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source: src/SymTab/Validate.cc@ f9cebb5

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Last change on this file since f9cebb5 was 40e636a, checked in by Rob Schluntz <rschlunt@…>, 9 years ago
only generate array dimension constant inside of functions, recursively mutate array types into pointer types in function parameter lists, fix bug where global compound literal object is lost
Property mode set to `100644`
File size: 26.0 KB

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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	// Validate.cc --
8	//
9	// Author : Richard C. Bilson
10	// Created On : Sun May 17 21:50:04 2015
11	// Last Modified By : Peter A. Buhr
12	// Last Modified On : Tue Jul 12 17:49:21 2016
13	// Update Count : 298
14	//
15
16	// The "validate" phase of translation is used to take a syntax tree and convert it into a standard form that aims to be
17	// as regular in structure as possible. Some assumptions can be made regarding the state of the tree after this pass is
18	// complete, including:
19	//
20	// - No nested structure or union definitions; any in the input are "hoisted" to the level of the containing struct or
21	// union.
22	//
23	// - All enumeration constants have type EnumInstType.
24	//
25	// - The type "void" never occurs in lists of function parameter or return types; neither do tuple types. A function
26	// taking no arguments has no argument types, and tuples are flattened.
27	//
28	// - No context instances exist; they are all replaced by the set of declarations signified by the context, instantiated
29	// by the particular set of type arguments.
30	//
31	// - Every declaration is assigned a unique id.
32	//
33	// - No typedef declarations or instances exist; the actual type is substituted for each instance.
34	//
35	// - Each type, struct, and union definition is followed by an appropriate assignment operator.
36	//
37	// - Each use of a struct or union is connected to a complete definition of that struct or union, even if that
38	// definition occurs later in the input.
39
40	#include <list>
41	#include <iterator>
42	#include "Common/utility.h"
43	#include "Common/UniqueName.h"
44	#include "Validate.h"
45	#include "SynTree/Visitor.h"
46	#include "SynTree/Mutator.h"
47	#include "SynTree/Type.h"
48	#include "SynTree/Expression.h"
49	#include "SynTree/Statement.h"
50	#include "SynTree/TypeSubstitution.h"
51	#include "Indexer.h"
52	#include "FixFunction.h"
53	// #include "ImplementationType.h"
54	#include "GenPoly/DeclMutator.h"
55	#include "AddVisit.h"
56	#include "MakeLibCfa.h"
57	#include "TypeEquality.h"
58	#include "Autogen.h"
59	#include "ResolvExpr/typeops.h"
60
61	#define debugPrint( x ) if ( doDebug ) { std::cout << x; }
62
63	namespace SymTab {
64	class HoistStruct : public Visitor {
65	public:
66	/// Flattens nested struct types
67	static void hoistStruct( std::list< Declaration * > &translationUnit );
68
69	std::list< Declaration * > &get_declsToAdd() { return declsToAdd; }
70
71	virtual void visit( StructDecl *aggregateDecl );
72	virtual void visit( UnionDecl *aggregateDecl );
73
74	virtual void visit( CompoundStmt *compoundStmt );
75	virtual void visit( SwitchStmt *switchStmt );
76	private:
77	HoistStruct();
78
79	template< typename AggDecl > void handleAggregate( AggDecl *aggregateDecl );
80
81	std::list< Declaration * > declsToAdd;
82	bool inStruct;
83	};
84
85	/// Replaces enum types by int, and function or array types in function parameter and return lists by appropriate pointers.
