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source: src/ResolvExpr/Resolver.cc @ 3831b58

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

Last change on this file since 3831b58 was 32b8144, checked in by Rob Schluntz <rschlunt@…>, 8 years ago
resolve case labels and case ranges
Property mode set to `100644`
File size: 21.7 KB

Rev	Line
[a32b204]	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	//
[71f4e4f]	7	// Resolver.cc --
[a32b204]	8	//
	9	// Author : Richard C. Bilson
	10	// Created On : Sun May 17 12:17:01 2015
[4e06c1e]	11	// Last Modified By : Peter A. Buhr
	12	// Last Modified On : Tue Jul 12 17:45:42 2016
	13	// Update Count : 204
[a32b204]	14	//
	15
[51b7345]	16	#include "Resolver.h"
	17	#include "AlternativeFinder.h"
	18	#include "Alternative.h"
	19	#include "RenameVars.h"
	20	#include "ResolveTypeof.h"
[906e24d]	21	#include "typeops.h"
[51b7345]	22	#include "SynTree/Statement.h"
	23	#include "SynTree/Type.h"
	24	#include "SynTree/Expression.h"
	25	#include "SynTree/Initializer.h"
	26	#include "SymTab/Indexer.h"
[5f98ce5]	27	#include "SymTab/Autogen.h"
[d3b7937]	28	#include "Common/utility.h"
[7b3f66b]	29	#include "InitTweak/InitTweak.h"
[51b7345]	30
[d9a0e76]	31	#include <iostream>
	32	using namespace std;
[51b7345]	33
[d9a0e76]	34	namespace ResolvExpr {
[62e5546]	35	class Resolver final : public SymTab::Indexer {
[a32b204]	36	public:
[77971f6]	37	Resolver() : SymTab::Indexer( false ) {}
[1d2b64f]	38	Resolver( const SymTab:: Indexer & other ) : SymTab::Indexer( other ) {
	39	if ( const Resolver * res = dynamic_cast< const Resolver * >( &other ) ) {
	40	functionReturn = res->functionReturn;
	41	initContext = res->initContext;
	42	inEnumDecl = res->inEnumDecl;
	43	}
	44	}
[71f4e4f]	45
[1d2b64f]	46	typedef SymTab::Indexer Parent;
	47	using Parent::visit;
[62e5546]	48	virtual void visit( FunctionDecl *functionDecl ) override;
	49	virtual void visit( ObjectDecl *functionDecl ) override;
	50	virtual void visit( TypeDecl *typeDecl ) override;
	51	virtual void visit( EnumDecl * enumDecl ) override;
[94b4364]	52
[62e5546]	53	virtual void visit( ArrayType * at ) override;
	54	virtual void visit( PointerType * at ) override;
[d9a0e76]	55
[62e5546]	56	virtual void visit( ExprStmt *exprStmt ) override;
	57	virtual void visit( AsmExpr *asmExpr ) override;
	58	virtual void visit( AsmStmt *asmStmt ) override;
	59	virtual void visit( IfStmt *ifStmt ) override;
	60	virtual void visit( WhileStmt *whileStmt ) override;
	61	virtual void visit( ForStmt *forStmt ) override;
	62	virtual void visit( SwitchStmt *switchStmt ) override;
	63	virtual void visit( CaseStmt *caseStmt ) override;
	64	virtual void visit( BranchStmt *branchStmt ) override;
	65	virtual void visit( ReturnStmt *returnStmt ) override;
[d9a0e76]	66
[62e5546]	67	virtual void visit( SingleInit *singleInit ) override;
	68	virtual void visit( ListInit *listInit ) override;
	69	virtual void visit( ConstructorInit *ctorInit ) override;
[a32b204]	70	private:
[94b4364]	71	typedef std::list< Initializer * >::iterator InitIterator;
	72
[40e636a]	73	template< typename PtrType >
	74	void handlePtrType( PtrType * type );
	75
[30b65d8]	76	void resolveAggrInit( ReferenceToType *, InitIterator &, InitIterator & );
	77	void resolveSingleAggrInit( Declaration *, InitIterator &, InitIterator &, TypeSubstitution sub );
[f1e012b]	78	void fallbackInit( ConstructorInit * ctorInit );
[b726084]	79
[77971f6]	80	Type * functionReturn = nullptr;
	81	Type *initContext = nullptr;
[a436947]	82	bool inEnumDecl = false;
[a32b204]	83	};
[d9a0e76]	84
[a32b204]	85	void resolve( std::list< Declaration * > translationUnit ) {
	86	Resolver resolver;
	87	acceptAll( translationUnit, resolver );
[d9a0e76]	88	}
	89
[a32b204]	90	Expression resolveInVoidContext( Expression expr, const SymTab::Indexer &indexer ) {
	91	TypeEnvironment env;
	92	return resolveInVoidContext( expr, indexer, env );
[d9a0e76]	93	}
[a32b204]	94
[db4ecc5]	95
[a32b204]	96	namespace {
	97	void finishExpr( Expression *expr, const TypeEnvironment &env ) {
	98	expr->set_env( new TypeSubstitution );
	99	env.makeSubstitution( *expr->get_env() );
	100	}
[db4ecc5]	101	} // namespace
[a32b204]	102
[db4ecc5]	103	Expression findVoidExpression( Expression untyped, const SymTab::Indexer &indexer ) {
	104	global_renamer.reset();
	105	TypeEnvironment env;
	106	Expression *newExpr = resolveInVoidContext( untyped, indexer, env );
	107	finishExpr( newExpr, env );
	108	return newExpr;
	109	}
[71f4e4f]	110
[db4ecc5]	111	namespace {
[a32b204]	112	Expression findSingleExpression( Expression untyped, const SymTab::Indexer &indexer ) {
	113	TypeEnvironment env;
	114	AlternativeFinder finder( indexer, env );
	115	finder.find( untyped );
[d9a0e76]	116	#if 0
[a32b204]	117	if ( finder.get_alternatives().size() != 1 ) {
	118	std::cout << "untyped expr is ";
	119	untyped->print( std::cout );
	120	std::cout << std::endl << "alternatives are:";
	121	for ( std::list< Alternative >::const_iterator i = finder.get_alternatives().begin(); i != finder.get_alternatives().end(); ++i ) {
	122	i->print( std::cout );
	123	} // for
	124	} // if
[d9a0e76]	125	#endif
[a32b204]	126	assert( finder.get_alternatives().size() == 1 );
	127	Alternative &choice = finder.get_alternatives().front();
	128	Expression *newExpr = choice.expr->clone();
	129	finishExpr( newExpr, choice.env );
	130	return newExpr;
	131	}
[d9a0e76]	132
[a32b204]	133	bool isIntegralType( Type *type ) {
	134	if ( dynamic_cast< EnumInstType * >( type ) ) {
	135	return true;
	136	} else if ( BasicType bt = dynamic_cast< BasicType >( type ) ) {
	137	return bt->isInteger();
[89e6ffc]	138	} else if ( dynamic_cast< ZeroType* >( type ) != nullptr \|\| dynamic_cast< OneType* >( type ) != nullptr ) {
	139	return true;
[a32b204]	140	} else {
	141	return false;
	142	} // if
	143	}
[71f4e4f]	144
[a32b204]	145	Expression findIntegralExpression( Expression untyped, const SymTab::Indexer &indexer ) {
	146	TypeEnvironment env;
	147	AlternativeFinder finder( indexer, env );
	148	finder.find( untyped );
[d9a0e76]	149	#if 0
[a32b204]	150	if ( finder.get_alternatives().size() != 1 ) {
	151	std::cout << "untyped expr is ";
	152	untyped->print( std::cout );
	153	std::cout << std::endl << "alternatives are:";
	154	for ( std::list< Alternative >::const_iterator i = finder.get_alternatives().begin(); i != finder.get_alternatives().end(); ++i ) {
	155	i->print( std::cout );
	156	} // for
	157	} // if
[d9a0e76]	158	#endif
[a32b204]	159	Expression *newExpr = 0;
	160	const TypeEnvironment *newEnv = 0;
	161	for ( AltList::const_iterator i = finder.get_alternatives().begin(); i != finder.get_alternatives().end(); ++i ) {
[906e24d]	162	if ( i->expr->get_result()->size() == 1 && isIntegralType( i->expr->get_result() ) ) {
[a32b204]	163	if ( newExpr ) {
	164	throw SemanticError( "Too many interpretations for case control expression", untyped );
	165	} else {
	166	newExpr = i->expr->clone();
	167	newEnv = &i->env;
	168	} // if
	169	} // if
	170	} // for
	171	if ( ! newExpr ) {
	172	throw SemanticError( "No interpretations for case control expression", untyped );
	173	} // if
	174	finishExpr( newExpr, *newEnv );
	175	return newExpr;
	176	}
[71f4e4f]	177
[a32b204]	178	}
[71f4e4f]	179
[a32b204]	180	void Resolver::visit( ObjectDecl *objectDecl ) {
	181	Type new_type = resolveTypeof( objectDecl->get_type(), this );
	182	objectDecl->set_type( new_type );
[3cfe27f]	183	// To handle initialization of routine pointers, e.g., int (*fp)(int) = foo(), means that class-variable
	184	// initContext is changed multiple time because the LHS is analysed twice. The second analysis changes
	185	// initContext because of a function type can contain object declarations in the return and parameter types. So
	186	// each value of initContext is retained, so the type on the first analysis is preserved and used for selecting
	187	// the RHS.
	188	Type *temp = initContext;
[a32b204]	189	initContext = new_type;
[a436947]	190	if ( inEnumDecl && dynamic_cast< EnumInstType * >( initContext ) ) {
	191	// enumerator initializers should not use the enum type to initialize, since
	192	// the enum type is still incomplete at this point. Use signed int instead.
	193	initContext = new BasicType( Type::Qualifiers(), BasicType::SignedInt );
	194	}
[1d2b64f]	195	Parent::visit( objectDecl );
[a436947]	196	if ( inEnumDecl && dynamic_cast< EnumInstType * >( initContext ) ) {
	197	// delete newly created signed int type
	198	delete initContext;
	199	}
[3cfe27f]	200	initContext = temp;
[bfbf97f]	201	}
	202
[40e636a]	203	template< typename PtrType >
	204	void Resolver::handlePtrType( PtrType * type ) {
	205	if ( type->get_dimension() ) {
	206	CastExpr *castExpr = new CastExpr( type->get_dimension(), SymTab::SizeType->clone() );
[bfbf97f]	207	Expression newExpr = findSingleExpression( castExpr, this );
[40e636a]	208	delete type->get_dimension();
	209	type->set_dimension( newExpr );
[d1d17f5]	210	}
[40e636a]	211	}
	212
	213	void Resolver::visit( ArrayType * at ) {
	214	handlePtrType( at );
[1d2b64f]	215	Parent::visit( at );
[a32b204]	216	}
[94b4364]	217
[40e636a]	218	void Resolver::visit( PointerType * pt ) {
	219	handlePtrType( pt );
[1d2b64f]	220	Parent::visit( pt );
[40e636a]	221	}
	222
[a32b204]	223	void Resolver::visit( TypeDecl *typeDecl ) {
	224	if ( typeDecl->get_base() ) {
	225	Type new_type = resolveTypeof( typeDecl->get_base(), this );
	226	typeDecl->set_base( new_type );
	227	} // if
[1d2b64f]	228	Parent::visit( typeDecl );
[a32b204]	229	}
[94b4364]	230
[a32b204]	231	void Resolver::visit( FunctionDecl *functionDecl ) {
[d9a0e76]	232	#if 0
[a32b204]	233	std::cout << "resolver visiting functiondecl ";
	234	functionDecl->print( std::cout );
	235	std::cout << std::endl;
[d9a0e76]	236	#endif
[a32b204]	237	Type new_type = resolveTypeof( functionDecl->get_type(), this );
