Context Navigation

source: src/ResolvExpr/AlternativeFinder.cc @ 2f47ea4

ADTarm-ehast-experimentalenumforall-pointer-decayjacob/cs343-translationnew-ast-unique-exprpthread-emulationqualifiedEnum

Last change on this file since 2f47ea4 was 3233b91, checked in by Thierry Delisle <tdelisle@…>, 3 years ago
Fix left erros in old AST
Property mode set to `100644`
File size: 71.7 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	//
[6ed1d4b]	7	// AlternativeFinder.cc --
[a32b204]	8	//
	9	// Author : Richard C. Bilson
	10	// Created On : Sat May 16 23:52:08 2015
[7d01cf44]	11	// Last Modified By : Andrew Beach
	12	// Last Modified On : Thu Aug 8 16:35:00 2019
	13	// Update Count : 38
[a32b204]	14	//
	15
[ea6332d]	16	#include <algorithm> // for copy
[e3e16bc]	17	#include <cassert> // for strict_dynamic_cast, assert, assertf
[403b388]	18	#include <cstddef> // for size_t
[ea6332d]	19	#include <iostream> // for operator<<, cerr, ostream, endl
	20	#include <iterator> // for back_insert_iterator, back_inserter
	21	#include <list> // for _List_iterator, list, _List_const_...
	22	#include <map> // for _Rb_tree_iterator, map, _Rb_tree_c...
[403b388]	23	#include <memory> // for allocator_traits<>::value_type, unique_ptr
[ea6332d]	24	#include <utility> // for pair
[aeb75b1]	25	#include <vector> // for vector
[51b7345]	26
[3bbd012]	27	#include "CompilationState.h" // for resolvep
[ea6332d]	28	#include "Alternative.h" // for AltList, Alternative
[51b7345]	29	#include "AlternativeFinder.h"
[d76c588]	30	#include "AST/Expr.hpp"
[4b7cce6]	31	#include "AST/SymbolTable.hpp"
[d76c588]	32	#include "AST/Type.hpp"
[ea6332d]	33	#include "Common/SemanticError.h" // for SemanticError
	34	#include "Common/utility.h" // for deleteAll, printAll, CodeLocation
	35	#include "Cost.h" // for Cost, Cost::zero, operator<<, Cost...
[a8b27c6]	36	#include "ExplodedActual.h" // for ExplodedActual
[ea6332d]	37	#include "InitTweak/InitTweak.h" // for getFunctionName
	38	#include "RenameVars.h" // for RenameVars, global_renamer
[6d6e829]	39	#include "ResolveAssertions.h" // for resolveAssertions
[ea6332d]	40	#include "ResolveTypeof.h" // for resolveTypeof
	41	#include "Resolver.h" // for resolveStmtExpr
	42	#include "SymTab/Indexer.h" // for Indexer
	43	#include "SymTab/Mangler.h" // for Mangler
	44	#include "SymTab/Validate.h" // for validateType
	45	#include "SynTree/Constant.h" // for Constant
	46	#include "SynTree/Declaration.h" // for DeclarationWithType, TypeDecl, Dec...
	47	#include "SynTree/Expression.h" // for Expression, CastExpr, NameExpr
	48	#include "SynTree/Initializer.h" // for SingleInit, operator<<, Designation
	49	#include "SynTree/SynTree.h" // for UniqueId
	50	#include "SynTree/Type.h" // for Type, FunctionType, PointerType
	51	#include "Tuples/Explode.h" // for explode
	52	#include "Tuples/Tuples.h" // for isTtype, handleTupleAssignment
	53	#include "Unify.h" // for unify
	54	#include "typeops.h" // for adjustExprType, polyCost, castCost
[51b7345]	55
[6ed1d4b]	56	#define PRINT( text ) if ( resolvep ) { text }
[51b7345]	57	//#define DEBUG_COST
	58
	59	namespace ResolvExpr {
[13deae88]	60	struct AlternativeFinder::Finder : public WithShortCircuiting {
	61	Finder( AlternativeFinder & altFinder ) : altFinder( altFinder ), indexer( altFinder.indexer ), alternatives( altFinder.alternatives ), env( altFinder.env ), targetType( altFinder.targetType ) {}
	62
	63	void previsit( BaseSyntaxNode * ) { visit_children = false; }
	64
	65	void postvisit( ApplicationExpr * applicationExpr );
	66	void postvisit( UntypedExpr * untypedExpr );
	67	void postvisit( AddressExpr * addressExpr );
	68	void postvisit( LabelAddressExpr * labelExpr );
	69	void postvisit( CastExpr * castExpr );
	70	void postvisit( VirtualCastExpr * castExpr );
[3b0c8cb]	71	void postvisit( KeywordCastExpr * castExpr );
[13deae88]	72	void postvisit( UntypedMemberExpr * memberExpr );
	73	void postvisit( MemberExpr * memberExpr );
	74	void postvisit( NameExpr * variableExpr );
	75	void postvisit( VariableExpr * variableExpr );
	76	void postvisit( ConstantExpr * constantExpr );
	77	void postvisit( SizeofExpr * sizeofExpr );
	78	void postvisit( AlignofExpr * alignofExpr );
	79	void postvisit( UntypedOffsetofExpr * offsetofExpr );
	80	void postvisit( OffsetofExpr * offsetofExpr );
	81	void postvisit( OffsetPackExpr * offsetPackExpr );
	82	void postvisit( LogicalExpr * logicalExpr );
	83	void postvisit( ConditionalExpr * conditionalExpr );
	84	void postvisit( CommaExpr * commaExpr );
	85	void postvisit( ImplicitCopyCtorExpr * impCpCtorExpr );
	86	void postvisit( ConstructorExpr * ctorExpr );
	87	void postvisit( RangeExpr * rangeExpr );
	88	void postvisit( UntypedTupleExpr * tupleExpr );
	89	void postvisit( TupleExpr * tupleExpr );
	90	void postvisit( TupleIndexExpr * tupleExpr );
	91	void postvisit( TupleAssignExpr * tupleExpr );
	92	void postvisit( UniqueExpr * unqExpr );
	93	void postvisit( StmtExpr * stmtExpr );
	94	void postvisit( UntypedInitExpr * initExpr );
[c71b256]	95	void postvisit( InitExpr * initExpr );
	96	void postvisit( DeletedExpr * delExpr );
[d807ca28]	97	void postvisit( GenericExpr * genExpr );
[13deae88]	98
	99	/// Adds alternatives for anonymous members
	100	void addAnonConversions( const Alternative & alt );
	101	/// Adds alternatives for member expressions, given the aggregate, conversion cost for that aggregate, and name of the member
[6d6e829]	102	template< typename StructOrUnionType > void addAggMembers( StructOrUnionType aggInst, Expression expr, const Alternative &alt, const Cost &newCost, const std::string & name );
[13deae88]	103	/// Adds alternatives for member expressions where the left side has tuple type
[6d6e829]	104	void addTupleMembers( TupleType tupleType, Expression expr, const Alternative &alt, const Cost &newCost, Expression *member );
[13deae88]	105	/// Adds alternatives for offsetof expressions, given the base type and name of the member
	106	template< typename StructOrUnionType > void addOffsetof( StructOrUnionType *aggInst, const std::string &name );
	107	/// Takes a final result and checks if its assertions can be satisfied
	108	template<typename OutputIterator>
	109	void validateFunctionAlternative( const Alternative &func, ArgPack& result, const std::vector<ArgPack>& results, OutputIterator out );
	110	/// Finds matching alternatives for a function, given a set of arguments
	111	template<typename OutputIterator>
[432ce7a]	112	void makeFunctionAlternatives( const Alternative &func, FunctionType *funcType, const ExplodedArgs_old& args, OutputIterator out );
[0b00df0]	113	/// Sets up parameter inference for an output alternative
[13deae88]	114	template< typename OutputIterator >
[0b00df0]	115	void inferParameters( Alternative &newAlt, OutputIterator out );
[13deae88]	116	private:
	117	AlternativeFinder & altFinder;
	118	const SymTab::Indexer &indexer;
	119	AltList & alternatives;
	120	const TypeEnvironment &env;
	121	Type *& targetType;
	122	};
	123
[908cc83]	124	Cost sumCost( const AltList &in ) {
[89be1c68]	125	Cost total = Cost::zero;
[908cc83]	126	for ( AltList::const_iterator i = in.begin(); i != in.end(); ++i ) {
	127	total += i->cost;
	128	}
	129	return total;
	130	}
	131
[1e8bbac9]	132	void printAlts( const AltList &list, std::ostream &os, unsigned int indentAmt ) {
[2595df1]	133	std::vector<std::string> sorted;
	134	sorted.reserve(list.size());
	135	for(const auto & c : list) {
	136	std::stringstream ss;
[3233b91]	137	c.print( ss, indentAmt );
[2595df1]	138	sorted.push_back(ss.str());
	139	}
[1db306a]	140
[2595df1]	141	std::sort(sorted.begin(), sorted.end());
[1db306a]	142
[2595df1]	143	for ( const auto & s : sorted ) {
	144	os << s << std::endl;
[a32b204]	145	}
[1e8bbac9]	146	}
[d9a0e76]	147
[1e8bbac9]	148	namespace {
[a32b204]	149	void makeExprList( const AltList &in, std::list< Expression* > &out ) {
	150	for ( AltList::const_iterator i = in.begin(); i != in.end(); ++i ) {
	151	out.push_back( i->expr->clone() );
	152	}
	153	}
[d9a0e76]	154
[a32b204]	155	struct PruneStruct {
	156	bool isAmbiguous;
	157	AltList::iterator candidate;
	158	PruneStruct() {}
	159	PruneStruct( AltList::iterator candidate ): isAmbiguous( false ), candidate( candidate ) {}
	160	};
	161
[0f19d763]	162	/// Prunes a list of alternatives down to those that have the minimum conversion cost for a given return type; skips ambiguous interpretations
[a32b204]	163	template< typename InputIterator, typename OutputIterator >
[d7dc824]	164	void pruneAlternatives( InputIterator begin, InputIterator end, OutputIterator out ) {
[a32b204]	165	// select the alternatives that have the minimum conversion cost for a particular set of result types
	166	std::map< std::string, PruneStruct > selected;
	167	for ( AltList::iterator candidate = begin; candidate != end; ++candidate ) {
	168	PruneStruct current( candidate );
	169	std::string mangleName;
[906e24d]	170	{
	171	Type * newType = candidate->expr->get_result()->clone();
[a32b204]	172	candidate->env.apply( newType );
[906e24d]	173	mangleName = SymTab::Mangler::mangle( newType );
[a32b204]	174	delete newType;
	175	}
	176	std::map< std::string, PruneStruct >::iterator mapPlace = selected.find( mangleName );
	177	if ( mapPlace != selected.end() ) {
	178	if ( candidate->cost < mapPlace->second.candidate->cost ) {
	179	PRINT(
[6ed1d4b]	180	std::cerr << "cost " << candidate->cost << " beats " << mapPlace->second.candidate->cost << std::endl;
[7c64920]	181	)
[0f19d763]	182	selected[ mangleName ] = current;
[a32b204]	183	} else if ( candidate->cost == mapPlace->second.candidate->cost ) {
[630bcb5]	184	// if one of the candidates contains a deleted identifier, can pick the other, since
	185	// deleted expressions should not be ambiguous if there is another option that is at least as good
	186	if ( findDeletedExpr( candidate->expr ) ) {
	187	// do nothing
	188	PRINT( std::cerr << "candidate is deleted" << std::endl; )
	189	} else if ( findDeletedExpr( mapPlace->second.candidate->expr ) ) {
	190	PRINT( std::cerr << "current is deleted" << std::endl; )
	191	selected[ mangleName ] = current;
	192	} else {
	193	PRINT(
	194	std::cerr << "marking ambiguous" << std::endl;
	195	)
	196	mapPlace->second.isAmbiguous = true;
	197	}
[b0837e4]	198	} else {
	199	PRINT(
	200	std::cerr << "cost " << candidate->cost << " loses to " << mapPlace->second.candidate->cost << std::endl;
	201	)
[a32b204]	202	}
	203	} else {
	204	selected[ mangleName ] = current;
	205	}
	206	}
[d9a0e76]	207
[0f19d763]	208	// accept the alternatives that were unambiguous
	209	for ( std::map< std::string, PruneStruct >::iterator target = selected.begin(); target != selected.end(); ++target ) {