86	class Pass1 : public Visitor {
87	typedef Visitor Parent;
88	virtual void visit( EnumDecl *aggregateDecl );
89	virtual void visit( FunctionType *func );
90	};
91
92	/// Associates forward declarations of aggregates with their definitions
93	class Pass2 : public Indexer {
94	typedef Indexer Parent;
95	public:
96	Pass2( bool doDebug, const Indexer *indexer );
97	private:
98	virtual void visit( StructInstType *structInst );
99	virtual void visit( UnionInstType *unionInst );
100	virtual void visit( TraitInstType *contextInst );
101	virtual void visit( StructDecl *structDecl );
102	virtual void visit( UnionDecl *unionDecl );
103	virtual void visit( TypeInstType *typeInst );
104
105	const Indexer *indexer;
106
107	typedef std::map< std::string, std::list< StructInstType * > > ForwardStructsType;
108	typedef std::map< std::string, std::list< UnionInstType * > > ForwardUnionsType;
109	ForwardStructsType forwardStructs;
110	ForwardUnionsType forwardUnions;
111	};
112
113	/// Replaces array and function types in forall lists by appropriate pointer type
114	class Pass3 : public Indexer {
115	typedef Indexer Parent;
116	public:
117	Pass3( const Indexer *indexer );
118	private:
119	virtual void visit( ObjectDecl *object );
120	virtual void visit( FunctionDecl *func );
121
122	const Indexer *indexer;
123	};
124
125	class ReturnChecker : public Visitor {
126	public:
127	/// Checks that return statements return nothing if their return type is void
128	/// and return something if the return type is non-void.
129	static void checkFunctionReturns( std::list< Declaration * > & translationUnit );
130	private:
131	virtual void visit( FunctionDecl * functionDecl );
132
133	virtual void visit( ReturnStmt * returnStmt );
134
135	std::list< DeclarationWithType * > returnVals;
136	};
137
138	class EliminateTypedef : public Mutator {
139	public:
140	EliminateTypedef() : scopeLevel( 0 ) {}
141	/// Replaces typedefs by forward declarations
142	static void eliminateTypedef( std::list< Declaration * > &translationUnit );
143	private:
144	virtual Declaration mutate( TypedefDecl typeDecl );
145	virtual TypeDecl mutate( TypeDecl typeDecl );
146	virtual DeclarationWithType mutate( FunctionDecl funcDecl );
147	virtual DeclarationWithType mutate( ObjectDecl objDecl );
148	virtual CompoundStmt mutate( CompoundStmt compoundStmt );
149	virtual Type mutate( TypeInstType aggregateUseType );
150	virtual Expression mutate( CastExpr castExpr );
151
152	virtual Declaration mutate( StructDecl structDecl );
153	virtual Declaration mutate( UnionDecl unionDecl );
154	virtual Declaration mutate( EnumDecl enumDecl );
155	virtual Declaration mutate( TraitDecl contextDecl );
156
157	template<typename AggDecl>
158	AggDecl handleAggregate( AggDecl aggDecl );
159
160	template<typename AggDecl>
161	void addImplicitTypedef( AggDecl * aggDecl );
162
163	typedef std::map< std::string, std::pair< TypedefDecl *, int > > TypedefMap;
164	TypedefMap typedefNames;
165	int scopeLevel;
166	};
167
168	class VerifyCtorDtor : public Visitor {
169	public:
170	/// ensure that constructors and destructors have at least one
171	/// parameter, the first of which must be a pointer, and no
172	/// return values.
