source: src/AST/Type.cpp @ b399ca2

ADTarm-ehast-experimentalenumforall-pointer-decayjacob/cs343-translationnew-ast-unique-exprpthread-emulationqualifiedEnum
Last change on this file since b399ca2 was cd6a6ff, checked in by Thierry Delisle <tdelisle@…>, 4 years ago

Improved coverage of deterministic_output to be much finer grain.

  • Property mode set to 100644
File size: 7.0 KB
Line 
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// Type.cpp --
8//
9// Author           : Aaron B. Moss
10// Created On       : Mon May 13 15:00:00 2019
11// Last Modified By : Andrew Beach
12// Last Modified On : Thu Jul 23 14:16:00 2020
13// Update Count     : 5
14//
15
16#include "Type.hpp"
17
18#include <cassert>
19#include <utility>               // for move
20#include <vector>
21
22#include "Decl.hpp"
23#include "ForallSubstitutor.hpp" // for substituteForall
24#include "Init.hpp"
25#include "Common/utility.h"      // for copy, move
26#include "InitTweak/InitTweak.h" // for getPointerBase
27#include "Tuples/Tuples.h"       // for isTtype
28
29namespace ast {
30
31const Type * Type::getComponent( unsigned i ) const {
32        assertf( size() == 1 && i == 0, "Type::getComponent was called with size %d and index %d\n", size(), i );
33        return this;
34}
35
36const Type * Type::stripDeclarator() const {
37        const Type * t;
38        const Type * a;
39        for ( t = this; (a = InitTweak::getPointerBase( t )); t = a );
40        return t;
41}
42
43const Type * Type::stripReferences() const {
44        const Type * t;
45        const ReferenceType * r;
46        for ( t = this; (r = dynamic_cast<const ReferenceType *>(t) ); t = r->base );
47        return t;
48}
49
50// --- BasicType
51
52// GENERATED START, DO NOT EDIT
53// GENERATED BY BasicTypes-gen.cc
54const char * BasicType::typeNames[] = {
55        "_Bool",
56        "char",
57        "signed char",
58        "unsigned char",
59        "signed short int",
60        "unsigned short int",
61        "signed int",
62        "unsigned int",
63        "signed long int",
64        "unsigned long int",
65        "signed long long int",
66        "unsigned long long int",
67        "__int128",
68        "unsigned __int128",
69        "_Float16",
70        "_Float16 _Complex",
71        "_Float32",
72        "_Float32 _Complex",
73        "float",
74        "float _Complex",
75        "_Float32x",
76        "_Float32x _Complex",
77        "_Float64",
78        "_Float64 _Complex",
79        "double",
80        "double _Complex",
81        "_Float64x",
82        "_Float64x _Complex",
83        "__float80",
84        "_Float128",
85        "_Float128 _Complex",
86        "__float128",
87        "long double",
88        "long double _Complex",
89        "_Float128x",
90        "_Float128x _Complex",
91};
92// GENERATED END
93
94// --- ParameterizedType
95
96void ParameterizedType::initWithSub(
97        const ParameterizedType & o, Pass< ForallSubstitutor > & sub
98) {
99        forall = sub.core( o.forall );
100}
101
102// --- FunctionType
103
104
105FunctionType::FunctionType( const FunctionType & o )
106: ParameterizedType( o.qualifiers, copy( o.attributes ) ), returns(), params(),
107  isVarArgs( o.isVarArgs ) {
108        Pass< ForallSubstitutor > sub;
109        initWithSub( o, sub );           // initialize substitution map
110        returns = sub.core( o.returns ); // apply to return and parameter types
111        params = sub.core( o.params );
112}
113
114namespace {
115        bool containsTtype( const std::vector<ptr<Type>> & l ) {
116                if ( ! l.empty() ) {
117                        return Tuples::isTtype( l.back() );
118                }
119                return false;
120        }
121}
122
123bool FunctionType::isTtype() const {
124        return containsTtype( returns ) || containsTtype( params );
125}
126
127// --- BaseInstType
128
129void BaseInstType::initWithSub( const BaseInstType & o, Pass< ForallSubstitutor > & sub ) {
130        ParameterizedType::initWithSub( o, sub ); // initialize substitution
131        params = sub.core( o.params );            // apply to parameters
132}
133
134BaseInstType::BaseInstType( const BaseInstType & o )
135: ParameterizedType( o.qualifiers, copy( o.attributes ) ), params(), name( o.name ),
136  hoistType( o.hoistType ) {
137        Pass< ForallSubstitutor > sub;
138        initWithSub( o, sub );
139}
140
141std::vector<readonly<Decl>> BaseInstType::lookup( const std::string& name ) const {