	210	if ( ! target->second.isAmbiguous ) {
	211	Alternative &alt = *target->second.candidate;
[906e24d]	212	alt.env.applyFree( alt.expr->get_result() );
[0f19d763]	213	*out++ = alt;
[a32b204]	214	}
[0f19d763]	215	}
[d9a0e76]	216	}
[a32b204]	217
	218	void renameTypes( Expression *expr ) {
[ad51cc2]	219	renameTyVars( expr->result );
[e76acbe]	220	}
[1dcd9554]	221	} // namespace
[b1bead1]	222
[a181494]	223	void referenceToRvalueConversion( Expression *& expr, Cost & cost ) {
[1dcd9554]	224	if ( dynamic_cast< ReferenceType * >( expr->get_result() ) ) {
	225	// cast away reference from expr
	226	expr = new CastExpr( expr, expr->get_result()->stripReferences()->clone() );
[a181494]	227	cost.incReference();
[b1bead1]	228	}
[1dcd9554]	229	}
[d9a0e76]	230
[a32b204]	231	template< typename InputIterator, typename OutputIterator >
	232	void AlternativeFinder::findSubExprs( InputIterator begin, InputIterator end, OutputIterator out ) {
	233	while ( begin != end ) {
	234	AlternativeFinder finder( indexer, env );
	235	finder.findWithAdjustment( *begin );
	236	// XXX either this
	237	//Designators::fixDesignations( finder, (*begin++)->get_argName() );
	238	// or XXX this
	239	begin++;
	240	PRINT(
[6ed1d4b]	241	std::cerr << "findSubExprs" << std::endl;
	242	printAlts( finder.alternatives, std::cerr );
[7c64920]	243	)
[0f19d763]	244	*out++ = finder;
[a32b204]	245	}
[d9a0e76]	246	}
	247
[a32b204]	248	AlternativeFinder::AlternativeFinder( const SymTab::Indexer &indexer, const TypeEnvironment &env )
	249	: indexer( indexer ), env( env ) {
[d9a0e76]	250	}
[51b7345]	251
[59cf83b]	252	void AlternativeFinder::find( Expression *expr, ResolvMode mode ) {
[13deae88]	253	PassVisitor<Finder> finder( *this );
	254	expr->accept( finder );
[59cf83b]	255	if ( mode.failFast && alternatives.empty() ) {
[83882e9]	256	PRINT(
	257	std::cerr << "No reasonable alternatives for expression " << expr << std::endl;
	258	)
[a16764a6]	259	SemanticError( expr, "No reasonable alternatives for expression " );
[a32b204]	260	}
[1389810]	261	if ( mode.prune ) {
[6d6e829]	262	// trim candidates just to those where the assertions resolve
[fbecee5]	263	// - necessary pre-requisite to pruning
[6d6e829]	264	AltList candidates;
[4d2d45f9]	265	std::list<std::string> errors;
[6d6e829]	266	for ( unsigned i = 0; i < alternatives.size(); ++i ) {
[4d2d45f9]	267	resolveAssertions( alternatives[i], indexer, candidates, errors );
[6d6e829]	268	}
	269	// fail early if none such
	270	if ( mode.failFast && candidates.empty() ) {
	271	std::ostringstream stream;
[4d2d45f9]	272	stream << "No alternatives with satisfiable assertions for " << expr << "\n";
	273	// << "Alternatives with failing assertions are:\n";
	274	// printAlts( alternatives, stream, 1 );
	275	for ( const auto& err : errors ) {
	276	stream << err;
	277	}
[6d6e829]	278	SemanticError( expr->location, stream.str() );
	279	}
	280	// reset alternatives
	281	alternatives = std::move( candidates );
	282	}
[59cf83b]	283	if ( mode.prune ) {
[b0837e4]	284	auto oldsize = alternatives.size();
[b6fe7e6]	285	PRINT(
	286	std::cerr << "alternatives before prune:" << std::endl;
	287	printAlts( alternatives, std::cerr );
	288	)
[bd4f2e9]	289	AltList pruned;
	290	pruneAlternatives( alternatives.begin(), alternatives.end(), back_inserter( pruned ) );
[59cf83b]	291	if ( mode.failFast && pruned.empty() ) {
[b6fe7e6]	292	std::ostringstream stream;
	293	AltList winners;
	294	findMinCost( alternatives.begin(), alternatives.end(), back_inserter( winners ) );
[50377a4]	295	stream << "Cannot choose between " << winners.size() << " alternatives for expression\n";
[5a824c2]	296	expr->print( stream );
[93401f8]	297	stream << " Alternatives are:\n";
[50377a4]	298	printAlts( winners, stream, 1 );
[a16764a6]	299	SemanticError( expr->location, stream.str() );
[b6fe7e6]	300	}
[bd4f2e9]	301	alternatives = move(pruned);
[b0837e4]	302	PRINT(
	303	std::cerr << "there are " << oldsize << " alternatives before elimination" << std::endl;
	304	)
[b6fe7e6]	305	PRINT(
	306	std::cerr << "there are " << alternatives.size() << " alternatives after elimination" << std::endl;
	307	)
[a32b204]	308	}
[954ef5b]	309	// adjust types after pruning so that types substituted by pruneAlternatives are correctly adjusted
[59cf83b]	310	if ( mode.adjust ) {
	311	for ( Alternative& i : alternatives ) {
	312	adjustExprType( i.expr->get_result(), i.env, indexer );
[954ef5b]	313	}
	314	}
[8e9cbb2]	315
[64ac636]	316	// Central location to handle gcc extension keyword, etc. for all expression types.
[8e9cbb2]	317	for ( Alternative &iter: alternatives ) {
	318	iter.expr->set_extension( expr->get_extension() );
[64ac636]	319	iter.expr->location = expr->location;
[8e9cbb2]	320	} // for
[0f19d763]	321	}
[d9a0e76]	322
[4e66a18]	323	void AlternativeFinder::findWithAdjustment( Expression *expr ) {
[59cf83b]	324	find( expr, ResolvMode::withAdjustment() );
[4e66a18]	325	}
	326
	327	void AlternativeFinder::findWithoutPrune( Expression * expr ) {
[59cf83b]	328	find( expr, ResolvMode::withoutPrune() );
[4e66a18]	329	}
	330
	331	void AlternativeFinder::maybeFind( Expression * expr ) {
[59cf83b]	332	find( expr, ResolvMode::withoutFailFast() );
[d9a0e76]	333	}
[a32b204]	334
[13deae88]	335	void AlternativeFinder::Finder::addAnonConversions( const Alternative & alt ) {
[4b0f997]	336	// adds anonymous member interpretations whenever an aggregate value type is seen.
[d1685588]	337	// it's okay for the aggregate expression to have reference type -- cast it to the base type to treat the aggregate as the referenced value
	338	std::unique_ptr<Expression> aggrExpr( alt.expr->clone() );
[25fcb84]	339	alt.env.apply( aggrExpr->result );
	340	Type * aggrType = aggrExpr->result;
[d1685588]	341	if ( dynamic_cast< ReferenceType * >( aggrType ) ) {
	342	aggrType = aggrType->stripReferences();
	343	aggrExpr.reset( new CastExpr( aggrExpr.release(), aggrType->clone() ) );
	344	}
	345
[6f096d2]	346	if ( StructInstType * structInst = dynamic_cast< StructInstType* >( aggrExpr->result ) ) {
[6d6e829]	347	addAggMembers( structInst, aggrExpr.get(), alt, alt.cost+Cost::safe, "" );
[6f096d2]	348	} else if ( UnionInstType * unionInst = dynamic_cast< UnionInstType* >( aggrExpr->result ) ) {
[6d6e829]	349	addAggMembers( unionInst, aggrExpr.get(), alt, alt.cost+Cost::safe, "" );
[4b0f997]	350	} // if
	351	}
[77971f6]	352
[a32b204]	353	template< typename StructOrUnionType >
[6f096d2]	354	void AlternativeFinder::Finder::addAggMembers( StructOrUnionType * aggInst, Expression * expr, const Alternative& alt, const Cost &newCost, const std::string & name ) {
[bf32bb8]	355	std::list< Declaration* > members;
	356	aggInst->lookup( name, members );
[4b0f997]	357
[5de1e2c]	358	for ( Declaration * decl : members ) {
[6f096d2]	359	if ( DeclarationWithType * dwt = dynamic_cast< DeclarationWithType* >( decl ) ) {
[5de1e2c]	360	// addAnonAlternatives uses vector::push_back, which invalidates references to existing elements, so
	361	// can't construct in place and use vector::back
[6d6e829]	362	Alternative newAlt{ alt, new MemberExpr{ dwt, expr->clone() }, newCost };
[5de1e2c]	363	renameTypes( newAlt.expr );
	364	addAnonConversions( newAlt ); // add anonymous member interpretations whenever an aggregate value type is seen as a member expression.
	365	alternatives.push_back( std::move(newAlt) );
[bf32bb8]	366	} else {
	367	assert( false );
[a32b204]	368	}
	369	}
[d9a0e76]	370	}
[a32b204]	371
[6f096d2]	372	void AlternativeFinder::Finder::addTupleMembers( TupleType * tupleType, Expression * expr, const Alternative &alt, const Cost &newCost, Expression * member ) {
[848ce71]	373	if ( ConstantExpr * constantExpr = dynamic_cast< ConstantExpr * >( member ) ) {
	374	// get the value of the constant expression as an int, must be between 0 and the length of the tuple type to have meaning
[2a6c115]	375	auto val = constantExpr->intValue();
[848ce71]	376	std::string tmp;
[2a6c115]	377	if ( val >= 0 && (unsigned long long)val < tupleType->size() ) {
[6f096d2]	378	alternatives.push_back( Alternative{
[6d6e829]	379	alt, new TupleIndexExpr( expr->clone(), val ), newCost } );
[2a6c115]	380	} // if
[848ce71]	381	} // if
	382	}
	383
[6f096d2]	384	void AlternativeFinder::Finder::postvisit( ApplicationExpr * applicationExpr ) {
[6d6e829]	385	alternatives.push_back( Alternative{ applicationExpr->clone(), env } );
[d9a0e76]	386	}
	387
[7d01cf44]	388	Cost computeConversionCost( Type * actualType, Type * formalType, bool actualIsLvalue,
	389	const SymTab::Indexer &indexer, const TypeEnvironment & env ) {
[ddf8a29]	390	PRINT(
	391	std::cerr << std::endl << "converting ";
	392	actualType->print( std::cerr, 8 );
	393	std::cerr << std::endl << " to ";
	394	formalType->print( std::cerr, 8 );
	395	std::cerr << std::endl << "environment is: ";
	396	env.print( std::cerr, 8 );
	397	std::cerr << std::endl;
	398	)
[7d01cf44]	399	Cost convCost = conversionCost( actualType, formalType, actualIsLvalue, indexer, env );
[ddf8a29]	400	PRINT(
[d06c808]	401	std::cerr << std::endl << "cost is " << convCost << std::endl;
[ddf8a29]	402	)
	403	if ( convCost == Cost::infinity ) {
	404	return convCost;
	405	}
	406	convCost.incPoly( polyCost( formalType, env, indexer ) + polyCost( actualType, env, indexer ) );
[d06c808]	407	PRINT(
	408	std::cerr << "cost with polycost is " << convCost << std::endl;
	409	)
[ddf8a29]	410	return convCost;
	411	}
	412
	413	Cost computeExpressionConversionCost( Expression & actualExpr, Type formalType, const SymTab::Indexer &indexer, const TypeEnvironment & env ) {
[7d01cf44]	414	Cost convCost = computeConversionCost(
	415	actualExpr->result, formalType, actualExpr->get_lvalue(), indexer, env );
[ddf8a29]	416
[bb666f64]	417	// if there is a non-zero conversion cost, ignoring poly cost, then the expression requires conversion.
	418	// ignore poly cost for now, since this requires resolution of the cast to infer parameters and this
	419	// does not currently work for the reason stated below.
[ddf8a29]	420	Cost tmpCost = convCost;
	421	tmpCost.incPoly( -tmpCost.get_polyCost() );
	422	if ( tmpCost != Cost::zero ) {
	423	Type *newType = formalType->clone();
	424	env.apply( newType );
	425	actualExpr = new CastExpr( actualExpr, newType );
	426	// xxx - SHOULD be able to resolve this cast, but at the moment pointers are not castable to zero_t, but are implicitly convertible. This is clearly
	427	// inconsistent, once this is fixed it should be possible to resolve the cast.
	428	// xxx - this isn't working, it appears because type1 (the formal type) is seen as widenable, but it shouldn't be, because this makes the conversion from DT* to DT* since commontype(zero_t, DT) is DT, rather than just nothing.
