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source: src/Tuples/TupleAssignment.cc @ 2a3d446

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

Last change on this file since 2a3d446 was 7870799, checked in by Thierry Delisle <tdelisle@…>, 5 years ago
Cast cost and conversion cost now take constant parameters. This required supporting visiting const node. The PassVisitor? can now visit const nodes but not when using the Indexer
Property mode set to `100644`
File size: 27.4 KB

Rev	Line
[51587aa]	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	//
[5af62f1]	7	// TupleAssignment.cc --
[51587aa]	8	//
[843054c2]	9	// Author : Rodolfo G. Esteves
[51587aa]	10	// Created On : Mon May 18 07:44:20 2015
[c0aa336]	11	// Last Modified By : Peter A. Buhr
[615a096]	12	// Last Modified On : Fri Mar 17 09:43:03 2017
	13	// Update Count : 8
[51587aa]	14	//
	15
[03321e4]	16	#include <algorithm> // for transform
	17	#include <cassert> // for assert
	18	#include <iterator> // for back_insert_iterator, back...
	19	#include <list> // for _List_const_iterator, _Lis...
	20	#include <memory> // for unique_ptr, allocator_trai...
	21	#include <string> // for string
[78315272]	22	#include <vector>
[51b7345]	23
[234b1cb]	24	#include "AST/Decl.hpp"
	25	#include "AST/Init.hpp"
	26	#include "AST/Pass.hpp"
	27	#include "AST/Stmt.hpp"
	28	#include "AST/TypeEnvironment.hpp"
[8135d4c]	29	#include "CodeGen/OperatorTable.h"
[2449aef]	30	#include "Common/PassVisitor.h"
[03321e4]	31	#include "Common/UniqueName.h" // for UniqueName
[234b1cb]	32	#include "Common/utility.h" // for splice, zipWith
[03321e4]	33	#include "Explode.h" // for explode
	34	#include "InitTweak/GenInit.h" // for genCtorInit
	35	#include "InitTweak/InitTweak.h" // for getPointerBase, isAssignment
	36	#include "Parser/LinkageSpec.h" // for Cforall
	37	#include "ResolvExpr/Alternative.h" // for AltList, Alternative
	38	#include "ResolvExpr/AlternativeFinder.h" // for AlternativeFinder, simpleC...
	39	#include "ResolvExpr/Cost.h" // for Cost
	40	#include "ResolvExpr/Resolver.h" // for resolveCtorInit
	41	#include "ResolvExpr/TypeEnvironment.h" // for TypeEnvironment
[c43c171]	42	#include "ResolvExpr/typeops.h" // for combos
[03321e4]	43	#include "SynTree/Declaration.h" // for ObjectDecl
	44	#include "SynTree/Expression.h" // for Expression, CastExpr, Name...
	45	#include "SynTree/Initializer.h" // for ConstructorInit, SingleInit
	46	#include "SynTree/Statement.h" // for ExprStmt
	47	#include "SynTree/Type.h" // for Type, Type::Qualifiers
	48	#include "SynTree/TypeSubstitution.h" // for TypeSubstitution
	49	#include "SynTree/Visitor.h" // for Visitor
[51b7345]	50
[4b6ef70]	51	#if 0
	52	#define PRINT(x) x
	53	#else
	54	#define PRINT(x)
	55	#endif
	56
[51b7345]	57	namespace Tuples {
[234b1cb]	58	class TupleAssignSpotter_old {
[5af62f1]	59	public:
	60	// dispatcher for Tuple (multiple and mass) assignment operations
[234b1cb]	61	TupleAssignSpotter_old( ResolvExpr::AlternativeFinder & );
[c43c171]	62	void spot( UntypedExpr * expr, std::vector<ResolvExpr::AlternativeFinder> &args );
[5af62f1]	63
	64	private:
	65	void match();
	66
[6eb8948]	67	struct Matcher {
[5af62f1]	68	public:
[7870799]	69	Matcher( TupleAssignSpotter_old &spotter, const ResolvExpr::AltList& lhs,
[6d6e829]	70	const ResolvExpr::AltList& rhs );
[5af62f1]	71	virtual ~Matcher() {}
[7870799]	72
[5af62f1]	73	virtual void match( std::list< Expression * > &out ) = 0;
[1d2b64f]	74	ObjectDecl * newObject( UniqueName & namer, Expression * expr );
[6d6e829]	75
	76	void combineState( const ResolvExpr::Alternative& alt ) {
	77	compositeEnv.simpleCombine( alt.env );
	78	ResolvExpr::mergeOpenVars( openVars, alt.openVars );
[2c187378]	79	cloneAll( alt.need, need );
[6d6e829]	80	}
	81
	82	void combineState( const ResolvExpr::AltList& alts ) {
	83	for ( const ResolvExpr::Alternative& alt : alts ) { combineState( alt ); }