173	static void verify( std::list< Declaration * > &translationUnit );
174
175	virtual void visit( FunctionDecl *funcDecl );
176	};
177
178	class CompoundLiteral : public GenPoly::DeclMutator {
179	DeclarationNode::StorageClass storageclass = DeclarationNode::NoStorageClass;
180
181	virtual DeclarationWithType * mutate( ObjectDecl *objectDecl );
182	virtual Expression mutate( CompoundLiteralExpr compLitExpr );
183	};
184
185	void validate( std::list< Declaration * > &translationUnit, bool doDebug ) {
186	Pass1 pass1;
187	Pass2 pass2( doDebug, 0 );
188	Pass3 pass3( 0 );
189	CompoundLiteral compoundliteral;
190
191	EliminateTypedef::eliminateTypedef( translationUnit );
192	HoistStruct::hoistStruct( translationUnit );
193	autogenerateRoutines( translationUnit ); // moved up, used to be below compoundLiteral - currently needs Pass1
194	acceptAll( translationUnit, pass1 );
195	acceptAll( translationUnit, pass2 );
196	ReturnChecker::checkFunctionReturns( translationUnit );
197	compoundliteral.mutateDeclarationList( translationUnit );
198	acceptAll( translationUnit, pass3 );
199	VerifyCtorDtor::verify( translationUnit );
200	}
201
202	void validateType( Type type, const Indexer indexer ) {
203	Pass1 pass1;
204	Pass2 pass2( false, indexer );
205	Pass3 pass3( indexer );
206	type->accept( pass1 );
207	type->accept( pass2 );
208	type->accept( pass3 );
209	}
210
211	void HoistStruct::hoistStruct( std::list< Declaration * > &translationUnit ) {
212	HoistStruct hoister;
213	acceptAndAdd( translationUnit, hoister, true );
214	}
215
216	HoistStruct::HoistStruct() : inStruct( false ) {
217	}
218
219	void filter( std::list< Declaration * > &declList, bool (pred)( Declaration ), bool doDelete ) {
220	std::list< Declaration * >::iterator i = declList.begin();
221	while ( i != declList.end() ) {
222	std::list< Declaration * >::iterator next = i;
223	++next;
224	if ( pred( *i ) ) {
225	if ( doDelete ) {
226	delete *i;
227	} // if
228	declList.erase( i );
229	} // if
230	i = next;
231	} // while
232	}
233
234	bool isStructOrUnion( Declaration *decl ) {
235	return dynamic_cast< StructDecl * >( decl ) \|\| dynamic_cast< UnionDecl * >( decl );
236	}
237
238	template< typename AggDecl >
239	void HoistStruct::handleAggregate( AggDecl *aggregateDecl ) {
240	if ( inStruct ) {
241	// Add elements in stack order corresponding to nesting structure.
242	declsToAdd.push_front( aggregateDecl );
243	Visitor::visit( aggregateDecl );
244	} else {
245	inStruct = true;
246	Visitor::visit( aggregateDecl );
247	inStruct = false;
248	} // if
249	// Always remove the hoisted aggregate from the inner structure.
250	filter( aggregateDecl->get_members(), isStructOrUnion, false );
251	}
252
253	void HoistStruct::visit( StructDecl *aggregateDecl ) {
254	handleAggregate( aggregateDecl );
255	}
256
257	void HoistStruct::visit( UnionDecl *aggregateDecl ) {
258	handleAggregate( aggregateDecl );
259	}
260
261	void HoistStruct::visit( CompoundStmt *compoundStmt ) {
262	addVisit( compoundStmt, *this );
263	}
264
265	void HoistStruct::visit( SwitchStmt *switchStmt ) {
266	addVisit( switchStmt, *this );
267	}
268
269	void Pass1::visit( EnumDecl *enumDecl ) {
270	// Set the type of each member of the enumeration to be EnumConstant
271	for ( std::list< Declaration * >::iterator i = enumDecl->get_members().begin(); i != enumDecl->get_members().end(); ++i ) {
272	ObjectDecl * obj = dynamic_cast< ObjectDecl * >( *i );
273	assert( obj );
274	obj->set_type( new EnumInstType( Type::Qualifiers( true, false, false, false, false, false ), enumDecl->get_name() ) );
275	} // for
276	Parent::visit( enumDecl );
277	}
278
279	namespace {
280	template< typename DWTList >
281	void fixFunctionList( DWTList & dwts, FunctionType * func ) {
282	// the only case in which "void" is valid is where it is the only one in the list; then it should be removed
