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source: src/SymTab/Validate.cc @ d804830

ADTaaron-thesisarm-ehast-experimentalcleanup-dtorsdeferred_resndemanglerenumforall-pointer-decayjacob/cs343-translationjenkins-sandboxnew-astnew-ast-unique-exprno_listpersistent-indexerpthread-emulationqualifiedEnum

Last change on this file since d804830 was e82ef13, checked in by Rob Schluntz <rschlunt@…>, 6 years ago
Transfer location from typedef instance to actual type [fixes #97]
Property mode set to `100644`
File size: 49.4 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	// 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 : Mon Aug 28 13:47:23 2017
13	// Update Count : 359
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. A function
26	// taking no arguments has no argument types.
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 "Validate.h"
41
42	#include <cassert> // for assertf, assert
43	#include <cstddef> // for size_t
44	#include <list> // for list
45	#include <string> // for string
46	#include <utility> // for pair
47
48	#include "CodeGen/CodeGenerator.h" // for genName
49	#include "CodeGen/OperatorTable.h" // for isCtorDtor, isCtorDtorAssign
50	#include "ControlStruct/Mutate.h" // for ForExprMutator
51	#include "Common/PassVisitor.h" // for PassVisitor, WithDeclsToAdd
52	#include "Common/ScopedMap.h" // for ScopedMap
53	#include "Common/SemanticError.h" // for SemanticError
54	#include "Common/UniqueName.h" // for UniqueName
55	#include "Common/utility.h" // for operator+, cloneAll, deleteAll
56	#include "Concurrency/Keywords.h" // for applyKeywords
57	#include "FixFunction.h" // for FixFunction
58	#include "Indexer.h" // for Indexer
59	#include "InitTweak/GenInit.h" // for fixReturnStatements
60	#include "InitTweak/InitTweak.h" // for isCtorDtorAssign
61	#include "Parser/LinkageSpec.h" // for C
62	#include "ResolvExpr/typeops.h" // for typesCompatible
63	#include "SymTab/Autogen.h" // for SizeType
64	#include "SynTree/Attribute.h" // for noAttributes, Attribute
65	#include "SynTree/Constant.h" // for Constant
66	#include "SynTree/Declaration.h" // for ObjectDecl, DeclarationWithType
67	#include "SynTree/Expression.h" // for CompoundLiteralExpr, Expressio...
68	#include "SynTree/Initializer.h" // for ListInit, Initializer
69	#include "SynTree/Label.h" // for operator==, Label
70	#include "SynTree/Mutator.h" // for Mutator
71	#include "SynTree/Type.h" // for Type, TypeInstType, EnumInstType
72	#include "SynTree/TypeSubstitution.h" // for TypeSubstitution
73	#include "SynTree/Visitor.h" // for Visitor
74
75	class CompoundStmt;
76	class ReturnStmt;
77	class SwitchStmt;
78
79	#define debugPrint( x ) if ( doDebug ) x
80
81	namespace SymTab {
82	/// hoists declarations that are difficult to hoist while parsing
83	struct HoistTypeDecls final : public WithDeclsToAdd {
84	void previsit( SizeofExpr * );
85	void previsit( AlignofExpr * );
86	void previsit( UntypedOffsetofExpr * );
87	void handleType( Type * );
88	};
89
90	struct FixQualifiedTypes final : public WithIndexer {
91	Type * postmutate( QualifiedType * );
92	};
93
94	struct HoistStruct final : public WithDeclsToAdd, public WithGuards {
95	/// Flattens nested struct types
96	static void hoistStruct( std::list< Declaration * > &translationUnit );
97
98	void previsit( StructDecl * aggregateDecl );
99	void previsit( UnionDecl * aggregateDecl );
100	void previsit( StaticAssertDecl * assertDecl );
101	void previsit( StructInstType * type );
102	void previsit( UnionInstType * type );
103	void previsit( EnumInstType * type );
104
105	private:
106	template< typename AggDecl > void handleAggregate( AggDecl *aggregateDecl );
107
108	AggregateDecl * parentAggr = nullptr;
109	};
110
111	/// Fix return types so that every function returns exactly one value
112	struct ReturnTypeFixer {
113	static void fix( std::list< Declaration * > &translationUnit );
114
115	void postvisit( FunctionDecl * functionDecl );
116	void postvisit( FunctionType * ftype );
117	};
118
119	/// Replaces enum types by int, and function or array types in function parameter and return lists by appropriate pointers.
120	struct EnumAndPointerDecay {
121	void previsit( EnumDecl *aggregateDecl );
122	void previsit( FunctionType *func );
123	};
124
125	/// Associates forward declarations of aggregates with their definitions
126	struct LinkReferenceToTypes final : public WithIndexer, public WithGuards, public WithVisitorRef<LinkReferenceToTypes>, public WithShortCircuiting {
127	LinkReferenceToTypes( const Indexer *indexer );
128	void postvisit( TypeInstType *typeInst );
129
130	void postvisit( EnumInstType *enumInst );
131	void postvisit( StructInstType *structInst );
132	void postvisit( UnionInstType *unionInst );
133	void postvisit( TraitInstType *traitInst );
134	void previsit( QualifiedType * qualType );
135	void postvisit( QualifiedType * qualType );
136
137	void postvisit( EnumDecl *enumDecl );
138	void postvisit( StructDecl *structDecl );
139	void postvisit( UnionDecl *unionDecl );
140	void postvisit( TraitDecl * traitDecl );
141
142	void previsit( StructDecl *structDecl );
143	void previsit( UnionDecl *unionDecl );
144
145	void renameGenericParams( std::list< TypeDecl * > & params );
146
147	private:
148	const Indexer *local_indexer;
149
150	typedef std::map< std::string, std::list< EnumInstType * > > ForwardEnumsType;
151	typedef std::map< std::string, std::list< StructInstType * > > ForwardStructsType;
152	typedef std::map< std::string, std::list< UnionInstType * > > ForwardUnionsType;
153	ForwardEnumsType forwardEnums;
154	ForwardStructsType forwardStructs;
155	ForwardUnionsType forwardUnions;
156	/// true if currently in a generic type body, so that type parameter instances can be renamed appropriately
157	bool inGeneric = false;
158	};
159
160	/// Replaces array and function types in forall lists by appropriate pointer type and assigns each Object and Function declaration a unique ID.
161	struct ForallPointerDecay final {
162	void previsit( ObjectDecl * object );
163	void previsit( FunctionDecl * func );
164	void previsit( FunctionType * ftype );
165	void previsit( StructDecl * aggrDecl );
166	void previsit( UnionDecl * aggrDecl );
167	};
168
169	struct ReturnChecker : public WithGuards {
170	/// Checks that return statements return nothing if their return type is void
171	/// and return something if the return type is non-void.