	429
	430	// AlternativeFinder finder( indexer, env );
	431	// finder.findWithAdjustment( actualExpr );
	432	// assertf( finder.get_alternatives().size() > 0, "Somehow castable expression failed to find alternatives." );
	433	// assertf( finder.get_alternatives().size() == 1, "Somehow got multiple alternatives for known cast expression." );
	434	// Alternative & alt = finder.get_alternatives().front();
	435	// delete actualExpr;
	436	// actualExpr = alt.expr->clone();
	437	}
	438	return convCost;
	439	}
	440
	441	Cost computeApplicationConversionCost( Alternative &alt, const SymTab::Indexer &indexer ) {
[e3e16bc]	442	ApplicationExpr appExpr = strict_dynamic_cast< ApplicationExpr >( alt.expr );
[1dd1bd2]	443	PointerType pointer = strict_dynamic_cast< PointerType >( appExpr->function->result );
	444	FunctionType function = strict_dynamic_cast< FunctionType >( pointer->base );
[a32b204]	445
[89be1c68]	446	Cost convCost = Cost::zero;
[1dd1bd2]	447	std::list< DeclarationWithType* >& formals = function->parameters;
[a32b204]	448	std::list< DeclarationWithType* >::iterator formal = formals.begin();
[1dd1bd2]	449	std::list< Expression* >& actuals = appExpr->args;
[0362d42]	450
[1dd1bd2]	451	for ( Expression*& actualExpr : actuals ) {
	452	Type * actualType = actualExpr->result;
[a32b204]	453	PRINT(
[6ed1d4b]	454	std::cerr << "actual expression:" << std::endl;
[1dd1bd2]	455	actualExpr->print( std::cerr, 8 );
[6ed1d4b]	456	std::cerr << "--- results are" << std::endl;
[53e3b4a]	457	actualType->print( std::cerr, 8 );
[7c64920]	458	)
[53e3b4a]	459	if ( formal == formals.end() ) {
[1dd1bd2]	460	if ( function->isVarArgs ) {
[89be1c68]	461	convCost.incUnsafe();
[d06c808]	462	PRINT( std::cerr << "end of formals with varargs function: inc unsafe: " << convCost << std::endl; ; )
[b1bead1]	463	// convert reference-typed expressions to value-typed expressions
[1dd1bd2]	464	referenceToRvalueConversion( actualExpr, convCost );
[53e3b4a]	465	continue;
	466	} else {
	467	return Cost::infinity;
[7c64920]	468	}
[53e3b4a]	469	}
[1dd1bd2]	470	if ( DefaultArgExpr * def = dynamic_cast< DefaultArgExpr * >( actualExpr ) ) {
[0f79853]	471	// default arguments should be free - don't include conversion cost.
	472	// Unwrap them here because they are not relevant to the rest of the system.
[1dd1bd2]	473	actualExpr = def->expr;
[0f79853]	474	++formal;
	475	continue;
	476	}
[1dd1bd2]	477	// mark conversion cost to formal and also specialization cost of formal type
[53e3b4a]	478	Type * formalType = (*formal)->get_type();
[1dd1bd2]	479	convCost += computeExpressionConversionCost( actualExpr, formalType, indexer, alt.env );
	480	convCost.decSpec( specCost( formalType ) );
[53e3b4a]	481	++formal; // can't be in for-loop update because of the continue
[d9a0e76]	482	}
[a32b204]	483	if ( formal != formals.end() ) {
	484	return Cost::infinity;
[d9a0e76]	485	}
	486
[6f096d2]	487	// specialization cost of return types can't be accounted for directly, it disables
[bd78797]	488	// otherwise-identical calls, like this example based on auto-newline in the I/O lib:
	489	//
	490	// forall(otype OS) {
	491	// void ?\|?(OS&, int); // with newline
	492	// OS& ?\|?(OS&, int); // no newline, always chosen due to more specialization
	493	// }
[1dd1bd2]	494
	495	// mark type variable and specialization cost of forall clause
	496	convCost.incVar( function->forall.size() );
	497	for ( TypeDecl* td : function->forall ) {
	498	convCost.decSpec( td->assertions.size() );
	499	}
	500
[a32b204]	501	return convCost;
	502	}
[d9a0e76]	503
[8c84ebd]	504	/// Adds type variables to the open variable set and marks their assertions
[a32b204]	505	void makeUnifiableVars( Type *type, OpenVarSet &unifiableVars, AssertionSet &needAssertions ) {
[43bd69d]	506	for ( Type::ForallList::const_iterator tyvar = type->forall.begin(); tyvar != type->forall.end(); ++tyvar ) {
[2c57025]	507	unifiableVars[ (tyvar)->get_name() ] = TypeDecl::Data{ tyvar };
[43bd69d]	508	for ( std::list< DeclarationWithType* >::iterator assert = (tyvar)->assertions.begin(); assert != (tyvar)->assertions.end(); ++assert ) {
[6c3a988f]	509	needAssertions[ *assert ].isUsed = true;
[a32b204]	510	}
[d9a0e76]	511	}
	512	}
[a32b204]	513
[9d5089e]	514	/// Unique identifier for matching expression resolutions to their requesting expression (located in CandidateFinder.cpp)
	515	extern UniqueId globalResnSlot;
[0b00df0]	516
[a32b204]	517	template< typename OutputIterator >
[0b00df0]	518	void AlternativeFinder::Finder::inferParameters( Alternative &newAlt, OutputIterator out ) {
	519	// Set need bindings for any unbound assertions
	520	UniqueId crntResnSlot = 0; // matching ID for this expression's assertions
	521	for ( auto& assn : newAlt.need ) {
	522	// skip already-matched assertions
	523	if ( assn.info.resnSlot != 0 ) continue;
	524	// assign slot for expression if needed
	525	if ( crntResnSlot == 0 ) { crntResnSlot = ++globalResnSlot; }
	526	// fix slot to assertion
	527	assn.info.resnSlot = crntResnSlot;
	528	}
	529	// pair slot to expression
	530	if ( crntResnSlot != 0 ) { newAlt.expr->resnSlots.push_back( crntResnSlot ); }
	531
	532	// add to output list, assertion resolution is deferred
[6d6e829]	533	*out++ = newAlt;
[d9a0e76]	534	}
	535
[aeb75b1]	536	/// Gets a default value from an initializer, nullptr if not present
	537	ConstantExpr* getDefaultValue( Initializer* init ) {
	538	if ( SingleInit* si = dynamic_cast<SingleInit*>( init ) ) {
[630bcb5]	539	if ( CastExpr* ce = dynamic_cast<CastExpr*>( si->value ) ) {
	540	return dynamic_cast<ConstantExpr*>( ce->arg );
	541	} else {
	542	return dynamic_cast<ConstantExpr*>( si->value );
[aeb75b1]	543	}
	544	}
	545	return nullptr;
	546	}
	547
	548	/// State to iteratively build a match of parameter expressions to arguments
	549	struct ArgPack {
[452747a]	550	std::size_t parent; ///< Index of parent pack
[403b388]	551	std::unique_ptr<Expression> expr; ///< The argument stored here
	552	Cost cost; ///< The cost of this argument
	553	TypeEnvironment env; ///< Environment for this pack
	554	AssertionSet need; ///< Assertions outstanding for this pack
	555	AssertionSet have; ///< Assertions found for this pack
	556	OpenVarSet openVars; ///< Open variables for this pack
	557	unsigned nextArg; ///< Index of next argument in arguments list
	558	unsigned tupleStart; ///< Number of tuples that start at this index
[a8b27c6]	559	unsigned nextExpl; ///< Index of next exploded element
	560	unsigned explAlt; ///< Index of alternative for nextExpl > 0
[403b388]	561
	562	ArgPack()
[ad51cc2]	563	: parent(0), expr(), cost(Cost::zero), env(), need(), have(), openVars(), nextArg(0),
[a8b27c6]	564	tupleStart(0), nextExpl(0), explAlt(0) {}
[aeb75b1]	565
[11094d9]	566	ArgPack(const TypeEnvironment& env, const AssertionSet& need, const AssertionSet& have,
[aeb75b1]	567	const OpenVarSet& openVars)
[452747a]	568	: parent(0), expr(), cost(Cost::zero), env(env), need(need), have(have),
[a8b27c6]	569	openVars(openVars), nextArg(0), tupleStart(0), nextExpl(0), explAlt(0) {}
[11094d9]	570
[452747a]	571	ArgPack(std::size_t parent, Expression* expr, TypeEnvironment&& env, AssertionSet&& need,
	572	AssertionSet&& have, OpenVarSet&& openVars, unsigned nextArg,
[178e4ec]	573	unsigned tupleStart = 0, Cost cost = Cost::zero, unsigned nextExpl = 0,
[a8b27c6]	574	unsigned explAlt = 0 )
[452747a]	575	: parent(parent), expr(expr->clone()), cost(cost), env(move(env)), need(move(need)),
[403b388]	576	have(move(have)), openVars(move(openVars)), nextArg(nextArg), tupleStart(tupleStart),
[a8b27c6]	577	nextExpl(nextExpl), explAlt(explAlt) {}
[452747a]	578
	579	ArgPack(const ArgPack& o, TypeEnvironment&& env, AssertionSet&& need, AssertionSet&& have,
[73a5cadb]	580	OpenVarSet&& openVars, unsigned nextArg, Cost added )
[452747a]	581	: parent(o.parent), expr(o.expr ? o.expr->clone() : nullptr), cost(o.cost + added),
	582	env(move(env)), need(move(need)), have(move(have)), openVars(move(openVars)),
[a8b27c6]	583	nextArg(nextArg), tupleStart(o.tupleStart), nextExpl(0), explAlt(0) {}
[73a5cadb]	584
[a8b27c6]	585	/// true iff this pack is in the middle of an exploded argument
	586	bool hasExpl() const { return nextExpl > 0; }
[aeb75b1]	587
[a8b27c6]	588	/// Gets the list of exploded alternatives for this pack
[432ce7a]	589	const ExplodedActual& getExpl( const ExplodedArgs_old& args ) const {
[a8b27c6]	590	return args[nextArg-1][explAlt];
	591	}
[aeb75b1]	592
	593	/// Ends a tuple expression, consolidating the appropriate actuals
[403b388]	594	void endTuple( const std::vector<ArgPack>& packs ) {
	595	// add all expressions in tuple to list, summing cost
[aeb75b1]	596	std::list<Expression*> exprs;
[403b388]	597	const ArgPack* pack = this;
	598	if ( expr ) { exprs.push_front( expr.release() ); }
	599	while ( pack->tupleStart == 0 ) {
	600	pack = &packs[pack->parent];
	601	exprs.push_front( pack->expr->clone() );
	602	cost += pack->cost;
[aeb75b1]	603	}
[403b388]	604	// reset pack to appropriate tuple
	605	expr.reset( new TupleExpr( exprs ) );
	606	tupleStart = pack->tupleStart - 1;
	607	parent = pack->parent;
[aeb75b1]	608	}
[4b6ef70]	609	};
[aeb75b1]	610
	611	/// Instantiates an argument to match a formal, returns false if no results left
[11094d9]	612	bool instantiateArgument( Type* formalType, Initializer* initializer,
[432ce7a]	613	const ExplodedArgs_old& args, std::vector<ArgPack>& results, std::size_t& genStart,
[a8b27c6]	614	const SymTab::Indexer& indexer, unsigned nTuples = 0 ) {
[3d2ae8d]	615	if ( TupleType * tupleType = dynamic_cast<TupleType*>( formalType ) ) {
[aeb75b1]	616	// formalType is a TupleType - group actuals into a TupleExpr
[403b388]	617	++nTuples;
[aeb75b1]	618	for ( Type* type : *tupleType ) {
	619	// xxx - dropping initializer changes behaviour from previous, but seems correct
[3d2ae8d]	620	// ^^^ need to handle the case where a tuple has a default argument
[452747a]	621	if ( ! instantiateArgument(
	622	type, nullptr, args, results, genStart, indexer, nTuples ) )
[aeb75b1]	623	return false;
[403b388]	624	nTuples = 0;
	625	}
	626	// re-consititute tuples for final generation
	627	for ( auto i = genStart; i < results.size(); ++i ) {
	628	results[i].endTuple( results );
[aeb75b1]	629	}
	630	return true;
[3d2ae8d]	631	} else if ( TypeInstType * ttype = Tuples::isTtype( formalType ) ) {
[aeb75b1]	632	// formalType is a ttype, consumes all remaining arguments
	633	// xxx - mixing default arguments with variadic??