283	// entirely other fix ups are handled by the FixFunction class
284	typedef typename DWTList::iterator DWTIterator;
285	DWTIterator begin( dwts.begin() ), end( dwts.end() );
286	if ( begin == end ) return;
287	FixFunction fixer;
288	DWTIterator i = begin;
289	i = (i)->acceptMutator( fixer );
290	if ( fixer.get_isVoid() ) {
291	DWTIterator j = i;
292	++i;
293	dwts.erase( j );
294	if ( i != end ) {
295	throw SemanticError( "invalid type void in function type ", func );
296	} // if
297	} else {
298	++i;
299	for ( ; i != end; ++i ) {
300	FixFunction fixer;
301	i = (i )->acceptMutator( fixer );
302	if ( fixer.get_isVoid() ) {
303	throw SemanticError( "invalid type void in function type ", func );
304	} // if
305	} // for
306	} // if
307	}
308	}
309
310	void Pass1::visit( FunctionType *func ) {
311	// Fix up parameters and return types
312	fixFunctionList( func->get_parameters(), func );
313	fixFunctionList( func->get_returnVals(), func );
314	Visitor::visit( func );
315	}
316
317	Pass2::Pass2( bool doDebug, const Indexer *other_indexer ) : Indexer( doDebug ) {
318	if ( other_indexer ) {
319	indexer = other_indexer;
320	} else {
321	indexer = this;
322	} // if
323	}
324
325	void Pass2::visit( StructInstType *structInst ) {
326	Parent::visit( structInst );
327	StructDecl *st = indexer->lookupStruct( structInst->get_name() );
328	// it's not a semantic error if the struct is not found, just an implicit forward declaration
329	if ( st ) {
330	//assert( ! structInst->get_baseStruct() \|\| structInst->get_baseStruct()->get_members().empty() \|\| ! st->get_members().empty() );
331	structInst->set_baseStruct( st );
332	} // if
333	if ( ! st \|\| st->get_members().empty() ) {
334	// use of forward declaration
335	forwardStructs[ structInst->get_name() ].push_back( structInst );
336	} // if
337	}
338
339	void Pass2::visit( UnionInstType *unionInst ) {
340	Parent::visit( unionInst );
341	UnionDecl *un = indexer->lookupUnion( unionInst->get_name() );
342	// it's not a semantic error if the union is not found, just an implicit forward declaration
343	if ( un ) {
344	unionInst->set_baseUnion( un );
345	} // if
346	if ( ! un \|\| un->get_members().empty() ) {
347	// use of forward declaration
348	forwardUnions[ unionInst->get_name() ].push_back( unionInst );
349	} // if
350	}
351
352	void Pass2::visit( TraitInstType *contextInst ) {
353	Parent::visit( contextInst );
354	TraitDecl *ctx = indexer->lookupTrait( contextInst->get_name() );
355	if ( ! ctx ) {
356	throw SemanticError( "use of undeclared context " + contextInst->get_name() );
357	} // if
358	for ( std::list< TypeDecl * >::const_iterator i = ctx->get_parameters().begin(); i != ctx->get_parameters().end(); ++i ) {
359	for ( std::list< DeclarationWithType * >::const_iterator assert = (i )->get_assertions().begin(); assert != (i )->get_assertions().end(); ++assert ) {
360	if ( TraitInstType otherCtx = dynamic_cast< TraitInstType >(*assert ) ) {
361	cloneAll( otherCtx->get_members(), contextInst->get_members() );
362	} else {
363	contextInst->get_members().push_back( (*assert )->clone() );
364	} // if
365	} // for
366	} // for
367
368	if ( ctx->get_parameters().size() != contextInst->get_parameters().size() ) {
369	throw SemanticError( "incorrect number of context parameters: ", contextInst );
370	} // if
371
372	applySubstitution( ctx->get_parameters().begin(), ctx->get_parameters().end(), contextInst->get_parameters().begin(), ctx->get_members().begin(), ctx->get_members().end(), back_inserter( contextInst->get_members() ) );
373	}
374
375	void Pass2::visit( StructDecl *structDecl ) {
376	// visit struct members first so that the types of self-referencing members are updated properly
377	Parent::visit( structDecl );
378	if ( ! structDecl->get_members().empty() ) {
