5dd913]75        }
76        this->type = ftype;
77}
[490fb92e]78
[7edd5c1]79FunctionDecl::FunctionDecl( const CodeLocation & location, const std::string & name,
80        std::vector<ptr<TypeDecl>>&& forall, std::vector<ptr<DeclWithType>>&& assertions,
81        std::vector<ptr<DeclWithType>>&& params, std::vector<ptr<DeclWithType>>&& returns,
82        CompoundStmt * stmts, Storage::Classes storage, Linkage::Spec linkage,
83        std::vector<ptr<Attribute>>&& attrs, Function::Specs fs, bool isVarArgs)
84: DeclWithType( location, name, storage, linkage, std::move(attrs), fs ),
85                type_params( std::move( forall) ), assertions( std::move( assertions ) ),
[b859f59]86                params( std::move(params) ), returns( std::move(returns) ),
[7edd5c1]87                type( nullptr ), stmts( stmts ) {
88        FunctionType * type = new FunctionType( (isVarArgs) ? VariableArgs : FixedArgs );
89        for ( auto & param : this->params ) {
90                type->params.emplace_back( param->get_type() );
91        }
92        for ( auto & ret : this->returns ) {
93                type->returns.emplace_back( ret->get_type() );
94        }
95        for ( auto & param : this->type_params ) {
96                type->forall.emplace_back( new TypeInstType( param ) );
97        }
98        for ( auto & assertion : this->assertions ) {
99                type->assertions.emplace_back(
100                        new VariableExpr( assertion->location, assertion ) );
101        }
102        this->type = type;
103}
104
[490fb92e]105
[87701b6]106const Type * FunctionDecl::get_type() const { return type.get(); }
[e0e9a0b]107void FunctionDecl::set_type( const Type * t ) {
108        type = strict_dynamic_cast< const FunctionType * >( t );
109}
[8a5530c]110
[360b2e13]111// --- TypeDecl
112
[312029a]113const char * TypeDecl::typeString() const {
[6e50a6b]114        static const char * kindNames[] = { "sized data type", "sized data type", "sized object type", "sized function type", "sized tuple type", "sized length value" };
[b66d14a]115        static_assert( sizeof(kindNames) / sizeof(kindNames[0]) == TypeDecl::NUMBER_OF_KINDS, "typeString: kindNames is out of sync." );
[07de76b]116        assertf( kind < TypeDecl::NUMBER_OF_KINDS, "TypeDecl kind is out of bounds." );
[312029a]117        return sized ? kindNames[ kind ] : &kindNames[ kind ][ sizeof("sized") ]; // sizeof includes '\0'
[360b2e13]118}
119
[312029a]120const char * TypeDecl::genTypeString() const {
[b66d14a]121        static const char * kindNames[] = { "T &", "T *", "T", "(*)", "T ...", "[T]" };
122        static_assert( sizeof(kindNames) / sizeof(kindNames[0]) == TypeDecl::NUMBER_OF_KINDS, "genTypeString: kindNames is out of sync." );
[07de76b]123        assertf( kind < TypeDecl::NUMBER_OF_KINDS, "TypeDecl kind is out of bounds." );
[360b2e13]124        return kindNames[ kind ];
125}
126
[93c10de]127std::ostream & operator<< ( std::ostream & out, const TypeData & data ) {
[d76c588]128        return out << data.kind << ", " << data.isComplete;
129}
130
[312029a]131// --- AggregateDecl
132
133// These must harmonize with the corresponding AggregateDecl::Aggregate enumerations.
134static const char * aggregateNames[] = { "struct", "union", "enum", "exception", "trait", "generator", "coroutine", "monitor", "thread", "NoAggregateName" };
135
136const char * AggregateDecl::aggrString( AggregateDecl::Aggregate aggr ) {
137        return aggregateNames[aggr];
138}
139
[a300e4a]140// --- EnumDecl
141
[9d6e7fa9]142bool EnumDecl::valueOf( const Decl * enumerator, long long& value ) const {
[a300e4a]143        if ( enumValues.empty() ) {
144                long long crntVal = 0;
[9d6e7fa9]145                for ( const Decl * member : members ) {
[a300e4a]146                        const ObjectDecl* field = strict_dynamic_cast< const ObjectDecl* >( member );
147                        if ( field->init ) {
[87701b6]148                                const SingleInit * init = strict_dynamic_cast< const SingleInit* >( field->init.get() );
[a300e4a]149                                auto result = eval( init->value );
150                                if ( ! result.second ) {
[733074e]151                                        SemanticError( init->location, ::toString( "Non-constexpr in initialization of "
[a300e4a]152                                                "enumerator: ", field ) );
153                                }
154                                crntVal = result.first;
155                        }
156                        if ( enumValues.count( field->name ) != 0 ) {
[733074e]157                                SemanticError( location, ::toString( "Enum ", name, " has multiple members with the "   "name ", field->name ) );
[a300e4a]158                        }
159                        enumValues[ field->name ] = crntVal;
160                        ++crntVal;
161                }
162        }
163
164        auto it = enumValues.find( enumerator->name );
[b859f59]165
[a300e4a]166        if ( it != enumValues.end() ) {
[b859f59]167
[f135b50]168                // Handle typed enum by casting the value in (C++) compiler
[3e54399]169                // if ( base ) { // A typed enum
170                //      if ( const BasicType * bt = dynamic_cast<const BasicType *>(base) ) {
171                //              switch( bt->kind ) {
172                //                      case BasicType::Kind::Bool:     value = (bool) it->second; break;
173                //                      case BasicType::Kind::Char: value = (char) it->second; break;
174                //                      case BasicType::Kind::SignedChar: value = (signed char) it->second; break;
175                //                      case BasicType::Kind::UnsignedChar: value = (unsigned char) it->second; break;
176                //                      case BasicType::Kind::ShortSignedInt: value = (short signed int) it->second; break;
177                //                      case BasicType::Kind::SignedInt: value = (signed int) it->second; break;
178                //                      case BasicType::Kind::UnsignedInt: value = (unsigned int) it->second; break;
179                //                      case BasicType::Kind::LongSignedInt: value = (long signed int) it->second; break;
180                //                      case BasicType::Kind::LongUnsignedInt: value = (long unsigned int) it->second; break;
181                //                      case BasicType::Kind::LongLongSignedInt: value = (long long signed int) it->second; break;
[b859f59]182                //                      case BasicType::Kind::LongLongUnsignedInt: value = (long long unsigned int) it->second; break;
[3e54399]183                //                      // TODO: value should be able to handle long long unsigned int
184
185                //                      default:
186                //                      value = it->second;
187                //              }
188                //      }
189                // } else {
[f135b50]190                        value = it->second;
[3e54399]191                //}
[f135b50]192
[a300e4a]193                return true;
194        }
195        return false;
196}
197
[2bb4a01]198}
199
200// Local Variables: //
201// tab-width: 4 //
202// mode: c++ //
203// compile-command: "make install" //
204// End: //
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