172	static void checkFunctionReturns( std::list< Declaration * > & translationUnit );
173
174	void previsit( FunctionDecl * functionDecl );
175	void previsit( ReturnStmt * returnStmt );
176
177	typedef std::list< DeclarationWithType * > ReturnVals;
178	ReturnVals returnVals;
179	};
180
181	struct ReplaceTypedef final : public WithVisitorRef<ReplaceTypedef>, public WithGuards, public WithShortCircuiting, public WithDeclsToAdd {
182	ReplaceTypedef() : scopeLevel( 0 ) {}
183	/// Replaces typedefs by forward declarations
184	static void replaceTypedef( std::list< Declaration * > &translationUnit );
185
186	void premutate( QualifiedType * );
187	Type * postmutate( QualifiedType * qualType );
188	Type * postmutate( TypeInstType * aggregateUseType );
189	Declaration * postmutate( TypedefDecl * typeDecl );
190	void premutate( TypeDecl * typeDecl );
191	void premutate( FunctionDecl * funcDecl );
192	void premutate( ObjectDecl * objDecl );
193	DeclarationWithType * postmutate( ObjectDecl * objDecl );
194
195	void premutate( CastExpr * castExpr );
196
197	void premutate( CompoundStmt * compoundStmt );
198
199	void premutate( StructDecl * structDecl );
200	void premutate( UnionDecl * unionDecl );
201	void premutate( EnumDecl * enumDecl );
202	void premutate( TraitDecl * );
203
204	void premutate( FunctionType * ftype );
205
206	private:
207	template<typename AggDecl>
208	void addImplicitTypedef( AggDecl * aggDecl );
209	template< typename AggDecl >
210	void handleAggregate( AggDecl * aggr );
211
212	typedef std::unique_ptr<TypedefDecl> TypedefDeclPtr;
213	typedef ScopedMap< std::string, std::pair< TypedefDeclPtr, int > > TypedefMap;
214	typedef ScopedMap< std::string, TypeDecl * > TypeDeclMap;
215	TypedefMap typedefNames;
216	TypeDeclMap typedeclNames;
217	int scopeLevel;
218	bool inFunctionType = false;
219	};
220
221	struct EliminateTypedef {
222	/// removes TypedefDecls from the AST
223	static void eliminateTypedef( std::list< Declaration * > &translationUnit );
224
225	template<typename AggDecl>
226	void handleAggregate( AggDecl *aggregateDecl );
227
228	void previsit( StructDecl * aggregateDecl );
229	void previsit( UnionDecl * aggregateDecl );
230	void previsit( CompoundStmt * compoundStmt );
231	};
232
233	struct VerifyCtorDtorAssign {
234	/// ensure that constructors, destructors, and assignment have at least one
235	/// parameter, the first of which must be a pointer, and that ctor/dtors have no
236	/// return values.
237	static void verify( std::list< Declaration * > &translationUnit );
238
239	void previsit( FunctionDecl *funcDecl );
240	};
241
242	/// ensure that generic types have the correct number of type arguments
243	struct ValidateGenericParameters {
244	void previsit( StructInstType * inst );
245	void previsit( UnionInstType * inst );
246	};
247
248	struct ArrayLength {
249	/// for array types without an explicit length, compute the length and store it so that it
250	/// is known to the rest of the phases. For example,
251	/// int x[] = { 1, 2, 3 };
252	/// int y[][2] = { { 1, 2, 3 }, { 1, 2, 3 } };
253	/// here x and y are known at compile-time to have length 3, so change this into
254	/// int x[3] = { 1, 2, 3 };
255	/// int y[3][2] = { { 1, 2, 3 }, { 1, 2, 3 } };
256	static void computeLength( std::list< Declaration * > & translationUnit );
257
258	void previsit( ObjectDecl * objDecl );
259	};
260
261	struct CompoundLiteral final : public WithDeclsToAdd, public WithVisitorRef<CompoundLiteral> {
262	Type::StorageClasses storageClasses;
263
264	void premutate( ObjectDecl *objectDecl );
265	Expression * postmutate( CompoundLiteralExpr *compLitExpr );
266	};
267
268	struct LabelAddressFixer final : public WithGuards {
269	std::set< Label > labels;
270
271	void premutate( FunctionDecl * funcDecl );
272	Expression * postmutate( AddressExpr * addrExpr );
273	};
274
275	FunctionDecl * dereferenceOperator = nullptr;
276	struct FindSpecialDeclarations final {
277	void previsit( FunctionDecl * funcDecl );
278	};
279
280	void validate( std::list< Declaration * > &translationUnit, __attribute__((unused)) bool doDebug ) {
281	PassVisitor<EnumAndPointerDecay> epc;
282	PassVisitor<LinkReferenceToTypes> lrt( nullptr );
283	PassVisitor<ForallPointerDecay> fpd;
284	PassVisitor<CompoundLiteral> compoundliteral;
285	PassVisitor<ValidateGenericParameters> genericParams;
286	PassVisitor<FindSpecialDeclarations> finder;
287	PassVisitor<LabelAddressFixer> labelAddrFixer;
288	PassVisitor<HoistTypeDecls> hoistDecls;
289	PassVisitor<FixQualifiedTypes> fixQual;
290
291	acceptAll( translationUnit, hoistDecls );
292	ReplaceTypedef::replaceTypedef( translationUnit );
293	ReturnTypeFixer::fix( translationUnit ); // must happen before autogen
294	acceptAll( translationUnit, epc ); // must happen before VerifyCtorDtorAssign, because void return objects should not exist; before LinkReferenceToTypes because it is an indexer and needs correct types for mangling
295	acceptAll( translationUnit, lrt ); // must happen before autogen, because sized flag needs to propagate to generated functions
296	mutateAll( translationUnit, fixQual ); // must happen after LinkReferenceToTypes, because aggregate members are accessed
297	HoistStruct::hoistStruct( translationUnit ); // must happen after EliminateTypedef, so that aggregate typedefs occur in the correct order
298	EliminateTypedef::eliminateTypedef( translationUnit ); //
299	acceptAll( translationUnit, genericParams ); // check as early as possible - can't happen before LinkReferenceToTypes
300	VerifyCtorDtorAssign::verify( translationUnit ); // must happen before autogen, because autogen examines existing ctor/dtors
301	ReturnChecker::checkFunctionReturns( translationUnit );
302	InitTweak::fixReturnStatements( translationUnit ); // must happen before autogen
303	Concurrency::applyKeywords( translationUnit );
304	acceptAll( translationUnit, fpd ); // must happen before autogenerateRoutines, after Concurrency::applyKeywords because uniqueIds must be set on declaration before resolution
305	ControlStruct::hoistControlDecls( translationUnit ); // hoist initialization out of for statements; must happen before autogenerateRoutines
306	autogenerateRoutines( translationUnit ); // moved up, used to be below compoundLiteral - currently needs EnumAndPointerDecay
307	Concurrency::implementMutexFuncs( translationUnit );
308	Concurrency::implementThreadStarter( translationUnit );
309	mutateAll( translationUnit, compoundliteral );
310	ArrayLength::computeLength( translationUnit );
311	acceptAll( translationUnit, finder ); // xxx - remove this pass soon
312	mutateAll( translationUnit, labelAddrFixer );
313	}
314
315	void validateType( Type type, const Indexer indexer ) {
316	PassVisitor<EnumAndPointerDecay> epc;
317	PassVisitor<LinkReferenceToTypes> lrt( indexer );
318	PassVisitor<ForallPointerDecay> fpd;
319	type->accept( epc );
320	type->accept( lrt );
321	type->accept( fpd );
322	}
323
324
325	void HoistTypeDecls::handleType( Type * type ) {
326	// some type declarations are buried in expressions and not easy to hoist during parsing; hoist them here
327	AggregateDecl * aggr = nullptr;
328	if ( StructInstType * inst = dynamic_cast< StructInstType * >( type ) ) {
329	aggr = inst->baseStruct;
330	} else if ( UnionInstType * inst = dynamic_cast< UnionInstType * >( type ) ) {
331	aggr = inst->baseUnion;
332	} else if ( EnumInstType * inst = dynamic_cast< EnumInstType * >( type ) ) {
333	aggr = inst->baseEnum;
334	}
335	if ( aggr && aggr->body ) {
336	declsToAddBefore.push_front( aggr );
337	}
338	}
339
340	void HoistTypeDecls::previsit( SizeofExpr * expr ) {
341	handleType( expr->type );
342	}
343
344	void HoistTypeDecls::previsit( AlignofExpr * expr ) {
345	handleType( expr->type );
346	}
347
348	void HoistTypeDecls::previsit( UntypedOffsetofExpr * expr ) {
349	handleType( expr->type );
350	}
351
352
353	Type * FixQualifiedTypes::postmutate( QualifiedType * qualType ) {
354	Type * parent = qualType->parent;
355	Type * child = qualType->child;
356	if ( dynamic_cast< GlobalScopeType * >( qualType->parent ) ) {
357	// .T => lookup T at global scope
358	if ( TypeInstType * inst = dynamic_cast< TypeInstType * >( child ) ) {
359	auto td = indexer.globalLookupType( inst->name );
360	if ( ! td ) {
361	SemanticError( qualType->location, toString("Use of undefined global type ", inst->name) );
362	}
363	auto base = td->base;
364	assert( base );
365	return base->clone();
366	} else {
367	// .T => T is not a type name
368	assertf( false, "unhandled global qualified child type: %s", toCString(child) );
369	}
370	} else {
371	// S.T => S must be an aggregate type, find the declaration for T in S.