379	ForwardStructsType::iterator fwds = forwardStructs.find( structDecl->get_name() );
380	if ( fwds != forwardStructs.end() ) {
381	for ( std::list< StructInstType * >::iterator inst = fwds->second.begin(); inst != fwds->second.end(); ++inst ) {
382	(*inst )->set_baseStruct( structDecl );
383	} // for
384	forwardStructs.erase( fwds );
385	} // if
386	} // if
387	}
388
389	void Pass2::visit( UnionDecl *unionDecl ) {
390	Parent::visit( unionDecl );
391	if ( ! unionDecl->get_members().empty() ) {
392	ForwardUnionsType::iterator fwds = forwardUnions.find( unionDecl->get_name() );
393	if ( fwds != forwardUnions.end() ) {
394	for ( std::list< UnionInstType * >::iterator inst = fwds->second.begin(); inst != fwds->second.end(); ++inst ) {
395	(*inst )->set_baseUnion( unionDecl );
396	} // for
397	forwardUnions.erase( fwds );
398	} // if
399	} // if
400	}
401
402	void Pass2::visit( TypeInstType *typeInst ) {
403	if ( NamedTypeDecl *namedTypeDecl = lookupType( typeInst->get_name() ) ) {
404	if ( TypeDecl typeDecl = dynamic_cast< TypeDecl >( namedTypeDecl ) ) {
405	typeInst->set_isFtype( typeDecl->get_kind() == TypeDecl::Ftype );
406	} // if
407	} // if
408	}
409
410	Pass3::Pass3( const Indexer *other_indexer ) : Indexer( false ) {
411	if ( other_indexer ) {
412	indexer = other_indexer;
413	} else {
414	indexer = this;
415	} // if
416	}
417
418	/// Fix up assertions
419	void forallFixer( Type *func ) {
420	for ( std::list< TypeDecl * >::iterator type = func->get_forall().begin(); type != func->get_forall().end(); ++type ) {
421	std::list< DeclarationWithType * > toBeDone, nextRound;
422	toBeDone.splice( toBeDone.end(), (*type )->get_assertions() );
423	while ( ! toBeDone.empty() ) {
424	for ( std::list< DeclarationWithType * >::iterator assertion = toBeDone.begin(); assertion != toBeDone.end(); ++assertion ) {
425	if ( TraitInstType ctx = dynamic_cast< TraitInstType >( (*assertion )->get_type() ) ) {
426	for ( std::list< Declaration * >::const_iterator i = ctx->get_members().begin(); i != ctx->get_members().end(); ++i ) {
427	DeclarationWithType dwt = dynamic_cast< DeclarationWithType >( *i );
428	assert( dwt );
429	nextRound.push_back( dwt->clone() );
430	}
431	delete ctx;
432	} else {
433	FixFunction fixer;
434	assertion = (assertion )->acceptMutator( fixer );
435	if ( fixer.get_isVoid() ) {
436	throw SemanticError( "invalid type void in assertion of function ", func );
437	}
438	(type )->get_assertions().push_back( assertion );
439	} // if
440	} // for
441	toBeDone.clear();
442	toBeDone.splice( toBeDone.end(), nextRound );
443	} // while
444	} // for
445	}
446
447	void Pass3::visit( ObjectDecl *object ) {
448	forallFixer( object->get_type() );
449	if ( PointerType pointer = dynamic_cast< PointerType >( object->get_type() ) ) {
450	forallFixer( pointer->get_base() );
451	} // if
452	Parent::visit( object );
453	object->fixUniqueId();
454	}
455
456	void Pass3::visit( FunctionDecl *func ) {
457	forallFixer( func->get_type() );
458	Parent::visit( func );
459	func->fixUniqueId();
460	}
461
462	void ReturnChecker::checkFunctionReturns( std::list< Declaration * > & translationUnit ) {
463	ReturnChecker checker;
464	acceptAll( translationUnit, checker );
465	}
466
467	void ReturnChecker::visit( FunctionDecl * functionDecl ) {
468	std::list< DeclarationWithType * > oldReturnVals = returnVals;
469	returnVals = functionDecl->get_functionType()->get_returnVals();
470	Visitor::visit( functionDecl );
471	returnVals = oldReturnVals;
472	}
473
474	void ReturnChecker::visit( ReturnStmt * returnStmt ) {
475	// Previously this also checked for the existence of an expr paired with no return values on
476	// the function return type. This is incorrect, since you can have an expression attached to
477	// a return statement in a void-returning function in C. The expression is treated as if it
478	// were cast to void.
