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source: src/ResolvExpr/AlternativeFinder.cc@ 848ce71

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Last change on this file since 848ce71 was 848ce71, checked in by Rob Schluntz <rschlunt@…>, 9 years ago
resolve untyped member exprs for tuples
Property mode set to `100644`
File size: 44.8 KB

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1	//
2	// Cforall Version 1.0.0 Copyright (C) 2015 University of Waterloo
3	//
4	// The contents of this file are covered under the licence agreement in the
5	// file "LICENCE" distributed with Cforall.
6	//
7	// AlternativeFinder.cc --
8	//
9	// Author : Richard C. Bilson
10	// Created On : Sat May 16 23:52:08 2015
11	// Last Modified By : Peter A. Buhr
12	// Last Modified On : Mon Jul 4 17:02:51 2016
13	// Update Count : 29
14	//
15
16	#include <list>
17	#include <iterator>
18	#include <algorithm>
19	#include <functional>
20	#include <cassert>
21	#include <unordered_map>
22	#include <utility>
23	#include <vector>
24
25	#include "AlternativeFinder.h"
26	#include "Alternative.h"
27	#include "Cost.h"
28	#include "typeops.h"
29	#include "Unify.h"
30	#include "RenameVars.h"
31	#include "SynTree/Type.h"
32	#include "SynTree/Declaration.h"
33	#include "SynTree/Expression.h"
34	#include "SynTree/Initializer.h"
35	#include "SynTree/Visitor.h"
36	#include "SymTab/Indexer.h"
37	#include "SymTab/Mangler.h"
38	#include "SynTree/TypeSubstitution.h"
39	#include "SymTab/Validate.h"
40	#include "Tuples/Tuples.h"
41	#include "Common/utility.h"
42	#include "InitTweak/InitTweak.h"
43	#include "ResolveTypeof.h"
44
45	extern bool resolvep;
46	#define PRINT( text ) if ( resolvep ) { text }
47	//#define DEBUG_COST
48
49	namespace ResolvExpr {
50	Expression resolveInVoidContext( Expression expr, const SymTab::Indexer &indexer, TypeEnvironment &env ) {
51	CastExpr *castToVoid = new CastExpr( expr );
52
53	AlternativeFinder finder( indexer, env );
54	finder.findWithAdjustment( castToVoid );
55
56	// it's a property of the language that a cast expression has either 1 or 0 interpretations; if it has 0
57	// interpretations, an exception has already been thrown.
58	assert( finder.get_alternatives().size() == 1 );
59	CastExpr newExpr = dynamic_cast< CastExpr >( finder.get_alternatives().front().expr );
60	assert( newExpr );
61	env = finder.get_alternatives().front().env;
62	return newExpr->get_arg()->clone();
63	}
64
65	Cost sumCost( const AltList &in ) {
66	Cost total;
67	for ( AltList::const_iterator i = in.begin(); i != in.end(); ++i ) {
68	total += i->cost;
69	}
70	return total;
71	}
72
73	namespace {
74	void printAlts( const AltList &list, std::ostream &os, int indent = 0 ) {
75	for ( AltList::const_iterator i = list.begin(); i != list.end(); ++i ) {
76	i->print( os, indent );
77	os << std::endl;
78	}
79	}
80
81	void makeExprList( const AltList &in, std::list< Expression* > &out ) {
82	for ( AltList::const_iterator i = in.begin(); i != in.end(); ++i ) {
83	out.push_back( i->expr->clone() );
84	}
85	}
86
87	struct PruneStruct {
88	bool isAmbiguous;
89	AltList::iterator candidate;
90	PruneStruct() {}
91	PruneStruct( AltList::iterator candidate ): isAmbiguous( false ), candidate( candidate ) {}
92	};
93
94	/// Prunes a list of alternatives down to those that have the minimum conversion cost for a given return type; skips ambiguous interpretations
95	template< typename InputIterator, typename OutputIterator >
96	void pruneAlternatives( InputIterator begin, InputIterator end, OutputIterator out, const SymTab::Indexer &indexer ) {
97	// select the alternatives that have the minimum conversion cost for a particular set of result types
98	std::map< std::string, PruneStruct > selected;
99	for ( AltList::iterator candidate = begin; candidate != end; ++candidate ) {
100	PruneStruct current( candidate );
101	std::string mangleName;
102	{
103	Type * newType = candidate->expr->get_result()->clone();
104	candidate->env.apply( newType );
105	mangleName = SymTab::Mangler::mangle( newType );
106	delete newType;
107	}
108	std::map< std::string, PruneStruct >::iterator mapPlace = selected.find( mangleName );
109	if ( mapPlace != selected.end() ) {
110	if ( candidate->cost < mapPlace->second.candidate->cost ) {
111	PRINT(
112	std::cerr << "cost " << candidate->cost << " beats " << mapPlace->second.candidate->cost << std::endl;
113	)
114	selected[ mangleName ] = current;
115	} else if ( candidate->cost == mapPlace->second.candidate->cost ) {
116	PRINT(
117	std::cerr << "marking ambiguous" << std::endl;
118	)
119	mapPlace->second.isAmbiguous = true;
120	}
121	} else {
122	selected[ mangleName ] = current;
123	}
124	}
125
126	PRINT(
127	std::cerr << "there are " << selected.size() << " alternatives before elimination" << std::endl;
128	)
129
130	// accept the alternatives that were unambiguous
131	for ( std::map< std::string, PruneStruct >::iterator target = selected.begin(); target != selected.end(); ++target ) {
132	if ( ! target->second.isAmbiguous ) {
133	Alternative &alt = *target->second.candidate;
134	alt.env.applyFree( alt.expr->get_result() );
135	*out++ = alt;
136	}
137	}
138	}
139
140	void renameTypes( Expression *expr ) {
141	expr->get_result()->accept( global_renamer );
142	}
143	}
144
145	template< typename InputIterator, typename OutputIterator >
146	void AlternativeFinder::findSubExprs( InputIterator begin, InputIterator end, OutputIterator out ) {
147	while ( begin != end ) {
148	AlternativeFinder finder( indexer, env );
149	finder.findWithAdjustment( *begin );
150	// XXX either this
151	//Designators::fixDesignations( finder, (*begin++)->get_argName() );
152	// or XXX this
153	begin++;
154	PRINT(
155	std::cerr << "findSubExprs" << std::endl;
156	printAlts( finder.alternatives, std::cerr );
157	)
158	*out++ = finder;
159	}
160	}
161
162	AlternativeFinder::AlternativeFinder( const SymTab::Indexer &indexer, const TypeEnvironment &env )
163	: indexer( indexer ), env( env ) {
164	}
165
166	void AlternativeFinder::find( Expression *expr, bool adjust, bool prune ) {
167	expr->accept( *this );
168	if ( alternatives.empty() ) {
169	throw SemanticError( "No reasonable alternatives for expression ", expr );
170	}
171	for ( AltList::iterator i = alternatives.begin(); i != alternatives.end(); ++i ) {
172	if ( adjust ) {
173	adjustExprType( i->expr->get_result(), i->env, indexer );
174	}
175	}
176	if ( prune ) {
177	PRINT(
178	std::cerr << "alternatives before prune:" << std::endl;
179	printAlts( alternatives, std::cerr );
180	)
181	AltList::iterator oldBegin = alternatives.begin();
182	pruneAlternatives( alternatives.begin(), alternatives.end(), front_inserter( alternatives ), indexer );
183	if ( alternatives.begin() == oldBegin ) {
184	std::ostringstream stream;
185	stream << "Can't choose between alternatives for expression ";
186	expr->print( stream );
187	stream << "Alternatives are:";
188	AltList winners;
189	findMinCost( alternatives.begin(), alternatives.end(), back_inserter( winners ) );
190	printAlts( winners, stream, 8 );
191	throw SemanticError( stream.str() );
192	}
193	alternatives.erase( oldBegin, alternatives.end() );
194	PRINT(
195	std::cerr << "there are " << alternatives.size() << " alternatives after elimination" << std::endl;
196	)
197	}
198
199	// Central location to handle gcc extension keyword for all expression types.
