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source: src/SymTab/TypeEquality.cc @ 76f2bdcb

ADTaaron-thesisarm-ehast-experimentalcleanup-dtorsdeferred_resndemanglerenumforall-pointer-decayjacob/cs343-translationjenkins-sandboxnew-astnew-ast-unique-exprnew-envno_listpersistent-indexerpthread-emulationqualifiedEnumresolv-newwith_gc

Last change on this file since 76f2bdcb was 89e6ffc, checked in by Aaron Moss <a3moss@…>, 8 years ago
Added support for ZeroType? and OneType? to all relevant visitors
Property mode set to `100644`
File size: 6.4 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	// TypeEquality.cc --
8	//
9	// Author : Rob Schluntz
10	// Created On : Tue Jul 07 16:28:29 2015
11	// Last Modified By : Rob Schluntz
12	// Last Modified On : Mon Jul 20 14:16:11 2015
13	// Update Count : 37
14	//
15
16	#include <list>
17	#include <iterator>
18	#include "Validate.h"
19	#include "SynTree/Visitor.h"
20	#include "SynTree/Type.h"
21	#include "SynTree/Statement.h"
22	#include "SynTree/TypeSubstitution.h"
23	#include "Indexer.h"
24	#include "TypeEquality.h"
25
26	namespace SymTab {
27	class TypeEquality : public Visitor {
28	public:
29	TypeEquality( Type * other, bool vlaErr ) : result( true ), other( other ),
30	vlaErr( vlaErr ) {}
31	bool result;
32
33	private:
34	virtual void visit( FunctionType *funcType );
35	virtual void visit( VoidType *voidType );
36	virtual void visit( BasicType *basicType );
37	virtual void visit( PointerType *pointerType );
38	virtual void visit( ArrayType *arrayType );
39	virtual void visit( StructInstType *structInst );
40	virtual void visit( UnionInstType *unionInst );
41	virtual void visit( EnumInstType *enumInst );
42	virtual void visit( TypeInstType *typeInst );
43	virtual void visit( VarArgsType *varArgsType );
44	virtual void visit( ZeroType *zeroType );
45	virtual void visit( OneType *oneType );
46
47	void handleQualifiers( Type * t );
48
49	Type * other;
50	bool vlaErr;
51	};
52
53	bool typeEquals( Type * t1, Type * t2, bool vlaErr ) {
54	TypeEquality teq( t2, vlaErr );
55	t1->accept( teq );
56	return teq.result;
57	}
58
59	void TypeEquality::handleQualifiers( Type * t ) {
60	result = result && t->get_qualifiers() == other->get_qualifiers();
61	}
62
63	void TypeEquality::visit( VoidType *voidType ) {
64	handleQualifiers( voidType );
65	if ( ! dynamic_cast< VoidType * >( other ) ) {
66	result = false;
67	}
68	}
69
70	void TypeEquality::visit( BasicType *basicType ) {
71	handleQualifiers( basicType );
72	if ( BasicType * bt = dynamic_cast< BasicType * >( other ) ) {
73	result = result && basicType->get_kind() == bt->get_kind();
74	} else {
75	result = false;
76	}
77	}
78
79	void TypeEquality::visit( PointerType *pointerType ) {
80	handleQualifiers( pointerType );
81	if ( PointerType * pt = dynamic_cast< PointerType * >( other ) ) {
82	other = pt->get_base();
83	pointerType->get_base()->accept( *this );
84	} else {
85	result = false;
86	}
87	}
88
89	void TypeEquality::visit( ArrayType *arrayType ) {
90	handleQualifiers( arrayType );
91
92	if ( ArrayType * at = dynamic_cast< ArrayType * >( other ) ) {
93	// to be equal, array types must both be VLA or both not VLA
94	// and must both have a dimension expression or not have a dimension
95	result = result && arrayType->get_isVarLen() == at->get_isVarLen()
96	&& ((arrayType->get_dimension() != 0 && at->get_dimension() != 0)
97	\|\| (arrayType->get_dimension() == 0 && at->get_dimension() == 0));
98
99	if ( vlaErr ) {
100	// useful for comparing typedef types - in this case, we
101	// want types to appear distinct if either is a VLA type
102	if ( arrayType->get_isVarLen() \|\| at->get_isVarLen() ) {