479	if ( returnStmt->get_expr() == NULL && returnVals.size() != 0 ) {
480	throw SemanticError( "Non-void function returns no values: " , returnStmt );
481	}
482	}
483
484
485	bool isTypedef( Declaration *decl ) {
486	return dynamic_cast< TypedefDecl * >( decl );
487	}
488
489	void EliminateTypedef::eliminateTypedef( std::list< Declaration * > &translationUnit ) {
490	EliminateTypedef eliminator;
491	mutateAll( translationUnit, eliminator );
492	if ( eliminator.typedefNames.count( "size_t" ) ) {
493	// grab and remember declaration of size_t
494	SizeType = eliminator.typedefNames["size_t"].first->get_base()->clone();
495	} else {
496	// xxx - missing global typedef for size_t - default to long unsigned int, even though that may be wrong
497	// eventually should have a warning for this case.
498	SizeType = new BasicType( Type::Qualifiers(), BasicType::LongUnsignedInt );
499	}
500	filter( translationUnit, isTypedef, true );
501
502	}
503
504	Type EliminateTypedef::mutate( TypeInstType typeInst ) {
505	// instances of typedef types will come here. If it is an instance
506	// of a typdef type, link the instance to its actual type.
507	TypedefMap::const_iterator def = typedefNames.find( typeInst->get_name() );
508	if ( def != typedefNames.end() ) {
509	Type *ret = def->second.first->get_base()->clone();
510	ret->get_qualifiers() += typeInst->get_qualifiers();
511	// place instance parameters on the typedef'd type
512	if ( ! typeInst->get_parameters().empty() ) {
513	ReferenceToType rtt = dynamic_cast<ReferenceToType>(ret);
514	if ( ! rtt ) {
515	throw SemanticError("cannot apply type parameters to base type of " + typeInst->get_name());
516	}
517	rtt->get_parameters().clear();
518	cloneAll( typeInst->get_parameters(), rtt->get_parameters() );
519	mutateAll( rtt->get_parameters(), *this ); // recursively fix typedefs on parameters
520	} // if
521	delete typeInst;
522	return ret;
523	} // if
524	return typeInst;
525	}
526
527	Declaration EliminateTypedef::mutate( TypedefDecl tyDecl ) {
528	Declaration *ret = Mutator::mutate( tyDecl );
529
530	if ( typedefNames.count( tyDecl->get_name() ) == 1 && typedefNames[ tyDecl->get_name() ].second == scopeLevel ) {
531	// typedef to the same name from the same scope
532	// must be from the same type
533
534	Type * t1 = tyDecl->get_base();
535	Type * t2 = typedefNames[ tyDecl->get_name() ].first->get_base();
536	if ( ! ResolvExpr::typesCompatible( t1, t2, Indexer() ) ) {
537	throw SemanticError( "cannot redefine typedef: " + tyDecl->get_name() );
538	}
539	} else {
540	typedefNames[ tyDecl->get_name() ] = std::make_pair( tyDecl, scopeLevel );
541	} // if
542
543	// When a typedef is a forward declaration:
544	// typedef struct screen SCREEN;
545	// the declaration portion must be retained:
546	// struct screen;
547	// because the expansion of the typedef is:
548	// void rtn( SCREEN p ) => void rtn( struct screen p )
549	// hence the type-name "screen" must be defined.
550	// Note, qualifiers on the typedef are superfluous for the forward declaration.