	84	}
[7870799]	85
[3c13c03]	86	ResolvExpr::AltList lhs, rhs;
[234b1cb]	87	TupleAssignSpotter_old &spotter;
[1d2b64f]	88	ResolvExpr::Cost baseCost;
[6eb8948]	89	std::list< ObjectDecl * > tmpDecls;
[1d2b64f]	90	ResolvExpr::TypeEnvironment compositeEnv;
[6d6e829]	91	ResolvExpr::OpenVarSet openVars;
	92	ResolvExpr::AssertionSet need;
[5af62f1]	93	};
	94
[6eb8948]	95	struct MassAssignMatcher : public Matcher {
[5af62f1]	96	public:
[234b1cb]	97	MassAssignMatcher( TupleAssignSpotter_old &spotter, const ResolvExpr::AltList& lhs,
[78315272]	98	const ResolvExpr::AltList& rhs ) : Matcher(spotter, lhs, rhs) {}
[5af62f1]	99	virtual void match( std::list< Expression * > &out );
	100	};
	101
[6eb8948]	102	struct MultipleAssignMatcher : public Matcher {
[5af62f1]	103	public:
[234b1cb]	104	MultipleAssignMatcher( TupleAssignSpotter_old &spotter, const ResolvExpr::AltList& lhs,
[78315272]	105	const ResolvExpr::AltList& rhs ) : Matcher(spotter, lhs, rhs) {}
[5af62f1]	106	virtual void match( std::list< Expression * > &out );
	107	};
	108
	109	ResolvExpr::AlternativeFinder &currentFinder;
[65660bd]	110	std::string fname;
	111	std::unique_ptr< Matcher > matcher;
[5af62f1]	112	};
	113
[f831177]	114	/// true if expr is an expression of tuple type
[5af62f1]	115	bool isTuple( Expression *expr ) {
[51587aa]	116	if ( ! expr ) return false;
[d29fa5f]	117	assert( expr->result );
[e6cee92]	118	return dynamic_cast< TupleType * >( expr->get_result()->stripReferences() );
[51587aa]	119	}
	120
[65660bd]	121	template< typename AltIter >
	122	bool isMultAssign( AltIter begin, AltIter end ) {
	123	// multiple assignment if more than one alternative in the range or if
	124	// the alternative is a tuple
	125	if ( begin == end ) return false;
	126	if ( isTuple( begin->expr ) ) return true;
	127	return ++begin != end;
	128	}
	129
[e6cee92]	130	bool refToTuple( Expression *expr ) {
	131	assert( expr->get_result() );
[5af62f1]	132	// also check for function returning tuple of reference types
[65660bd]	133	if ( CastExpr * castExpr = dynamic_cast< CastExpr * >( expr ) ) {
[e6cee92]	134	return refToTuple( castExpr->get_arg() );
	135	} else {
	136	return isTuple( expr );
[51587aa]	137	}
	138	return false;
	139	}
	140
[82f3226]	141	void handleTupleAssignment( ResolvExpr::AlternativeFinder & currentFinder, UntypedExpr * expr,
[78315272]	142	std::vector<ResolvExpr::AlternativeFinder> &args ) {
[234b1cb]	143	TupleAssignSpotter_old spotter( currentFinder );
[78315272]	144	spotter.spot( expr, args );
[5af62f1]	145	}
[51587aa]	146
[234b1cb]	147	TupleAssignSpotter_old::TupleAssignSpotter_old( ResolvExpr::AlternativeFinder &f )
[5af62f1]	148	: currentFinder(f) {}
[51587aa]	149
[234b1cb]	150	void TupleAssignSpotter_old::spot( UntypedExpr * expr,
[78315272]	151	std::vector<ResolvExpr::AlternativeFinder> &args ) {
[65660bd]	152	if ( NameExpr op = dynamic_cast< NameExpr >(expr->get_function()) ) {
[bff227f]	153	if ( CodeGen::isCtorDtorAssign( op->get_name() ) ) {
[78315272]	154	fname = op->get_name();
	155
	156	// AlternativeFinder will naturally handle this case case, if it's legal
	157	if ( args.size() == 0 ) return;
	158
[82f3226]	159	// if an assignment only takes 1 argument, that's odd, but maybe someone wrote
[78315272]	160	// the function, in which case AlternativeFinder will handle it normally
	161	if ( args.size() == 1 && CodeGen::isAssignment( fname ) ) return;
	162
	163	// look over all possible left-hand-sides
	164	for ( ResolvExpr::Alternative& lhsAlt : args[0] ) {
	165	// skip non-tuple LHS
	166	if ( ! refToTuple(lhsAlt.expr) ) continue;
	167
[82f3226]	168	// explode is aware of casts - ensure every LHS expression is sent into explode
[78315272]	169	// with a reference cast
[82f3226]	170	// xxx - this seems to change the alternatives before the normal
[78315272]	171	// AlternativeFinder flow; maybe this is desired?
	172	if ( ! dynamic_cast<CastExpr*>( lhsAlt.expr ) ) {
[82f3226]	173	lhsAlt.expr = new CastExpr( lhsAlt.expr,
	174	new ReferenceType( Type::Qualifiers(),
[4f68f6d]	175	lhsAlt.expr->result->clone() ) );
[c43c171]	176	}
	177
[78315272]	178	// explode the LHS so that each field of a tuple-valued-expr is assigned
	179	ResolvExpr::AltList lhs;
	180	explode( lhsAlt, currentFinder.get_indexer(), back_inserter(lhs), true );
	181	for ( ResolvExpr::Alternative& alt : lhs ) {
[82f3226]	182	// each LHS value must be a reference - some come in with a cast expression,
[78315272]	183	// if not just cast to reference here
	184	if ( ! dynamic_cast<ReferenceType*>( alt.expr->get_result() ) ) {
[82f3226]	185	alt.expr = new CastExpr( alt.expr,
	186	new ReferenceType( Type::Qualifiers(),
[78315272]	187	alt.expr->get_result()->clone() ) );
[51587aa]	188	}
[78315272]	189	}
	190
	191	if ( args.size() == 1 ) {
	192	// mass default-initialization/destruction
	193	ResolvExpr::AltList rhs{};
	194	matcher.reset( new MassAssignMatcher( *this, lhs, rhs ) );
[4b6ef70]	195	match();
[78315272]	196	} else if ( args.size() > 2 ) {
	197	// expand all possible RHS possibilities
	198	// TODO build iterative version of this instead of using combos
	199	std::vector< ResolvExpr::AltList > rhsAlts;
[82f3226]	200	combos( std::next(args.begin(), 1), args.end(),
[78315272]	201	std::back_inserter( rhsAlts ) );
	202	for ( const ResolvExpr::AltList& rhsAlt : rhsAlts ) {
	203	// multiple assignment
	204	ResolvExpr::AltList rhs;
[82f3226]	205	explode( rhsAlt, currentFinder.get_indexer(),
[78315272]	206	std::back_inserter(rhs), true );
	207	matcher.reset( new MultipleAssignMatcher( *this, lhs, rhs ) );
	208	match();
	209	}
	210	} else {
	211	for ( const ResolvExpr::Alternative& rhsAlt : args[1] ) {
	212	ResolvExpr::AltList rhs;
	213	if ( isTuple(rhsAlt.expr) ) {
	214	// multiple assignment
[82f3226]	215	explode( rhsAlt, currentFinder.get_indexer(),
[78315272]	216	std::back_inserter(rhs), true );
	217	matcher.reset( new MultipleAssignMatcher( *this, lhs, rhs ) );
	218	} else {
	219	// mass assignment
	220	rhs.push_back( rhsAlt );
	221	matcher.reset( new MassAssignMatcher( *this, lhs, rhs ) );
	222	}
	223	match();
	224	}
[51587aa]	225	}
	226	}
	227	}
	228	}
	229	}
	230
[234b1cb]	231	void TupleAssignSpotter_old::match() {
[5af62f1]	232	assert ( matcher != 0 );
[51587aa]	233
[5af62f1]	234	std::list< Expression * > new_assigns;
	235	matcher->match( new_assigns );
	236
[f831177]	237	if ( ! matcher->lhs.empty() \|\| ! matcher->rhs.empty() ) {
	238	// if both lhs and rhs are empty then this is the empty tuple case, wherein it's okay for new_assigns to be empty.
	239	// if not the empty tuple case, return early so that no new alternatives are generated.
	240	if ( new_assigns.empty() ) return;
	241	}
[5af62f1]	242	ResolvExpr::AltList current;
	243	// now resolve new assignments
[82f3226]	244	for ( std::list< Expression * >::iterator i = new_assigns.begin();
[78315272]	245	i != new_assigns.end(); ++i ) {
[4b6ef70]	246	PRINT(
	247	std::cerr << "== resolving tuple assign ==" << std::endl;
	248	std::cerr << *i << std::endl;
	249	)
	250
[82f3226]	251	ResolvExpr::AlternativeFinder finder{ currentFinder.get_indexer(),
[753bf60]	252	matcher->compositeEnv };
	253
[ac9ca96]	254	try {
	255	finder.findWithAdjustment(*i);
	256	} catch (...) {
[1d2b64f]	257	return; // no match should not mean failure, it just means this particular tuple assignment isn't valid
[ac9ca96]	258	}
[5af62f1]	259	// prune expressions that don't coincide with
	260	ResolvExpr::AltList alts = finder.get_alternatives();
	261	assert( alts.size() == 1 );
	262	assert( alts.front().expr != 0 );
[908cc83]	263	current.push_back( alts.front() );
[5af62f1]	264	}
	265
[7870799]	266	// extract expressions from the assignment alternatives to produce a list of assignments
[6d6e829]	267	// that together form a single alternative
[6eb8948]	268	std::list< Expression *> solved_assigns;
	269	for ( ResolvExpr::Alternative & alt : current ) {
	270	solved_assigns.push_back( alt.expr->clone() );
[6d6e829]	271	matcher->combineState( alt );
[6eb8948]	272	}
[7870799]	273
[bd4f2e9]	274	// xxx -- was push_front
[6d6e829]	275	currentFinder.get_alternatives().push_back( ResolvExpr::Alternative{
[7870799]	276	new TupleAssignExpr{ solved_assigns, matcher->tmpDecls }, matcher->compositeEnv,
	277	matcher->openVars,
	278	ResolvExpr::AssertionList( matcher->need.begin(), matcher->need.end() ),
[6d6e829]	279	ResolvExpr::sumCost( current ) + matcher->baseCost } );
[4b6ef70]	280	}
	281
[234b1cb]	282	TupleAssignSpotter_old::Matcher::Matcher( TupleAssignSpotter_old &spotter,
[82f3226]	283	const ResolvExpr::AltList &lhs, const ResolvExpr::AltList &rhs )
	284	: lhs(lhs), rhs(rhs), spotter(spotter),
[78315272]	285	baseCost( ResolvExpr::sumCost( lhs ) + ResolvExpr::sumCost( rhs ) ) {
[7870799]	286	combineState( lhs );
[6d6e829]	287	combineState( rhs );
[4b6ef70]	288	}
[51587aa]	289
[65660bd]	290	UntypedExpr * createFunc( const std::string &fname, ObjectDecl left, ObjectDecl right ) {
	291	assert( left );
[5af62f1]	292	std::list< Expression * > args;
[e6cee92]	293	args.push_back( new VariableExpr( left ) );
[65660bd]	294	// args.push_back( new AddressExpr( new VariableExpr( left ) ) );
	295	if ( right ) args.push_back( new VariableExpr( right ) );
[9058414]	296	if ( left->type->referenceDepth() > 1 && CodeGen::isConstructor( fname ) ) {
	297	args.front() = new AddressExpr( args.front() );
	298	if ( right ) args.back() = new AddressExpr( args.back() );
	299	return new UntypedExpr( new NameExpr( "?=?" ), args );
	300	} else {
	301	return new UntypedExpr( new NameExpr( fname ), args );
	302	}
[51587aa]	303	}
	304
[938dd75]	305	// removes environments from subexpressions within statement exprs, which could throw off later passes like those in Box which rely on PolyMutator, and adds the bindings to the compositeEnv
[1d2b64f]	306	// xxx - maybe this should happen in alternative finder for every StmtExpr?
[2449aef]	307	struct EnvRemover {
	308	void previsit( ExprStmt * stmt ) {
[938dd75]	309	assert( compositeEnv );
	310	if ( stmt->expr->env ) {
	311	compositeEnv->add( *stmt->expr->env );
	312	delete stmt->expr->env;
	313	stmt->expr->env = nullptr;
	314	}
[1d2b64f]	315	}
[938dd75]	316
	317	ResolvExpr::TypeEnvironment * compositeEnv = nullptr;
[1d2b64f]	318	};
	319
[234b1cb]	320	ObjectDecl * TupleAssignSpotter_old::Matcher::newObject( UniqueName & namer, Expression * expr ) {
[d29fa5f]	321	assert( expr->result && ! expr->get_result()->isVoid() );
[4f68f6d]	322	ObjectDecl * ret = new ObjectDecl( namer.newName(), Type::StorageClasses(), LinkageSpec::Cforall, nullptr, expr->result->clone(), new SingleInit( expr->clone() ) );
[e6cee92]	323	// if expression type is a reference, don't need to construct anything, a simple initializer is sufficient.
[4f68f6d]	324	if ( ! dynamic_cast< ReferenceType * >( expr->result ) ) {
[e6cee92]	325	ConstructorInit * ctorInit = InitTweak::genCtorInit( ret );
[9058414]	326	ret->init = ctorInit;
[e6cee92]	327	ResolvExpr::resolveCtorInit( ctorInit, spotter.currentFinder.get_indexer() ); // resolve ctor/dtors for the new object
[2449aef]	328	PassVisitor<EnvRemover> rm; // remove environments from subexpressions of StmtExprs
[938dd75]	329	rm.pass.compositeEnv = &compositeEnv;
[e6cee92]	330	ctorInit->accept( rm );
	331	}
[f5854507]	332	PRINT( std::cerr << "new object: " << ret << std::endl; )
[1d2b64f]	333	return ret;
[6eb8948]	334	}
	335
[234b1cb]	336	void TupleAssignSpotter_old::MassAssignMatcher::match( std::list< Expression * > &out ) {
[6eb8948]	337	static UniqueName lhsNamer( "__massassign_L" );
	338	static UniqueName rhsNamer( "__massassign_R" );
[f831177]	339	// empty tuple case falls into this matcher, hence the second part of the assert
	340	assert( (! lhs.empty() && rhs.size() <= 1) \|\| (lhs.empty() && rhs.empty()) );
[51587aa]	341
[d20a343]	342	// xxx - may need to split this up into multiple declarations, because potential conversion to references
	343	// probably should not reference local variable - see MultipleAssignMatcher::match
[65660bd]	344	ObjectDecl * rtmp = rhs.size() == 1 ? newObject( rhsNamer, rhs.front().expr ) : nullptr;
[3c13c03]	345	for ( ResolvExpr::Alternative & lhsAlt : lhs ) {
[f831177]	346	// create a temporary object for each value in the lhs and create a call involving the rhs
[65660bd]	347	ObjectDecl * ltmp = newObject( lhsNamer, lhsAlt.expr );
	348	out.push_back( createFunc( spotter.fname, ltmp, rtmp ) );
[6eb8948]	349	tmpDecls.push_back( ltmp );
[5af62f1]	350	}
[65660bd]	351	if ( rtmp ) tmpDecls.push_back( rtmp );
[51b7345]	352	}
	353
[234b1cb]	354	void TupleAssignSpotter_old::MultipleAssignMatcher::match( std::list< Expression * > &out ) {
[6eb8948]	355	static UniqueName lhsNamer( "__multassign_L" );
	356	static UniqueName rhsNamer( "__multassign_R" );
[b3b2077]	357
[51587aa]	358	if ( lhs.size() == rhs.size() ) {
[f831177]	359	// produce a new temporary object for each value in the lhs and rhs and pairwise create the calls
[6eb8948]	360	std::list< ObjectDecl * > ltmp;
	361	std::list< ObjectDecl * > rtmp;
[d20a343]	362	for ( auto p : group_iterate( lhs, rhs ) ) {
	363	ResolvExpr::Alternative & lhsAlt = std::get<0>(p);
	364	ResolvExpr::Alternative & rhsAlt = std::get<1>(p);
	365	// convert RHS to LHS type minus one reference -- important for the case where LHS is && and RHS is lvalue, etc.
	366	ReferenceType * lhsType = strict_dynamic_cast<ReferenceType *>( lhsAlt.expr->result );
	367	rhsAlt.expr = new CastExpr( rhsAlt.expr, lhsType->base->clone() );
	368	ObjectDecl * lobj = newObject( lhsNamer, lhsAlt.expr );
	369	ObjectDecl * robj = newObject( rhsNamer, rhsAlt.expr );
	370	out.push_back( createFunc(spotter.fname, lobj, robj) );
	371	ltmp.push_back( lobj );
	372	rtmp.push_back( robj );
[753bf60]	373
	374	// resolve the cast expression so that rhsAlt return type is bound by the cast type as needed, and transfer the resulting environment
	375	ResolvExpr::AlternativeFinder finder{ spotter.currentFinder.get_indexer(), compositeEnv };
	376	finder.findWithAdjustment( rhsAlt.expr );
	377	assert( finder.get_alternatives().size() == 1 );
	378	compositeEnv = std::move( finder.get_alternatives().front().env );
[d20a343]	379	}
[6eb8948]	380	tmpDecls.splice( tmpDecls.end(), ltmp );
	381	tmpDecls.splice( tmpDecls.end(), rtmp );
[5af62f1]	382	}
[51587aa]	383	}
[432ce7a]	384
[234b1cb]	385	namespace {
	386	/// true if `expr` is of tuple type
	387	bool isTuple( const ast::Expr * expr ) {
	388	if ( ! expr ) return false;
	389	assert( expr->result );
	390	return dynamic_cast< const ast::TupleType * >( expr->result->stripReferences() );
	391	}
[7870799]	392
[234b1cb]	393	/// true if `expr` is of tuple type or a reference to one
	394	bool refToTuple( const ast::Expr * expr ) {
	395	assert( expr->result );
	396	// check for function returning tuple of reference types
	397	if ( auto castExpr = dynamic_cast< const ast::CastExpr * >( expr ) ) {
	398	return refToTuple( castExpr->arg );
	399	} else {
	400	return isTuple( expr );
	401	}
[432ce7a]	402	}
[234b1cb]	403
	404	/// Dispatcher for tuple (multiple and mass) assignment operations
	405	class TupleAssignSpotter_new final {
	406	/// Actually finds tuple assignment operations, by subclass
	407	struct Matcher {
	408	ResolvExpr::CandidateList lhs, rhs;
	409	TupleAssignSpotter_new & spotter;
	410	CodeLocation location;
	411	ResolvExpr::Cost baseCost;
	412	std::vector< ast::ptr< ast::ObjectDecl > > tmpDecls;
	413	ast::TypeEnvironment env;
	414	ast::OpenVarSet open;
	415	ast::AssertionSet need;
	416
	417	void combineState( const ResolvExpr::Candidate & cand ) {
	418	env.simpleCombine( cand.env );
	419	ast::mergeOpenVars( open, cand.open );
	420	need.insert( cand.need.begin(), cand.need.end() );
	421	}
	422
[7870799]	423	Matcher(
[234b1cb]	424	TupleAssignSpotter_new & s, const CodeLocation & loc,
	425	const ResolvExpr::CandidateList & l, const ResolvExpr::CandidateList & r )
[7870799]	426	: lhs( l ), rhs( r ), spotter( s ), location( loc ),
	427	baseCost( ResolvExpr::sumCost( lhs ) + ResolvExpr::sumCost( rhs ) ), tmpDecls(),
[234b1cb]	428	env(), open(), need() {
	429	for ( auto & cand : lhs ) combineState( *cand );
	430	for ( auto & cand : rhs ) combineState( *cand );
	431	}
[7870799]	432	virtual ~Matcher() = default;
[234b1cb]	433
	434	virtual std::vector< ast::ptr< ast::Expr > > match() = 0;
	435
[7870799]	436	/// removes environments from subexpressions within statement expressions, which could
	437	/// throw off later passes like those in Box which rely on PolyMutator, and adds the
[234b1cb]	438	/// bindings to the env
	439	struct EnvRemover {
	440	/// environment to hoist ExprStmt environments to
	441	ast::TypeEnvironment & tenv;
	442
	443	EnvRemover( ast::TypeEnvironment & e ) : tenv( e ) {}
	444
	445	const ast::ExprStmt * previsit( const ast::ExprStmt * stmt ) {
	446	if ( stmt->expr->env ) {
	447	tenv.add( *stmt->expr->env );
	448	ast::ExprStmt * mut = mutate( stmt );
	449	mut->expr.get_and_mutate()->env = nullptr;
	450	return mut;
	451	}
	452	return stmt;
	453	}
	454	};
	455
	456	ast::ObjectDecl * newObject( UniqueName & namer, const ast::Expr * expr ) {
	457	assert( expr->result && ! expr->result->isVoid() );
[7870799]	458
	459	ast::ObjectDecl * ret = new ast::ObjectDecl{
	460	location, namer.newName(), expr->result, new ast::SingleInit{ location, expr },
[234b1cb]	461	ast::Storage::Classes{}, ast::Linkage::Cforall };
[7870799]	462
[234b1cb]	463	// if expression type is a reference, just need an initializer, otherwise construct
	464	if ( ! expr->result.as< ast::ReferenceType >() ) {
	465	// resolve ctor/dtor for the new object
[7870799]	466	ast::ptr< ast::Init > ctorInit = ResolvExpr::resolveCtorInit(
[b8524ca]	467	InitTweak::genCtorInit( location, ret ), spotter.crntFinder.symtab );
[234b1cb]	468	// remove environments from subexpressions of stmtExpr
	469	ast::Pass< EnvRemover > rm{ env };
	470	ret->init = ctorInit->accept( rm );
	471	}
	472
	473	PRINT( std::cerr << "new object: " << ret << std::endl; )
	474	return ret;
	475	}
	476
[7870799]	477	ast::UntypedExpr * createFunc(
	478	const std::string & fname, const ast::ObjectDecl * left,
	479	const ast::ObjectDecl * right
[234b1cb]	480	) {
	481	assert( left );
	482	std::vector< ast::ptr< ast::Expr > > args;
	483	args.emplace_back( new ast::VariableExpr{ location, left } );
	484	if ( right ) { args.emplace_back( new ast::VariableExpr{ location, right } ); }
	485
	486	if ( left->type->referenceDepth() > 1 && CodeGen::isConstructor( fname ) ) {
	487	args.front() = new ast::AddressExpr{ location, args.front() };
	488	if ( right ) { args.back() = new ast::AddressExpr{ location, args.back() }; }
[7870799]	489	return new ast::UntypedExpr{
[234b1cb]	490	location, new ast::NameExpr{ location, "?=?" }, std::move(args) };
	491	} else {
[7870799]	492	return new ast::UntypedExpr{
[234b1cb]	493	location, new ast::NameExpr{ location, fname }, std::move(args) };
	494	}
	495	}
	496	};
	497
	498	/// Finds mass-assignment operations
	499	struct MassAssignMatcher final : public Matcher {
	500	MassAssignMatcher(
[7870799]	501	TupleAssignSpotter_new & s, const CodeLocation & loc,
[234b1cb]	502	const ResolvExpr::CandidateList & l, const ResolvExpr::CandidateList & r )
	503	: Matcher( s, loc, l, r ) {}
	504
	505	std::vector< ast::ptr< ast::Expr > > match() override {
	506	static UniqueName lhsNamer( "__massassign_L" );
	507	static UniqueName rhsNamer( "__massassign_R" );
	508	// empty tuple case falls into this matcher
	509	assert( lhs.empty() ? rhs.empty() : rhs.size() <= 1 );
	510
[7870799]	511	ast::ptr< ast::ObjectDecl > rtmp =
[234b1cb]	512	rhs.size() == 1 ? newObject( rhsNamer, rhs.front()->expr ) : nullptr;
	513
	514	std::vector< ast::ptr< ast::Expr > > out;
	515	for ( ResolvExpr::CandidateRef & lhsCand : lhs ) {
[7870799]	516	// create a temporary object for each value in the LHS and create a call
[234b1cb]	517	// involving the RHS
	518	ast::ptr< ast::ObjectDecl > ltmp = newObject( lhsNamer, lhsCand->expr );
	519	out.emplace_back( createFunc( spotter.fname, ltmp, rtmp ) );
	520	tmpDecls.emplace_back( std::move( ltmp ) );