[403b388]	634
	635	// completed tuples; will be spliced to end of results to finish
	636	std::vector<ArgPack> finalResults{};
	637
[aeb75b1]	638	// iterate until all results completed
[403b388]	639	std::size_t genEnd;
	640	++nTuples;
	641	do {
	642	genEnd = results.size();
	643
[aeb75b1]	644	// add another argument to results
[403b388]	645	for ( std::size_t i = genStart; i < genEnd; ++i ) {
[a8b27c6]	646	auto nextArg = results[i].nextArg;
[452747a]	647
[62194cb]	648	// use next element of exploded tuple if present
[a8b27c6]	649	if ( results[i].hasExpl() ) {
	650	const ExplodedActual& expl = results[i].getExpl( args );
[403b388]	651
[a8b27c6]	652	unsigned nextExpl = results[i].nextExpl + 1;
[62194cb]	653	if ( nextExpl == expl.exprs.size() ) {
[a8b27c6]	654	nextExpl = 0;
	655	}
[403b388]	656
	657	results.emplace_back(
[178e4ec]	658	i, expl.exprs[results[i].nextExpl].get(), copy(results[i].env),
	659	copy(results[i].need), copy(results[i].have),
	660	copy(results[i].openVars), nextArg, nTuples, Cost::zero, nextExpl,
[62194cb]	661	results[i].explAlt );
[452747a]	662
[403b388]	663	continue;
	664	}
[452747a]	665
[aeb75b1]	666	// finish result when out of arguments
[a8b27c6]	667	if ( nextArg >= args.size() ) {
[452747a]	668	ArgPack newResult{
	669	results[i].env, results[i].need, results[i].have,
[403b388]	670	results[i].openVars };
[a8b27c6]	671	newResult.nextArg = nextArg;
[403b388]	672	Type* argType;
	673
[7faab5e]	674	if ( nTuples > 0 \|\| ! results[i].expr ) {
[ad51cc2]	675	// first iteration or no expression to clone,
[7faab5e]	676	// push empty tuple expression
[403b388]	677	newResult.parent = i;
	678	std::list<Expression*> emptyList;
	679	newResult.expr.reset( new TupleExpr( emptyList ) );
	680	argType = newResult.expr->get_result();
[aeb75b1]	681	} else {
[403b388]	682	// clone result to collect tuple
	683	newResult.parent = results[i].parent;
	684	newResult.cost = results[i].cost;
	685	newResult.tupleStart = results[i].tupleStart;
	686	newResult.expr.reset( results[i].expr->clone() );
	687	argType = newResult.expr->get_result();
	688
	689	if ( results[i].tupleStart > 0 && Tuples::isTtype( argType ) ) {
[452747a]	690	// the case where a ttype value is passed directly is special,
[403b388]	691	// e.g. for argument forwarding purposes
[452747a]	692	// xxx - what if passing multiple arguments, last of which is
[403b388]	693	// ttype?
[452747a]	694	// xxx - what would happen if unify was changed so that unifying
	695	// tuple
	696	// types flattened both before unifying lists? then pass in
[403b388]	697	// TupleType (ttype) below.
	698	--newResult.tupleStart;
	699	} else {
	700	// collapse leftover arguments into tuple
	701	newResult.endTuple( results );
	702	argType = newResult.expr->get_result();
	703	}
[aeb75b1]	704	}
[403b388]	705
[aeb75b1]	706	// check unification for ttype before adding to final
[452747a]	707	if ( unify( ttype, argType, newResult.env, newResult.need, newResult.have,
[403b388]	708	newResult.openVars, indexer ) ) {
	709	finalResults.push_back( move(newResult) );
[aeb75b1]	710	}
[452747a]	711
[aeb75b1]	712	continue;
	713	}
	714
	715	// add each possible next argument
[a8b27c6]	716	for ( std::size_t j = 0; j < args[nextArg].size(); ++j ) {
	717	const ExplodedActual& expl = args[nextArg][j];
[178e4ec]	718
[403b388]	719	// fresh copies of parent parameters for this iteration
	720	TypeEnvironment env = results[i].env;
	721	OpenVarSet openVars = results[i].openVars;
	722
[a8b27c6]	723	env.addActual( expl.env, openVars );
[11094d9]	724
[a8b27c6]	725	// skip empty tuple arguments by (near-)cloning parent into next gen
[62194cb]	726	if ( expl.exprs.empty() ) {
[73a5cadb]	727	results.emplace_back(
[452747a]	728	results[i], move(env), copy(results[i].need),
[a8b27c6]	729	copy(results[i].have), move(openVars), nextArg + 1, expl.cost );
[452747a]	730
[403b388]	731	continue;
[4b6ef70]	732	}
[11094d9]	733
[403b388]	734	// add new result
	735	results.emplace_back(
[178e4ec]	736	i, expl.exprs.front().get(), move(env), copy(results[i].need),
	737	copy(results[i].have), move(openVars), nextArg + 1,
[62194cb]	738	nTuples, expl.cost, expl.exprs.size() == 1 ? 0 : 1, j );
[aeb75b1]	739	}
	740	}
	741
	742	// reset for next round
[403b388]	743	genStart = genEnd;
	744	nTuples = 0;
	745	} while ( genEnd != results.size() );
	746
	747	// splice final results onto results
	748	for ( std::size_t i = 0; i < finalResults.size(); ++i ) {
	749	results.push_back( move(finalResults[i]) );
[aeb75b1]	750	}
[403b388]	751	return ! finalResults.empty();
[aeb75b1]	752	}
[11094d9]	753
[aeb75b1]	754	// iterate each current subresult
[403b388]	755	std::size_t genEnd = results.size();
	756	for ( std::size_t i = genStart; i < genEnd; ++i ) {
[a8b27c6]	757	auto nextArg = results[i].nextArg;
	758
[403b388]	759	// use remainder of exploded tuple if present
[a8b27c6]	760	if ( results[i].hasExpl() ) {
	761	const ExplodedActual& expl = results[i].getExpl( args );
[62194cb]	762	Expression* expr = expl.exprs[results[i].nextExpl].get();
[452747a]	763
[403b388]	764	TypeEnvironment env = results[i].env;
	765	AssertionSet need = results[i].need, have = results[i].have;
	766	OpenVarSet openVars = results[i].openVars;
[4b6ef70]	767
[62194cb]	768	Type* actualType = expr->get_result();
[4b6ef70]	769
	770	PRINT(
	771	std::cerr << "formal type is ";
	772	formalType->print( std::cerr );
	773	std::cerr << std::endl << "actual type is ";
	774	actualType->print( std::cerr );
	775	std::cerr << std::endl;
	776	)
[11094d9]	777
[403b388]	778	if ( unify( formalType, actualType, env, need, have, openVars, indexer ) ) {
[a8b27c6]	779	unsigned nextExpl = results[i].nextExpl + 1;
[62194cb]	780	if ( nextExpl == expl.exprs.size() ) {
[a8b27c6]	781	nextExpl = 0;
	782	}
[178e4ec]	783
[452747a]	784	results.emplace_back(
[178e4ec]	785	i, expr, move(env), move(need), move(have), move(openVars), nextArg,
[62194cb]	786	nTuples, Cost::zero, nextExpl, results[i].explAlt );
[4b6ef70]	787	}
	788
	789	continue;
[403b388]	790	}
[452747a]	791
[403b388]	792	// use default initializers if out of arguments
[a8b27c6]	793	if ( nextArg >= args.size() ) {
[aeb75b1]	794	if ( ConstantExpr* cnstExpr = getDefaultValue( initializer ) ) {
	795	if ( Constant* cnst = dynamic_cast<Constant*>( cnstExpr->get_constant() ) ) {
[403b388]	796	TypeEnvironment env = results[i].env;
	797	AssertionSet need = results[i].need, have = results[i].have;
	798	OpenVarSet openVars = results[i].openVars;
	799
[452747a]	800	if ( unify( formalType, cnst->get_type(), env, need, have, openVars,
[403b388]	801	indexer ) ) {
	802	results.emplace_back(
[0f79853]	803	i, new DefaultArgExpr( cnstExpr ), move(env), move(need), move(have),
[a8b27c6]	804	move(openVars), nextArg, nTuples );
[aeb75b1]	805	}
	806	}
	807	}
[403b388]	808
[aeb75b1]	809	continue;
	810	}
	811
	812	// Check each possible next argument
[a8b27c6]	813	for ( std::size_t j = 0; j < args[nextArg].size(); ++j ) {
	814	const ExplodedActual& expl = args[nextArg][j];
	815
[403b388]	816	// fresh copies of parent parameters for this iteration
	817	TypeEnvironment env = results[i].env;
	818	AssertionSet need = results[i].need, have = results[i].have;
	819	OpenVarSet openVars = results[i].openVars;
	820
[a8b27c6]	821	env.addActual( expl.env, openVars );
[4b6ef70]	822
[a8b27c6]	823	// skip empty tuple arguments by (near-)cloning parent into next gen
[62194cb]	824	if ( expl.exprs.empty() ) {
[73a5cadb]	825	results.emplace_back(
[178e4ec]	826	results[i], move(env), move(need), move(have), move(openVars),
[a8b27c6]	827	nextArg + 1, expl.cost );
[73a5cadb]	828
[4b6ef70]	829	continue;
	830	}
[aeb75b1]	831
[4b6ef70]	832	// consider only first exploded actual
[62194cb]	833	Expression* expr = expl.exprs.front().get();
[3d2ae8d]	834	Type* actualType = expr->result->clone();
[a585396]	835
[4b6ef70]	836	PRINT(
	837	std::cerr << "formal type is ";
	838	formalType->print( std::cerr );
	839	std::cerr << std::endl << "actual type is ";
	840	actualType->print( std::cerr );
	841	std::cerr << std::endl;
	842	)
[aeb75b1]	843
[4b6ef70]	844	// attempt to unify types
[403b388]	845	if ( unify( formalType, actualType, env, need, have, openVars, indexer ) ) {
	846	// add new result
	847	results.emplace_back(
[178e4ec]	848	i, expr, move(env), move(need), move(have), move(openVars), nextArg + 1,
[62194cb]	849	nTuples, expl.cost, expl.exprs.size() == 1 ? 0 : 1, j );
[4b6ef70]	850	}
[aeb75b1]	851	}
	852	}
	853
	854	// reset for next parameter
[403b388]	855	genStart = genEnd;
[11094d9]	856
[403b388]	857	return genEnd != results.size();
	858	}
	859
	860	template<typename OutputIterator>
[13deae88]	861	void AlternativeFinder::Finder::validateFunctionAlternative( const Alternative &func, ArgPack& result,
[403b388]	862	const std::vector<ArgPack>& results, OutputIterator out ) {
	863	ApplicationExpr *appExpr = new ApplicationExpr( func.expr->clone() );
	864	// sum cost and accumulate actuals
[3d2ae8d]	865	std::list<Expression*>& args = appExpr->args;
[8a62d04]	866	Cost cost = func.cost;
[403b388]	867	const ArgPack* pack = &result;
	868	while ( pack->expr ) {
	869	args.push_front( pack->expr->clone() );
	870	cost += pack->cost;
	871	pack = &results[pack->parent];
	872	}
	873	// build and validate new alternative
[2c187378]	874	Alternative newAlt{ appExpr, result.env, result.openVars, result.need, cost };
[403b388]	875	PRINT(
	876	std::cerr << "instantiate function success: " << appExpr << std::endl;
	877	std::cerr << "need assertions:" << std::endl;
	878	printAssertionSet( result.need, std::cerr, 8 );
	879	)
[0b00df0]	880	inferParameters( newAlt, out );
[11094d9]	881	}
[aeb75b1]	882
	883	template<typename OutputIterator>
[13deae88]	884	void AlternativeFinder::Finder::makeFunctionAlternatives( const Alternative &func,
[432ce7a]	885	FunctionType *funcType, const ExplodedArgs_old &args, OutputIterator out ) {
[aeb75b1]	886	OpenVarSet funcOpenVars;
	887	AssertionSet funcNeed, funcHave;
[3f7e12cb]	888	TypeEnvironment funcEnv( func.env );
[aeb75b1]	889	makeUnifiableVars( funcType, funcOpenVars, funcNeed );
[11094d9]	890	// add all type variables as open variables now so that those not used in the parameter
[aeb75b1]	891	// list are still considered open.