551	if ( StructInstType aggDecl = dynamic_cast< StructInstType >( tyDecl->get_base() ) ) {
552	return new StructDecl( aggDecl->get_name() );
553	} else if ( UnionInstType aggDecl = dynamic_cast< UnionInstType >( tyDecl->get_base() ) ) {
554	return new UnionDecl( aggDecl->get_name() );
555	} else if ( EnumInstType enumDecl = dynamic_cast< EnumInstType >( tyDecl->get_base() ) ) {
556	return new EnumDecl( enumDecl->get_name() );
557	} else {
558	return ret;
559	} // if
560	}
561
562	TypeDecl EliminateTypedef::mutate( TypeDecl typeDecl ) {
563	TypedefMap::iterator i = typedefNames.find( typeDecl->get_name() );
564	if ( i != typedefNames.end() ) {
565	typedefNames.erase( i ) ;
566	} // if
567	return typeDecl;
568	}
569
570	DeclarationWithType EliminateTypedef::mutate( FunctionDecl funcDecl ) {
571	TypedefMap oldNames = typedefNames;
572	DeclarationWithType *ret = Mutator::mutate( funcDecl );
573	typedefNames = oldNames;
574	return ret;
575	}
576
577	DeclarationWithType EliminateTypedef::mutate( ObjectDecl objDecl ) {
578	TypedefMap oldNames = typedefNames;
579	DeclarationWithType *ret = Mutator::mutate( objDecl );
580	typedefNames = oldNames;
581	// is the type a function?
582	if ( FunctionType funtype = dynamic_cast<FunctionType >( ret->get_type() ) ) {
583	// replace the current object declaration with a function declaration
584	return new FunctionDecl( ret->get_name(), ret->get_storageClass(), ret->get_linkage(), funtype, 0, ret->get_isInline(), ret->get_isNoreturn() );
585	} else if ( objDecl->get_isInline() \|\| objDecl->get_isNoreturn() ) {
586	throw SemanticError( "invalid inline or _Noreturn specification in declaration of ", objDecl );
587	} // if
588	return ret;
589	}
590
591	Expression EliminateTypedef::mutate( CastExpr castExpr ) {
592	TypedefMap oldNames = typedefNames;
593	Expression *ret = Mutator::mutate( castExpr );
594	typedefNames = oldNames;
595	return ret;
596	}
597
598	CompoundStmt EliminateTypedef::mutate( CompoundStmt compoundStmt ) {
599	TypedefMap oldNames = typedefNames;
600	scopeLevel += 1;
601	CompoundStmt *ret = Mutator::mutate( compoundStmt );
602	scopeLevel -= 1;
603	std::list< Statement * >::iterator i = compoundStmt->get_kids().begin();
604	while ( i != compoundStmt->get_kids().end() ) {
605	std::list< Statement * >::iterator next = i+1;
606	if ( DeclStmt declStmt = dynamic_cast< DeclStmt >( *i ) ) {
607	if ( dynamic_cast< TypedefDecl * >( declStmt->get_decl() ) ) {
608	delete *i;
609	compoundStmt->get_kids().erase( i );
610	} // if
611	} // if
612	i = next;
613	} // while
614	typedefNames = oldNames;
615	return ret;
616	}
617
618	// there may be typedefs nested within aggregates in order for everything to work properly, these should be removed
619	// as well
620	template<typename AggDecl>
621	AggDecl EliminateTypedef::handleAggregate( AggDecl aggDecl ) {
622	std::list<Declaration *>::iterator it = aggDecl->get_members().begin();
623	for ( ; it != aggDecl->get_members().end(); ) {
624	std::list< Declaration * >::iterator next = it+1;
625	if ( dynamic_cast< TypedefDecl * >( *it ) ) {
626	delete *it;
627	aggDecl->get_members().erase( it );
628	} // if
629	it = next;
630	}
631	return aggDecl;
632	}
633
634	template<typename AggDecl>
635	void EliminateTypedef::addImplicitTypedef( AggDecl * aggDecl ) {
636	if ( typedefNames.count( aggDecl->get_name() ) == 0 ) {
637	Type *type;
638	if ( StructDecl * newDeclStructDecl = dynamic_cast< StructDecl * >( aggDecl ) ) {
639	type = new StructInstType( Type::Qualifiers(), newDeclStructDecl->get_name() );