	521	}
	522	if ( rtmp ) tmpDecls.emplace_back( std::move( rtmp ) );
	523
	524	return out;
	525	}
	526	};
	527
	528	/// Finds multiple-assignment operations
	529	struct MultipleAssignMatcher final : public Matcher {
	530	MultipleAssignMatcher(
[7870799]	531	TupleAssignSpotter_new & s, const CodeLocation & loc,
[234b1cb]	532	const ResolvExpr::CandidateList & l, const ResolvExpr::CandidateList & r )
	533	: Matcher( s, loc, l, r ) {}
	534
	535	std::vector< ast::ptr< ast::Expr > > match() override {
	536	static UniqueName lhsNamer( "__multassign_L" );
	537	static UniqueName rhsNamer( "__multassign_R" );
	538
	539	if ( lhs.size() != rhs.size() ) return {};
	540
[7870799]	541	// produce a new temporary object for each value in the LHS and RHS and pairwise
[234b1cb]	542	// create the calls
	543	std::vector< ast::ptr< ast::ObjectDecl > > ltmp, rtmp;
	544
	545	std::vector< ast::ptr< ast::Expr > > out;
	546	for ( unsigned i = 0; i < lhs.size(); ++i ) {
	547	ResolvExpr::CandidateRef & lhsCand = lhs[i];
	548	ResolvExpr::CandidateRef & rhsCand = rhs[i];
	549
[7870799]	550	// convert RHS to LHS type minus one reference -- important for case where LHS
[234b1cb]	551	// is && and RHS is lvalue
	552	auto lhsType = lhsCand->expr->result.strict_as< ast::ReferenceType >();
[b8524ca]	553	rhsCand->expr = new ast::CastExpr{ rhsCand->expr, lhsType->base };
[234b1cb]	554	ast::ptr< ast::ObjectDecl > lobj = newObject( lhsNamer, lhsCand->expr );
	555	ast::ptr< ast::ObjectDecl > robj = newObject( rhsNamer, rhsCand->expr );
	556	out.emplace_back( createFunc( spotter.fname, lobj, robj ) );
	557	ltmp.emplace_back( std::move( lobj ) );
	558	rtmp.emplace_back( std::move( robj ) );
	559
[7870799]	560	// resolve the cast expression so that rhsCand return type is bound by the cast
[234b1cb]	561	// type as needed, and transfer the resulting environment
	562	ResolvExpr::CandidateFinder finder{ spotter.crntFinder.symtab, env };
	563	finder.find( rhsCand->expr, ResolvExpr::ResolvMode::withAdjustment() );
	564	assert( finder.candidates.size() == 1 );
	565	env = std::move( finder.candidates.front()->env );
	566	}
[7870799]	567
[234b1cb]	568	splice( tmpDecls, ltmp );
	569	splice( tmpDecls, rtmp );
[7870799]	570
[234b1cb]	571	return out;
	572	}
	573	};
	574
	575	ResolvExpr::CandidateFinder & crntFinder;
	576	std::string fname;
	577	std::unique_ptr< Matcher > matcher;
[7870799]	578
[234b1cb]	579	public:
[7870799]	580	TupleAssignSpotter_new( ResolvExpr::CandidateFinder & f )
[234b1cb]	581	: crntFinder( f ), fname(), matcher() {}
	582
	583	// find left- and right-hand-sides for mass or multiple assignment
[7870799]	584	void spot(
	585	const ast::UntypedExpr * expr, std::vector< ResolvExpr::CandidateFinder > & args
[234b1cb]	586	) {
	587	if ( auto op = expr->func.as< ast::NameExpr >() ) {
	588	// skip non-assignment functions
	589	if ( ! CodeGen::isCtorDtorAssign( op->name ) ) return;
	590	fname = op->name;
	591
	592	// handled by CandidateFinder if applicable (both odd cases)
	593	if ( args.empty() \|\| ( args.size() == 1 && CodeGen::isAssignment( fname ) ) ) {
	594	return;
	595	}
	596
	597	// look over all possible left-hand-side
	598	for ( ResolvExpr::CandidateRef & lhsCand : args[0] ) {
	599	// skip non-tuple LHS
	600	if ( ! refToTuple( lhsCand->expr ) ) continue;
	601
[7870799]	602	// explode is aware of casts - ensure every LHS is sent into explode with a
[234b1cb]	603	// reference cast
	604	if ( ! lhsCand->expr.as< ast::CastExpr >() ) {
[7870799]	605	lhsCand->expr = new ast::CastExpr{
[b8524ca]	606	lhsCand->expr, new ast::ReferenceType{ lhsCand->expr->result } };
[234b1cb]	607	}
	608
	609	// explode the LHS so that each field of a tuple-valued expr is assigned
	610	ResolvExpr::CandidateList lhs;
	611	explode( *lhsCand, crntFinder.symtab, back_inserter(lhs), true );
	612	for ( ResolvExpr::CandidateRef & cand : lhs ) {
[7870799]	613	// each LHS value must be a reference - some come in with a cast, if not
[234b1cb]	614	// just cast to reference here
