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source: src/ResolvExpr/Resolver.cc @ 5248789

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

Last change on this file since 5248789 was 5248789, checked in by Thierry Delisle <tdelisle@…>, 6 years ago
Waitfor resolution error now prints enviroment
Property mode set to `100644`
File size: 31.6 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	// Resolver.cc --
8	//
9	// Author : Richard C. Bilson
10	// Created On : Sun May 17 12:17:01 2015
11	// Last Modified By : Peter A. Buhr
12	// Last Modified On : Sat Feb 17 11:19:40 2018
13	// Update Count : 213
14	//
15
16	#include <stddef.h> // for NULL
17	#include <cassert> // for strict_dynamic_cast, assert
18	#include <memory> // for allocator, allocator_traits<...
19	#include <tuple> // for get
20	#include <vector>
21
22	#include "Alternative.h" // for Alternative, AltList
23	#include "AlternativeFinder.h" // for AlternativeFinder, resolveIn...
24	#include "Common/PassVisitor.h" // for PassVisitor
25	#include "Common/SemanticError.h" // for SemanticError
26	#include "Common/utility.h" // for ValueGuard, group_iterate
27	#include "CurrentObject.h" // for CurrentObject
28	#include "InitTweak/GenInit.h"
29	#include "InitTweak/InitTweak.h" // for isIntrinsicSingleArgCallStmt
30	#include "RenameVars.h" // for RenameVars, global_renamer
31	#include "ResolvExpr/TypeEnvironment.h" // for TypeEnvironment
32	#include "ResolveTypeof.h" // for resolveTypeof
33	#include "Resolver.h"
34	#include "SymTab/Autogen.h" // for SizeType
35	#include "SymTab/Indexer.h" // for Indexer
36	#include "SynTree/Declaration.h" // for ObjectDecl, TypeDecl, Declar...
37	#include "SynTree/Expression.h" // for Expression, CastExpr, InitExpr
38	#include "SynTree/Initializer.h" // for ConstructorInit, SingleInit
39	#include "SynTree/Statement.h" // for ForStmt, Statement, BranchStmt
40	#include "SynTree/Type.h" // for Type, BasicType, PointerType
41	#include "SynTree/TypeSubstitution.h" // for TypeSubstitution
42	#include "SynTree/Visitor.h" // for acceptAll, maybeAccept
43	#include "Tuples/Tuples.h"
44	#include "typeops.h" // for extractResultType
45	#include "Unify.h" // for unify
46
47	using namespace std;
48
49	namespace ResolvExpr {
50	struct Resolver final : public WithIndexer, public WithGuards, public WithVisitorRef<Resolver>, public WithShortCircuiting, public WithStmtsToAdd {
51	Resolver() {}
52	Resolver( const SymTab::Indexer & other ) {
53	indexer = other;
54	}
55
56	void previsit( FunctionDecl *functionDecl );
57	void postvisit( FunctionDecl *functionDecl );
58	void previsit( ObjectDecl *objectDecll );
59	void previsit( TypeDecl *typeDecl );
60	void previsit( EnumDecl * enumDecl );
61	void previsit( StaticAssertDecl * assertDecl );
62
63	void previsit( ArrayType * at );
64	void previsit( PointerType * at );
65
66	void previsit( ExprStmt *exprStmt );
67	void previsit( AsmExpr *asmExpr );
68	void previsit( AsmStmt *asmStmt );
69	void previsit( IfStmt *ifStmt );
70	void previsit( WhileStmt *whileStmt );
71	void previsit( ForStmt *forStmt );
72	void previsit( SwitchStmt *switchStmt );
73	void previsit( CaseStmt *caseStmt );
74	void previsit( BranchStmt *branchStmt );
75	void previsit( ReturnStmt *returnStmt );
76	void previsit( ThrowStmt *throwStmt );
77	void previsit( CatchStmt *catchStmt );
78	void previsit( WaitForStmt * stmt );
79	void previsit( WithStmt * withStmt );
80
81	void previsit( SingleInit *singleInit );
82	void previsit( ListInit *listInit );
83	void previsit( ConstructorInit *ctorInit );
84	private:
85	typedef std::list< Initializer * >::iterator InitIterator;
86
87	template< typename PtrType >
88	void handlePtrType( PtrType * type );
89
90	void resolveWithExprs( std::list< Expression * > & withExprs, std::list< Statement * > & newStmts );
91	void fallbackInit( ConstructorInit * ctorInit );
92
93	Type * functionReturn = nullptr;
94	CurrentObject currentObject = nullptr;
95	bool inEnumDecl = false;
96	};
97
98	void resolve( std::list< Declaration * > translationUnit ) {
99	PassVisitor<Resolver> resolver;
100	acceptAll( translationUnit, resolver );
101	}
102
103	void resolveDecl( Declaration * decl, const SymTab::Indexer &indexer ) {