372	AggregateDecl * aggr = nullptr;
373	if ( StructInstType * inst = dynamic_cast< StructInstType * >( parent ) ) {
374	aggr = inst->baseStruct;
375	} else if ( UnionInstType * inst = dynamic_cast< UnionInstType * > ( parent ) ) {
376	aggr = inst->baseUnion;
377	} else {
378	SemanticError( qualType->location, toString("Qualified type requires an aggregate on the left, but has: ", parent) );
379	}
380	assert( aggr ); // TODO: need to handle forward declarations
381	for ( Declaration * member : aggr->members ) {
382	if ( StructInstType * inst = dynamic_cast< StructInstType * >( child ) ) {
383	if ( StructDecl * aggr = dynamic_cast< StructDecl * >( member ) ) {
384	if ( aggr->name == inst->name ) {
385	return new StructInstType( qualType->get_qualifiers(), aggr );
386	}
387	}
388	} else if ( UnionInstType * inst = dynamic_cast< UnionInstType * >( child ) ) {
389	if ( UnionDecl * aggr = dynamic_cast< UnionDecl * > ( member ) ) {
390	if ( aggr->name == inst->name ) {
391	return new UnionInstType( qualType->get_qualifiers(), aggr );
392	}
393	}
394	} else if ( EnumInstType * inst = dynamic_cast< EnumInstType * >( child ) ) {
395	if ( EnumDecl * aggr = dynamic_cast< EnumDecl * > ( member ) ) {
396	if ( aggr->name == inst->name ) {
397	return new EnumInstType( qualType->get_qualifiers(), aggr );
398	}
399	}
400	} else if ( TypeInstType * inst = dynamic_cast< TypeInstType * >( child ) ) {
401	// struct typedefs are being replaced by forward decls too early; move it to hoist struct
402	if ( NamedTypeDecl * aggr = dynamic_cast< NamedTypeDecl * > ( member ) ) {
403	if ( aggr->name == inst->name ) {
404	assert( aggr->base );
405	return aggr->base->clone();
406	}
407	}
408	} else {
409	// S.T - S is not an aggregate => error
410	assertf( false, "unhandled qualified child type: %s", toCString(qualType) );
411	}
412	}
413	// failed to find a satisfying definition of type
414	SemanticError( qualType->location, toString("Undefined type in qualified type: ", qualType) );
415	}
416
417	// ... may want to link canonical SUE definition to each forward decl so that it becomes easier to lookup?
418	}
419
420
421	void HoistStruct::hoistStruct( std::list< Declaration * > &translationUnit ) {
422	PassVisitor<HoistStruct> hoister;
423	acceptAll( translationUnit, hoister );
424	}
425
426	bool shouldHoist( Declaration *decl ) {
427	return dynamic_cast< StructDecl * >( decl ) \|\| dynamic_cast< UnionDecl * >( decl ) \|\| dynamic_cast< StaticAssertDecl * >( decl );
428	}
429
430	namespace {
431	void qualifiedName( AggregateDecl * aggr, std::ostringstream & ss ) {
432	if ( aggr->parent ) qualifiedName( aggr->parent, ss );
433	ss << "__" << aggr->name;
434	}
435
436	// mangle nested type names using entire parent chain
437	std::string qualifiedName( AggregateDecl * aggr ) {
438	std::ostringstream ss;
439	qualifiedName( aggr, ss );
440	return ss.str();
441	}
442	}
443
444	template< typename AggDecl >
445	void HoistStruct::handleAggregate( AggDecl *aggregateDecl ) {
446	if ( parentAggr ) {
447	aggregateDecl->parent = parentAggr;
448	aggregateDecl->name = qualifiedName( aggregateDecl );
449	// Add elements in stack order corresponding to nesting structure.
450	declsToAddBefore.push_front( aggregateDecl );
451	} else {
452	GuardValue( parentAggr );
453	parentAggr = aggregateDecl;
454	} // if
455	// Always remove the hoisted aggregate from the inner structure.
456	GuardAction( [aggregateDecl]() { filter( aggregateDecl->members, shouldHoist, false ); } );
457	}
458
459	void HoistStruct::previsit( StaticAssertDecl * assertDecl ) {
460	if ( parentAggr ) {
461	declsToAddBefore.push_back( assertDecl );
462	}
463	}
464
465	void HoistStruct::previsit( StructDecl * aggregateDecl ) {
466	handleAggregate( aggregateDecl );
467	}
468
469	void HoistStruct::previsit( UnionDecl * aggregateDecl ) {
470	handleAggregate( aggregateDecl );
471	}
472
473	void HoistStruct::previsit( StructInstType * type ) {
474	// need to reset type name after expanding to qualified name
475	assert( type->baseStruct );
476	type->name = type->baseStruct->name;
477	}
478
479	void HoistStruct::previsit( UnionInstType * type ) {
480	assert( type->baseUnion );
481	type->name = type->baseUnion->name;
482	}
483
484	void HoistStruct::previsit( EnumInstType * type ) {
485	assert( type->baseEnum );
486	type->name = type->baseEnum->name;
487	}
488
489
490	bool isTypedef( Declaration *decl ) {
491	return dynamic_cast< TypedefDecl * >( decl );
492	}
493
494	void EliminateTypedef::eliminateTypedef( std::list< Declaration * > &translationUnit ) {
495	PassVisitor<EliminateTypedef> eliminator;
496	acceptAll( translationUnit, eliminator );
497	filter( translationUnit, isTypedef, true );
498	}
499
500	template< typename AggDecl >
501	void EliminateTypedef::handleAggregate( AggDecl *aggregateDecl ) {
502	filter( aggregateDecl->members, isTypedef, true );
503	}
504
505	void EliminateTypedef::previsit( StructDecl * aggregateDecl ) {
506	handleAggregate( aggregateDecl );
507	}
508
509	void EliminateTypedef::previsit( UnionDecl * aggregateDecl ) {
510	handleAggregate( aggregateDecl );
511	}
512
513	void EliminateTypedef::previsit( CompoundStmt * compoundStmt ) {
514	// remove and delete decl stmts
515	filter( compoundStmt->kids, [](Statement * stmt) {
516	if ( DeclStmt declStmt = dynamic_cast< DeclStmt >( stmt ) ) {
517	if ( dynamic_cast< TypedefDecl * >( declStmt->decl ) ) {
518	return true;
519	} // if
520	} // if
521	return false;
522	}, true);
523	}
524
525	void EnumAndPointerDecay::previsit( EnumDecl *enumDecl ) {
526	// Set the type of each member of the enumeration to be EnumConstant
527	for ( std::list< Declaration * >::iterator i = enumDecl->members.begin(); i != enumDecl->members.end(); ++i ) {
528	ObjectDecl * obj = dynamic_cast< ObjectDecl * >( *i );
529	assert( obj );
530	obj->set_type( new EnumInstType( Type::Qualifiers( Type::Const ), enumDecl->name ) );
531	} // for
532	}
533
534	namespace {
535	template< typename DWTList >
536	void fixFunctionList( DWTList & dwts, bool isVarArgs, FunctionType * func ) {
537	auto nvals = dwts.size();
538	bool containsVoid = false;
539	for ( auto & dwt : dwts ) {
540	// fix each DWT and record whether a void was found
541	containsVoid \|= fixFunction( dwt );
542	}
543
544	// the only case in which "void" is valid is where it is the only one in the list
545	if ( containsVoid && ( nvals > 1 \|\| isVarArgs ) ) {
546	SemanticError( func, "invalid type void in function type " );
547	}
548
549	// one void is the only thing in the list; remove it.
550	if ( containsVoid ) {
551	delete dwts.front();
552	dwts.clear();
553	}
554	}
555	}
556
557	void EnumAndPointerDecay::previsit( FunctionType *func ) {
558	// Fix up parameters and return types
559	fixFunctionList( func->parameters, func->isVarArgs, func );
560	fixFunctionList( func->returnVals, false, func );
561	}
562
563	LinkReferenceToTypes::LinkReferenceToTypes( const Indexer *other_indexer ) {
564	if ( other_indexer ) {
565	local_indexer = other_indexer;
566	} else {
567	local_indexer = &indexer;
568	} // if
569	}
570
571	void LinkReferenceToTypes::postvisit( EnumInstType *enumInst ) {
572	EnumDecl *st = local_indexer->lookupEnum( enumInst->name );
573	// it's not a semantic error if the enum is not found, just an implicit forward declaration
574	if ( st ) {
575	enumInst->baseEnum = st;
576	} // if
577	if ( ! st \|\| ! st->body ) {
578	// use of forward declaration
579	forwardEnums[ enumInst->name ].push_back( enumInst );
580	} // if
581	}
582
583	void checkGenericParameters( ReferenceToType * inst ) {
584	for ( Expression * param : inst->parameters ) {
585	if ( ! dynamic_cast< TypeExpr * >( param ) ) {
586	SemanticError( inst, "Expression parameters for generic types are currently unsupported: " );
587	}
588	}
589	}
590
591	void LinkReferenceToTypes::postvisit( StructInstType *structInst ) {
592	StructDecl *st = local_indexer->lookupStruct( structInst->name );
593	// it's not a semantic error if the struct is not found, just an implicit forward declaration
594	if ( st ) {
595	structInst->baseStruct = st;
596	} // if
597	if ( ! st \|\| ! st->body ) {
598	// use of forward declaration
599	forwardStructs[ structInst->name ].push_back( structInst );
600	} // if
601	checkGenericParameters( structInst );
602	}
603
604	void LinkReferenceToTypes::postvisit( UnionInstType *unionInst ) {
605	UnionDecl *un = local_indexer->lookupUnion( unionInst->name );
606	// it's not a semantic error if the union is not found, just an implicit forward declaration
607	if ( un ) {
608	unionInst->baseUnion = un;
609	} // if
610	if ( ! un \|\| ! un->body ) {
611	// use of forward declaration
612	forwardUnions[ unionInst->name ].push_back( unionInst );
613	} // if
614	checkGenericParameters( unionInst );
615	}
616
617	void LinkReferenceToTypes::previsit( QualifiedType * ) {
618	visit_children = false;
619	}
620
621	void LinkReferenceToTypes::postvisit( QualifiedType * qualType ) {
622	// linking only makes sense for the 'oldest ancestor' of the qualified type
623	qualType->parent->accept( *visitor );
624	}
625
626	template< typename Decl >
627	void normalizeAssertions( std::list< Decl * > & assertions ) {
628	// ensure no duplicate trait members after the clone
629	auto pred = [](Decl * d1, Decl * d2) {
630	// only care if they're equal
631	DeclarationWithType * dwt1 = dynamic_cast<DeclarationWithType *>( d1 );
632	DeclarationWithType * dwt2 = dynamic_cast<DeclarationWithType *>( d2 );
633	if ( dwt1 && dwt2 ) {
634	if ( dwt1->name == dwt2->name && ResolvExpr::typesCompatible( dwt1->get_type(), dwt2->get_type(), SymTab::Indexer() ) ) {
635	// std::cerr << "=========== equal:" << std::endl;
636	// std::cerr << "d1: " << d1 << std::endl;
637	// std::cerr << "d2: " << d2 << std::endl;
638	return false;
639	}
640	}
641	return d1 < d2;
642	};
643	std::set<Decl *, decltype(pred)> unique_members( assertions.begin(), assertions.end(), pred );
644	// if ( unique_members.size() != assertions.size() ) {
645	// std::cerr << "============different" << std::endl;
646	// std::cerr << unique_members.size() << " " << assertions.size() << std::endl;
647	// }
648
649	std::list< Decl * > order;
650	order.splice( order.end(), assertions );
651	std::copy_if( order.begin(), order.end(), back_inserter( assertions ), [&]( Decl * decl ) {
652	return unique_members.count( decl );
653	});
654	}
655
656	// expand assertions from trait instance, performing the appropriate type variable substitutions
657	template< typename Iterator >
658	void expandAssertions( TraitInstType * inst, Iterator out ) {
659	assertf( inst->baseTrait, "Trait instance not linked to base trait: %s", toCString( inst ) );
660	std::list< DeclarationWithType * > asserts;
661	for ( Declaration * decl : inst->baseTrait->members ) {
662	asserts.push_back( strict_dynamic_cast<DeclarationWithType *>( decl->clone() ) );
663	}
664	// substitute trait decl parameters for instance parameters
665	applySubstitution( inst->baseTrait->parameters.begin(), inst->baseTrait->parameters.end(), inst->parameters.begin(), asserts.begin(), asserts.end(), out );
666	}
667
668	void LinkReferenceToTypes::postvisit( TraitDecl * traitDecl ) {
669	if ( traitDecl->name == "sized" ) {