200	for ( Alternative &iter: alternatives ) {
201	iter.expr->set_extension( expr->get_extension() );
202	} // for
203	}
204
205	void AlternativeFinder::findWithAdjustment( Expression *expr, bool prune ) {
206	find( expr, true, prune );
207	}
208
209	template< typename StructOrUnionType >
210	void AlternativeFinder::addAggMembers( StructOrUnionType aggInst, Expression expr, const Cost &newCost, const TypeEnvironment & env, Expression * member ) {
211	// member must be either a tuple expression or a name expr
212	if ( NameExpr * nameExpr = dynamic_cast< NameExpr * >( member ) ) {
213	const std::string & name = nameExpr->get_name();
214	std::list< Declaration* > members;
215	aggInst->lookup( name, members );
216	for ( std::list< Declaration* >::const_iterator i = members.begin(); i != members.end(); ++i ) {
217	if ( DeclarationWithType dwt = dynamic_cast< DeclarationWithType >( *i ) ) {
218	alternatives.push_back( Alternative( new MemberExpr( dwt, expr->clone() ), env, newCost ) );
219	renameTypes( alternatives.back().expr );
220	} else {
221	assert( false );
222	}
223	}
224	} else if ( TupleExpr * tupleExpr = dynamic_cast< TupleExpr * >( member ) ) {
225	assert( false );
226	} else {
227	// xxx - temporary
228	std::cerr << member << std::endl;
229	assertf( false, "reached unexpected case of addAggMembers" );
230	}
231	}
232
233	void AlternativeFinder::addTupleMembers( TupleType * tupleType, Expression expr, const Cost &newCost, const TypeEnvironment & env, Expression member ) {
234	if ( ConstantExpr * constantExpr = dynamic_cast< ConstantExpr * >( member ) ) {
235	// get the value of the constant expression as an int, must be between 0 and the length of the tuple type to have meaning
236	// xxx - this should be improved by memoizing the value of constant exprs
237	// during parsing and reusing that information here.
238	std::stringstream ss( constantExpr->get_constant()->get_value() );
239	int val;
240	std::string tmp;
241	if ( ss >> val && ! (ss >> tmp) ) {
242	if ( val >= 0 && (unsigned int)val < tupleType->size() ) {
243	alternatives.push_back( Alternative( new TupleIndexExpr( expr->clone(), val ), env, newCost ) );
244	} // if
245	} // if
246	} // if
247	}
248
249	void AlternativeFinder::visit( ApplicationExpr *applicationExpr ) {
250	alternatives.push_back( Alternative( applicationExpr->clone(), env, Cost::zero ) );
251	}
252
253	Cost computeConversionCost( Alternative &alt, const SymTab::Indexer &indexer ) {
254	ApplicationExpr appExpr = safe_dynamic_cast< ApplicationExpr >( alt.expr );
255	PointerType pointer = safe_dynamic_cast< PointerType >( appExpr->get_function()->get_result() );
256	FunctionType function = safe_dynamic_cast< FunctionType >( pointer->get_base() );
257
258	Cost convCost( 0, 0, 0 );
259	std::list< DeclarationWithType* >& formals = function->get_parameters();
260	std::list< DeclarationWithType* >::iterator formal = formals.begin();
261	std::list< Expression* >& actuals = appExpr->get_args();
262
263	std::list< Type * > formalTypes;
264	std::list< Type * >::iterator formalType = formalTypes.end();
265
266	for ( std::list< Expression* >::iterator actualExpr = actuals.begin(); actualExpr != actuals.end(); ++actualExpr ) {
267
268	PRINT(
269	std::cerr << "actual expression:" << std::endl;
270	(*actualExpr)->print( std::cerr, 8 );
271	std::cerr << "--- results are" << std::endl;
272	(*actualExpr)->get_result()->print( std::cerr, 8 );
273	)
274	std::list< DeclarationWithType* >::iterator startFormal = formal;
275	Cost actualCost;
276	std::list< Type * > flatActualTypes;
277	flatten( (*actualExpr)->get_result(), back_inserter( flatActualTypes ) );
278	for ( std::list< Type* >::iterator actualType = flatActualTypes.begin(); actualType != flatActualTypes.end(); ++actualType ) {
279
280
281	// tuple handling code
282	if ( formalType == formalTypes.end() ) {
283	// the type of the formal parameter may be a tuple type. To make this easier to work with,
284	// flatten the tuple type and traverse the resulting list of types, incrementing the formal
285	// iterator once its types have been extracted. Once a particular formal parameter's type has
286	// been exhausted load the next formal parameter's type.