103	result = false;
104	}
105	}
106
107	if ( ! arrayType->get_isVarLen() && ! at->get_isVarLen() &&
108	arrayType->get_dimension() != 0 && at->get_dimension() != 0 ) {
109	ConstantExpr * ce1 = dynamic_cast< ConstantExpr * >( arrayType->get_dimension() );
110	ConstantExpr * ce2 = dynamic_cast< ConstantExpr * >( at->get_dimension() );
111	assert(ce1 && ce2);
112
113	Constant * c1 = ce1->get_constant();
114	Constant * c2 = ce2->get_constant();
115
116	result = result && c1->get_value() == c2->get_value();
117	}
118
119	other = at->get_base();
120	arrayType->get_base()->accept( *this );
121	} else {
122	result = false;
123	}
124	}
125
126	void TypeEquality::visit( FunctionType *funcType ) {
127	handleQualifiers( funcType );
128
129	if ( FunctionType * ft = dynamic_cast< FunctionType * >( other ) ) {
130	// function types must have the same number of return types
131	// and parameters to be equivalent
132	result = result && funcType->get_returnVals().size() == ft->get_returnVals().size()
133	&& funcType->get_parameters().size() == ft->get_parameters().size()
134	&& funcType->get_isVarArgs() == ft->get_isVarArgs();
135
136	std::list< DeclarationWithType * >::iterator it1, it2;
137
138	// return types must be equivalent
139	it1 = funcType->get_returnVals().begin();
140	it2 = ft->get_returnVals().begin();
141	for ( ; it1 != funcType->get_returnVals().end(); ++it1, ++it2 ) {
142	if ( ! result ) return;
143	other = (*it2)->get_type();
144	(it1)->get_type()->accept( this );
145	}
146
147	// parameter types must be equivalent
148	it1 = funcType->get_parameters().begin();
149	it2 = ft->get_parameters().begin();
150	for ( ; it1 != funcType->get_parameters().end(); ++it1, ++it2 ) {
151	if ( ! result ) return;
152	other = (*it2)->get_type();
153	(it1)->get_type()->accept( this );
154	}
155	} else {
156	result = false;
157	}
158	}
159
160	// aggregate types only need to have the same name
161	void TypeEquality::visit( StructInstType *structInst ) {
162	handleQualifiers( structInst );
163	if ( StructInstType * st = dynamic_cast< StructInstType * >( other ) ) {
164	result = result && structInst->get_name() == st->get_name();
165	} else {
166	result = false;
167	}
168	}
169
170	void TypeEquality::visit( UnionInstType *unionInst ) {
171	handleQualifiers( unionInst );
172	if ( UnionInstType * ut = dynamic_cast< UnionInstType * >( other ) ) {
173	result = result && unionInst->get_name() == ut->get_name();
174	} else {
175	result = false;
176	}
177	}
178
179	void TypeEquality::visit( EnumInstType *enumInst ) {
180	handleQualifiers( enumInst );
181	if ( EnumInstType * et = dynamic_cast< EnumInstType * >( other ) ) {
182	result = result && enumInst->get_name() == et->get_name();
183	} else {
184	result = false;
185	}
186	}
187
188	void TypeEquality::visit( TypeInstType *typeInst ) {
189	handleQualifiers( typeInst );
190	if ( TypeInstType * tt = dynamic_cast< TypeInstType * >( other ) ) {
191	result = result && typeInst->get_name() == tt->get_name();
192	} else {
193	result = false;
194	}
195	}
196
197	void TypeEquality::visit( VarArgsType *varArgsType ) {
198	handleQualifiers( varArgsType );
199	if ( ! dynamic_cast< VarArgsType * >( other ) ) {
200	result = false;
201	}
202	}
203
204	void TypeEquality::visit( ZeroType *zeroType ) {
205	handleQualifiers( zeroType );
206	if ( ! dynamic_cast< ZeroType * >( other ) ) {
207	result = false;
208	}
209	}
210
211	void TypeEquality::visit( OneType *oneType ) {
212	handleQualifiers( oneType );
213	if ( ! dynamic_cast< OneType * >( other ) ) {
214	result = false;
215	}
216	}
217	} // namespace SymTab

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