670	// "sized" is a special trait - flick the sized status on for the type variable
671	assertf( traitDecl->parameters.size() == 1, "Built-in trait 'sized' has incorrect number of parameters: %zd", traitDecl->parameters.size() );
672	TypeDecl * td = traitDecl->parameters.front();
673	td->set_sized( true );
674	}
675
676	// move assertions from type parameters into the body of the trait
677	for ( TypeDecl * td : traitDecl->parameters ) {
678	for ( DeclarationWithType * assert : td->assertions ) {
679	if ( TraitInstType * inst = dynamic_cast< TraitInstType * >( assert->get_type() ) ) {
680	expandAssertions( inst, back_inserter( traitDecl->members ) );
681	} else {
682	traitDecl->members.push_back( assert->clone() );
683	}
684	}
685	deleteAll( td->assertions );
686	td->assertions.clear();
687	} // for
688	}
689
690	void LinkReferenceToTypes::postvisit( TraitInstType * traitInst ) {
691	// handle other traits
692	TraitDecl *traitDecl = local_indexer->lookupTrait( traitInst->name );
693	if ( ! traitDecl ) {
694	SemanticError( traitInst->location, "use of undeclared trait " + traitInst->name );
695	} // if
696	if ( traitDecl->parameters.size() != traitInst->parameters.size() ) {
697	SemanticError( traitInst, "incorrect number of trait parameters: " );
698	} // if
699	traitInst->baseTrait = traitDecl;
700
701	// need to carry over the 'sized' status of each decl in the instance
702	for ( auto p : group_iterate( traitDecl->parameters, traitInst->parameters ) ) {
703	TypeExpr * expr = dynamic_cast< TypeExpr * >( std::get<1>(p) );
704	if ( ! expr ) {
705	SemanticError( std::get<1>(p), "Expression parameters for trait instances are currently unsupported: " );
706	}
707	if ( TypeInstType * inst = dynamic_cast< TypeInstType * >( expr->get_type() ) ) {
708	TypeDecl * formalDecl = std::get<0>(p);
709	TypeDecl * instDecl = inst->baseType;
710	if ( formalDecl->get_sized() ) instDecl->set_sized( true );
711	}
712	}
713	// normalizeAssertions( traitInst->members );
714	}
715
716	void LinkReferenceToTypes::postvisit( EnumDecl *enumDecl ) {
717	// visit enum members first so that the types of self-referencing members are updated properly
718	if ( enumDecl->body ) {
719	ForwardEnumsType::iterator fwds = forwardEnums.find( enumDecl->name );
720	if ( fwds != forwardEnums.end() ) {
721	for ( std::list< EnumInstType * >::iterator inst = fwds->second.begin(); inst != fwds->second.end(); ++inst ) {
722	(*inst)->baseEnum = enumDecl;
723	} // for
724	forwardEnums.erase( fwds );
725	} // if
726	} // if
727	}
728
729	void LinkReferenceToTypes::renameGenericParams( std::list< TypeDecl * > & params ) {
730	// rename generic type parameters uniquely so that they do not conflict with user-defined function forall parameters, e.g.
731	// forall(otype T)
732	// struct Box {
733	// T x;
734	// };
735	// forall(otype T)
736	// void f(Box(T) b) {
737	// ...
738	// }
739	// The T in Box and the T in f are different, so internally the naming must reflect that.
740	GuardValue( inGeneric );
741	inGeneric = ! params.empty();
742	for ( TypeDecl * td : params ) {
743	td->name = "__" + td->name + "_generic_";
744	}
745	}
746
747	void LinkReferenceToTypes::previsit( StructDecl * structDecl ) {
748	renameGenericParams( structDecl->parameters );
749	}
750
751	void LinkReferenceToTypes::previsit( UnionDecl * unionDecl ) {
752	renameGenericParams( unionDecl->parameters );
753	}
754
755	void LinkReferenceToTypes::postvisit( StructDecl *structDecl ) {
756	// visit struct members first so that the types of self-referencing members are updated properly
757	// xxx - need to ensure that type parameters match up between forward declarations and definition (most importantly, number of type parameters and their defaults)
758	if ( structDecl->body ) {
759	ForwardStructsType::iterator fwds = forwardStructs.find( structDecl->name );
760	if ( fwds != forwardStructs.end() ) {
761	for ( std::list< StructInstType * >::iterator inst = fwds->second.begin(); inst != fwds->second.end(); ++inst ) {
762	(*inst)->baseStruct = structDecl;
763	} // for
764	forwardStructs.erase( fwds );
765	} // if
766	} // if
767	}
768
769	void LinkReferenceToTypes::postvisit( UnionDecl *unionDecl ) {
770	if ( unionDecl->body ) {
771	ForwardUnionsType::iterator fwds = forwardUnions.find( unionDecl->name );
772	if ( fwds != forwardUnions.end() ) {
773	for ( std::list< UnionInstType * >::iterator inst = fwds->second.begin(); inst != fwds->second.end(); ++inst ) {
774	(*inst)->baseUnion = unionDecl;
775	} // for
776	forwardUnions.erase( fwds );
777	} // if
778	} // if
779	}
780
781	void LinkReferenceToTypes::postvisit( TypeInstType *typeInst ) {
782	// ensure generic parameter instances are renamed like the base type
783	if ( inGeneric && typeInst->baseType ) typeInst->name = typeInst->baseType->name;
784	if ( NamedTypeDecl *namedTypeDecl = local_indexer->lookupType( typeInst->name ) ) {
785	if ( TypeDecl typeDecl = dynamic_cast< TypeDecl >( namedTypeDecl ) ) {
786	typeInst->set_isFtype( typeDecl->get_kind() == TypeDecl::Ftype );
787	} // if
788	} // if
789	}
790
791	/// Fix up assertions - flattens assertion lists, removing all trait instances
792	void forallFixer( std::list< TypeDecl * > & forall, BaseSyntaxNode * node ) {
793	for ( TypeDecl * type : forall ) {
794	std::list< DeclarationWithType * > asserts;
795	asserts.splice( asserts.end(), type->assertions );
796	// expand trait instances into their members
797	for ( DeclarationWithType * assertion : asserts ) {
798	if ( TraitInstType traitInst = dynamic_cast< TraitInstType >( assertion->get_type() ) ) {
799	// expand trait instance into all of its members
800	expandAssertions( traitInst, back_inserter( type->assertions ) );
801	delete traitInst;
802	} else {
803	// pass other assertions through
804	type->assertions.push_back( assertion );
805	} // if
806	} // for
807	// apply FixFunction to every assertion to check for invalid void type
808	for ( DeclarationWithType *& assertion : type->assertions ) {
809	bool isVoid = fixFunction( assertion );
810	if ( isVoid ) {
811	SemanticError( node, "invalid type void in assertion of function " );
812	} // if
813	} // for
814	// normalizeAssertions( type->assertions );
815	} // for
816	}
817
818	void ForallPointerDecay::previsit( ObjectDecl *object ) {
819	// ensure that operator names only apply to functions or function pointers
820	if ( CodeGen::isOperator( object->name ) && ! dynamic_cast< FunctionType * >( object->type->stripDeclarator() ) ) {
821	SemanticError( object->location, toCString( "operator ", object->name.c_str(), " is not a function or function pointer." ) );
822	}
823	object->fixUniqueId();
824	}
825
826	void ForallPointerDecay::previsit( FunctionDecl *func ) {
827	func->fixUniqueId();
828	}
829
830	void ForallPointerDecay::previsit( FunctionType * ftype ) {
831	forallFixer( ftype->forall, ftype );
832	}
833
834	void ForallPointerDecay::previsit( StructDecl * aggrDecl ) {
835	forallFixer( aggrDecl->parameters, aggrDecl );
836	}
837
838	void ForallPointerDecay::previsit( UnionDecl * aggrDecl ) {
839	forallFixer( aggrDecl->parameters, aggrDecl );
840	}
841
842	void ReturnChecker::checkFunctionReturns( std::list< Declaration * > & translationUnit ) {
843	PassVisitor<ReturnChecker> checker;
844	acceptAll( translationUnit, checker );
845	}
846
847	void ReturnChecker::previsit( FunctionDecl * functionDecl ) {
848	GuardValue( returnVals );
849	returnVals = functionDecl->get_functionType()->get_returnVals();
850	}
851
852	void ReturnChecker::previsit( ReturnStmt * returnStmt ) {
853	// Previously this also checked for the existence of an expr paired with no return values on
854	// the function return type. This is incorrect, since you can have an expression attached to
855	// a return statement in a void-returning function in C. The expression is treated as if it
856	// were cast to void.