[3d2ae8d]	892	funcEnv.add( funcType->forall );
[11094d9]	893
[3d2ae8d]	894	if ( targetType && ! targetType->isVoid() && ! funcType->returnVals.empty() ) {
[ea83e00a]	895	// attempt to narrow based on expected target type
[3d2ae8d]	896	Type * returnType = funcType->returnVals.front()->get_type();
[11094d9]	897	if ( ! unify( returnType, targetType, funcEnv, funcNeed, funcHave, funcOpenVars,
[aeb75b1]	898	indexer ) ) {
	899	// unification failed, don't pursue this function alternative
[ea83e00a]	900	return;
	901	}
	902	}
	903
[aeb75b1]	904	// iteratively build matches, one parameter at a time
[403b388]	905	std::vector<ArgPack> results;
	906	results.push_back( ArgPack{ funcEnv, funcNeed, funcHave, funcOpenVars } );
	907	std::size_t genStart = 0;
	908
[3d2ae8d]	909	for ( DeclarationWithType* formal : funcType->parameters ) {
[aeb75b1]	910	ObjectDecl* obj = strict_dynamic_cast< ObjectDecl* >( formal );
[11094d9]	911	if ( ! instantiateArgument(
[3d2ae8d]	912	obj->type, obj->init, args, results, genStart, indexer ) )
[aeb75b1]	913	return;
	914	}
	915
	916	if ( funcType->get_isVarArgs() ) {
[403b388]	917	// append any unused arguments to vararg pack
	918	std::size_t genEnd;
	919	do {
	920	genEnd = results.size();
	921
	922	// iterate results
	923	for ( std::size_t i = genStart; i < genEnd; ++i ) {
[a8b27c6]	924	auto nextArg = results[i].nextArg;
[452747a]	925
[403b388]	926	// use remainder of exploded tuple if present
[a8b27c6]	927	if ( results[i].hasExpl() ) {
	928	const ExplodedActual& expl = results[i].getExpl( args );
[403b388]	929
[a8b27c6]	930	unsigned nextExpl = results[i].nextExpl + 1;
[62194cb]	931	if ( nextExpl == expl.exprs.size() ) {
[a8b27c6]	932	nextExpl = 0;
	933	}
[403b388]	934
	935	results.emplace_back(
[178e4ec]	936	i, expl.exprs[results[i].nextExpl].get(), copy(results[i].env),
	937	copy(results[i].need), copy(results[i].have),
	938	copy(results[i].openVars), nextArg, 0, Cost::zero, nextExpl,
[62194cb]	939	results[i].explAlt );
[452747a]	940
[403b388]	941	continue;
	942	}
	943
	944	// finish result when out of arguments
[a8b27c6]	945	if ( nextArg >= args.size() ) {
[403b388]	946	validateFunctionAlternative( func, results[i], results, out );
[fae6f21]	947
[aeb75b1]	948	continue;
	949	}
	950
	951	// add each possible next argument
[a8b27c6]	952	for ( std::size_t j = 0; j < args[nextArg].size(); ++j ) {
	953	const ExplodedActual& expl = args[nextArg][j];
	954
[403b388]	955	// fresh copies of parent parameters for this iteration
	956	TypeEnvironment env = results[i].env;
	957	OpenVarSet openVars = results[i].openVars;
	958
[a8b27c6]	959	env.addActual( expl.env, openVars );
[d551d0a]	960
[a8b27c6]	961	// skip empty tuple arguments by (near-)cloning parent into next gen
[62194cb]	962	if ( expl.exprs.empty() ) {
[452747a]	963	results.emplace_back(
	964	results[i], move(env), copy(results[i].need),
[a8b27c6]	965	copy(results[i].have), move(openVars), nextArg + 1, expl.cost );
[178e4ec]	966
[403b388]	967	continue;
	968	}
[d551d0a]	969
[403b388]	970	// add new result
	971	results.emplace_back(
[178e4ec]	972	i, expl.exprs.front().get(), move(env), copy(results[i].need),
	973	copy(results[i].have), move(openVars), nextArg + 1, 0,
[62194cb]	974	expl.cost, expl.exprs.size() == 1 ? 0 : 1, j );
[aeb75b1]	975	}
	976	}
	977
[403b388]	978	genStart = genEnd;
	979	} while ( genEnd != results.size() );
[aeb75b1]	980	} else {
	981	// filter out results that don't use all the arguments
[403b388]	982	for ( std::size_t i = genStart; i < results.size(); ++i ) {
	983	ArgPack& result = results[i];
[a8b27c6]	984	if ( ! result.hasExpl() && result.nextArg >= args.size() ) {
[403b388]	985	validateFunctionAlternative( func, result, results, out );
[aeb75b1]	986	}
	987	}
	988	}
[d9a0e76]	989	}
	990
[13deae88]	991	void AlternativeFinder::Finder::postvisit( UntypedExpr *untypedExpr ) {
[6ccfb7f]	992	AlternativeFinder funcFinder( indexer, env );
[3d2ae8d]	993	funcFinder.findWithAdjustment( untypedExpr->function );
[6ccfb7f]	994	// if there are no function alternatives, then proceeding is a waste of time.
[630bcb5]	995	// xxx - findWithAdjustment throws, so this check and others like it shouldn't be necessary.
[6ccfb7f]	996	if ( funcFinder.alternatives.empty() ) return;
	997
[aeb75b1]	998	std::vector< AlternativeFinder > argAlternatives;
[13deae88]	999	altFinder.findSubExprs( untypedExpr->begin_args(), untypedExpr->end_args(),
[aeb75b1]	1000	back_inserter( argAlternatives ) );
[d9a0e76]	1001
[5af62f1]	1002	// take care of possible tuple assignments
	1003	// if not tuple assignment, assignment is taken care of as a normal function call
[13deae88]	1004	Tuples::handleTupleAssignment( altFinder, untypedExpr, argAlternatives );
[c43c171]	1005
[6ccfb7f]	1006	// find function operators
[4e66a18]	1007	static NameExpr *opExpr = new NameExpr( "?()" );
[6ccfb7f]	1008	AlternativeFinder funcOpFinder( indexer, env );
[4e66a18]	1009	// it's ok if there aren't any defined function ops
[00ac42e]	1010	funcOpFinder.maybeFind( opExpr );
[6ccfb7f]	1011	PRINT(
	1012	std::cerr << "known function ops:" << std::endl;
[50377a4]	1013	printAlts( funcOpFinder.alternatives, std::cerr, 1 );
[6ccfb7f]	1014	)
	1015
[a8b27c6]	1016	// pre-explode arguments
[432ce7a]	1017	ExplodedArgs_old argExpansions;
[a8b27c6]	1018	argExpansions.reserve( argAlternatives.size() );
	1019
	1020	for ( const AlternativeFinder& arg : argAlternatives ) {
	1021	argExpansions.emplace_back();
	1022	auto& argE = argExpansions.back();
[d286cf68]	1023	// argE.reserve( arg.alternatives.size() );
[178e4ec]	1024
[a8b27c6]	1025	for ( const Alternative& actual : arg ) {
	1026	argE.emplace_back( actual, indexer );
	1027	}
	1028	}
	1029
[a32b204]	1030	AltList candidates;
[a16764a6]	1031	SemanticErrorException errors;
[b1bead1]	1032	for ( AltList::iterator func = funcFinder.alternatives.begin(); func != funcFinder.alternatives.end(); ++func ) {
[91b8a17]	1033	try {
	1034	PRINT(
	1035	std::cerr << "working on alternative: " << std::endl;
	1036	func->print( std::cerr, 8 );
	1037	)
	1038	// check if the type is pointer to function
[3d2ae8d]	1039	if ( PointerType pointer = dynamic_cast< PointerType >( func->expr->result->stripReferences() ) ) {
	1040	if ( FunctionType function = dynamic_cast< FunctionType >( pointer->base ) ) {
[326338ae]	1041	Alternative newFunc( *func );
[a181494]	1042	referenceToRvalueConversion( newFunc.expr, newFunc.cost );
[a8b27c6]	1043	makeFunctionAlternatives( newFunc, function, argExpansions,
[aeb75b1]	1044	std::back_inserter( candidates ) );
[b1bead1]	1045	}
[3d2ae8d]	1046	} else if ( TypeInstType typeInst = dynamic_cast< TypeInstType >( func->expr->result->stripReferences() ) ) { // handle ftype (e.g. *? on function pointer)
[00ac42e]	1047	if ( const EqvClass *eqvClass = func->env.lookup( typeInst->name ) ) {
	1048	if ( FunctionType function = dynamic_cast< FunctionType >( eqvClass->type ) ) {
[326338ae]	1049	Alternative newFunc( *func );
[a181494]	1050	referenceToRvalueConversion( newFunc.expr, newFunc.cost );
[a8b27c6]	1051	makeFunctionAlternatives( newFunc, function, argExpansions,
[aeb75b1]	1052	std::back_inserter( candidates ) );
[a32b204]	1053	} // if
	1054	} // if
[11094d9]	1055	}
[a16764a6]	1056	} catch ( SemanticErrorException &e ) {
[91b8a17]	1057	errors.append( e );
	1058	}
[a32b204]	1059	} // for
	1060
[aeb75b1]	1061	// try each function operator ?() with each function alternative
	1062	if ( ! funcOpFinder.alternatives.empty() ) {
[a8b27c6]	1063	// add exploded function alternatives to front of argument list
	1064	std::vector<ExplodedActual> funcE;
	1065	funcE.reserve( funcFinder.alternatives.size() );
	1066	for ( const Alternative& actual : funcFinder ) {
	1067	funcE.emplace_back( actual, indexer );
	1068	}
	1069	argExpansions.insert( argExpansions.begin(), move(funcE) );
[aeb75b1]	1070
	1071	for ( AltList::iterator funcOp = funcOpFinder.alternatives.begin();
	1072	funcOp != funcOpFinder.alternatives.end(); ++funcOp ) {
	1073	try {
	1074	// check if type is a pointer to function
[11094d9]	1075	if ( PointerType* pointer = dynamic_cast<PointerType*>(
[3d2ae8d]	1076	funcOp->expr->result->stripReferences() ) ) {
[11094d9]	1077	if ( FunctionType* function =
[3d2ae8d]	1078	dynamic_cast<FunctionType*>( pointer->base ) ) {
[aeb75b1]	1079	Alternative newFunc( *funcOp );
[a181494]	1080	referenceToRvalueConversion( newFunc.expr, newFunc.cost );
[a8b27c6]	1081	makeFunctionAlternatives( newFunc, function, argExpansions,
[aeb75b1]	1082	std::back_inserter( candidates ) );
	1083	}
	1084	}
[a16764a6]	1085	} catch ( SemanticErrorException &e ) {
[aeb75b1]	1086	errors.append( e );
	1087	}
	1088	}
	1089	}
	1090
[91b8a17]	1091	// Implement SFINAE; resolution errors are only errors if there aren't any non-erroneous resolutions
	1092	if ( candidates.empty() && ! errors.isEmpty() ) { throw errors; }
	1093
[4b0f997]	1094	// compute conversionsion costs
[bd4f2e9]	1095	for ( Alternative& withFunc : candidates ) {
	1096	Cost cvtCost = computeApplicationConversionCost( withFunc, indexer );
[a32b204]	1097
	1098	PRINT(
[bd4f2e9]	1099	ApplicationExpr appExpr = strict_dynamic_cast< ApplicationExpr >( withFunc.expr );
[3d2ae8d]	1100	PointerType pointer = strict_dynamic_cast< PointerType >( appExpr->function->result );
	1101	FunctionType function = strict_dynamic_cast< FunctionType >( pointer->base );
	1102	std::cerr << "Case +++++++++++++ " << appExpr->function << std::endl;
[6ed1d4b]	1103	std::cerr << "formals are:" << std::endl;
[3d2ae8d]	1104	printAll( function->parameters, std::cerr, 8 );
[6ed1d4b]	1105	std::cerr << "actuals are:" << std::endl;
[3d2ae8d]	1106	printAll( appExpr->args, std::cerr, 8 );
[6ed1d4b]	1107	std::cerr << "bindings are:" << std::endl;
[bd4f2e9]	1108	withFunc.env.print( std::cerr, 8 );
[04cccaf]	1109	std::cerr << "cost is: " << withFunc.cost << std::endl;
[6ed1d4b]	1110	std::cerr << "cost of conversion is:" << cvtCost << std::endl;
[7c64920]	1111	)
	1112	if ( cvtCost != Cost::infinity ) {
[bd4f2e9]	1113	withFunc.cvtCost = cvtCost;
	1114	alternatives.push_back( withFunc );
[7c64920]	1115	} // if
[a32b204]	1116	} // for
[4b0f997]	1117
[bd4f2e9]	1118	candidates = move(alternatives);
[a32b204]	1119
[11094d9]	1120	// use a new list so that alternatives are not examined by addAnonConversions twice.
	1121	AltList winners;
	1122	findMinCost( candidates.begin(), candidates.end(), std::back_inserter( winners ) );
[ea83e00a]	1123
[452747a]	1124	// function may return struct or union value, in which case we need to add alternatives
[73ac10e]	1125	// for implicit conversions to each of the anonymous members, must happen after findMinCost
[bd4f2e9]	1126	// since anon conversions are never the cheapest expression
[11094d9]	1127	for ( const Alternative & alt : winners ) {
[ca946a4]	1128	addAnonConversions( alt );
	1129	}
[bd4f2e9]	1130	spliceBegin( alternatives, winners );
[ca946a4]	1131
[ea83e00a]	1132	if ( alternatives.empty() && targetType && ! targetType->isVoid() ) {
	1133	// xxx - this is a temporary hack. If resolution is unsuccessful with a target type, try again without a
	1134	// target type, since it will sometimes succeed when it wouldn't easily with target type binding. For example,
	1135	// forall( otype T ) lvalue T ?[?]( T *, ptrdiff_t );
	1136	// const char * x = "hello world";
	1137	// unsigned char ch = x[0];
	1138	// Fails with simple return type binding. First, T is bound to unsigned char, then (x: const char *) is unified
	1139	// with unsigned char *, which fails because pointer base types must be unified exactly. The new resolver should
	1140	// fix this issue in a more robust way.
	1141	targetType = nullptr;
[13deae88]	1142	postvisit( untypedExpr );
[ea83e00a]	1143	}
[a32b204]	1144	}
	1145
	1146	bool isLvalue( Expression *expr ) {
[906e24d]	1147	// xxx - recurse into tuples?