104	PassVisitor<Resolver> resolver( indexer );
105	maybeAccept( decl, resolver );
106	}
107
108	namespace {
109	struct DeleteFinder : public WithShortCircuiting {
110	DeletedExpr * delExpr = nullptr;
111	void previsit( DeletedExpr * expr ) {
112	if ( delExpr ) visit_children = false;
113	else delExpr = expr;
114	}
115
116	void previsit( Expression * ) {
117	if ( delExpr ) visit_children = false;
118	}
119	};
120	}
121
122	DeletedExpr * findDeletedExpr( Expression * expr ) {
123	PassVisitor<DeleteFinder> finder;
124	expr->accept( finder );
125	return finder.pass.delExpr;
126	}
127
128	namespace {
129	void finishExpr( Expression expr, const TypeEnvironment &env, TypeSubstitution oldenv = nullptr ) {
130	expr->env = oldenv ? oldenv->clone() : new TypeSubstitution;
131	env.makeSubstitution( *expr->get_env() );
132	}
133
134	void removeExtraneousCast( Expression *& expr, const SymTab::Indexer & indexer ) {
135	if ( CastExpr * castExpr = dynamic_cast< CastExpr * >( expr ) ) {
136	if ( ResolvExpr::typesCompatible( castExpr->arg->result, castExpr->result, indexer ) ) {
137	// cast is to the same type as its argument, so it's unnecessary -- remove it
138	expr = castExpr->arg;
139	castExpr->arg = nullptr;
140	std::swap( expr->env, castExpr->env );
141	delete castExpr;
142	}
143	}
144	}
145	} // namespace
146
147	namespace {
148	void findUnfinishedKindExpression(Expression * untyped, Alternative & alt, const SymTab::Indexer & indexer, const std::string & kindStr, std::function<bool(const Alternative &)> pred, bool adjust = false, bool prune = true, bool failFast = true) {
149	assertf( untyped, "expected a non-null expression." );
150	TypeEnvironment env;
151	AlternativeFinder finder( indexer, env );
152	finder.find( untyped, adjust, prune, failFast );
153
154	#if 0
155	if ( finder.get_alternatives().size() != 1 ) {
156	std::cerr << "untyped expr is ";
157	untyped->print( std::cerr );
158	std::cerr << std::endl << "alternatives are:";
159	for ( const Alternative & alt : finder.get_alternatives() ) {
160	alt.print( std::cerr );
161	} // for
162	} // if
163	#endif
164
165	AltList candidates;
166	for ( Alternative & alt : finder.get_alternatives() ) {
167	if ( pred( alt ) ) {
168	candidates.push_back( std::move( alt ) );
169	}
170	}
171
172	// xxx - if > 1 alternative with same cost, ignore deleted and pick from remaining
173	// choose the lowest cost expression among the candidates
174	AltList winners;
175	findMinCost( candidates.begin(), candidates.end(), back_inserter( winners ) );
176	if ( winners.size() == 0 ) {
177	SemanticError( untyped, toString( "No reasonable alternatives for ", kindStr, (kindStr != "" ? " " : ""), "expression: ") );
178	} else if ( winners.size() != 1 ) {
179	std::ostringstream stream;
180	stream << "Cannot choose between " << winners.size() << " alternatives for " << kindStr << (kindStr != "" ? " " : "") << "expression\n";
181	untyped->print( stream );
182	stream << " Alternatives are:\n";
183	printAlts( winners, stream, 1 );
184	SemanticError( untyped->location, stream.str() );
185	}
186
187	// there is one unambiguous interpretation - move the expression into the with statement
188	Alternative & choice = winners.front();
189	if ( findDeletedExpr( choice.expr ) ) {
190	SemanticError( choice.expr, "Unique best alternative includes deleted identifier in " );
191	}
192	alt = std::move( choice );
193	}
194
195	/// resolve `untyped` to the expression whose alternative satisfies `pred` with the lowest cost; kindStr is used for providing better error messages
196	void findKindExpression(Expression *& untyped, const SymTab::Indexer & indexer, const std::string & kindStr, std::function<bool(const Alternative &)> pred, bool adjust = false, bool prune = true, bool failFast = true) {
197	if ( ! untyped ) return;
198	Alternative choice;
199	findUnfinishedKindExpression( untyped, choice, indexer, kindStr, pred, adjust, prune, failFast );
200	finishExpr( choice.expr, choice.env, untyped->env );
201	delete untyped;
202	untyped = choice.expr;
203	choice.expr = nullptr;
204	}
205
206	bool standardAlternativeFilter( const Alternative & ) {
207	// currently don't need to filter, under normal circumstances.