857	if ( ! returnStmt->get_expr() && returnVals.size() != 0 ) {
858	SemanticError( returnStmt, "Non-void function returns no values: " );
859	}
860	}
861
862
863	void ReplaceTypedef::replaceTypedef( std::list< Declaration * > &translationUnit ) {
864	PassVisitor<ReplaceTypedef> eliminator;
865	mutateAll( translationUnit, eliminator );
866	if ( eliminator.pass.typedefNames.count( "size_t" ) ) {
867	// grab and remember declaration of size_t
868	SizeType = eliminator.pass.typedefNames["size_t"].first->base->clone();
869	} else {
870	// xxx - missing global typedef for size_t - default to long unsigned int, even though that may be wrong
871	// eventually should have a warning for this case.
872	SizeType = new BasicType( Type::Qualifiers(), BasicType::LongUnsignedInt );
873	}
874	}
875
876	void ReplaceTypedef::premutate( QualifiedType * ) {
877	visit_children = false;
878	}
879
880	Type * ReplaceTypedef::postmutate( QualifiedType * qualType ) {
881	// replacing typedefs only makes sense for the 'oldest ancestor' of the qualified type
882	qualType->parent = qualType->parent->acceptMutator( *visitor );
883	return qualType;
884	}
885
886	Type * ReplaceTypedef::postmutate( TypeInstType * typeInst ) {
887	// instances of typedef types will come here. If it is an instance
888	// of a typdef type, link the instance to its actual type.
889	TypedefMap::const_iterator def = typedefNames.find( typeInst->name );
890	if ( def != typedefNames.end() ) {
891	Type *ret = def->second.first->base->clone();
892	ret->location = typeInst->location;
893	ret->get_qualifiers() \|= typeInst->get_qualifiers();
894	// attributes are not carried over from typedef to function parameters/return values
895	if ( ! inFunctionType ) {
896	ret->attributes.splice( ret->attributes.end(), typeInst->attributes );
897	} else {
898	deleteAll( ret->attributes );
899	ret->attributes.clear();
900	}
901	// place instance parameters on the typedef'd type
902	if ( ! typeInst->parameters.empty() ) {
903	ReferenceToType rtt = dynamic_cast<ReferenceToType>(ret);
904	if ( ! rtt ) {
905	SemanticError( typeInst->location, "Cannot apply type parameters to base type of " + typeInst->name );
906	}
907	rtt->parameters.clear();
908	cloneAll( typeInst->parameters, rtt->parameters );
909	mutateAll( rtt->parameters, *visitor ); // recursively fix typedefs on parameters
910	} // if
911	delete typeInst;
912	return ret;
913	} else {
914	TypeDeclMap::const_iterator base = typedeclNames.find( typeInst->name );
915	if ( base == typedeclNames.end() ) {
916	SemanticError( typeInst->location, toString("Use of undefined type ", typeInst->name) );
917	}
918	typeInst->set_baseType( base->second );
919	return typeInst;
920	} // if
921	assert( false );
922	}
923
924	struct VarLenChecker : WithShortCircuiting {
925	void previsit( FunctionType * ) { visit_children = false; }
926	void previsit( ArrayType * at ) {
927	isVarLen \|= at->isVarLen;
928	}
929	bool isVarLen = false;
930	};
931
932	bool isVariableLength( Type * t ) {
933	PassVisitor<VarLenChecker> varLenChecker;
934	maybeAccept( t, varLenChecker );
935	return varLenChecker.pass.isVarLen;
936	}
937
938	Declaration * ReplaceTypedef::postmutate( TypedefDecl * tyDecl ) {
939	if ( typedefNames.count( tyDecl->name ) == 1 && typedefNames[ tyDecl->name ].second == scopeLevel ) {
940	// typedef to the same name from the same scope
941	// must be from the same type
942
943	Type * t1 = tyDecl->base;
944	Type * t2 = typedefNames[ tyDecl->name ].first->base;
945	if ( ! ResolvExpr::typesCompatible( t1, t2, Indexer() ) ) {
946	SemanticError( tyDecl->location, "Cannot redefine typedef: " + tyDecl->name );
947	}
948	// Cannot redefine VLA typedefs. Note: this is slightly incorrect, because our notion of VLAs
949	// at this point in the translator is imprecise. In particular, this will disallow redefining typedefs
950	// with arrays whose dimension is an enumerator or a cast of a constant/enumerator. The effort required
951	// to fix this corner case likely outweighs the utility of allowing it.
952	if ( isVariableLength( t1 ) \|\| isVariableLength( t2 ) ) {
953	SemanticError( tyDecl->location, "Cannot redefine typedef: " + tyDecl->name );
954	}
955	} else {
956	typedefNames[ tyDecl->name ] = std::make_pair( TypedefDeclPtr( tyDecl ), scopeLevel );
957	} // if
958
959	// When a typedef is a forward declaration:
960	// typedef struct screen SCREEN;
961	// the declaration portion must be retained:
962	// struct screen;
963	// because the expansion of the typedef is:
964	// void rtn( SCREEN p ) => void rtn( struct screen p )
965	// hence the type-name "screen" must be defined.
966	// Note, qualifiers on the typedef are superfluous for the forward declaration.
967
968	Type *designatorType = tyDecl->base->stripDeclarator();
969	if ( StructInstType aggDecl = dynamic_cast< StructInstType >( designatorType ) ) {
970	declsToAddBefore.push_back( new StructDecl( aggDecl->name, DeclarationNode::Struct, noAttributes, tyDecl->linkage ) );
971	} else if ( UnionInstType aggDecl = dynamic_cast< UnionInstType >( designatorType ) ) {
972	declsToAddBefore.push_back( new UnionDecl( aggDecl->name, noAttributes, tyDecl->linkage ) );
973	} else if ( EnumInstType enumDecl = dynamic_cast< EnumInstType >( designatorType ) ) {
974	declsToAddBefore.push_back( new EnumDecl( enumDecl->name, noAttributes, tyDecl->linkage ) );
975	} // if
976	return tyDecl->clone();
977	}
978
979	void ReplaceTypedef::premutate( TypeDecl * typeDecl ) {
980	TypedefMap::iterator i = typedefNames.find( typeDecl->name );
981	if ( i != typedefNames.end() ) {
982	typedefNames.erase( i ) ;
983	} // if
984
985	typedeclNames.insert( typeDecl->name, typeDecl );
986	}
987
988	void ReplaceTypedef::premutate( FunctionDecl * ) {
989	GuardScope( typedefNames );
990	GuardScope( typedeclNames );
991	}
992
993	void ReplaceTypedef::premutate( ObjectDecl * ) {
994	GuardScope( typedefNames );
995	GuardScope( typedeclNames );
996	}
997
998	DeclarationWithType * ReplaceTypedef::postmutate( ObjectDecl * objDecl ) {
999	if ( FunctionType funtype = dynamic_cast<FunctionType >( objDecl->type ) ) { // function type?
1000	// replace the current object declaration with a function declaration
1001	FunctionDecl * newDecl = new FunctionDecl( objDecl->name, objDecl->get_storageClasses(), objDecl->linkage, funtype, 0, objDecl->attributes, objDecl->get_funcSpec() );
1002	objDecl->attributes.clear();
1003	objDecl->set_type( nullptr );
1004	delete objDecl;
1005	return newDecl;
1006	} // if
1007	return objDecl;
1008	}
1009
1010	void ReplaceTypedef::premutate( CastExpr * ) {
1011	GuardScope( typedefNames );
1012	GuardScope( typedeclNames );
1013	}
1014
1015	void ReplaceTypedef::premutate( CompoundStmt * ) {
1016	GuardScope( typedefNames );
1017	GuardScope( typedeclNames );
1018	scopeLevel += 1;
1019	GuardAction( [this](){ scopeLevel -= 1; } );
1020	}
1021
1022	template<typename AggDecl>
1023	void ReplaceTypedef::addImplicitTypedef( AggDecl * aggDecl ) {
1024	if ( typedefNames.count( aggDecl->get_name() ) == 0 ) {
1025	Type *type = nullptr;
1026	if ( StructDecl * newDeclStructDecl = dynamic_cast< StructDecl * >( aggDecl ) ) {
1027	type = new StructInstType( Type::Qualifiers(), newDeclStructDecl->get_name() );
1028	} else if ( UnionDecl * newDeclUnionDecl = dynamic_cast< UnionDecl * >( aggDecl ) ) {
1029	type = new UnionInstType( Type::Qualifiers(), newDeclUnionDecl->get_name() );
1030	} else if ( EnumDecl * newDeclEnumDecl = dynamic_cast< EnumDecl * >( aggDecl ) ) {
1031	type = new EnumInstType( Type::Qualifiers(), newDeclEnumDecl->get_name() );
1032	} // if
1033	TypedefDeclPtr tyDecl( new TypedefDecl( aggDecl->get_name(), aggDecl->location, Type::StorageClasses(), type, aggDecl->get_linkage() ) );
1034	typedefNames[ aggDecl->get_name() ] = std::make_pair( std::move( tyDecl ), scopeLevel );
1035	// add the implicit typedef to the AST
1036	declsToAddBefore.push_back( new TypedefDecl( aggDecl->get_name(), aggDecl->location, Type::StorageClasses(), type->clone(), aggDecl->get_linkage() ) );
1037	} // if
1038	}
1039
1040	template< typename AggDecl >
1041	void ReplaceTypedef::handleAggregate( AggDecl * aggr ) {
1042	SemanticErrorException errors;
1043
1044	ValueGuard< std::list<Declaration * > > oldBeforeDecls( declsToAddBefore );
1045	ValueGuard< std::list<Declaration * > > oldAfterDecls ( declsToAddAfter );
1046	declsToAddBefore.clear();
1047	declsToAddAfter.clear();
1048
1049	GuardScope( typedefNames );
1050	GuardScope( typedeclNames );
1051	mutateAll( aggr->parameters, *visitor );
1052
1053	// unroll mutateAll for aggr->members so that implicit typedefs for nested types are added to the aggregate body.
1054	for ( std::list< Declaration * >::iterator i = aggr->members.begin(); i != aggr->members.end(); ++i ) {
1055	if ( !declsToAddAfter.empty() ) { aggr->members.splice( i, declsToAddAfter ); }
1056
1057	try {
1058	i = maybeMutate( i, *visitor );
1059	} catch ( SemanticErrorException &e ) {
1060	errors.append( e );
1061	}
1062
1063	if ( !declsToAddBefore.empty() ) { aggr->members.splice( i, declsToAddBefore ); }
1064	}
1065
1066	if ( !declsToAddAfter.empty() ) { aggr->members.splice( aggr->members.end(), declsToAddAfter ); }
1067	if ( !errors.isEmpty() ) { throw errors; }
1068	}
1069
1070	void ReplaceTypedef::premutate( StructDecl * structDecl ) {
1071	visit_children = false;
1072	addImplicitTypedef( structDecl );
1073	handleAggregate( structDecl );
1074	}
1075
1076	void ReplaceTypedef::premutate( UnionDecl * unionDecl ) {
1077	visit_children = false;
1078	addImplicitTypedef( unionDecl );
1079	handleAggregate( unionDecl );
1080	}
1081
1082	void ReplaceTypedef::premutate( EnumDecl * enumDecl ) {
1083	addImplicitTypedef( enumDecl );
1084	}
1085
1086	void ReplaceTypedef::premutate( FunctionType * ) {
1087	GuardValue( inFunctionType );
1088	inFunctionType = true;
1089	}
1090
1091	void ReplaceTypedef::premutate( TraitDecl * ) {
1092	GuardScope( typedefNames );
1093	GuardScope( typedeclNames);
1094	}
1095
1096	void VerifyCtorDtorAssign::verify( std::list< Declaration * > & translationUnit ) {
1097	PassVisitor<VerifyCtorDtorAssign> verifier;
1098	acceptAll( translationUnit, verifier );
1099	}
1100
1101	void VerifyCtorDtorAssign::previsit( FunctionDecl * funcDecl ) {
1102	FunctionType * funcType = funcDecl->get_functionType();
1103	std::list< DeclarationWithType * > &returnVals = funcType->get_returnVals();
1104	std::list< DeclarationWithType * > &params = funcType->get_parameters();
1105
1106	if ( CodeGen::isCtorDtorAssign( funcDecl->get_name() ) ) { // TODO: also check /=, etc.
1107	if ( params.size() == 0 ) {
1108	SemanticError( funcDecl, "Constructors, destructors, and assignment functions require at least one parameter " );
1109	}
1110	ReferenceType * refType = dynamic_cast< ReferenceType * >( params.front()->get_type() );
1111	if ( ! refType ) {
1112	SemanticError( funcDecl, "First parameter of a constructor, destructor, or assignment function must be a reference " );
1113	}
1114	if ( CodeGen::isCtorDtor( funcDecl->get_name() ) && returnVals.size() != 0 ) {
1115	SemanticError( funcDecl, "Constructors and destructors cannot have explicit return values " );
1116	}
1117	}
1118	}
1119
1120	template< typename Aggr >
1121	void validateGeneric( Aggr * inst ) {
1122	std::list< TypeDecl * > * params = inst->get_baseParameters();
1123	if ( params ) {
1124	std::list< Expression * > & args = inst->get_parameters();
1125
1126	// insert defaults arguments when a type argument is missing (currently only supports missing arguments at the end of the list).