[2d80111]	1148	return expr->result && ( expr->get_lvalue() \|\| dynamic_cast< ReferenceType * >( expr->result ) );
[a32b204]	1149	}
	1150
[13deae88]	1151	void AlternativeFinder::Finder::postvisit( AddressExpr *addressExpr ) {
[a32b204]	1152	AlternativeFinder finder( indexer, env );
	1153	finder.find( addressExpr->get_arg() );
[bd4f2e9]	1154	for ( Alternative& alt : finder.alternatives ) {
	1155	if ( isLvalue( alt.expr ) ) {
[452747a]	1156	alternatives.push_back(
[6d6e829]	1157	Alternative{ alt, new AddressExpr( alt.expr->clone() ), alt.cost } );
[a32b204]	1158	} // if
	1159	} // for
	1160	}
	1161
[13deae88]	1162	void AlternativeFinder::Finder::postvisit( LabelAddressExpr * expr ) {
[6d6e829]	1163	alternatives.push_back( Alternative{ expr->clone(), env } );
[5809461]	1164	}
	1165
[c0bf94e]	1166	Expression * restructureCast( Expression * argExpr, Type * toType, bool isGenerated ) {
[e6cee92]	1167	if ( argExpr->get_result()->size() > 1 && ! toType->isVoid() && ! dynamic_cast<ReferenceType *>( toType ) ) {
	1168	// Argument expression is a tuple and the target type is not void and not a reference type.
	1169	// Cast each member of the tuple to its corresponding target type, producing the tuple of those
	1170	// cast expressions. If there are more components of the tuple than components in the target type,
	1171	// then excess components do not come out in the result expression (but UniqueExprs ensure that
	1172	// side effects will still be done).
[5ccb10d]	1173	if ( Tuples::maybeImpureIgnoreUnique( argExpr ) ) {
[62423350]	1174	// expressions which may contain side effects require a single unique instance of the expression.
	1175	argExpr = new UniqueExpr( argExpr );
	1176	}
	1177	std::list< Expression * > componentExprs;
	1178	for ( unsigned int i = 0; i < toType->size(); i++ ) {
	1179	// cast each component
	1180	TupleIndexExpr * idx = new TupleIndexExpr( argExpr->clone(), i );
[c0bf94e]	1181	componentExprs.push_back( restructureCast( idx, toType->getComponent( i ), isGenerated ) );
[62423350]	1182	}
	1183	delete argExpr;
	1184	assert( componentExprs.size() > 0 );
	1185	// produce the tuple of casts
	1186	return new TupleExpr( componentExprs );
	1187	} else {
	1188	// handle normally
[c0bf94e]	1189	CastExpr * ret = new CastExpr( argExpr, toType->clone() );
	1190	ret->isGenerated = isGenerated;
	1191	return ret;
[62423350]	1192	}
	1193	}
	1194
[13deae88]	1195	void AlternativeFinder::Finder::postvisit( CastExpr *castExpr ) {
[906e24d]	1196	Type *& toType = castExpr->get_result();
[7933351]	1197	assert( toType );
[906e24d]	1198	toType = resolveTypeof( toType, indexer );
[cc4218f]	1199	assert(!dynamic_cast<TypeofType *>(toType));
[906e24d]	1200	SymTab::validateType( toType, &indexer );
	1201	adjustExprType( toType, env, indexer );
[a32b204]	1202
	1203	AlternativeFinder finder( indexer, env );
[7933351]	1204	finder.targetType = toType;
[95642c9]	1205	finder.findWithAdjustment( castExpr->arg );
[a32b204]	1206
	1207	AltList candidates;
[452747a]	1208	for ( Alternative & alt : finder.alternatives ) {
[6d6e829]	1209	AssertionSet needAssertions( alt.need.begin(), alt.need.end() );
	1210	AssertionSet haveAssertions;
	1211	OpenVarSet openVars{ alt.openVars };
[a32b204]	1212
[a8706fc]	1213	alt.env.extractOpenVars( openVars );
	1214
[a32b204]	1215	// It's possible that a cast can throw away some values in a multiply-valued expression. (An example is a
	1216	// cast-to-void, which casts from one value to zero.) Figure out the prefix of the subexpression results
	1217	// that are cast directly. The candidate is invalid if it has fewer results than there are types to cast
	1218	// to.
[95642c9]	1219	int discardedValues = alt.expr->result->size() - castExpr->result->size();
[a32b204]	1220	if ( discardedValues < 0 ) continue;
[7933351]	1221	// xxx - may need to go into tuple types and extract relevant types and use unifyList. Note that currently, this does not
	1222	// allow casting a tuple to an atomic type (e.g. (int)([1, 2, 3]))
[adcdd2f]	1223	// unification run for side-effects
[95642c9]	1224	unify( castExpr->result, alt.expr->result, alt.env, needAssertions,
[bd4f2e9]	1225	haveAssertions, openVars, indexer );
[b81fd95]	1226	Cost thisCost =
	1227	castExpr->isGenerated
	1228	? conversionCost( alt.expr->result, castExpr->result, alt.expr->get_lvalue(), indexer, alt.env )
	1229	: castCost( alt.expr->result, castExpr->result, alt.expr->get_lvalue(), indexer, alt.env );
[7e4c4f4]	1230	PRINT(
	1231	std::cerr << "working on cast with result: " << castExpr->result << std::endl;
[452747a]	1232	std::cerr << "and expr type: " << alt.expr->result << std::endl;
	1233	std::cerr << "env: " << alt.env << std::endl;
[7e4c4f4]	1234	)
[a32b204]	1235	if ( thisCost != Cost::infinity ) {
[7e4c4f4]	1236	PRINT(
	1237	std::cerr << "has finite cost." << std::endl;
	1238	)
[a32b204]	1239	// count one safe conversion for each value that is thrown away
[89be1c68]	1240	thisCost.incSafe( discardedValues );
[6f096d2]	1241	Alternative newAlt{
	1242	restructureCast( alt.expr->clone(), toType, castExpr->isGenerated ),
[bd78797]	1243	alt.env, openVars, needAssertions, alt.cost, alt.cost + thisCost };
[0b00df0]	1244	inferParameters( newAlt, back_inserter( candidates ) );
[a32b204]	1245	} // if
	1246	} // for
	1247
	1248	// findMinCost selects the alternatives with the lowest "cost" members, but has the side effect of copying the
	1249	// cvtCost member to the cost member (since the old cost is now irrelevant). Thus, calling findMinCost twice
	1250	// selects first based on argument cost, then on conversion cost.
	1251	AltList minArgCost;
	1252	findMinCost( candidates.begin(), candidates.end(), std::back_inserter( minArgCost ) );
	1253	findMinCost( minArgCost.begin(), minArgCost.end(), std::back_inserter( alternatives ) );
	1254	}
	1255
[13deae88]	1256	void AlternativeFinder::Finder::postvisit( VirtualCastExpr * castExpr ) {
[6d6e829]	1257	assertf( castExpr->get_result(), "Implicit virtual cast targets not yet supported." );
[a5f0529]	1258	AlternativeFinder finder( indexer, env );
	1259	// don't prune here, since it's guaranteed all alternatives will have the same type
[4e66a18]	1260	finder.findWithoutPrune( castExpr->get_arg() );
[a5f0529]	1261	for ( Alternative & alt : finder.alternatives ) {
[6d6e829]	1262	alternatives.push_back( Alternative{
	1263	alt, new VirtualCastExpr{ alt.expr->clone(), castExpr->get_result()->clone() },
	1264	alt.cost } );
[a5f0529]	1265	}
	1266	}
	1267
[3b0c8cb]	1268	void AlternativeFinder::Finder::postvisit( KeywordCastExpr * castExpr ) {
	1269	assertf( castExpr->get_result(), "Cast target should have been set in Validate." );
	1270	auto ref = dynamic_cast<ReferenceType*>(castExpr->get_result());
	1271	assert(ref);
	1272	auto inst = dynamic_cast<StructInstType*>(ref->base);
	1273	assert(inst);
	1274	auto target = inst->baseStruct;
	1275
	1276	AlternativeFinder finder( indexer, env );
	1277
	1278	auto pick_alternatives = [target, this](AltList & found, bool expect_ref) {
	1279	for(auto & alt : found) {
	1280	Type * expr = alt.expr->get_result();
	1281	if(expect_ref) {
	1282	auto res = dynamic_cast<ReferenceType*>(expr);
	1283	if(!res) { continue; }
	1284	expr = res->base;
	1285	}
	1286
	1287	if(auto insttype = dynamic_cast<TypeInstType*>(expr)) {
	1288	auto td = alt.env.lookup(insttype->name);
	1289	if(!td) { continue; }
	1290	expr = td->type;
	1291	}
	1292
	1293	if(auto base = dynamic_cast<StructInstType*>(expr)) {
	1294	if(base->baseStruct == target) {
	1295	alternatives.push_back(
	1296	std::move(alt)
	1297	);
	1298	}
	1299	}
	1300	}
	1301	};
	1302
	1303	try {
[ac2b598]	1304	// Attempt 1 : turn (thread&)X into ($thread&)X.__thrd
[3b0c8cb]	1305	// Clone is purely for memory management
	1306	std::unique_ptr<Expression> tech1 { new UntypedMemberExpr(new NameExpr(castExpr->concrete_target.field), castExpr->arg->clone()) };
	1307
	1308	// don't prune here, since it's guaranteed all alternatives will have the same type
	1309	finder.findWithoutPrune( tech1.get() );
	1310	pick_alternatives(finder.alternatives, false);
	1311
	1312	return;
	1313	} catch(SemanticErrorException & ) {}
	1314
[ac2b598]	1315	// Fallback : turn (thread&)X into ($thread&)get_thread(X)
[3b0c8cb]	1316	std::unique_ptr<Expression> fallback { UntypedExpr::createDeref( new UntypedExpr(new NameExpr(castExpr->concrete_target.getter), { castExpr->arg->clone() })) };
	1317	// don't prune here, since it's guaranteed all alternatives will have the same type
	1318	finder.findWithoutPrune( fallback.get() );
	1319
	1320	pick_alternatives(finder.alternatives, true);
	1321
	1322	// Whatever happens here, we have no more fallbacks
	1323	}
	1324
[00ac42e]	1325	namespace {
	1326	/// Gets name from untyped member expression (member must be NameExpr)
	1327	const std::string& get_member_name( UntypedMemberExpr *memberExpr ) {
[30ee9efc]	1328	if ( dynamic_cast< ConstantExpr * >( memberExpr->get_member() ) ) {
	1329	SemanticError( memberExpr, "Indexed access to struct fields unsupported: " );
	1330	} // if
[00ac42e]	1331	NameExpr * nameExpr = dynamic_cast< NameExpr * >( memberExpr->get_member() );
	1332	assert( nameExpr );
	1333	return nameExpr->get_name();
	1334	}
	1335	}
	1336
[13deae88]	1337	void AlternativeFinder::Finder::postvisit( UntypedMemberExpr *memberExpr ) {
[a32b204]	1338	AlternativeFinder funcFinder( indexer, env );
	1339	funcFinder.findWithAdjustment( memberExpr->get_aggregate() );
	1340	for ( AltList::const_iterator agg = funcFinder.alternatives.begin(); agg != funcFinder.alternatives.end(); ++agg ) {
[a61ad31]	1341	// it's okay for the aggregate expression to have reference type -- cast it to the base type to treat the aggregate as the referenced value
[a181494]	1342	Cost cost = agg->cost;
	1343	Expression * aggrExpr = agg->expr->clone();
	1344	referenceToRvalueConversion( aggrExpr, cost );
	1345	std::unique_ptr<Expression> guard( aggrExpr );
	1346
[a61ad31]	1347	// find member of the given type
	1348	if ( StructInstType structInst = dynamic_cast< StructInstType >( aggrExpr->get_result() ) ) {
[6d6e829]	1349	addAggMembers( structInst, aggrExpr, *agg, cost, get_member_name(memberExpr) );
[a61ad31]	1350	} else if ( UnionInstType unionInst = dynamic_cast< UnionInstType >( aggrExpr->get_result() ) ) {
[6d6e829]	1351	addAggMembers( unionInst, aggrExpr, *agg, cost, get_member_name(memberExpr) );
[a61ad31]	1352	} else if ( TupleType * tupleType = dynamic_cast< TupleType * >( aggrExpr->get_result() ) ) {
[6d6e829]	1353	addTupleMembers( tupleType, aggrExpr, *agg, cost, memberExpr->get_member() );
[a32b204]	1354	} // if
	1355	} // for
	1356	}
	1357
[13deae88]	1358	void AlternativeFinder::Finder::postvisit( MemberExpr *memberExpr ) {
[6d6e829]	1359	alternatives.push_back( Alternative{ memberExpr->clone(), env } );
[a32b204]	1360	}
	1361
[13deae88]	1362	void AlternativeFinder::Finder::postvisit( NameExpr *nameExpr ) {
[a40d503]	1363	std::list< SymTab::Indexer::IdData > declList;
[490ff5c3]	1364	indexer.lookupId( nameExpr->name, declList );
	1365	PRINT( std::cerr << "nameExpr is " << nameExpr->name << std::endl; )
[a40d503]	1366	for ( auto & data : declList ) {
[a181494]	1367	Cost cost = Cost::zero;
	1368	Expression * newExpr = data.combine( cost );
[5de1e2c]	1369
	1370	// addAnonAlternatives uses vector::push_back, which invalidates references to existing elements, so
	1371	// can't construct in place and use vector::back
[6d6e829]	1372	Alternative newAlt{ newExpr, env, OpenVarSet{}, AssertionList{}, Cost::zero, cost };
[0f19d763]	1373	PRINT(
	1374	std::cerr << "decl is ";
[a40d503]	1375	data.id->print( std::cerr );
[0f19d763]	1376	std::cerr << std::endl;
	1377	std::cerr << "newExpr is ";
[a40d503]	1378	newExpr->print( std::cerr );
[0f19d763]	1379	std::cerr << std::endl;
[7c64920]	1380	)
[5de1e2c]	1381	renameTypes( newAlt.expr );
	1382	addAnonConversions( newAlt ); // add anonymous member interpretations whenever an aggregate value type is seen as a name expression.