208	// in the future, this may be useful for removing deleted expressions
209	return true;
210	}
211	} // namespace
212
213	// used in resolveTypeof
214	Expression * resolveInVoidContext( Expression *expr, const SymTab::Indexer &indexer ) {
215	TypeEnvironment env;
216	return resolveInVoidContext( expr, indexer, env );
217	}
218
219	Expression * resolveInVoidContext( Expression *expr, const SymTab::Indexer &indexer, TypeEnvironment &env ) {
220	// it's a property of the language that a cast expression has either 1 or 0 interpretations; if it has 0
221	// interpretations, an exception has already been thrown.
222	assertf( expr, "expected a non-null expression." );
223
224	static CastExpr untyped( nullptr ); // cast to void
225
226	// set up and resolve expression cast to void
227	untyped.arg = expr;
228	Alternative choice;
229	findUnfinishedKindExpression( &untyped, choice, indexer, "", standardAlternativeFilter, true );
230	CastExpr * castExpr = strict_dynamic_cast< CastExpr * >( choice.expr );
231	env = std::move( choice.env );
232
233	// clean up resolved expression
234	Expression * ret = castExpr->arg;
235	castExpr->arg = nullptr;
236
237	// unlink the arg so that it isn't deleted twice at the end of the program
238	untyped.arg = nullptr;
239	return ret;
240	}
241
242	void findVoidExpression( Expression *& untyped, const SymTab::Indexer &indexer ) {
243	resetTyVarRenaming();
244	TypeEnvironment env;
245	Expression * newExpr = resolveInVoidContext( untyped, indexer, env );
246	finishExpr( newExpr, env, untyped->env );
247	delete untyped;
248	untyped = newExpr;
249	}
250
251	void findSingleExpression( Expression *&untyped, const SymTab::Indexer &indexer ) {
252	findKindExpression( untyped, indexer, "", standardAlternativeFilter );
253	}
254
255	void findSingleExpression( Expression & untyped, Type type, const SymTab::Indexer & indexer ) {
256	assert( untyped && type );
257	untyped = new CastExpr( untyped, type );
258	findSingleExpression( untyped, indexer );
259	removeExtraneousCast( untyped, indexer );
260	}
261
262	namespace {
263	bool isIntegralType( const Alternative & alt ) {
264	Type * type = alt.expr->result;
265	if ( dynamic_cast< EnumInstType * >( type ) ) {
266	return true;
267	} else if ( BasicType bt = dynamic_cast< BasicType >( type ) ) {
268	return bt->isInteger();
269	} else if ( dynamic_cast< ZeroType* >( type ) != nullptr \|\| dynamic_cast< OneType* >( type ) != nullptr ) {
270	return true;
271	} else {
272	return false;
273	} // if
274	}
275
276	void findIntegralExpression( Expression *& untyped, const SymTab::Indexer &indexer ) {
277	findKindExpression( untyped, indexer, "condition", isIntegralType );
278	}
279	}
280
281	void Resolver::previsit( ObjectDecl *objectDecl ) {
282	Type *new_type = resolveTypeof( objectDecl->get_type(), indexer );
283	objectDecl->set_type( new_type );
284	// To handle initialization of routine pointers, e.g., int (*fp)(int) = foo(), means that class-variable
285	// initContext is changed multiple time because the LHS is analysed twice. The second analysis changes
286	// initContext because of a function type can contain object declarations in the return and parameter types. So
287	// each value of initContext is retained, so the type on the first analysis is preserved and used for selecting
288	// the RHS.
289	GuardValue( currentObject );
290	currentObject = CurrentObject( objectDecl->get_type() );
291	if ( inEnumDecl && dynamic_cast< EnumInstType * >( objectDecl->get_type() ) ) {
292	// enumerator initializers should not use the enum type to initialize, since
293	// the enum type is still incomplete at this point. Use signed int instead.
294	currentObject = CurrentObject( new BasicType( Type::Qualifiers(), BasicType::SignedInt ) );
295	}
296	}
297
298	template< typename PtrType >
299	void Resolver::handlePtrType( PtrType * type ) {
300	if ( type->get_dimension() ) {
301	findSingleExpression( type->dimension, SymTab::SizeType->clone(), indexer );
302	}
303	}
304
305	void Resolver::previsit( ArrayType * at ) {
306	handlePtrType( at );
307	}
308
309	void Resolver::previsit( PointerType * pt ) {
310	handlePtrType( pt );
311	}
312
313	void Resolver::previsit( TypeDecl *typeDecl ) {
314	if ( typeDecl->get_base() ) {
315	Type *new_type = resolveTypeof( typeDecl->get_base(), indexer );
316	typeDecl->set_base( new_type );
317	} // if
318	}
319
320	void Resolver::previsit( FunctionDecl *functionDecl ) {
321	#if 0
322	std::cerr << "resolver visiting functiondecl ";
323	functionDecl->print( std::cerr );
324	std::cerr << std::endl;
325	#endif
326	Type *new_type = resolveTypeof( functionDecl->type, indexer );
327	functionDecl->set_type( new_type );
328	GuardValue( functionReturn );
329	functionReturn = ResolvExpr::extractResultType( functionDecl->type );
330
331	{
332	// resolve with-exprs with parameters in scope and add any newly generated declarations to the
333	// front of the function body.
334	auto guard = makeFuncGuard( [this]() { indexer.enterScope(); }, [this](){ indexer.leaveScope(); } );
335	indexer.addFunctionType( functionDecl->type );
336	std::list< Statement * > newStmts;
337	resolveWithExprs( functionDecl->withExprs, newStmts );
338	if ( functionDecl->statements ) {
339	functionDecl->statements->kids.splice( functionDecl->statements->kids.begin(), newStmts );
340	} else {
341	assertf( functionDecl->withExprs.empty() && newStmts.empty(), "Function %s without a body has with-clause and/or generated with declarations.", functionDecl->name.c_str() );
342	}
343	}
344	}
345
346	void Resolver::postvisit( FunctionDecl *functionDecl ) {
347	// default value expressions have an environment which shouldn't be there and trips up later passes.
348	// xxx - it might be necessary to somehow keep the information from this environment, but I can't currently
349	// see how it's useful.
350	for ( Declaration * d : functionDecl->type->parameters ) {
351	if ( ObjectDecl * obj = dynamic_cast< ObjectDecl * >( d ) ) {
352	if ( SingleInit * init = dynamic_cast< SingleInit * >( obj->init ) ) {
353	delete init->value->env;
354	init->value->env = nullptr;
355	}
356	}
357	}
358	}
359
360	void Resolver::previsit( EnumDecl * ) {
361	// in case we decide to allow nested enums
362	GuardValue( inEnumDecl );
363	inEnumDecl = true;
364	}
365
366	void Resolver::previsit( StaticAssertDecl * assertDecl ) {
367	findIntegralExpression( assertDecl->condition, indexer );
368	}
369
370	void Resolver::previsit( ExprStmt *exprStmt ) {
371	visit_children = false;
372	assertf( exprStmt->expr, "ExprStmt has null Expression in resolver" );
373	findVoidExpression( exprStmt->expr, indexer );
374	}
375
376	void Resolver::previsit( AsmExpr *asmExpr ) {
377	visit_children = false;
378	findVoidExpression( asmExpr->operand, indexer );
379	if ( asmExpr->get_inout() ) {
380	findVoidExpression( asmExpr->inout, indexer );
381	} // if
382	}
383
384	void Resolver::previsit( AsmStmt *asmStmt ) {
385	visit_children = false;
386	acceptAll( asmStmt->get_input(), *visitor );
387	acceptAll( asmStmt->get_output(), *visitor );
388	}
389
390	void Resolver::previsit( IfStmt *ifStmt ) {
391	findIntegralExpression( ifStmt->condition, indexer );
392	}
393
394	void Resolver::previsit( WhileStmt *whileStmt ) {
395	findIntegralExpression( whileStmt->condition, indexer );
396	}
397
398	void Resolver::previsit( ForStmt *forStmt ) {
399	if ( forStmt->condition ) {
400	findIntegralExpression( forStmt->condition, indexer );
401	} // if
402
403	if ( forStmt->increment ) {
404	findVoidExpression( forStmt->increment, indexer );
405	} // if
406	}
407
408	void Resolver::previsit( SwitchStmt *switchStmt ) {
409	GuardValue( currentObject );
410	findIntegralExpression( switchStmt->condition, indexer );
411
412	currentObject = CurrentObject( switchStmt->condition->result );
413	}
414
415	void Resolver::previsit( CaseStmt *caseStmt ) {
416	if ( caseStmt->get_condition() ) {
417	std::list< InitAlternative > initAlts = currentObject.getOptions();
418	assertf( initAlts.size() == 1, "SwitchStmt did not correctly resolve an integral expression." );
419	// must remove cast from case statement because RangeExpr cannot be cast.
420	Expression * newExpr = new CastExpr( caseStmt->condition, initAlts.front().type->clone() );
421	findSingleExpression( newExpr, indexer );
422	CastExpr * castExpr = strict_dynamic_cast< CastExpr * >( newExpr );
423	caseStmt->condition = castExpr->arg;
424	castExpr->arg = nullptr;
425	delete castExpr;
426	}
427	}
428
429	void Resolver::previsit( BranchStmt *branchStmt ) {
430	visit_children = false;
431	// must resolve the argument for a computed goto
432	if ( branchStmt->get_type() == BranchStmt::Goto ) { // check for computed goto statement
433	if ( branchStmt->computedTarget ) {
434	// computed goto argument is void *
435	findSingleExpression( branchStmt->computedTarget, new PointerType( Type::Qualifiers(), new VoidType( Type::Qualifiers() ) ), indexer );
436	} // if
437	} // if
438	}
439
440	void Resolver::previsit( ReturnStmt *returnStmt ) {
441	visit_children = false;
442	if ( returnStmt->expr ) {
443	findSingleExpression( returnStmt->expr, functionReturn->clone(), indexer );
444	} // if
445	}
446
447	void Resolver::previsit( ThrowStmt *throwStmt ) {
448	visit_children = false;
449	// TODO: Replace *exception type with &exception type.
450	if ( throwStmt->get_expr() ) {
451	StructDecl * exception_decl =
452	indexer.lookupStruct( "__cfaabi_ehm__base_exception_t" );
453	assert( exception_decl );
454	Type * exceptType = new PointerType( noQualifiers, new StructInstType( noQualifiers, exception_decl ) );
455	findSingleExpression( throwStmt->expr, exceptType, indexer );
456	}
457	}
458
459	void Resolver::previsit( CatchStmt *catchStmt ) {
460	if ( catchStmt->cond ) {
461	findSingleExpression( catchStmt->cond, new BasicType( noQualifiers, BasicType::Bool ), indexer );
462	}
463	}
464
465	template< typename iterator_t >
466	inline bool advance_to_mutex( iterator_t & it, const iterator_t & end ) {
467	while( it != end && !(*it)->get_type()->get_mutex() ) {
468	it++;
469	}
470
471	return it != end;
472	}
473
474	void Resolver::previsit( WaitForStmt * stmt ) {
475	visit_children = false;
476
477	// Resolve all clauses first
478	for( auto& clause : stmt->clauses ) {
479
480	TypeEnvironment env;
481	AlternativeFinder funcFinder( indexer, env );
482
483	// Find all alternatives for a function in canonical form
484	funcFinder.findWithAdjustment( clause.target.function );
485
486	if ( funcFinder.get_alternatives().empty() ) {
487	stringstream ss;
488	ss << "Use of undeclared indentifier '";
489	ss << strict_dynamic_cast<NameExpr*>( clause.target.function )->name;
490	ss << "' in call to waitfor";
491	SemanticError( stmt->location, ss.str() );
492	}
493
494	if(clause.target.arguments.empty()) {
495	SemanticError( stmt->location, "Waitfor clause must have at least one mutex parameter");
496	}
497
498	// Find all alternatives for all arguments in canonical form
499	std::vector< AlternativeFinder > argAlternatives;
500	funcFinder.findSubExprs( clause.target.arguments.begin(), clause.target.arguments.end(), back_inserter( argAlternatives ) );
501
502	// List all combinations of arguments
503	std::vector< AltList > possibilities;
504	combos( argAlternatives.begin(), argAlternatives.end(), back_inserter( possibilities ) );
505
506	AltList func_candidates;
507	std::vector< AltList > args_candidates;
508
509	// For every possible function :
510	// try matching the arguments to the parameters
511	// not the other way around because we have more arguments than parameters
512	SemanticErrorException errors;
513	for ( Alternative & func : funcFinder.get_alternatives() ) {
514	try {
515	PointerType * pointer = dynamic_cast< PointerType* >( func.expr->get_result()->stripReferences() );
516	if( !pointer ) {
517	SemanticError( func.expr->get_result(), "candidate not viable: not a pointer type\n" );
518	}
519
520	FunctionType * function = dynamic_cast< FunctionType* >( pointer->get_base() );
521	if( !function ) {
522	SemanticError( pointer->get_base(), "candidate not viable: not a function type\n" );
523	}
524
525
526	{
527	auto param = function->parameters.begin();
528	auto param_end = function->parameters.end();
529
530	if( !advance_to_mutex( param, param_end ) ) {
531	SemanticError(function, "candidate function not viable: no mutex parameters\n");
532	}
533	}
534
535	Alternative newFunc( func );
536	// Strip reference from function
537	referenceToRvalueConversion( newFunc.expr, newFunc.cost );
538
539	// For all the set of arguments we have try to match it with the parameter of the current function alternative
540	for ( auto & argsList : possibilities ) {
541
542	try {
543	// Declare data structures need for resolution
544	OpenVarSet openVars;
545	AssertionSet resultNeed, resultHave;
546	TypeEnvironment resultEnv;
547
548	// Load type variables from arguemnts into one shared space
549	simpleCombineEnvironments( argsList.begin(), argsList.end(), resultEnv );
550
551	// Make sure we don't widen any existing bindings
552	for ( auto & i : resultEnv ) {
553	i.allowWidening = false;
554	}
555
556	// Find any unbound type variables
557	resultEnv.extractOpenVars( openVars );
558
559	auto param = function->parameters.begin();
560	auto param_end = function->parameters.end();
561
562	int n_mutex_arg = 0;
563
564	// For every arguments of its set, check if it matches one of the parameter
565	// The order is important
566	for( auto & arg : argsList ) {
567
568	// Ignore non-mutex arguments
569	if( !advance_to_mutex( param, param_end ) ) {
570	// We ran out of parameters but still have arguments
571	// this function doesn't match
572	SemanticError( function, toString("candidate function not viable: too many mutex arguments, expected ", n_mutex_arg, "\n" ));
573	}
574
575	n_mutex_arg++;
576
577	// Check if the argument matches the parameter type in the current scope
578	if( ! unify( arg.expr->get_result(), (*param)->get_type(), resultEnv, resultNeed, resultHave, openVars, this->indexer ) ) {
579	// Type doesn't match
580	stringstream ss;
581	ss << "candidate function not viable: no known convertion from '";
582	(*param)->get_type()->print( ss );
583	ss << "' to '";
584	arg.expr->get_result()->print( ss );
585	ss << "' with env '";
586	resultEnv.print(ss);
587	ss << "'\n";
588	SemanticError( function, ss.str() );
589	}
590
591	param++;
592	}
593
594	// All arguments match !
595
596	// Check if parameters are missing
597	if( advance_to_mutex( param, param_end ) ) {
598	// We ran out of arguments but still have parameters left
599	// this function doesn't match
600	SemanticError( function, toString("candidate function not viable: too few mutex arguments, expected ", n_mutex_arg, "\n" ));
601	}
602
603	// All parameters match !
604
605	// Finish the expressions to tie in the proper environments
606	finishExpr( newFunc.expr, resultEnv );
607	for( Alternative & alt : argsList ) {
608	finishExpr( alt.expr, resultEnv );
609	}
610
611	// This is a match store it and save it for later
612	func_candidates.push_back( newFunc );
613	args_candidates.push_back( argsList );
614
615	}
616	catch( SemanticErrorException &e ) {
617	errors.append( e );
618	}
619	}
620	}
621	catch( SemanticErrorException &e ) {
622	errors.append( e );
623	}
624	}
625
626	// Make sure we got the right number of arguments
627	if( func_candidates.empty() ) { SemanticErrorException top( stmt->location, "No alternatives for function in call to waitfor" ); top.append( errors ); throw top; }
628	if( args_candidates.empty() ) { SemanticErrorException top( stmt->location, "No alternatives for arguments in call to waitfor" ); top.append( errors ); throw top; }
629	if( func_candidates.size() > 1 ) { SemanticErrorException top( stmt->location, "Ambiguous function in call to waitfor" ); top.append( errors ); throw top; }
630	if( args_candidates.size() > 1 ) { SemanticErrorException top( stmt->location, "Ambiguous arguments in call to waitfor" ); top.append( errors ); throw top; }
631	// TODO: need to use findDeletedExpr to ensure no deleted identifiers are used.
632
633	// Swap the results from the alternative with the unresolved values.