287	if ( formal == formals.end() ) {
288	if ( function->get_isVarArgs() ) {
289	convCost += Cost( 1, 0, 0 );
290	break;
291	} else {
292	return Cost::infinity;
293	}
294	}
295	formalTypes.clear();
296	flatten( (*formal)->get_type(), back_inserter( formalTypes ) );
297	formalType = formalTypes.begin();
298	++formal;
299	}
300
301	PRINT(
302	std::cerr << std::endl << "converting ";
303	(*actualType)->print( std::cerr, 8 );
304	std::cerr << std::endl << " to ";
305	(*formal)->get_type()->print( std::cerr, 8 );
306	)
307	Cost newCost = conversionCost( actualType, formalType, indexer, alt.env );
308	PRINT(
309	std::cerr << std::endl << "cost is" << newCost << std::endl;
310	)
311
312	if ( newCost == Cost::infinity ) {
313	return newCost;
314	}
315	convCost += newCost;
316	actualCost += newCost;
317
318	convCost += Cost( 0, polyCost( formalType, alt.env, indexer ) + polyCost( actualType, alt.env, indexer ), 0 );
319
320	formalType++;
321	}
322	if ( actualCost != Cost( 0, 0, 0 ) ) {
323	std::list< DeclarationWithType* >::iterator startFormalPlusOne = startFormal;
324	startFormalPlusOne++;
325	if ( formal == startFormalPlusOne ) {
326	// not a tuple type
327	Type newType = (startFormal)->get_type()->clone();
328	alt.env.apply( newType );
329	actualExpr = new CastExpr( actualExpr, newType );
330	} else {
331	TupleType *newType = new TupleType( Type::Qualifiers() );
332	for ( std::list< DeclarationWithType* >::iterator i = startFormal; i != formal; ++i ) {
333	newType->get_types().push_back( (*i)->get_type()->clone() );
334	}
335	alt.env.apply( newType );
336	actualExpr = new CastExpr( actualExpr, newType );
337	}
338	}
339
340	}
341	if ( formal != formals.end() ) {
342	return Cost::infinity;
343	}
344
345	for ( InferredParams::const_iterator assert = appExpr->get_inferParams().begin(); assert != appExpr->get_inferParams().end(); ++assert ) {
346	PRINT(
347	std::cerr << std::endl << "converting ";
348	assert->second.actualType->print( std::cerr, 8 );
349	std::cerr << std::endl << " to ";
350	assert->second.formalType->print( std::cerr, 8 );
351	)
352	Cost newCost = conversionCost( assert->second.actualType, assert->second.formalType, indexer, alt.env );
353	PRINT(
354	std::cerr << std::endl << "cost of conversion is " << newCost << std::endl;
355	)
356	if ( newCost == Cost::infinity ) {
357	return newCost;
358	}
359	convCost += newCost;
360
361	convCost += Cost( 0, polyCost( assert->second.formalType, alt.env, indexer ) + polyCost( assert->second.actualType, alt.env, indexer ), 0 );
362	}
363
364	return convCost;
365	}
366
367	/// Adds type variables to the open variable set and marks their assertions
368	void makeUnifiableVars( Type *type, OpenVarSet &unifiableVars, AssertionSet &needAssertions ) {
369	for ( Type::ForallList::const_iterator tyvar = type->get_forall().begin(); tyvar != type->get_forall().end(); ++tyvar ) {
370	unifiableVars[ (tyvar)->get_name() ] = (tyvar)->get_kind();
371	for ( std::list< DeclarationWithType* >::iterator assert = (tyvar)->get_assertions().begin(); assert != (tyvar)->get_assertions().end(); ++assert ) {
372	needAssertions[ *assert ] = true;
373	}
374	/// needAssertions.insert( needAssertions.end(), (tyvar)->get_assertions().begin(), (tyvar)->get_assertions().end() );
375	}
376	}
377
378	/// instantiate a single argument by matching actuals from [actualIt, actualEnd) against formalType,
379	/// producing expression(s) in out and their total cost in cost.
380	template< typename AltIterator, typename OutputIterator >
381	bool instantiateArgument( Type * formalType, Initializer * defaultValue, AltIterator & actualIt, AltIterator actualEnd, OpenVarSet & openVars, TypeEnvironment & resultEnv, AssertionSet & resultNeed, AssertionSet & resultHave, const SymTab::Indexer & indexer, Cost & cost, OutputIterator out ) {
382	if ( TupleType * tupleType = dynamic_cast< TupleType * >( formalType ) ) {
383	// formalType is a TupleType - group actuals into a TupleExpr whose type unifies with the TupleType
384	TupleExpr * tupleExpr = new TupleExpr();
385	for ( Type * type : *tupleType ) {
386	if ( ! instantiateArgument( type, defaultValue, actualIt, actualEnd, openVars, resultEnv, resultNeed, resultHave, indexer, cost, back_inserter( tupleExpr->get_exprs() ) ) ) {
387	delete tupleExpr;
388	return false;
389	}
390	}
391	tupleExpr->set_result( Tuples::makeTupleType( tupleExpr->get_exprs() ) );
392	*out++ = tupleExpr;
393	} else if ( actualIt != actualEnd ) {
394	// both actualType and formalType are atomic (non-tuple) types - if they unify
395	// then accept actual as an argument, otherwise return false (fail to instantiate argument)
396	Expression * actual = actualIt->expr;
397	Type * actualType = actual->get_result();
398	PRINT(
399	std::cerr << "formal type is ";
400	formalType->print( std::cerr );
401	std::cerr << std::endl << "actual type is ";
402	actualType->print( std::cerr );
403	std::cerr << std::endl;
404	)
405	if ( ! unify( formalType, actualType, resultEnv, resultNeed, resultHave, openVars, indexer ) ) {
406	return false;
407	}
408	// move the expression from the alternative to the output iterator
409	*out++ = actual;
410	actualIt->expr = nullptr;
411	cost += actualIt->cost;
412	++actualIt;
413	} else {
414	// End of actuals - Handle default values
415	if ( SingleInit si = dynamic_cast<SingleInit >( defaultValue )) {
416	// so far, only constant expressions are accepted as default values
417	if ( ConstantExpr cnstexpr = dynamic_cast<ConstantExpr >( si->get_value()) ) {
418	if ( Constant cnst = dynamic_cast<Constant >( cnstexpr->get_constant() ) ) {
419	if ( unify( formalType, cnst->get_type(), resultEnv, resultNeed, resultHave, openVars, indexer ) ) {
420	// xxx - Don't know if this is right
421	*out++ = cnstexpr->clone();
422	return true;
423	} // if
424	} // if
425	} // if
426	} // if
427	return false;
428	} // if
429	return true;
430	}
431
432	bool AlternativeFinder::instantiateFunction( std::list< DeclarationWithType* >& formals, const AltList &actuals, bool isVarArgs, OpenVarSet& openVars, TypeEnvironment &resultEnv, AssertionSet &resultNeed, AssertionSet &resultHave, AltList & out ) {
433	simpleCombineEnvironments( actuals.begin(), actuals.end(), resultEnv );
434	// make sure we don't widen any existing bindings
435	for ( TypeEnvironment::iterator i = resultEnv.begin(); i != resultEnv.end(); ++i ) {
436	i->allowWidening = false;
437	}
438	resultEnv.extractOpenVars( openVars );
439
440	// flatten actuals so that each actual has an atomic (non-tuple) type
441	AltList exploded;
442	Tuples::explode( actuals, back_inserter( exploded ) );
443
444	AltList::iterator actualExpr = exploded.begin();
445	AltList::iterator actualEnd = exploded.end();
446	for ( DeclarationWithType * formal : formals ) {
447	// match flattened actuals with formal parameters - actuals will be grouped to match
448	// with formals as appropriate
449	Cost cost;
450	std::list< Expression * > newExprs;
451	ObjectDecl * obj = safe_dynamic_cast< ObjectDecl * >( formal );
452	if ( ! instantiateArgument( obj->get_type(), obj->get_init(), actualExpr, actualEnd, openVars, resultEnv, resultNeed, resultHave, indexer, cost, back_inserter( newExprs ) ) ) {
453	deleteAll( newExprs );
454	return false;
455	}
456	// success - produce argument as a new alternative
457	assert( newExprs.size() == 1 );
458	out.push_back( Alternative( newExprs.front(), resultEnv, cost ) );
459	}
460	if ( actualExpr != actualEnd ) {
461	// there are still actuals remaining, but we've run out of formal parameters to match against
462	// this is okay only if the function is variadic
463	if ( ! isVarArgs ) {
464	return false;
465	}
466	out.splice( out.end(), exploded, actualExpr, actualEnd );
467	}
468	return true;
469	}
470
471	// /// Map of declaration uniqueIds (intended to be the assertions in an AssertionSet) to their parents and the number of times they've been included
472	//typedef std::unordered_map< UniqueId, std::unordered_map< UniqueId, unsigned > > AssertionParentSet;
473
474	static const int recursionLimit = /10/ 4; ///< Limit to depth of recursion satisfaction
475	//static const unsigned recursionParentLimit = 1; ///< Limit to the number of times an assertion can recursively use itself
476
477	void addToIndexer( AssertionSet &assertSet, SymTab::Indexer &indexer ) {
478	for ( AssertionSet::iterator i = assertSet.begin(); i != assertSet.end(); ++i ) {
479	if ( i->second == true ) {
480	i->first->accept( indexer );
481	}
482	}
483	}
484
485	template< typename ForwardIterator, typename OutputIterator >
486	void inferRecursive( ForwardIterator begin, ForwardIterator end, const Alternative &newAlt, OpenVarSet &openVars, const SymTab::Indexer &decls, const AssertionSet &newNeed, /const AssertionParentSet &needParents,/
487	int level, const SymTab::Indexer &indexer, OutputIterator out ) {
488	if ( begin == end ) {
489	if ( newNeed.empty() ) {
490	*out++ = newAlt;
491	return;
492	} else if ( level >= recursionLimit ) {
493	throw SemanticError( "Too many recursive assertions" );
494	} else {
495	AssertionSet newerNeed;
496	PRINT(
497	std::cerr << "recursing with new set:" << std::endl;
498	printAssertionSet( newNeed, std::cerr, 8 );
499	)
500	inferRecursive( newNeed.begin(), newNeed.end(), newAlt, openVars, decls, newerNeed, /needParents,/ level+1, indexer, out );
501	return;
502	}
503	}
504
505	ForwardIterator cur = begin++;
506	if ( ! cur->second ) {
507	inferRecursive( begin, end, newAlt, openVars, decls, newNeed, /needParents,/ level, indexer, out );
508	}
509	DeclarationWithType *curDecl = cur->first;
510	PRINT(
511	std::cerr << "inferRecursive: assertion is ";
512	curDecl->print( std::cerr );
513	std::cerr << std::endl;
514	)
515	std::list< DeclarationWithType* > candidates;
516	decls.lookupId( curDecl->get_name(), candidates );
517	/// if ( candidates.empty() ) { std::cerr << "no candidates!" << std::endl; }
518	for ( std::list< DeclarationWithType* >::const_iterator candidate = candidates.begin(); candidate != candidates.end(); ++candidate ) {
519	PRINT(
520	std::cerr << "inferRecursive: candidate is ";
521	(*candidate)->print( std::cerr );
522	std::cerr << std::endl;
523	)
524
525	AssertionSet newHave, newerNeed( newNeed );
526	TypeEnvironment newEnv( newAlt.env );
527	OpenVarSet newOpenVars( openVars );
528	Type adjType = (candidate)->get_type()->clone();
529	adjustExprType( adjType, newEnv, indexer );
530	adjType->accept( global_renamer );
531	PRINT(
532	std::cerr << "unifying ";
533	curDecl->get_type()->print( std::cerr );
534	std::cerr << " with ";
535	adjType->print( std::cerr );
536	std::cerr << std::endl;
537	)
538	if ( unify( curDecl->get_type(), adjType, newEnv, newerNeed, newHave, newOpenVars, indexer ) ) {
539	PRINT(
540	std::cerr << "success!" << std::endl;
541	)
542	SymTab::Indexer newDecls( decls );
543	addToIndexer( newHave, newDecls );
544	Alternative newerAlt( newAlt );
545	newerAlt.env = newEnv;
546	assert( (*candidate)->get_uniqueId() );
547	DeclarationWithType candDecl = static_cast< DeclarationWithType >( Declaration::declFromId( (*candidate)->get_uniqueId() ) );
548	//AssertionParentSet newNeedParents( needParents );
549	// skip repeatingly-self-recursive assertion satisfaction
550	// DOESN'T WORK: grandchild nodes conflict with their cousins
551	//if ( newNeedParents[ curDecl->get_uniqueId() ][ candDecl->get_uniqueId() ]++ > recursionParentLimit ) continue;
552	Expression *varExpr = new VariableExpr( candDecl );
553	delete varExpr->get_result();
554	varExpr->set_result( adjType->clone() );
555	PRINT(
556	std::cerr << "satisfying assertion " << curDecl->get_uniqueId() << " ";
557	curDecl->print( std::cerr );
558	std::cerr << " with declaration " << (*candidate)->get_uniqueId() << " ";
559	(*candidate)->print( std::cerr );
560	std::cerr << std::endl;
561	)
562	ApplicationExpr appExpr = static_cast< ApplicationExpr >( newerAlt.expr );
563	// XXX: this is a memory leak, but adjType can't be deleted because it might contain assertions
564	appExpr->get_inferParams()[ curDecl->get_uniqueId() ] = ParamEntry( (*candidate)->get_uniqueId(), adjType->clone(), curDecl->get_type()->clone(), varExpr );
565	inferRecursive( begin, end, newerAlt, newOpenVars, newDecls, newerNeed, /newNeedParents,/ level, indexer, out );
566	} else {
567	delete adjType;
568	}
569	}
570	}
571
572	template< typename OutputIterator >
573	void AlternativeFinder::inferParameters( const AssertionSet &need, AssertionSet &have, const Alternative &newAlt, OpenVarSet &openVars, OutputIterator out ) {
574	// PRINT(
575	// std::cerr << "inferParameters: assertions needed are" << std::endl;
576	// printAll( need, std::cerr, 8 );
577	// )
578	SymTab::Indexer decls( indexer );
579	PRINT(
580	std::cerr << "============= original indexer" << std::endl;
581	indexer.print( std::cerr );
582	std::cerr << "============= new indexer" << std::endl;
583	decls.print( std::cerr );
584	)
585	addToIndexer( have, decls );
586	AssertionSet newNeed;
587	//AssertionParentSet needParents;
588	inferRecursive( need.begin(), need.end(), newAlt, openVars, decls, newNeed, /needParents,/ 0, indexer, out );
589	// PRINT(
590	// std::cerr << "declaration 14 is ";
591	// Declaration::declFromId
592	// *out++ = newAlt;
593	// )
594	}
595
596	template< typename OutputIterator >
597	void AlternativeFinder::makeFunctionAlternatives( const Alternative &func, FunctionType *funcType, const AltList &actualAlt, OutputIterator out ) {
598	OpenVarSet openVars;
599	AssertionSet resultNeed, resultHave;
600	TypeEnvironment resultEnv;
601	makeUnifiableVars( funcType, openVars, resultNeed );
602	AltList instantiatedActuals; // filled by instantiate function
603	if ( instantiateFunction( funcType->get_parameters(), actualAlt, funcType->get_isVarArgs(), openVars, resultEnv, resultNeed, resultHave, instantiatedActuals ) ) {
604	ApplicationExpr *appExpr = new ApplicationExpr( func.expr->clone() );
605	Alternative newAlt( appExpr, resultEnv, sumCost( instantiatedActuals ) );
606	makeExprList( instantiatedActuals, appExpr->get_args() );
607	PRINT(
608	std::cerr << "need assertions:" << std::endl;
609	printAssertionSet( resultNeed, std::cerr, 8 );
610	)
611	inferParameters( resultNeed, resultHave, newAlt, openVars, out );
612	}
613	}
614
615	void AlternativeFinder::visit( UntypedExpr *untypedExpr ) {
616	bool doneInit = false;
617	AlternativeFinder funcOpFinder( indexer, env );
618
619	AlternativeFinder funcFinder( indexer, env );
620
621	{
622	std::string fname = InitTweak::getFunctionName( untypedExpr );
623	if ( fname == "&&" ) {
624	VoidType v = Type::Qualifiers(); // resolve to type void *
625	PointerType pt( Type::Qualifiers(), v.clone() );
626	UntypedExpr *vexpr = untypedExpr->clone();
627	vexpr->set_result( pt.clone() );
628	alternatives.push_back( Alternative( vexpr, env, Cost()) );
629	return;
630	}
631	}
632
633	funcFinder.findWithAdjustment( untypedExpr->get_function() );
634	std::list< AlternativeFinder > argAlternatives;
635	findSubExprs( untypedExpr->begin_args(), untypedExpr->end_args(), back_inserter( argAlternatives ) );
636
637	std::list< AltList > possibilities;
638	combos( argAlternatives.begin(), argAlternatives.end(), back_inserter( possibilities ) );
639
640	// take care of possible tuple assignments
641	// if not tuple assignment, assignment is taken care of as a normal function call
642	Tuples::handleTupleAssignment( *this, untypedExpr, possibilities );
643
644	AltList candidates;
645	SemanticError errors;
646
647	for ( AltList::const_iterator func = funcFinder.alternatives.begin(); func != funcFinder.alternatives.end(); ++func ) {
648	try {
649	PRINT(
650	std::cerr << "working on alternative: " << std::endl;
651	func->print( std::cerr, 8 );
652	)
653	// check if the type is pointer to function
654	PointerType *pointer;
655	if ( ( pointer = dynamic_cast< PointerType* >( func->expr->get_result() ) ) ) {
656	if ( FunctionType function = dynamic_cast< FunctionType >( pointer->get_base() ) ) {
657	for ( std::list< AltList >::iterator actualAlt = possibilities.begin(); actualAlt != possibilities.end(); ++actualAlt ) {
658	// XXX
659	//Designators::check_alternative( function, *actualAlt );
660	makeFunctionAlternatives( func, function, actualAlt, std::back_inserter( candidates ) );
661	}
662	} else if ( TypeInstType typeInst = dynamic_cast< TypeInstType >( pointer->get_base() ) ) {
663	EqvClass eqvClass;
664	if ( func->env.lookup( typeInst->get_name(), eqvClass ) && eqvClass.type ) {
665	if ( FunctionType function = dynamic_cast< FunctionType >( eqvClass.type ) ) {
666	for ( std::list< AltList >::iterator actualAlt = possibilities.begin(); actualAlt != possibilities.end(); ++actualAlt ) {
667	makeFunctionAlternatives( func, function, actualAlt, std::back_inserter( candidates ) );
668	} // for
669	} // if
670	} // if
671	} // if
672	} else {
673	// seek a function operator that's compatible
674	if ( ! doneInit ) {
675	doneInit = true;
676	NameExpr *opExpr = new NameExpr( "?()" );
677	try {
678	funcOpFinder.findWithAdjustment( opExpr );
679	} catch( SemanticError &e ) {
680	// it's ok if there aren't any defined function ops
681	}
682	PRINT(
683	std::cerr << "known function ops:" << std::endl;
684	printAlts( funcOpFinder.alternatives, std::cerr, 8 );
685	)
686	}
687
688	for ( AltList::const_iterator funcOp = funcOpFinder.alternatives.begin(); funcOp != funcOpFinder.alternatives.end(); ++funcOp ) {
689	// check if the type is pointer to function
690	PointerType *pointer;
691	if ( ( pointer = dynamic_cast< PointerType* >( funcOp->expr->get_result() ) ) ) {
692	if ( FunctionType function = dynamic_cast< FunctionType >( pointer->get_base() ) ) {
693	for ( std::list< AltList >::iterator actualAlt = possibilities.begin(); actualAlt != possibilities.end(); ++actualAlt ) {
694	AltList currentAlt;
695	currentAlt.push_back( *func );
696	currentAlt.insert( currentAlt.end(), actualAlt->begin(), actualAlt->end() );
697	makeFunctionAlternatives( *funcOp, function, currentAlt, std::back_inserter( candidates ) );
698	} // for
699	} // if
700	} // if
701	} // for
702	} // if
703	} catch ( SemanticError &e ) {
704	errors.append( e );
705	}
706	} // for
707
708	// Implement SFINAE; resolution errors are only errors if there aren't any non-erroneous resolutions
709	if ( candidates.empty() && ! errors.isEmpty() ) { throw errors; }
710
711	for ( AltList::iterator withFunc = candidates.begin(); withFunc != candidates.end(); ++withFunc ) {
712	Cost cvtCost = computeConversionCost( *withFunc, indexer );
713
714	PRINT(
715	ApplicationExpr appExpr = safe_dynamic_cast< ApplicationExpr >( withFunc->expr );
716	PointerType pointer = safe_dynamic_cast< PointerType >( appExpr->get_function()->get_result() );
717	FunctionType function = safe_dynamic_cast< FunctionType >( pointer->get_base() );
718	std::cerr << "Case +++++++++++++" << std::endl;
719	std::cerr << "formals are:" << std::endl;
720	printAll( function->get_parameters(), std::cerr, 8 );
721	std::cerr << "actuals are:" << std::endl;
722	printAll( appExpr->get_args(), std::cerr, 8 );
723	std::cerr << "bindings are:" << std::endl;
724	withFunc->env.print( std::cerr, 8 );
725	std::cerr << "cost of conversion is:" << cvtCost << std::endl;
726	)
727	if ( cvtCost != Cost::infinity ) {
728	withFunc->cvtCost = cvtCost;
729	alternatives.push_back( *withFunc );
730	} // if
731	} // for
732	candidates.clear();
733	candidates.splice( candidates.end(), alternatives );
734
735	findMinCost( candidates.begin(), candidates.end(), std::back_inserter( alternatives ) );
736	}
737
738	bool isLvalue( Expression *expr ) {
739	// xxx - recurse into tuples?