	1383	alternatives.push_back( std::move(newAlt) );
[0f19d763]	1384	} // for
[a32b204]	1385	}
	1386
[13deae88]	1387	void AlternativeFinder::Finder::postvisit( VariableExpr *variableExpr ) {
[85517ddb]	1388	// not sufficient to clone here, because variable's type may have changed
	1389	// since the VariableExpr was originally created.
[6d6e829]	1390	alternatives.push_back( Alternative{ new VariableExpr{ variableExpr->var }, env } );
[a32b204]	1391	}
	1392
[13deae88]	1393	void AlternativeFinder::Finder::postvisit( ConstantExpr *constantExpr ) {
[6d6e829]	1394	alternatives.push_back( Alternative{ constantExpr->clone(), env } );
[a32b204]	1395	}
	1396
[13deae88]	1397	void AlternativeFinder::Finder::postvisit( SizeofExpr *sizeofExpr ) {
[a32b204]	1398	if ( sizeofExpr->get_isType() ) {
[322b97e]	1399	Type * newType = sizeofExpr->get_type()->clone();
[6f096d2]	1400	alternatives.push_back( Alternative{
[6d6e829]	1401	new SizeofExpr{ resolveTypeof( newType, indexer ) }, env } );
[a32b204]	1402	} else {
	1403	// find all alternatives for the argument to sizeof
	1404	AlternativeFinder finder( indexer, env );
	1405	finder.find( sizeofExpr->get_expr() );
	1406	// find the lowest cost alternative among the alternatives, otherwise ambiguous
	1407	AltList winners;
	1408	findMinCost( finder.alternatives.begin(), finder.alternatives.end(), back_inserter( winners ) );
	1409	if ( winners.size() != 1 ) {
[a16764a6]	1410	SemanticError( sizeofExpr->get_expr(), "Ambiguous expression in sizeof operand: " );
[a32b204]	1411	} // if
	1412	// return the lowest cost alternative for the argument
	1413	Alternative &choice = winners.front();
[a181494]	1414	referenceToRvalueConversion( choice.expr, choice.cost );
[6f096d2]	1415	alternatives.push_back( Alternative{
[6d6e829]	1416	choice, new SizeofExpr( choice.expr->clone() ), Cost::zero } );
[47534159]	1417	} // if
	1418	}
	1419
[13deae88]	1420	void AlternativeFinder::Finder::postvisit( AlignofExpr *alignofExpr ) {
[47534159]	1421	if ( alignofExpr->get_isType() ) {
[322b97e]	1422	Type * newType = alignofExpr->get_type()->clone();
[6f096d2]	1423	alternatives.push_back( Alternative{
[6d6e829]	1424	new AlignofExpr{ resolveTypeof( newType, indexer ) }, env } );
[47534159]	1425	} else {
	1426	// find all alternatives for the argument to sizeof
	1427	AlternativeFinder finder( indexer, env );
	1428	finder.find( alignofExpr->get_expr() );
	1429	// find the lowest cost alternative among the alternatives, otherwise ambiguous
	1430	AltList winners;
	1431	findMinCost( finder.alternatives.begin(), finder.alternatives.end(), back_inserter( winners ) );
	1432	if ( winners.size() != 1 ) {
[a16764a6]	1433	SemanticError( alignofExpr->get_expr(), "Ambiguous expression in alignof operand: " );
[47534159]	1434	} // if
	1435	// return the lowest cost alternative for the argument
	1436	Alternative &choice = winners.front();
[a181494]	1437	referenceToRvalueConversion( choice.expr, choice.cost );
[6f096d2]	1438	alternatives.push_back( Alternative{
[6d6e829]	1439	choice, new AlignofExpr{ choice.expr->clone() }, Cost::zero } );
[a32b204]	1440	} // if
	1441	}
	1442
[2a4b088]	1443	template< typename StructOrUnionType >
[13deae88]	1444	void AlternativeFinder::Finder::addOffsetof( StructOrUnionType *aggInst, const std::string &name ) {
[2a4b088]	1445	std::list< Declaration* > members;
	1446	aggInst->lookup( name, members );
	1447	for ( std::list< Declaration* >::const_iterator i = members.begin(); i != members.end(); ++i ) {
	1448	if ( DeclarationWithType dwt = dynamic_cast< DeclarationWithType >( *i ) ) {
[6f096d2]	1449	alternatives.push_back( Alternative{
[6d6e829]	1450	new OffsetofExpr{ aggInst->clone(), dwt }, env } );
[2a4b088]	1451	renameTypes( alternatives.back().expr );
	1452	} else {
	1453	assert( false );
	1454	}
	1455	}
	1456	}
[6ed1d4b]	1457
[13deae88]	1458	void AlternativeFinder::Finder::postvisit( UntypedOffsetofExpr *offsetofExpr ) {
[2a4b088]	1459	AlternativeFinder funcFinder( indexer, env );
[85517ddb]	1460	// xxx - resolveTypeof?
[2a4b088]	1461	if ( StructInstType structInst = dynamic_cast< StructInstType >( offsetofExpr->get_type() ) ) {
[490ff5c3]	1462	addOffsetof( structInst, offsetofExpr->member );
[2a4b088]	1463	} else if ( UnionInstType unionInst = dynamic_cast< UnionInstType >( offsetofExpr->get_type() ) ) {
[490ff5c3]	1464	addOffsetof( unionInst, offsetofExpr->member );
[2a4b088]	1465	}
	1466	}
[6ed1d4b]	1467
[13deae88]	1468	void AlternativeFinder::Finder::postvisit( OffsetofExpr *offsetofExpr ) {
[6d6e829]	1469	alternatives.push_back( Alternative{ offsetofExpr->clone(), env } );
[afc1045]	1470	}
	1471
[13deae88]	1472	void AlternativeFinder::Finder::postvisit( OffsetPackExpr *offsetPackExpr ) {
[6d6e829]	1473	alternatives.push_back( Alternative{ offsetPackExpr->clone(), env } );
[25a054f]	1474	}
	1475
[6f096d2]	1476	void AlternativeFinder::Finder::postvisit( LogicalExpr * logicalExpr ) {
[a32b204]	1477	AlternativeFinder firstFinder( indexer, env );
	1478	firstFinder.findWithAdjustment( logicalExpr->get_arg1() );
[fee651f]	1479	if ( firstFinder.alternatives.empty() ) return;
	1480	AlternativeFinder secondFinder( indexer, env );
	1481	secondFinder.findWithAdjustment( logicalExpr->get_arg2() );
	1482	if ( secondFinder.alternatives.empty() ) return;
[490ff5c3]	1483	for ( const Alternative & first : firstFinder.alternatives ) {
	1484	for ( const Alternative & second : secondFinder.alternatives ) {
[6d6e829]	1485	TypeEnvironment compositeEnv{ first.env };
[490ff5c3]	1486	compositeEnv.simpleCombine( second.env );
[6d6e829]	1487	OpenVarSet openVars{ first.openVars };
	1488	mergeOpenVars( openVars, second.openVars );
[2c187378]	1489	AssertionSet need;
	1490	cloneAll( first.need, need );
	1491	cloneAll( second.need, need );
[6d6e829]	1492
[6f096d2]	1493	LogicalExpr *newExpr = new LogicalExpr{
[6d6e829]	1494	first.expr->clone(), second.expr->clone(), logicalExpr->get_isAnd() };
[6f096d2]	1495	alternatives.push_back( Alternative{
	1496	newExpr, std::move(compositeEnv), std::move(openVars),
[2c187378]	1497	AssertionList( need.begin(), need.end() ), first.cost + second.cost } );
[d9a0e76]	1498	}
	1499	}
	1500	}
[51b7345]	1501
[13deae88]	1502	void AlternativeFinder::Finder::postvisit( ConditionalExpr *conditionalExpr ) {
[32b8144]	1503	// find alternatives for condition
[a32b204]	1504	AlternativeFinder firstFinder( indexer, env );
[624b722d]	1505	firstFinder.findWithAdjustment( conditionalExpr->arg1 );
[ebcb7ba]	1506	if ( firstFinder.alternatives.empty() ) return;
	1507	// find alternatives for true expression
	1508	AlternativeFinder secondFinder( indexer, env );
[624b722d]	1509	secondFinder.findWithAdjustment( conditionalExpr->arg2 );
[ebcb7ba]	1510	if ( secondFinder.alternatives.empty() ) return;
	1511	// find alterantives for false expression
	1512	AlternativeFinder thirdFinder( indexer, env );
[624b722d]	1513	thirdFinder.findWithAdjustment( conditionalExpr->arg3 );
[ebcb7ba]	1514	if ( thirdFinder.alternatives.empty() ) return;
[624b722d]	1515	for ( const Alternative & first : firstFinder.alternatives ) {
	1516	for ( const Alternative & second : secondFinder.alternatives ) {
	1517	for ( const Alternative & third : thirdFinder.alternatives ) {
[6d6e829]	1518	TypeEnvironment compositeEnv{ first.env };
[624b722d]	1519	compositeEnv.simpleCombine( second.env );
	1520	compositeEnv.simpleCombine( third.env );
[6d6e829]	1521	OpenVarSet openVars{ first.openVars };
	1522	mergeOpenVars( openVars, second.openVars );
	1523	mergeOpenVars( openVars, third.openVars );
[2c187378]	1524	AssertionSet need;
	1525	cloneAll( first.need, need );
	1526	cloneAll( second.need, need );
	1527	cloneAll( third.need, need );
	1528	AssertionSet have;
[6f096d2]	1529
[32b8144]	1530	// unify true and false types, then infer parameters to produce new alternatives
[668e971a]	1531	Type* commonType = nullptr;
[6f096d2]	1532	if ( unify( second.expr->result, third.expr->result, compositeEnv,
[2c187378]	1533	need, have, openVars, indexer, commonType ) ) {
[6f096d2]	1534	ConditionalExpr *newExpr = new ConditionalExpr{
[6d6e829]	1535	first.expr->clone(), second.expr->clone(), third.expr->clone() };
[624b722d]	1536	newExpr->result = commonType ? commonType : second.expr->result->clone();
[ddf8a29]	1537	// convert both options to the conditional result type
[6d6e829]	1538	Cost cost = first.cost + second.cost + third.cost;
[6f096d2]	1539	cost += computeExpressionConversionCost(
[6d6e829]	1540	newExpr->arg2, newExpr->result, indexer, compositeEnv );
[6f096d2]	1541	cost += computeExpressionConversionCost(
[6d6e829]	1542	newExpr->arg3, newExpr->result, indexer, compositeEnv );
	1543	// output alternative
[6f096d2]	1544	Alternative newAlt{
	1545	newExpr, std::move(compositeEnv), std::move(openVars),
[2c187378]	1546	AssertionList( need.begin(), need.end() ), cost };
[0b00df0]	1547	inferParameters( newAlt, back_inserter( alternatives ) );
[a32b204]	1548	} // if
	1549	} // for
	1550	} // for
	1551	} // for
	1552	}
	1553
[13deae88]	1554	void AlternativeFinder::Finder::postvisit( CommaExpr *commaExpr ) {
[a32b204]	1555	TypeEnvironment newEnv( env );
	1556	Expression *newFirstArg = resolveInVoidContext( commaExpr->get_arg1(), indexer, newEnv );
	1557	AlternativeFinder secondFinder( indexer, newEnv );
	1558	secondFinder.findWithAdjustment( commaExpr->get_arg2() );
[490ff5c3]	1559	for ( const Alternative & alt : secondFinder.alternatives ) {
[6f096d2]	1560	alternatives.push_back( Alternative{
[6d6e829]	1561	alt, new CommaExpr{ newFirstArg->clone(), alt.expr->clone() }, alt.cost } );
[a32b204]	1562	} // for
	1563	delete newFirstArg;
	1564	}
	1565
[13deae88]	1566	void AlternativeFinder::Finder::postvisit( RangeExpr * rangeExpr ) {
[32b8144]	1567	// resolve low and high, accept alternatives whose low and high types unify
	1568	AlternativeFinder firstFinder( indexer, env );
[490ff5c3]	1569	firstFinder.findWithAdjustment( rangeExpr->low );
[fee651f]	1570	if ( firstFinder.alternatives.empty() ) return;
	1571	AlternativeFinder secondFinder( indexer, env );
[490ff5c3]	1572	secondFinder.findWithAdjustment( rangeExpr->high );
[fee651f]	1573	if ( secondFinder.alternatives.empty() ) return;
[490ff5c3]	1574	for ( const Alternative & first : firstFinder.alternatives ) {