	615	if ( ! cand->expr->result.as< ast::ReferenceType >() ) {
	616	cand->expr = new ast::CastExpr{
[b8524ca]	617	cand->expr, new ast::ReferenceType{ cand->expr->result } };
[234b1cb]	618	}
	619	}
	620
	621	if ( args.size() == 1 ) {
	622	// mass default-initialization/destruction
	623	ResolvExpr::CandidateList rhs{};
	624	matcher.reset( new MassAssignMatcher{ *this, expr->location, lhs, rhs } );
	625	match();
	626	} else if ( args.size() == 2 ) {
	627	for ( const ResolvExpr::CandidateRef & rhsCand : args[1] ) {
	628	ResolvExpr::CandidateList rhs;
	629	if ( isTuple( rhsCand->expr ) ) {
	630	// multiple assignment
	631	explode( *rhsCand, crntFinder.symtab, back_inserter(rhs), true );
[7870799]	632	matcher.reset(
[234b1cb]	633	new MultipleAssignMatcher{ *this, expr->location, lhs, rhs } );
	634	} else {
	635	// mass assignment
	636	rhs.emplace_back( rhsCand );
[7870799]	637	matcher.reset(
[234b1cb]	638	new MassAssignMatcher{ *this, expr->location, lhs, rhs } );
	639	}
	640	match();
	641	}
	642	} else {
	643	// expand all possible RHS possibilities
	644	std::vector< ResolvExpr::CandidateList > rhsCands;
[7870799]	645	combos(
[234b1cb]	646	std::next( args.begin(), 1 ), args.end(), back_inserter( rhsCands ) );
	647	for ( const ResolvExpr::CandidateList & rhsCand : rhsCands ) {
	648	// multiple assignment
	649	ResolvExpr::CandidateList rhs;
	650	explode( rhsCand, crntFinder.symtab, back_inserter(rhs), true );
[7870799]	651	matcher.reset(
[234b1cb]	652	new MultipleAssignMatcher{ *this, expr->location, lhs, rhs } );
	653	match();
	654	}
	655	}
	656	}
	657	}
	658	}
	659
	660	void match() {
	661	assert( matcher );
	662
	663	std::vector< ast::ptr< ast::Expr > > newAssigns = matcher->match();
	664
	665	if ( ! ( matcher->lhs.empty() && matcher->rhs.empty() ) ) {
[7870799]	666	// if both LHS and RHS are empty than this is the empty tuple case, wherein it's
	667	// okay for newAssigns to be empty. Otherwise, return early so that no new
[234b1cb]	668	// candidates are generated
	669	if ( newAssigns.empty() ) return;
	670	}
	671
	672	ResolvExpr::CandidateList crnt;
	673	// now resolve new assignments
	674	for ( const ast::Expr * expr : newAssigns ) {
	675	PRINT(
	676	std::cerr << "== resolving tuple assign ==" << std::endl;
	677	std::cerr << expr << std::endl;
	678	)
	679
	680	ResolvExpr::CandidateFinder finder{ crntFinder.symtab, matcher->env };
	681
	682	try {
	683	finder.find( expr, ResolvExpr::ResolvMode::withAdjustment() );
	684	} catch (...) {
	685	// no match is not failure, just that this tuple assignment is invalid
	686	return;
	687	}
	688
	689	ResolvExpr::CandidateList & cands = finder.candidates;
	690	assert( cands.size() == 1 );
	691	assert( cands.front()->expr );
	692	crnt.emplace_back( std::move( cands.front() ) );
	693	}
	694
[7870799]	695	// extract expressions from the assignment candidates to produce a list of assignments
[234b1cb]	696	// that together form a sigle candidate
	697	std::vector< ast::ptr< ast::Expr > > solved;
	698	for ( ResolvExpr::CandidateRef & cand : crnt ) {
	699	solved.emplace_back( cand->expr );
	700	matcher->combineState( *cand );
	701	}
	702
	703	crntFinder.candidates.emplace_back( std::make_shared< ResolvExpr::Candidate >(
[7870799]	704	new ast::TupleAssignExpr{
	705	matcher->location, std::move( solved ), std::move( matcher->tmpDecls ) },
	706	std::move( matcher->env ), std::move( matcher->open ), std::move( matcher->need ),
[234b1cb]	707	ResolvExpr::sumCost( crnt ) + matcher->baseCost ) );
	708	}
	709	};
	710	} // anonymous namespace
	711
[7870799]	712	void handleTupleAssignment(
	713	ResolvExpr::CandidateFinder & finder, const ast::UntypedExpr * assign,
[234b1cb]	714	std::vector< ResolvExpr::CandidateFinder > & args
	715	) {
	716	TupleAssignSpotter_new spotter{ finder };
	717	spotter.spot( assign, args );
	718	}
	719
[51b7345]	720	} // namespace Tuples
[51587aa]	721
	722	// Local Variables: //
	723	// tab-width: 4 //
	724	// mode: c++ //
	725	// compile-command: "make install" //
	726	// End: //

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