	238	functionDecl->set_type( new_type );
[906e24d]	239	ValueGuard< Type * > oldFunctionReturn( functionReturn );
	240	functionReturn = ResolvExpr::extractResultType( functionDecl->get_functionType() );
[1d2b64f]	241	Parent::visit( functionDecl );
[a32b204]	242	}
[51b7345]	243
[a436947]	244	void Resolver::visit( EnumDecl * enumDecl ) {
	245	// in case we decide to allow nested enums
[1d2b64f]	246	ValueGuard< bool > oldInEnumDecl( inEnumDecl );
[a436947]	247	inEnumDecl = true;
[1d2b64f]	248	Parent::visit( enumDecl );
[a436947]	249	}
	250
[a32b204]	251	void Resolver::visit( ExprStmt *exprStmt ) {
[1d2b64f]	252	assertf( exprStmt->get_expr(), "ExprStmt has null Expression in resolver" );
	253	Expression newExpr = findVoidExpression( exprStmt->get_expr(), this );
	254	delete exprStmt->get_expr();
	255	exprStmt->set_expr( newExpr );
[a32b204]	256	}
[51b7345]	257
[7f5566b]	258	void Resolver::visit( AsmExpr *asmExpr ) {
	259	Expression newExpr = findVoidExpression( asmExpr->get_operand(), this );
	260	delete asmExpr->get_operand();
	261	asmExpr->set_operand( newExpr );
	262	if ( asmExpr->get_inout() ) {
	263	newExpr = findVoidExpression( asmExpr->get_inout(), *this );
	264	delete asmExpr->get_inout();
	265	asmExpr->set_inout( newExpr );
	266	} // if
	267	}
	268
	269	void Resolver::visit( AsmStmt *asmStmt ) {
	270	acceptAll( asmStmt->get_input(), *this);
	271	acceptAll( asmStmt->get_output(), *this);
	272	}
	273
[a32b204]	274	void Resolver::visit( IfStmt *ifStmt ) {
	275	Expression newExpr = findSingleExpression( ifStmt->get_condition(), this );
	276	delete ifStmt->get_condition();
	277	ifStmt->set_condition( newExpr );
[1d2b64f]	278	Parent::visit( ifStmt );
[a32b204]	279	}
[51b7345]	280
[a32b204]	281	void Resolver::visit( WhileStmt *whileStmt ) {
	282	Expression newExpr = findSingleExpression( whileStmt->get_condition(), this );
	283	delete whileStmt->get_condition();
	284	whileStmt->set_condition( newExpr );
[1d2b64f]	285	Parent::visit( whileStmt );
[a32b204]	286	}
[51b7345]	287
[a32b204]	288	void Resolver::visit( ForStmt *forStmt ) {
[1d2b64f]	289	Parent::visit( forStmt );
[145f1fc]	290
[a32b204]	291	if ( forStmt->get_condition() ) {
[145f1fc]	292	Expression * newExpr = findSingleExpression( forStmt->get_condition(), *this );
[a32b204]	293	delete forStmt->get_condition();
	294	forStmt->set_condition( newExpr );
	295	} // if
[71f4e4f]	296
[a32b204]	297	if ( forStmt->get_increment() ) {
[145f1fc]	298	Expression * newExpr = findVoidExpression( forStmt->get_increment(), *this );
[a32b204]	299	delete forStmt->get_increment();
	300	forStmt->set_increment( newExpr );
	301	} // if
	302	}
[51b7345]	303
[32b8144]	304	void Resolver::visit( SwitchStmt *switchStmt ) {
	305	ValueGuard< Type * > oldInitContext( initContext );
[a32b204]	306	Expression *newExpr;
[32b8144]	307	newExpr = findIntegralExpression( switchStmt->get_condition(), *this );
[a32b204]	308	delete switchStmt->get_condition();
	309	switchStmt->set_condition( newExpr );
[71f4e4f]	310
[32b8144]	311	initContext = newExpr->get_result();
	312	Parent::visit( switchStmt );
[a32b204]	313	}
[51b7345]	314
[a32b204]	315	void Resolver::visit( CaseStmt *caseStmt ) {
[32b8144]	316	if ( caseStmt->get_condition() ) {
	317	assert( initContext );
	318	CastExpr * castExpr = new CastExpr( caseStmt->get_condition(), initContext->clone() );
	319	Expression * newExpr = findSingleExpression( castExpr, *this );
	320	castExpr = safe_dynamic_cast< CastExpr * >( newExpr );
	321	caseStmt->set_condition( castExpr->get_arg() );
	322	castExpr->set_arg( nullptr );
	323	delete castExpr;
	324	}
[1d2b64f]	325	Parent::visit( caseStmt );
[a32b204]	326	}
[51b7345]	327
[de62360d]	328	void Resolver::visit( BranchStmt *branchStmt ) {
	329	// must resolve the argument for a computed goto
	330	if ( branchStmt->get_type() == BranchStmt::Goto ) { // check for computed goto statement
[2871210]	331	if ( Expression * arg = branchStmt->get_computedTarget() ) {
[de62360d]	332	VoidType v = Type::Qualifiers(); // cast to void * for the alternative finder
	333	PointerType pt( Type::Qualifiers(), v.clone() );
	334	CastExpr * castExpr = new CastExpr( arg, pt.clone() );
	335	Expression * newExpr = findSingleExpression( castExpr, *this ); // find best expression
	336	branchStmt->set_target( newExpr );
	337	} // if
	338	} // if
	339	}
	340
[a32b204]	341	void Resolver::visit( ReturnStmt *returnStmt ) {
	342	if ( returnStmt->get_expr() ) {
[906e24d]	343	CastExpr *castExpr = new CastExpr( returnStmt->get_expr(), functionReturn->clone() );
[a32b204]	344	Expression newExpr = findSingleExpression( castExpr, this );
	345	delete castExpr;
	346	returnStmt->set_expr( newExpr );
	347	} // if
	348	}
[51b7345]	349
[b5c5684]	350	template< typename T >
	351	bool isCharType( T t ) {
	352	if ( BasicType * bt = dynamic_cast< BasicType * >( t ) ) {
[71f4e4f]	353	return bt->get_kind() == BasicType::Char \|\| bt->get_kind() == BasicType::SignedChar \|\|
[b5c5684]	354	bt->get_kind() == BasicType::UnsignedChar;
	355	}
	356	return false;
	357	}
	358
[a32b204]	359	void Resolver::visit( SingleInit *singleInit ) {
	360	if ( singleInit->get_value() ) {
[bdd516a]	361	#if 0
[a32b204]	362	if (NameExpr * ne = dynamic_cast<NameExpr*>(singleInit->get_value())) {
	363	string n = ne->get_name();
	364	if (n == "0") {
[71f4e4f]	365	initContext = new BasicType(Type::Qualifiers(),
[a32b204]	366	BasicType::SignedInt);
	367	} else {
[52f85e0]	368	DeclarationWithType * decl = lookupId( n );
[a32b204]	369	initContext = decl->get_type();
	370	}
[71f4e4f]	371	} else if (ConstantExpr * e =
[a32b204]	372	dynamic_cast<ConstantExpr*>(singleInit->get_value())) {
	373	Constant *c = e->get_constant();
	374	initContext = c->get_type();
	375	} else {
	376	assert(0);
	377	}
[bdd516a]	378	#endif
[a32b204]	379	CastExpr *castExpr = new CastExpr( singleInit->get_value(), initContext->clone() );
	380	Expression newExpr = findSingleExpression( castExpr, this );
	381	delete castExpr;
	382	singleInit->set_value( newExpr );
[b5c5684]	383
	384	// check if initializing type is char[]
	385	if ( ArrayType * at = dynamic_cast< ArrayType * >( initContext ) ) {
	386	if ( isCharType( at->get_base() ) ) {
	387	// check if the resolved type is char *
[906e24d]	388	if ( PointerType * pt = dynamic_cast< PointerType *>( newExpr->get_result() ) ) {
[b5c5684]	389	if ( isCharType( pt->get_base() ) ) {
[52f85e0]	390	// strip cast if we're initializing a char[] with a char *, e.g. char x[] = "hello";
[b5c5684]	391	CastExpr ce = dynamic_cast< CastExpr >( newExpr );
	392	singleInit->set_value( ce->get_arg() );
	393	ce->set_arg( NULL );
[71f4e4f]	394	delete ce;
[b5c5684]	395	}
	396	}
	397	}
	398	}
[a32b204]	399	} // if
[6c3744e]	400	// singleInit->get_value()->accept( *this );
[a32b204]	401	}
[51b7345]	402
[30b65d8]	403	template< typename AggrInst >
	404	TypeSubstitution makeGenericSubstitutuion( AggrInst * inst ) {
[66f8528]	405	assert( inst );
	406	assert( inst->get_baseParameters() );
[30b65d8]	407	std::list< TypeDecl * > baseParams = *inst->get_baseParameters();
	408	std::list< Expression * > typeSubs = inst->get_parameters();
	409	TypeSubstitution subs( baseParams.begin(), baseParams.end(), typeSubs.begin() );
	410	return subs;
	411	}
	412
	413	ReferenceToType * isStructOrUnion( Type * type ) {
	414	if ( StructInstType * sit = dynamic_cast< StructInstType * >( type ) ) {
	415	return sit;
	416	} else if ( UnionInstType * uit = dynamic_cast< UnionInstType * >( type ) ) {
	417	return uit;
	418	}
	419	return nullptr;
	420	}
	421
	422	void Resolver::resolveSingleAggrInit( Declaration * dcl, InitIterator & init, InitIterator & initEnd, TypeSubstitution sub ) {
[94b4364]	423	DeclarationWithType * dt = dynamic_cast< DeclarationWithType * >( dcl );
	424	assert( dt );
[30b65d8]	425	// need to substitute for generic types, so that casts are to concrete types
	426	initContext = dt->get_type()->clone();
	427	sub.apply( initContext );
	428
[94b4364]	429	try {
	430	if ( init == initEnd ) return; // stop when there are no more initializers
	431	(init)->accept( this );
	432	++init; // made it past an initializer
	433	} catch( SemanticError & ) {
	434	// need to delve deeper, if you can
[30b65d8]	435	if ( ReferenceToType * type = isStructOrUnion( initContext ) ) {
	436	resolveAggrInit( type, init, initEnd );
[94b4364]	437	} else {
[1869adf]	438	// member is not an aggregate type, so can't go any deeper
	439
[94b4364]	440	// might need to rethink what is being thrown
	441	throw;
	442	} // if
	443	}
	444	}
	445
[30b65d8]	446	void Resolver::resolveAggrInit( ReferenceToType * inst, InitIterator & init, InitIterator & initEnd ) {
	447	if ( StructInstType * sit = dynamic_cast< StructInstType * >( inst ) ) {
	448	TypeSubstitution sub = makeGenericSubstitutuion( sit );
	449	StructDecl * st = sit->get_baseStruct();
[eeaea53]	450	if(st->get_members().empty()) return;
[94b4364]	451	// want to resolve each initializer to the members of the struct,
	452	// but if there are more initializers than members we should stop
	453	list< Declaration * >::iterator it = st->get_members().begin();
	454	for ( ; it != st->get_members().end(); ++it) {
[30b65d8]	455	resolveSingleAggrInit( *it, init, initEnd, sub );
[94b4364]	456	}
[30b65d8]	457	} else if ( UnionInstType * uit = dynamic_cast< UnionInstType * >( inst ) ) {
[66f8528]	458	TypeSubstitution sub = makeGenericSubstitutuion( uit );
[30b65d8]	459	UnionDecl * un = uit->get_baseUnion();
[eeaea53]	460	if(un->get_members().empty()) return;
[94b4364]	461	// only resolve to the first member of a union
[30b65d8]	462	resolveSingleAggrInit( *un->get_members().begin(), init, initEnd, sub );
[94b4364]	463	} // if
	464	}
	465
	466	void Resolver::visit( ListInit * listInit ) {
[4d2434a]	467	InitIterator iter = listInit->begin();
	468	InitIterator end = listInit->end();
[94b4364]	469
[b5c5684]	470	if ( ArrayType * at = dynamic_cast< ArrayType * >( initContext ) ) {
[94b4364]	471	// resolve each member to the base type of the array
	472	for ( ; iter != end; ++iter ) {
[b5c5684]	473	initContext = at->get_base();
	474	(iter)->accept( this );
	475	} // for
[65660bd]	476	} else if ( TupleType * tt = dynamic_cast< TupleType * > ( initContext ) ) {
	477	for ( Type * t : *tt ) {
	478	if ( iter == end ) break;
	479	initContext = t;
	480	(iter++)->accept( this );
	481	}
[30b65d8]	482	} else if ( ReferenceToType * type = isStructOrUnion( initContext ) ) {
	483	resolveAggrInit( type, iter, end );
[679864e1]	484	} else if ( TypeInstType * tt = dynamic_cast< TypeInstType * >( initContext ) ) {
[242d458]	485	Type * base = tt->get_baseType()->get_base();
	486	if ( base ) {
	487	// know the implementation type, so try using that as the initContext
	488	initContext = base;
	489	visit( listInit );
	490	} else {
	491	// missing implementation type -- might be an unknown type variable, so try proceeding with the current init context
[1d2b64f]	492	Parent::visit( listInit );
[242d458]	493	}
[b5c5684]	494	} else {
[89e6ffc]	495	assert( dynamic_cast< BasicType * >( initContext ) \|\| dynamic_cast< PointerType * >( initContext )
[1d2b64f]	496	\|\| dynamic_cast< ZeroType * >( initContext ) \|\| dynamic_cast< OneType * >( initContext ) \|\| dynamic_cast < EnumInstType * > ( initContext ) );
[b5c5684]	497	// basic types are handled here
[1d2b64f]	498	Parent::visit( listInit );
[b5c5684]	499	}
	500
[bdd516a]	501	#if 0
[a32b204]	502	if ( ArrayType at = dynamic_cast<ArrayType>(initContext) ) {
	503	std::list<Initializer *>::iterator iter( listInit->begin_initializers() );
	504	for ( ; iter != listInit->end_initializers(); ++iter ) {
	505	initContext = at->get_base();
	506	(iter)->accept( this );
	507	} // for
	508	} else if ( StructInstType st = dynamic_cast<StructInstType>(initContext) ) {
	509	StructDecl *baseStruct = st->get_baseStruct();
	510	std::list<Declaration *>::iterator iter1( baseStruct->get_members().begin() );
	511	std::list<Initializer *>::iterator iter2( listInit->begin_initializers() );
	512	for ( ; iter1 != baseStruct->get_members().end() && iter2 != listInit->end_initializers(); ++iter2 ) {
	513	if ( (*iter2)->get_designators().empty() ) {
	514	DeclarationWithType dt = dynamic_cast<DeclarationWithType >( *iter1 );
	515	initContext = dt->get_type();
	516	(iter2)->accept( this );
	517	++iter1;
	518	} else {
	519	StructDecl *st = baseStruct;
	520	iter1 = st->get_members().begin();
	521	std::list<Expression >::iterator iter3( (iter2)->get_designators().begin() );
	522	for ( ; iter3 != (*iter2)->get_designators().end(); ++iter3 ) {
	523	NameExpr key = dynamic_cast<NameExpr >( *iter3 );
	524	assert( key );
	525	for ( ; iter1 != st->get_members().end(); ++iter1 ) {
	526	if ( key->get_name() == (*iter1)->get_name() ) {
	527	(*iter1)->print( cout );
	528	cout << key->get_name() << endl;
	529	ObjectDecl fred = dynamic_cast<ObjectDecl >( *iter1 );
	530	assert( fred );
	531	StructInstType mary = dynamic_cast<StructInstType>( fred->get_type() );
	532	assert( mary );
	533	st = mary->get_baseStruct();
	534	iter1 = st->get_members().begin();
	535	break;
	536	} // if
	537	} // for
	538	} // for
	539	ObjectDecl fred = dynamic_cast<ObjectDecl >( *iter1 );
	540	assert( fred );
	541	initContext = fred->get_type();
	542	(listInit->begin_initializers())->accept( this );
	543	} // if
	544	} // for
	545	} else if ( UnionInstType st = dynamic_cast<UnionInstType>(initContext) ) {
	546	DeclarationWithType dt = dynamic_cast<DeclarationWithType >( *st->get_baseUnion()->get_members().begin() );
	547	initContext = dt->get_type();
	548	(listInit->begin_initializers())->accept( this );
[2c2242c]	549	} // if
[bdd516a]	550	#endif
[a32b204]	551	}
[71f4e4f]	552
[f1e012b]	553	// ConstructorInit - fall back on C-style initializer
	554	void Resolver::fallbackInit( ConstructorInit * ctorInit ) {
	555	// could not find valid constructor, or found an intrinsic constructor
	556	// fall back on C-style initializer
	557	delete ctorInit->get_ctor();
	558	ctorInit->set_ctor( NULL );
[71a145de]	559	delete ctorInit->get_dtor();
	560	ctorInit->set_dtor( NULL );
[f1e012b]	561	maybeAccept( ctorInit->get_init(), *this );
	562	}
	563
[1d2b64f]	564	// needs to be callable from outside the resolver, so this is a standalone function
	565	void resolveCtorInit( ConstructorInit * ctorInit, const SymTab::Indexer & indexer ) {
	566	assert( ctorInit );
	567	Resolver resolver( indexer );
	568	ctorInit->accept( resolver );
	569	}
	570
	571	void resolveStmtExpr( StmtExpr * stmtExpr, const SymTab::Indexer & indexer ) {
	572	assert( stmtExpr );
	573	Resolver resolver( indexer );
	574	stmtExpr->accept( resolver );
	575	}
	576
[71f4e4f]	577	void Resolver::visit( ConstructorInit *ctorInit ) {
[1ba88a0]	578	// xxx - fallback init has been removed => remove fallbackInit function and remove complexity from FixInit and remove C-init from ConstructorInit
	579	maybeAccept( ctorInit->get_ctor(), *this );
	580	maybeAccept( ctorInit->get_dtor(), *this );
[071a31a]	581
[5b2f5bb]	582	// found a constructor - can get rid of C-style initializer
	583	delete ctorInit->get_init();
	584	ctorInit->set_init( NULL );
[ec79847]	585
	586	// intrinsic single parameter constructors and destructors do nothing. Since this was
	587	// implicitly generated, there's no way for it to have side effects, so get rid of it
	588	// to clean up generated code.
[f9cebb5]	589	if ( InitTweak::isIntrinsicSingleArgCallStmt( ctorInit->get_ctor() ) ) {
[ec79847]	590	delete ctorInit->get_ctor();
	591	ctorInit->set_ctor( NULL );
	592	}
[f9cebb5]	593
	594	if ( InitTweak::isIntrinsicSingleArgCallStmt( ctorInit->get_dtor() ) ) {
[ec79847]	595	delete ctorInit->get_dtor();
	596	ctorInit->set_dtor( NULL );
	597	}
[a465caf]	598
	599	// xxx - todo -- what about arrays?
	600	// if ( dtor == NULL && InitTweak::isIntrinsicCallStmt( ctorInit->get_ctor() ) ) {
	601	// // can reduce the constructor down to a SingleInit using the
	602	// // second argument from the ctor call, since
	603	// delete ctorInit->get_ctor();
	604	// ctorInit->set_ctor( NULL );
	605
	606	// Expression * arg =
	607	// ctorInit->set_init( new SingleInit( arg ) );
	608	// }
[71f4e4f]	609	}
[51b7345]	610	} // namespace ResolvExpr
[a32b204]	611
	612	// Local Variables: //
	613	// tab-width: 4 //
	614	// mode: c++ //
	615	// compile-command: "make install" //
	616	// End: //

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