	1575	for ( const Alternative & second : secondFinder.alternatives ) {
[6d6e829]	1576	TypeEnvironment compositeEnv{ first.env };
[490ff5c3]	1577	compositeEnv.simpleCombine( second.env );
[6d6e829]	1578	OpenVarSet openVars{ first.openVars };
	1579	mergeOpenVars( openVars, second.openVars );
[2c187378]	1580	AssertionSet need;
	1581	cloneAll( first.need, need );
	1582	cloneAll( second.need, need );
	1583	AssertionSet have;
[6d6e829]	1584
[32b8144]	1585	Type* commonType = nullptr;
[6f096d2]	1586	if ( unify( first.expr->result, second.expr->result, compositeEnv, need, have,
[2c187378]	1587	openVars, indexer, commonType ) ) {
[6f096d2]	1588	RangeExpr * newExpr =
[6d6e829]	1589	new RangeExpr{ first.expr->clone(), second.expr->clone() };
[490ff5c3]	1590	newExpr->result = commonType ? commonType : first.expr->result->clone();
[6f096d2]	1591	Alternative newAlt{
	1592	newExpr, std::move(compositeEnv), std::move(openVars),
[2c187378]	1593	AssertionList( need.begin(), need.end() ), first.cost + second.cost };
[0b00df0]	1594	inferParameters( newAlt, back_inserter( alternatives ) );
[32b8144]	1595	} // if
	1596	} // for
	1597	} // for
	1598	}
	1599
[13deae88]	1600	void AlternativeFinder::Finder::postvisit( UntypedTupleExpr *tupleExpr ) {
[bd4f2e9]	1601	std::vector< AlternativeFinder > subExprAlternatives;
[13deae88]	1602	altFinder.findSubExprs( tupleExpr->get_exprs().begin(), tupleExpr->get_exprs().end(),
[bd4f2e9]	1603	back_inserter( subExprAlternatives ) );
	1604	std::vector< AltList > possibilities;
[452747a]	1605	combos( subExprAlternatives.begin(), subExprAlternatives.end(),
[bd4f2e9]	1606	back_inserter( possibilities ) );
	1607	for ( const AltList& alts : possibilities ) {
[907eccb]	1608	std::list< Expression * > exprs;
[bd4f2e9]	1609	makeExprList( alts, exprs );
[a32b204]	1610
	1611	TypeEnvironment compositeEnv;
[6d6e829]	1612	OpenVarSet openVars;
	1613	AssertionSet need;
	1614	for ( const Alternative& alt : alts ) {
	1615	compositeEnv.simpleCombine( alt.env );
	1616	mergeOpenVars( openVars, alt.openVars );
[2c187378]	1617	cloneAll( alt.need, need );
[6d6e829]	1618	}
[6f096d2]	1619
	1620	alternatives.push_back( Alternative{
	1621	new TupleExpr{ exprs }, std::move(compositeEnv), std::move(openVars),
[6d6e829]	1622	AssertionList( need.begin(), need.end() ), sumCost( alts ) } );
[a32b204]	1623	} // for
[d9a0e76]	1624	}
[dc2e7e0]	1625
[13deae88]	1626	void AlternativeFinder::Finder::postvisit( TupleExpr *tupleExpr ) {
[6d6e829]	1627	alternatives.push_back( Alternative{ tupleExpr->clone(), env } );
[907eccb]	1628	}
	1629
[13deae88]	1630	void AlternativeFinder::Finder::postvisit( ImplicitCopyCtorExpr * impCpCtorExpr ) {
[6d6e829]	1631	alternatives.push_back( Alternative{ impCpCtorExpr->clone(), env } );
[dc2e7e0]	1632	}
[b6fe7e6]	1633
[13deae88]	1634	void AlternativeFinder::Finder::postvisit( ConstructorExpr * ctorExpr ) {
[b6fe7e6]	1635	AlternativeFinder finder( indexer, env );
	1636	// don't prune here, since it's guaranteed all alternatives will have the same type
	1637	// (giving the alternatives different types is half of the point of ConstructorExpr nodes)
[4e66a18]	1638	finder.findWithoutPrune( ctorExpr->get_callExpr() );
[b6fe7e6]	1639	for ( Alternative & alt : finder.alternatives ) {
[6f096d2]	1640	alternatives.push_back( Alternative{
[6d6e829]	1641	alt, new ConstructorExpr( alt.expr->clone() ), alt.cost } );
[b6fe7e6]	1642	}
	1643	}
[8f7cea1]	1644
[13deae88]	1645	void AlternativeFinder::Finder::postvisit( TupleIndexExpr *tupleExpr ) {
[6d6e829]	1646	alternatives.push_back( Alternative{ tupleExpr->clone(), env } );
[8f7cea1]	1647	}
[aa8f9df]	1648
[13deae88]	1649	void AlternativeFinder::Finder::postvisit( TupleAssignExpr *tupleAssignExpr ) {
[6d6e829]	1650	alternatives.push_back( Alternative{ tupleAssignExpr->clone(), env } );
[aa8f9df]	1651	}
[bf32bb8]	1652
[13deae88]	1653	void AlternativeFinder::Finder::postvisit( UniqueExpr *unqExpr ) {
[bf32bb8]	1654	AlternativeFinder finder( indexer, env );
	1655	finder.findWithAdjustment( unqExpr->get_expr() );
	1656	for ( Alternative & alt : finder.alternatives ) {
[141b786]	1657	// ensure that the id is passed on to the UniqueExpr alternative so that the expressions are "linked"
[77971f6]	1658	UniqueExpr * newUnqExpr = new UniqueExpr( alt.expr->clone(), unqExpr->get_id() );
[6d6e829]	1659	alternatives.push_back( Alternative{ alt, newUnqExpr, alt.cost } );
[bf32bb8]	1660	}
	1661	}
	1662
[13deae88]	1663	void AlternativeFinder::Finder::postvisit( StmtExpr *stmtExpr ) {
[722617d]	1664	StmtExpr * newStmtExpr = stmtExpr->clone();
	1665	ResolvExpr::resolveStmtExpr( newStmtExpr, indexer );
	1666	// xxx - this env is almost certainly wrong, and needs to somehow contain the combined environments from all of the statements in the stmtExpr...
[6d6e829]	1667	alternatives.push_back( Alternative{ newStmtExpr, env } );
[722617d]	1668	}
	1669
[13deae88]	1670	void AlternativeFinder::Finder::postvisit( UntypedInitExpr *initExpr ) {
[62423350]	1671	// handle each option like a cast
[e4d829b]	1672	AltList candidates;
[13deae88]	1673	PRINT(
	1674	std::cerr << "untyped init expr: " << initExpr << std::endl;
	1675	)
[e4d829b]	1676	// O(N^2) checks of d-types with e-types
[62423350]	1677	for ( InitAlternative & initAlt : initExpr->get_initAlts() ) {
[228099e]	1678	Type * toType = resolveTypeof( initAlt.type->clone(), indexer );
[62423350]	1679	SymTab::validateType( toType, &indexer );
	1680	adjustExprType( toType, env, indexer );
	1681	// Ideally the call to findWithAdjustment could be moved out of the loop, but unfortunately it currently has to occur inside or else
	1682	// polymorphic return types are not properly bound to the initialization type, since return type variables are only open for the duration of resolving
	1683	// the UntypedExpr. This is only actually an issue in initialization contexts that allow more than one possible initialization type, but it is still suboptimal.
	1684	AlternativeFinder finder( indexer, env );
	1685	finder.targetType = toType;
[3d2ae8d]	1686	finder.findWithAdjustment( initExpr->expr );
[62423350]	1687	for ( Alternative & alt : finder.get_alternatives() ) {
	1688	TypeEnvironment newEnv( alt.env );
[2c187378]	1689	AssertionSet need;
	1690	cloneAll( alt.need, need );
	1691	AssertionSet have;
[6f096d2]	1692	OpenVarSet openVars( alt.openVars );
	1693	// xxx - find things in env that don't have a "representative type" and claim
[6d6e829]	1694	// those are open vars?
[13deae88]	1695	PRINT(
	1696	std::cerr << " @ " << toType << " " << initAlt.designation << std::endl;
[3d2ae8d]	1697	)
[6f096d2]	1698	// It's possible that a cast can throw away some values in a multiply-valued
	1699	// expression. (An example is a cast-to-void, which casts from one value to
	1700	// zero.) Figure out the prefix of the subexpression results that are cast
	1701	// directly. The candidate is invalid if it has fewer results than there are
[6d6e829]	1702	// types to cast to.
[3d2ae8d]	1703	int discardedValues = alt.expr->result->size() - toType->size();
[e4d829b]	1704	if ( discardedValues < 0 ) continue;
[6f096d2]	1705	// xxx - may need to go into tuple types and extract relevant types and use
	1706	// unifyList. Note that currently, this does not allow casting a tuple to an
[6d6e829]	1707	// atomic type (e.g. (int)([1, 2, 3]))
[6f096d2]	1708
[e4d829b]	1709	// unification run for side-effects
[b81fd95]	1710	bool canUnify = unify( toType, alt.expr->result, newEnv, need, have, openVars, indexer );
	1711	(void) canUnify;
[6d6e829]	1712	// xxx - do some inspecting on this line... why isn't result bound to initAlt.type?
[e4d829b]	1713
[b81fd95]	1714	Cost thisCost = computeConversionCost( alt.expr->result, toType, alt.expr->get_lvalue(),
[7d01cf44]	1715	indexer, newEnv );
[b81fd95]	1716
	1717	PRINT(
	1718	Cost legacyCost = castCost( alt.expr->result, toType, alt.expr->get_lvalue(),
	1719	indexer, newEnv );
	1720	std::cerr << "Considering initialization:";
	1721	std::cerr << std::endl << " FROM: "; alt.expr->result->print(std::cerr);
	1722	std::cerr << std::endl << " TO: "; toType ->print(std::cerr);
	1723	std::cerr << std::endl << " Unification " << (canUnify ? "succeeded" : "failed");
	1724	std::cerr << std::endl << " Legacy cost " << legacyCost;
	1725	std::cerr << std::endl << " New cost " << thisCost;
	1726	std::cerr << std::endl;
	1727	)
[1db306a]	1728
[e4d829b]	1729	if ( thisCost != Cost::infinity ) {
	1730	// count one safe conversion for each value that is thrown away
[89be1c68]	1731	thisCost.incSafe( discardedValues );
[6f096d2]	1732	Alternative newAlt{
	1733	new InitExpr{
	1734	restructureCast( alt.expr->clone(), toType, true ), initAlt.designation->clone() },
	1735	std::move(newEnv), std::move(openVars),
[2c187378]	1736	AssertionList( need.begin(), need.end() ), alt.cost, thisCost };
[0b00df0]	1737	inferParameters( newAlt, back_inserter( candidates ) );
[e4d829b]	1738	}
	1739	}
	1740	}
	1741
	1742	// findMinCost selects the alternatives with the lowest "cost" members, but has the side effect of copying the
	1743	// cvtCost member to the cost member (since the old cost is now irrelevant). Thus, calling findMinCost twice
	1744	// selects first based on argument cost, then on conversion cost.
	1745	AltList minArgCost;
	1746	findMinCost( candidates.begin(), candidates.end(), std::back_inserter( minArgCost ) );
	1747	findMinCost( minArgCost.begin(), minArgCost.end(), std::back_inserter( alternatives ) );
	1748	}
[c71b256]	1749
	1750	void AlternativeFinder::Finder::postvisit( InitExpr * ) {
	1751	assertf( false, "AlternativeFinder should never see a resolved InitExpr." );
	1752	}
	1753
	1754	void AlternativeFinder::Finder::postvisit( DeletedExpr * ) {
	1755	assertf( false, "AlternativeFinder should never see a DeletedExpr." );
	1756	}
[d807ca28]	1757
	1758	void AlternativeFinder::Finder::postvisit( GenericExpr * ) {
	1759	assertf( false, "_Generic is not yet supported." );
	1760	}
[51b7345]	1761	} // namespace ResolvExpr
[a32b204]	1762
	1763	// Local Variables: //
	1764	// tab-width: 4 //
	1765	// mode: c++ //
	1766	// compile-command: "make install" //
	1767	// End: //

Note: See TracBrowser for help on using the repository browser.

Download in other formats: