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source: src/Tuples/TupleAssignment.cc@ 120867e

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ADT ast-experimental pthread-emulation qualifiedEnum

Last change on this file since 120867e was 39d8950, checked in by Andrew Beach <ajbeach@…>, 4 years ago
Thread global information through resolution. Non-top-level calls to the resolver have a bit of a hack but improvements would require changes to the Pass helpers.
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
[39d8950]	11	// Last Modified By : Andrew Beach
	12	// Last Modified On : Wed Mar 16 14:06:00 2022
	13	// Update Count : 10
[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>
[51b73452]	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 "ResolvExpr/Alternative.h" // for AltList, Alternative
	37	#include "ResolvExpr/AlternativeFinder.h" // for AlternativeFinder, simpleC...
	38	#include "ResolvExpr/Cost.h" // for Cost
	39	#include "ResolvExpr/Resolver.h" // for resolveCtorInit
	40	#include "ResolvExpr/TypeEnvironment.h" // for TypeEnvironment
[c43c171]	41	#include "ResolvExpr/typeops.h" // for combos
[07de76b]	42	#include "SynTree/LinkageSpec.h" // for Cforall
[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
[51b73452]	50
[4b6ef70]	51	#if 0
	52	#define PRINT(x) x
	53	#else
	54	#define PRINT(x)
	55	#endif
	56
[51b73452]	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 );
[51b73452]	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(
[39d8950]	467	InitTweak::genCtorInit( location, ret ), spotter.crntFinder.context );
[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 {
[3e5dd913]	506	static UniqueName lhsNamer( "__massassign_L" );
	507	static UniqueName rhsNamer( "__massassign_R" );
[234b1cb]	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 {
[3e5dd913]	536	static UniqueName lhsNamer( "__multassign_L" );
	537	static UniqueName rhsNamer( "__multassign_R" );
[234b1cb]	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
[39d8950]	562	ResolvExpr::CandidateFinder finder( spotter.crntFinder.context, env );
[234b1cb]	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;
[39d8950]	611	explode( *lhsCand, crntFinder.context.symtab, back_inserter(lhs), true );
[234b1cb]	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
[39d8950]	631	explode( *rhsCand, crntFinder.context.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;
[39d8950]	650	explode( rhsCand, crntFinder.context.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
[39d8950]	680	ResolvExpr::CandidateFinder finder( crntFinder.context, matcher->env );
[234b1cb]	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
[51b73452]	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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