142        assertf( aggr(), "Must have aggregate to perform lookup" );
143
144        std::vector<readonly<Decl>> found;
145        for ( const Decl * decl : aggr()->members ) {
146                if ( decl->name == name ) { found.emplace_back( decl ); }
147        }
148        return found;
149}
150
151// --- SueInstType (StructInstType, UnionInstType, EnumInstType)
152
153template<typename decl_t>
154SueInstType<decl_t>::SueInstType(
155        const decl_t * b, CV::Qualifiers q, std::vector<ptr<Attribute>>&& as )
156: BaseInstType( b->name, q, move(as) ), base( b ) {}
157
158template<typename decl_t>
159SueInstType<decl_t>::SueInstType(
160        const base_type * b, std::vector<ptr<Expr>> && params,
161        CV::Qualifiers q, std::vector<ptr<Attribute>> && as )
162: BaseInstType( b->name, std::move(params), q, std::move(as) ), base( b ) {}
163
164template<typename decl_t>
165bool SueInstType<decl_t>::isComplete() const {
166        return base ? base->body : false;
167}
168
169template class SueInstType<StructDecl>;
170template class SueInstType<UnionDecl>;
171template class SueInstType<EnumDecl>;
172
173// --- TraitInstType
174
175TraitInstType::TraitInstType(
176        const TraitDecl * b, CV::Qualifiers q, std::vector<ptr<Attribute>>&& as )
177: BaseInstType( b->name, q, move(as) ), base( b ) {}
178
179// --- TypeInstType
180
181TypeInstType::TypeInstType( const TypeInstType & o )
182: BaseInstType( o.name, o.qualifiers, copy( o.attributes ) ), base(), kind( o.kind ) {
183        Pass< ForallSubstitutor > sub;
184        initWithSub( o, sub );      // initialize substitution
185        base = sub.core( o.base );  // apply to base type
186}
187
188void TypeInstType::set_base( const TypeDecl * b ) {
189        base = b;
190        kind = b->kind;
191}
192
193bool TypeInstType::isComplete() const { return base->sized; }
194
195// --- TupleType
196
197TupleType::TupleType( std::vector<ptr<Type>> && ts, CV::Qualifiers q )
198: Type( q ), types( move(ts) ), members() {
199        // This constructor is awkward. `TupleType` needs to contain objects so that members can be
200        // named, but members without initializer nodes end up getting constructors, which breaks
201        // things. This happens because the object decls have to be visited so that their types are
202        // kept in sync with the types listed here. Ultimately, the types listed here should perhaps
203        // be eliminated and replaced with a list-view over members. The temporary solution is to
204        // make a `ListInit` with `maybeConstructed = false`, so when the object is visited it is not
205        // constructed. Potential better solutions include:
206        //   a) Separate `TupleType` from its declarations, into `TupleDecl` and `Tuple{Inst?}Type`,
207        //      similar to the aggregate types.
208        //   b) Separate initializer nodes better, e.g. add a `MaybeConstructed` node that is replaced
209        //      by `genInit`, rather than the current boolean flag.
210        members.reserve( types.size() );
211        for ( const Type * ty : types ) {
212                members.emplace_back( new ObjectDecl{
213                        CodeLocation{}, "", ty, new ListInit( CodeLocation{}, {}, {}, NoConstruct ),
214                        Storage::Classes{}, Linkage::Cforall } );
215        }
216}
217
218bool isUnboundType(const Type * type) {
219        if (auto typeInst = dynamic_cast<const TypeInstType *>(type)) {
220                // xxx - look for a type name produced by renameTyVars.
221
222                // TODO: once TypeInstType representation is updated, it should properly check
223                // if the context id is filled. this is a temporary hack for now
224                return isUnboundType(typeInst->name);
225        }
226        return false;
227}
228
229bool isUnboundType(const std::string & tname) {
230        // xxx - look for a type name produced by renameTyVars.
231
232        // TODO: once TypeInstType representation is updated, it should properly check
233        // if the context id is filled. this is a temporary hack for now
234        if (std::count(tname.begin(), tname.end(), '_') >= 3) {
235                return true;
236        }
237        return false;
238}
239
240}
241
242// Local Variables: //
243// tab-width: 4 //
244// mode: c++ //
245// compile-command: "make install" //
246// End: //
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