1127	// A substitution is used to ensure that defaults are replaced correctly, e.g.,
1128	// forall(otype T, otype alloc = heap_allocator(T)) struct vector;
1129	// vector(int) v;
1130	// after insertion of default values becomes
1131	// vector(int, heap_allocator(T))
1132	// and the substitution is built with T=int so that after substitution, the result is
1133	// vector(int, heap_allocator(int))
1134	TypeSubstitution sub;
1135	auto paramIter = params->begin();
1136	for ( size_t i = 0; paramIter != params->end(); ++paramIter, ++i ) {
1137	if ( i < args.size() ) {
1138	TypeExpr * expr = strict_dynamic_cast< TypeExpr * >( *std::next( args.begin(), i ) );
1139	sub.add( (*paramIter)->get_name(), expr->get_type()->clone() );
1140	} else if ( i == args.size() ) {
1141	Type * defaultType = (*paramIter)->get_init();
1142	if ( defaultType ) {
1143	args.push_back( new TypeExpr( defaultType->clone() ) );
1144	sub.add( (*paramIter)->get_name(), defaultType->clone() );
1145	}
1146	}
1147	}
1148
1149	sub.apply( inst );
1150	if ( args.size() < params->size() ) SemanticError( inst, "Too few type arguments in generic type " );
1151	if ( args.size() > params->size() ) SemanticError( inst, "Too many type arguments in generic type " );
1152	}
1153	}
1154
1155	void ValidateGenericParameters::previsit( StructInstType * inst ) {
1156	validateGeneric( inst );
1157	}
1158
1159	void ValidateGenericParameters::previsit( UnionInstType * inst ) {
1160	validateGeneric( inst );
1161	}
1162
1163	void CompoundLiteral::premutate( ObjectDecl *objectDecl ) {
1164	storageClasses = objectDecl->get_storageClasses();
1165	}
1166
1167	Expression CompoundLiteral::postmutate( CompoundLiteralExpr compLitExpr ) {
1168	// transform [storage_class] ... (struct S){ 3, ... };
1169	// into [storage_class] struct S temp = { 3, ... };
1170	static UniqueName indexName( "_compLit" );
1171
1172	ObjectDecl *tempvar = new ObjectDecl( indexName.newName(), storageClasses, LinkageSpec::C, nullptr, compLitExpr->get_result(), compLitExpr->get_initializer() );
1173	compLitExpr->set_result( nullptr );
1174	compLitExpr->set_initializer( nullptr );
1175	delete compLitExpr;
1176	declsToAddBefore.push_back( tempvar ); // add modified temporary to current block
1177	return new VariableExpr( tempvar );
1178	}
1179
1180	void ReturnTypeFixer::fix( std::list< Declaration * > &translationUnit ) {
1181	PassVisitor<ReturnTypeFixer> fixer;
1182	acceptAll( translationUnit, fixer );
1183	}
1184
1185	void ReturnTypeFixer::postvisit( FunctionDecl * functionDecl ) {
1186	FunctionType * ftype = functionDecl->get_functionType();
1187	std::list< DeclarationWithType * > & retVals = ftype->get_returnVals();
1188	assertf( retVals.size() == 0 \|\| retVals.size() == 1, "Function %s has too many return values: %zu", functionDecl->get_name().c_str(), retVals.size() );
1189	if ( retVals.size() == 1 ) {
1190	// ensure all function return values have a name - use the name of the function to disambiguate (this also provides a nice bit of help for debugging).
1191	// ensure other return values have a name.
1192	DeclarationWithType * ret = retVals.front();
1193	if ( ret->get_name() == "" ) {
1194	ret->set_name( toString( "_retval_", CodeGen::genName( functionDecl ) ) );
1195	}
1196	ret->get_attributes().push_back( new Attribute( "unused" ) );
1197	}
1198	}
1199
1200	void ReturnTypeFixer::postvisit( FunctionType * ftype ) {
1201	// xxx - need to handle named return values - this information needs to be saved somehow
1202	// so that resolution has access to the names.
1203	// Note that this pass needs to happen early so that other passes which look for tuple types
1204	// find them in all of the right places, including function return types.
1205	std::list< DeclarationWithType * > & retVals = ftype->get_returnVals();
1206	if ( retVals.size() > 1 ) {
1207	// generate a single return parameter which is the tuple of all of the return values
1208	TupleType * tupleType = strict_dynamic_cast< TupleType * >( ResolvExpr::extractResultType( ftype ) );
1209	// ensure return value is not destructed by explicitly creating an empty ListInit node wherein maybeConstruct is false.
1210	ObjectDecl * newRet = new ObjectDecl( "", Type::StorageClasses(), LinkageSpec::Cforall, 0, tupleType, new ListInit( std::list<Initializer*>(), noDesignators, false ) );
1211	deleteAll( retVals );
1212	retVals.clear();
1213	retVals.push_back( newRet );
1214	}
1215	}
1216
1217	void ArrayLength::computeLength( std::list< Declaration * > & translationUnit ) {
1218	PassVisitor<ArrayLength> len;
1219	acceptAll( translationUnit, len );
1220	}
1221
1222	void ArrayLength::previsit( ObjectDecl * objDecl ) {
1223	if ( ArrayType * at = dynamic_cast< ArrayType * >( objDecl->type ) ) {
1224	if ( at->get_dimension() ) return;
1225	if ( ListInit * init = dynamic_cast< ListInit * >( objDecl->init ) ) {
1226	at->set_dimension( new ConstantExpr( Constant::from_ulong( init->initializers.size() ) ) );
1227	}
1228	}
1229	}
1230
1231	struct LabelFinder {
1232	std::set< Label > & labels;
1233	LabelFinder( std::set< Label > & labels ) : labels( labels ) {}
1234	void previsit( Statement * stmt ) {
1235	for ( Label & l : stmt->labels ) {
1236	labels.insert( l );
1237	}
1238	}
1239	};
1240
1241	void LabelAddressFixer::premutate( FunctionDecl * funcDecl ) {
1242	GuardValue( labels );
1243	PassVisitor<LabelFinder> finder( labels );
1244	funcDecl->accept( finder );
1245	}
1246
1247	Expression * LabelAddressFixer::postmutate( AddressExpr * addrExpr ) {
1248	// convert &&label into label address
1249	if ( AddressExpr * inner = dynamic_cast< AddressExpr * >( addrExpr->arg ) ) {
1250	if ( NameExpr * nameExpr = dynamic_cast< NameExpr * >( inner->arg ) ) {
1251	if ( labels.count( nameExpr->name ) ) {
1252	Label name = nameExpr->name;
1253	delete addrExpr;
1254	return new LabelAddressExpr( name );
1255	}
1256	}
1257	}
1258	return addrExpr;
1259	}
1260
1261	void FindSpecialDeclarations::previsit( FunctionDecl * funcDecl ) {
1262	if ( ! dereferenceOperator ) {
1263	if ( funcDecl->get_name() == "*?" && funcDecl->get_linkage() == LinkageSpec::Intrinsic ) {
1264	FunctionType * ftype = funcDecl->get_functionType();
1265	if ( ftype->get_parameters().size() == 1 && ftype->get_parameters().front()->get_type()->get_qualifiers() == Type::Qualifiers() ) {
1266	dereferenceOperator = funcDecl;
1267	}
1268	}
1269	}
1270	}
1271	} // namespace SymTab
1272
1273	// Local Variables: //
1274	// tab-width: 4 //
1275	// mode: c++ //
1276	// compile-command: "make install" //
1277	// End: //

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