740	return expr->has_result() && expr->get_result()->get_isLvalue();
741	}
742
743	void AlternativeFinder::visit( AddressExpr *addressExpr ) {
744	AlternativeFinder finder( indexer, env );
745	finder.find( addressExpr->get_arg() );
746	for ( std::list< Alternative >::iterator i = finder.alternatives.begin(); i != finder.alternatives.end(); ++i ) {
747	if ( isLvalue( i->expr ) ) {
748	alternatives.push_back( Alternative( new AddressExpr( i->expr->clone() ), i->env, i->cost ) );
749	} // if
750	} // for
751	}
752
753	void AlternativeFinder::visit( CastExpr *castExpr ) {
754	Type *& toType = castExpr->get_result();
755	toType = resolveTypeof( toType, indexer );
756	SymTab::validateType( toType, &indexer );
757	adjustExprType( toType, env, indexer );
758
759	AlternativeFinder finder( indexer, env );
760	finder.findWithAdjustment( castExpr->get_arg() );
761
762	AltList candidates;
763	for ( std::list< Alternative >::iterator i = finder.alternatives.begin(); i != finder.alternatives.end(); ++i ) {
764	AssertionSet needAssertions, haveAssertions;
765	OpenVarSet openVars;
766
767	// It's possible that a cast can throw away some values in a multiply-valued expression. (An example is a
768	// cast-to-void, which casts from one value to zero.) Figure out the prefix of the subexpression results
769	// that are cast directly. The candidate is invalid if it has fewer results than there are types to cast
770	// to.
771	int discardedValues = (*i).expr->get_result()->size() - castExpr->get_result()->size();
772	if ( discardedValues < 0 ) continue;
773	// xxx - may need to go into tuple types and extract relavent types and use unifyList
774	// unification run for side-effects
775	unify( castExpr->get_result(), (*i).expr->get_result(), i->env, needAssertions, haveAssertions, openVars, indexer );
776	Cost thisCost = castCost( (*i).expr->get_result(), castExpr->get_result(), indexer, i->env );
777	if ( thisCost != Cost::infinity ) {
778	// count one safe conversion for each value that is thrown away
779	thisCost += Cost( 0, 0, discardedValues );
780	CastExpr *newExpr = castExpr->clone();
781	newExpr->set_arg( i->expr->clone() );
782	candidates.push_back( Alternative( newExpr, i->env, i->cost, thisCost ) );
783	} // if
784	} // for
785
786	// findMinCost selects the alternatives with the lowest "cost" members, but has the side effect of copying the
787	// cvtCost member to the cost member (since the old cost is now irrelevant). Thus, calling findMinCost twice
788	// selects first based on argument cost, then on conversion cost.
789	AltList minArgCost;
790	findMinCost( candidates.begin(), candidates.end(), std::back_inserter( minArgCost ) );
791	findMinCost( minArgCost.begin(), minArgCost.end(), std::back_inserter( alternatives ) );
792	}
793
794	void AlternativeFinder::visit( UntypedMemberExpr *memberExpr ) {
795	AlternativeFinder funcFinder( indexer, env );
796	funcFinder.findWithAdjustment( memberExpr->get_aggregate() );
797
798	for ( AltList::const_iterator agg = funcFinder.alternatives.begin(); agg != funcFinder.alternatives.end(); ++agg ) {
799	if ( StructInstType structInst = dynamic_cast< StructInstType >( agg->expr->get_result() ) ) {
800	addAggMembers( structInst, agg->expr, agg->cost, agg->env, memberExpr->get_member() );
801	} else if ( UnionInstType unionInst = dynamic_cast< UnionInstType >( agg->expr->get_result() ) ) {
802	addAggMembers( unionInst, agg->expr, agg->cost, agg->env, memberExpr->get_member() );
803	} else if ( TupleType * tupleType = dynamic_cast< TupleType * >( agg->expr->get_result() ) ) {
804	addTupleMembers( tupleType, agg->expr, agg->cost, agg->env, memberExpr->get_member() );
805	} // if
806	} // for
807	}
808
809	void AlternativeFinder::visit( MemberExpr *memberExpr ) {
810	alternatives.push_back( Alternative( memberExpr->clone(), env, Cost::zero ) );
811	}
812
813	void AlternativeFinder::visit( NameExpr *nameExpr ) {
814	std::list< DeclarationWithType* > declList;
815	indexer.lookupId( nameExpr->get_name(), declList );
816	PRINT( std::cerr << "nameExpr is " << nameExpr->get_name() << std::endl; )
817	for ( std::list< DeclarationWithType* >::iterator i = declList.begin(); i != declList.end(); ++i ) {
818	VariableExpr newExpr( *i, nameExpr->get_argName() );
819	alternatives.push_back( Alternative( newExpr.clone(), env, Cost() ) );
820	PRINT(
821	std::cerr << "decl is ";
822	(*i)->print( std::cerr );
823	std::cerr << std::endl;
824	std::cerr << "newExpr is ";
825	newExpr.print( std::cerr );
826	std::cerr << std::endl;
827	)
828	renameTypes( alternatives.back().expr );
829	if ( StructInstType structInst = dynamic_cast< StructInstType >( (*i)->get_type() ) ) {
830	NameExpr nameExpr( "" );
831	addAggMembers( structInst, &newExpr, Cost( 0, 0, 1 ), env, &nameExpr );
832	} else if ( UnionInstType unionInst = dynamic_cast< UnionInstType >( (*i)->get_type() ) ) {
833	NameExpr nameExpr( "" );
834	addAggMembers( unionInst, &newExpr, Cost( 0, 0, 1 ), env, &nameExpr );
835	} // if
836	} // for
837	}
838
839	void AlternativeFinder::visit( VariableExpr *variableExpr ) {
840	// not sufficient to clone here, because variable's type may have changed
841	// since the VariableExpr was originally created.