634	// Alternatives will handle deletion on destruction
635	std::swap( clause.target.function, func_candidates.front().expr );
636	for( auto arg_pair : group_iterate( clause.target.arguments, args_candidates.front() ) ) {
637	std::swap ( std::get<0>( arg_pair), std::get<1>( arg_pair).expr );
638	}
639
640	// Resolve the conditions as if it were an IfStmt
641	// Resolve the statments normally
642	findSingleExpression( clause.condition, this->indexer );
643	clause.statement->accept( *visitor );
644	}
645
646
647	if( stmt->timeout.statement ) {
648	// Resolve the timeout as an size_t for now
649	// Resolve the conditions as if it were an IfStmt
650	// Resolve the statments normally
651	findSingleExpression( stmt->timeout.time, new BasicType( noQualifiers, BasicType::LongLongUnsignedInt ), this->indexer );
652	findSingleExpression( stmt->timeout.condition, this->indexer );
653	stmt->timeout.statement->accept( *visitor );
654	}
655
656	if( stmt->orelse.statement ) {
657	// Resolve the conditions as if it were an IfStmt
658	// Resolve the statments normally
659	findSingleExpression( stmt->orelse.condition, this->indexer );
660	stmt->orelse.statement->accept( *visitor );
661	}
662	}
663
664	bool isStructOrUnion( const Alternative & alt ) {
665	Type * t = alt.expr->result->stripReferences();
666	return dynamic_cast< StructInstType * >( t ) \|\| dynamic_cast< UnionInstType * >( t );
667	}
668
669	void Resolver::resolveWithExprs( std::list< Expression * > & withExprs, std::list< Statement * > & newStmts ) {
670	for ( Expression *& expr : withExprs ) {
671	// only struct- and union-typed expressions are viable candidates
672	findKindExpression( expr, indexer, "with statement", isStructOrUnion );
673
674	// if with expression might be impure, create a temporary so that it is evaluated once
675	if ( Tuples::maybeImpure( expr ) ) {
676	static UniqueName tmpNamer( "_with_tmp_" );
677	ObjectDecl * tmp = ObjectDecl::newObject( tmpNamer.newName(), expr->result->clone(), new SingleInit( expr ) );
678	expr = new VariableExpr( tmp );
679	newStmts.push_back( new DeclStmt( tmp ) );
680	if ( InitTweak::isConstructable( tmp->type ) ) {
681	// generate ctor/dtor and resolve them
682	tmp->init = InitTweak::genCtorInit( tmp );
683	tmp->accept( *visitor );
684	}
685	}
686	}
687	}
688
689	void Resolver::previsit( WithStmt * withStmt ) {
690	resolveWithExprs( withStmt->exprs, stmtsToAddBefore );
691	}
692
693	template< typename T >
694	bool isCharType( T t ) {
695	if ( BasicType * bt = dynamic_cast< BasicType * >( t ) ) {
696	return bt->get_kind() == BasicType::Char \|\| bt->get_kind() == BasicType::SignedChar \|\|
697	bt->get_kind() == BasicType::UnsignedChar;
698	}
699	return false;
700	}
701
702	void Resolver::previsit( SingleInit *singleInit ) {
703	visit_children = false;
704	// resolve initialization using the possibilities as determined by the currentObject cursor
705	Expression * newExpr = new UntypedInitExpr( singleInit->value, currentObject.getOptions() );
706	findSingleExpression( newExpr, indexer );
707	InitExpr * initExpr = strict_dynamic_cast< InitExpr * >( newExpr );
708
709	// move cursor to the object that is actually initialized
710	currentObject.setNext( initExpr->get_designation() );
711
712	// discard InitExpr wrapper and retain relevant pieces
713	newExpr = initExpr->expr;
714	initExpr->expr = nullptr;
715	std::swap( initExpr->env, newExpr->env );
716	std::swap( initExpr->inferParams, newExpr->inferParams ) ;
717	delete initExpr;
718
719	// get the actual object's type (may not exactly match what comes back from the resolver due to conversions)
720	Type * initContext = currentObject.getCurrentType();
721
722	removeExtraneousCast( newExpr, indexer );
723
724	// check if actual object's type is char[]
725	if ( ArrayType * at = dynamic_cast< ArrayType * >( initContext ) ) {
726	if ( isCharType( at->get_base() ) ) {
727	// check if the resolved type is char *
728	if ( PointerType * pt = dynamic_cast< PointerType *>( newExpr->get_result() ) ) {
729	if ( isCharType( pt->get_base() ) ) {
730	if ( CastExpr ce = dynamic_cast< CastExpr >( newExpr ) ) {
731	// strip cast if we're initializing a char[] with a char *, e.g. char x[] = "hello";
732	newExpr = ce->get_arg();
733	ce->set_arg( nullptr );
734	std::swap( ce->env, newExpr->env );
735	delete ce;
736	}
737	}
738	}
739	}
740	}
741
742	// set initializer expr to resolved express
743	singleInit->value = newExpr;
744
745	// move cursor to next object in preparation for next initializer
746	currentObject.increment();
747	}
748
749	void Resolver::previsit( ListInit * listInit ) {
750	visit_children = false;
751	// move cursor into brace-enclosed initializer-list
752	currentObject.enterListInit();
753	// xxx - fix this so that the list isn't copied, iterator should be used to change current element
754	std::list<Designation *> newDesignations;
755	for ( auto p : group_iterate(listInit->get_designations(), listInit->get_initializers()) ) {
756	// iterate designations and initializers in pairs, moving the cursor to the current designated object and resolving
757	// the initializer against that object.