640	} else if ( UnionDecl * newDeclUnionDecl = dynamic_cast< UnionDecl * >( aggDecl ) ) {
641	type = new UnionInstType( Type::Qualifiers(), newDeclUnionDecl->get_name() );
642	} else if ( EnumDecl * newDeclEnumDecl = dynamic_cast< EnumDecl * >( aggDecl ) ) {
643	type = new EnumInstType( Type::Qualifiers(), newDeclEnumDecl->get_name() );
644	} // if
645	TypedefDecl * tyDecl = new TypedefDecl( aggDecl->get_name(), DeclarationNode::NoStorageClass, type );
646	typedefNames[ aggDecl->get_name() ] = std::make_pair( tyDecl, scopeLevel );
647	} // if
648	}
649
650	Declaration EliminateTypedef::mutate( StructDecl structDecl ) {
651	addImplicitTypedef( structDecl );
652	Mutator::mutate( structDecl );
653	return handleAggregate( structDecl );
654	}
655
656	Declaration EliminateTypedef::mutate( UnionDecl unionDecl ) {
657	addImplicitTypedef( unionDecl );
658	Mutator::mutate( unionDecl );
659	return handleAggregate( unionDecl );
660	}
661
662	Declaration EliminateTypedef::mutate( EnumDecl enumDecl ) {
663	addImplicitTypedef( enumDecl );
664	Mutator::mutate( enumDecl );
665	return handleAggregate( enumDecl );
666	}
667
668	Declaration EliminateTypedef::mutate( TraitDecl contextDecl ) {
669	Mutator::mutate( contextDecl );
670	return handleAggregate( contextDecl );
671	}
672
673	void VerifyCtorDtor::verify( std::list< Declaration * > & translationUnit ) {
674	VerifyCtorDtor verifier;
675	acceptAll( translationUnit, verifier );
676	}
677
678	void VerifyCtorDtor::visit( FunctionDecl * funcDecl ) {
679	FunctionType * funcType = funcDecl->get_functionType();
680	std::list< DeclarationWithType * > &returnVals = funcType->get_returnVals();
681	std::list< DeclarationWithType * > &params = funcType->get_parameters();
682
683	if ( funcDecl->get_name() == "?{}" \|\| funcDecl->get_name() == "^?{}" ) {
684	if ( params.size() == 0 ) {
685	throw SemanticError( "Constructors and destructors require at least one parameter ", funcDecl );
686	}
687	if ( ! dynamic_cast< PointerType * >( params.front()->get_type() ) ) {
688	throw SemanticError( "First parameter of a constructor or destructor must be a pointer ", funcDecl );
689	}
690	if ( returnVals.size() != 0 ) {
691	throw SemanticError( "Constructors and destructors cannot have explicit return values ", funcDecl );
692	}
693	}
694
695	Visitor::visit( funcDecl );
696	}
697
698	DeclarationWithType * CompoundLiteral::mutate( ObjectDecl *objectDecl ) {
699	storageclass = objectDecl->get_storageClass();
700	DeclarationWithType * temp = Mutator::mutate( objectDecl );
701	storageclass = DeclarationNode::NoStorageClass;
702	return temp;
703	}
704
705	Expression CompoundLiteral::mutate( CompoundLiteralExpr compLitExpr ) {
706	// transform [storage_class] ... (struct S){ 3, ... };
707	// into [storage_class] struct S temp = { 3, ... };
708	static UniqueName indexName( "_compLit" );
709
710	ObjectDecl *tempvar = new ObjectDecl( indexName.newName(), storageclass, LinkageSpec::C, 0, compLitExpr->get_type(), compLitExpr->get_initializer() );
711	compLitExpr->set_type( 0 );
712	compLitExpr->set_initializer( 0 );
713	delete compLitExpr;
714	DeclarationWithType * newtempvar = mutate( tempvar );
715	addDeclaration( newtempvar ); // add modified temporary to current block
716	return new VariableExpr( newtempvar );
717	}
718	} // namespace SymTab
719
720	// Local Variables: //
721	// tab-width: 4 //
722	// mode: c++ //
723	// compile-command: "make install" //
724	// End: //

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