842	alternatives.push_back( Alternative( new VariableExpr( variableExpr->get_var() ), env, Cost::zero ) );
843	}
844
845	void AlternativeFinder::visit( ConstantExpr *constantExpr ) {
846	alternatives.push_back( Alternative( constantExpr->clone(), env, Cost::zero ) );
847	}
848
849	void AlternativeFinder::visit( SizeofExpr *sizeofExpr ) {
850	if ( sizeofExpr->get_isType() ) {
851	// xxx - resolveTypeof?
852	alternatives.push_back( Alternative( sizeofExpr->clone(), env, Cost::zero ) );
853	} else {
854	// find all alternatives for the argument to sizeof
855	AlternativeFinder finder( indexer, env );
856	finder.find( sizeofExpr->get_expr() );
857	// find the lowest cost alternative among the alternatives, otherwise ambiguous
858	AltList winners;
859	findMinCost( finder.alternatives.begin(), finder.alternatives.end(), back_inserter( winners ) );
860	if ( winners.size() != 1 ) {
861	throw SemanticError( "Ambiguous expression in sizeof operand: ", sizeofExpr->get_expr() );
862	} // if
863	// return the lowest cost alternative for the argument
864	Alternative &choice = winners.front();
865	alternatives.push_back( Alternative( new SizeofExpr( choice.expr->clone() ), choice.env, Cost::zero ) );
866	} // if
867	}
868
869	void AlternativeFinder::visit( AlignofExpr *alignofExpr ) {
870	if ( alignofExpr->get_isType() ) {
871	// xxx - resolveTypeof?
872	alternatives.push_back( Alternative( alignofExpr->clone(), env, Cost::zero ) );
873	} else {
874	// find all alternatives for the argument to sizeof
875	AlternativeFinder finder( indexer, env );
876	finder.find( alignofExpr->get_expr() );
877	// find the lowest cost alternative among the alternatives, otherwise ambiguous
878	AltList winners;
879	findMinCost( finder.alternatives.begin(), finder.alternatives.end(), back_inserter( winners ) );
880	if ( winners.size() != 1 ) {
881	throw SemanticError( "Ambiguous expression in alignof operand: ", alignofExpr->get_expr() );
882	} // if
883	// return the lowest cost alternative for the argument
884	Alternative &choice = winners.front();
885	alternatives.push_back( Alternative( new AlignofExpr( choice.expr->clone() ), choice.env, Cost::zero ) );
886	} // if
887	}
888
889	template< typename StructOrUnionType >
890	void AlternativeFinder::addOffsetof( StructOrUnionType *aggInst, const std::string &name ) {
891	std::list< Declaration* > members;
892	aggInst->lookup( name, members );
893	for ( std::list< Declaration* >::const_iterator i = members.begin(); i != members.end(); ++i ) {
894	if ( DeclarationWithType dwt = dynamic_cast< DeclarationWithType >( *i ) ) {
895	alternatives.push_back( Alternative( new OffsetofExpr( aggInst->clone(), dwt ), env, Cost::zero ) );
896	renameTypes( alternatives.back().expr );
897	} else {
898	assert( false );
899	}
900	}
901	}
902
903	void AlternativeFinder::visit( UntypedOffsetofExpr *offsetofExpr ) {
904	AlternativeFinder funcFinder( indexer, env );
905	// xxx - resolveTypeof?
906	if ( StructInstType structInst = dynamic_cast< StructInstType >( offsetofExpr->get_type() ) ) {
907	addOffsetof( structInst, offsetofExpr->get_member() );
908	} else if ( UnionInstType unionInst = dynamic_cast< UnionInstType >( offsetofExpr->get_type() ) ) {
909	addOffsetof( unionInst, offsetofExpr->get_member() );
910	}
911	}
912
913	void AlternativeFinder::visit( OffsetofExpr *offsetofExpr ) {
914	alternatives.push_back( Alternative( offsetofExpr->clone(), env, Cost::zero ) );
915	}
916
917	void AlternativeFinder::visit( OffsetPackExpr *offsetPackExpr ) {
918	alternatives.push_back( Alternative( offsetPackExpr->clone(), env, Cost::zero ) );
919	}
920
921	void AlternativeFinder::resolveAttr( DeclarationWithType funcDecl, FunctionType function, Type *argType, const TypeEnvironment &env ) {
922	// assume no polymorphism
923	// assume no implicit conversions
924	assert( function->get_parameters().size() == 1 );
925	PRINT(
926	std::cerr << "resolvAttr: funcDecl is ";
927	funcDecl->print( std::cerr );
928	std::cerr << " argType is ";
929	argType->print( std::cerr );
930	std::cerr << std::endl;
931	)
932	if ( typesCompatibleIgnoreQualifiers( argType, function->get_parameters().front()->get_type(), indexer, env ) ) {
933	alternatives.push_back( Alternative( new AttrExpr( new VariableExpr( funcDecl ), argType->clone() ), env, Cost::zero ) );
934	for ( std::list< DeclarationWithType* >::iterator i = function->get_returnVals().begin(); i != function->get_returnVals().end(); ++i ) {
935	alternatives.back().expr->set_result( (*i)->get_type()->clone() );
936	} // for
937	} // if
938	}
939
940	void AlternativeFinder::visit( AttrExpr *attrExpr ) {
941	// assume no 'pointer-to-attribute'
942	NameExpr nameExpr = dynamic_cast< NameExpr >( attrExpr->get_attr() );
943	assert( nameExpr );
944	std::list< DeclarationWithType* > attrList;
945	indexer.lookupId( nameExpr->get_name(), attrList );
946	if ( attrExpr->get_isType() \|\| attrExpr->get_expr() ) {
947	for ( std::list< DeclarationWithType* >::iterator i = attrList.begin(); i != attrList.end(); ++i ) {
948	// check if the type is function
949	if ( FunctionType function = dynamic_cast< FunctionType >( (*i)->get_type() ) ) {
950	// assume exactly one parameter
951	if ( function->get_parameters().size() == 1 ) {
952	if ( attrExpr->get_isType() ) {
953	resolveAttr( *i, function, attrExpr->get_type(), env );
954	} else {
955	AlternativeFinder finder( indexer, env );
956	finder.find( attrExpr->get_expr() );
957	for ( AltList::iterator choice = finder.alternatives.begin(); choice != finder.alternatives.end(); ++choice ) {
958	if ( choice->expr->get_result()->size() == 1 ) {