758	Designation * des = std::get<0>(p);
759	Initializer * init = std::get<1>(p);
760	newDesignations.push_back( currentObject.findNext( des ) );
761	init->accept( *visitor );
762	}
763	// set the set of 'resolved' designations and leave the brace-enclosed initializer-list
764	listInit->get_designations() = newDesignations; // xxx - memory management
765	currentObject.exitListInit();
766
767	// xxx - this part has not be folded into CurrentObject yet
768	// } else if ( TypeInstType * tt = dynamic_cast< TypeInstType * >( initContext ) ) {
769	// Type * base = tt->get_baseType()->get_base();
770	// if ( base ) {
771	// // know the implementation type, so try using that as the initContext
772	// ObjectDecl tmpObj( "", Type::StorageClasses(), LinkageSpec::Cforall, nullptr, base->clone(), nullptr );
773	// currentObject = &tmpObj;
774	// visit( listInit );
775	// } else {
776	// // missing implementation type -- might be an unknown type variable, so try proceeding with the current init context
777	// Parent::visit( listInit );
778	// }
779	// } else {
780	}
781
782	// ConstructorInit - fall back on C-style initializer
783	void Resolver::fallbackInit( ConstructorInit * ctorInit ) {
784	// could not find valid constructor, or found an intrinsic constructor
785	// fall back on C-style initializer
786	delete ctorInit->get_ctor();
787	ctorInit->set_ctor( NULL );
788	delete ctorInit->get_dtor();
789	ctorInit->set_dtor( NULL );
790	maybeAccept( ctorInit->get_init(), *visitor );
791	}
792
793	// needs to be callable from outside the resolver, so this is a standalone function
794	void resolveCtorInit( ConstructorInit * ctorInit, const SymTab::Indexer & indexer ) {
795	assert( ctorInit );
796	PassVisitor<Resolver> resolver( indexer );
797	ctorInit->accept( resolver );
798	}
799
800	void resolveStmtExpr( StmtExpr * stmtExpr, const SymTab::Indexer & indexer ) {
801	assert( stmtExpr );
802	PassVisitor<Resolver> resolver( indexer );
803	stmtExpr->accept( resolver );
804	stmtExpr->computeResult();
805	// xxx - aggregate the environments from all statements? Possibly in AlternativeFinder instead?
806	}
807
808	void Resolver::previsit( ConstructorInit *ctorInit ) {
809	visit_children = false;
810	// xxx - fallback init has been removed => remove fallbackInit function and remove complexity from FixInit and remove C-init from ConstructorInit
811	maybeAccept( ctorInit->ctor, *visitor );
812	maybeAccept( ctorInit->dtor, *visitor );
813
814	// found a constructor - can get rid of C-style initializer
815	delete ctorInit->init;
816	ctorInit->init = nullptr;
817
818	// intrinsic single parameter constructors and destructors do nothing. Since this was
819	// implicitly generated, there's no way for it to have side effects, so get rid of it
820	// to clean up generated code.
821	if ( InitTweak::isIntrinsicSingleArgCallStmt( ctorInit->ctor ) ) {
822	delete ctorInit->ctor;
823	ctorInit->ctor = nullptr;
824	}
825
826	if ( InitTweak::isIntrinsicSingleArgCallStmt( ctorInit->dtor ) ) {
827	delete ctorInit->dtor;
828	ctorInit->dtor = nullptr;
829	}
830
831	// xxx - todo -- what about arrays?
832	// if ( dtor == NULL && InitTweak::isIntrinsicCallStmt( ctorInit->get_ctor() ) ) {
833	// // can reduce the constructor down to a SingleInit using the
834	// // second argument from the ctor call, since
835	// delete ctorInit->get_ctor();
836	// ctorInit->set_ctor( NULL );
837
838	// Expression * arg =
839	// ctorInit->set_init( new SingleInit( arg ) );
840	// }
841	}
842	} // namespace ResolvExpr
843
844	// Local Variables: //
845	// tab-width: 4 //
846	// mode: c++ //
847	// compile-command: "make install" //
848	// End: //

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