959	resolveAttr(*i, function, choice->expr->get_result(), choice->env );
960	} // fi
961	} // for
962	} // if
963	} // if
964	} // if
965	} // for
966	} else {
967	for ( std::list< DeclarationWithType* >::iterator i = attrList.begin(); i != attrList.end(); ++i ) {
968	VariableExpr newExpr( *i );
969	alternatives.push_back( Alternative( newExpr.clone(), env, Cost() ) );
970	renameTypes( alternatives.back().expr );
971	} // for
972	} // if
973	}
974
975	void AlternativeFinder::visit( LogicalExpr *logicalExpr ) {
976	AlternativeFinder firstFinder( indexer, env );
977	firstFinder.findWithAdjustment( logicalExpr->get_arg1() );
978	for ( AltList::const_iterator first = firstFinder.alternatives.begin(); first != firstFinder.alternatives.end(); ++first ) {
979	AlternativeFinder secondFinder( indexer, first->env );
980	secondFinder.findWithAdjustment( logicalExpr->get_arg2() );
981	for ( AltList::const_iterator second = secondFinder.alternatives.begin(); second != secondFinder.alternatives.end(); ++second ) {
982	LogicalExpr *newExpr = new LogicalExpr( first->expr->clone(), second->expr->clone(), logicalExpr->get_isAnd() );
983	alternatives.push_back( Alternative( newExpr, second->env, first->cost + second->cost ) );
984	}
985	}
986	}
987
988	void AlternativeFinder::visit( ConditionalExpr *conditionalExpr ) {
989	AlternativeFinder firstFinder( indexer, env );
990	firstFinder.findWithAdjustment( conditionalExpr->get_arg1() );
991	for ( AltList::const_iterator first = firstFinder.alternatives.begin(); first != firstFinder.alternatives.end(); ++first ) {
992	AlternativeFinder secondFinder( indexer, first->env );
993	secondFinder.findWithAdjustment( conditionalExpr->get_arg2() );
994	for ( AltList::const_iterator second = secondFinder.alternatives.begin(); second != secondFinder.alternatives.end(); ++second ) {
995	AlternativeFinder thirdFinder( indexer, second->env );
996	thirdFinder.findWithAdjustment( conditionalExpr->get_arg3() );
997	for ( AltList::const_iterator third = thirdFinder.alternatives.begin(); third != thirdFinder.alternatives.end(); ++third ) {
998	OpenVarSet openVars;
999	AssertionSet needAssertions, haveAssertions;
1000	Alternative newAlt( 0, third->env, first->cost + second->cost + third->cost );
1001	Type* commonType;
1002	if ( unify( second->expr->get_result(), third->expr->get_result(), newAlt.env, needAssertions, haveAssertions, openVars, indexer, commonType ) ) {
1003	ConditionalExpr *newExpr = new ConditionalExpr( first->expr->clone(), second->expr->clone(), third->expr->clone() );
1004	newExpr->set_result( commonType ? commonType : second->expr->get_result()->clone() );
1005	newAlt.expr = newExpr;
1006	inferParameters( needAssertions, haveAssertions, newAlt, openVars, back_inserter( alternatives ) );
1007	} // if
1008	} // for
1009	} // for
1010	} // for
1011	}
1012
1013	void AlternativeFinder::visit( CommaExpr *commaExpr ) {
1014	TypeEnvironment newEnv( env );
1015	Expression *newFirstArg = resolveInVoidContext( commaExpr->get_arg1(), indexer, newEnv );
1016	AlternativeFinder secondFinder( indexer, newEnv );
1017	secondFinder.findWithAdjustment( commaExpr->get_arg2() );
1018	for ( AltList::const_iterator alt = secondFinder.alternatives.begin(); alt != secondFinder.alternatives.end(); ++alt ) {
1019	alternatives.push_back( Alternative( new CommaExpr( newFirstArg->clone(), alt->expr->clone() ), alt->env, alt->cost ) );
1020	} // for
1021	delete newFirstArg;
1022	}
1023
1024	void AlternativeFinder::visit( TupleExpr *tupleExpr ) {
1025	std::list< AlternativeFinder > subExprAlternatives;
1026	findSubExprs( tupleExpr->get_exprs().begin(), tupleExpr->get_exprs().end(), back_inserter( subExprAlternatives ) );
1027	std::list< AltList > possibilities;
1028	combos( subExprAlternatives.begin(), subExprAlternatives.end(), back_inserter( possibilities ) );
1029	for ( std::list< AltList >::const_iterator i = possibilities.begin(); i != possibilities.end(); ++i ) {
1030	TupleExpr *newExpr = new TupleExpr;
1031	makeExprList( *i, newExpr->get_exprs() );
1032	newExpr->set_result( Tuples::makeTupleType( newExpr->get_exprs() ) );
1033
1034	TypeEnvironment compositeEnv;
1035	simpleCombineEnvironments( i->begin(), i->end(), compositeEnv );
1036	alternatives.push_back( Alternative( newExpr, compositeEnv, sumCost( *i ) ) );
1037	} // for
1038	}
1039
1040	void AlternativeFinder::visit( ImplicitCopyCtorExpr * impCpCtorExpr ) {
1041	alternatives.push_back( Alternative( impCpCtorExpr->clone(), env, Cost::zero ) );
1042	}
1043
1044	void AlternativeFinder::visit( ConstructorExpr * ctorExpr ) {
1045	AlternativeFinder finder( indexer, env );
1046	// don't prune here, since it's guaranteed all alternatives will have the same type
1047	// (giving the alternatives different types is half of the point of ConstructorExpr nodes)
1048	finder.findWithAdjustment( ctorExpr->get_callExpr(), false );
1049	for ( Alternative & alt : finder.alternatives ) {
1050	alternatives.push_back( Alternative( new ConstructorExpr( alt.expr->clone() ), alt.env, alt.cost ) );
1051	}
1052	}
1053
1054	void AlternativeFinder::visit( TupleIndexExpr *tupleExpr ) {
1055	alternatives.push_back( Alternative( tupleExpr->clone(), env, Cost::zero ) );
1056	}
1057
1058	void AlternativeFinder::visit( TupleAssignExpr *tupleAssignExpr ) {
1059	alternatives.push_back( Alternative( tupleAssignExpr->clone(), env, Cost::zero ) );
1060	}
1061	} // namespace ResolvExpr
1062
1063	// Local Variables: //
1064	// tab-width: 4 //
1065	// mode: c++ //
1066	// compile-command: "make install" //
1067	// End: //

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