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source: src/InitTweak/FixInitNew.cpp @ 7fca832

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

Last change on this file since 7fca832 was 4a8f150, checked in by Andrew Beach <ajbeach@…>, 4 years ago
A quick-fix to get the self-assignment bug working and some clean-up I did on the way.
Property mode set to `100644`
File size: 58.1 KB

Rev	Line
[490fb92e]	1	#include "FixInit.h"
	2
	3	#include <stddef.h> // for NULL
	4	#include <algorithm> // for set_difference, copy_if
	5	#include <cassert> // for assert, strict_dynamic_cast
	6	#include <iostream> // for operator<<, ostream, basic_ost...
	7	#include <iterator> // for insert_iterator, back_inserter
	8	#include <list> // for _List_iterator, list, list<>::...
	9	#include <map> // for _Rb_tree_iterator, _Rb_tree_co...
	10	#include <memory> // for allocator_traits<>::value_type
	11	#include <set> // for set, set<>::value_type
	12	#include <unordered_map> // for unordered_map, unordered_map<>...
	13	#include <unordered_set> // for unordered_set
	14	#include <utility> // for pair
	15
	16	#include "CodeGen/GenType.h" // for genPrettyType
	17	#include "CodeGen/OperatorTable.h"
	18	#include "Common/PassVisitor.h" // for PassVisitor, WithStmtsToAdd
	19	#include "Common/SemanticError.h" // for SemanticError
	20	#include "Common/UniqueName.h" // for UniqueName
	21	#include "Common/utility.h" // for CodeLocation, ValueGuard, toSt...
	22	#include "FixGlobalInit.h" // for fixGlobalInit
	23	#include "GenInit.h" // for genCtorDtor
	24	#include "GenPoly/GenPoly.h" // for getFunctionType
	25	#include "InitTweak.h" // for getFunctionName, getCallArg
	26	#include "ResolvExpr/Resolver.h" // for findVoidExpression
	27	#include "ResolvExpr/typeops.h" // for typesCompatible
	28	#include "SymTab/Autogen.h" // for genImplicitCall
	29	#include "SymTab/Indexer.h" // for Indexer
	30	#include "SymTab/Mangler.h" // for Mangler
	31	#include "SynTree/LinkageSpec.h" // for C, Spec, Cforall, isBuiltin
	32	#include "SynTree/Attribute.h" // for Attribute
	33	#include "SynTree/Constant.h" // for Constant
	34	#include "SynTree/Declaration.h" // for ObjectDecl, FunctionDecl, Decl...
	35	#include "SynTree/Expression.h" // for UniqueExpr, VariableExpr, Unty...
	36	#include "SynTree/Initializer.h" // for ConstructorInit, SingleInit
	37	#include "SynTree/Label.h" // for Label, operator<
	38	#include "SynTree/Mutator.h" // for mutateAll, Mutator, maybeMutate
	39	#include "SynTree/Statement.h" // for ExprStmt, CompoundStmt, Branch...
	40	#include "SynTree/Type.h" // for Type, Type::StorageClasses
	41	#include "SynTree/TypeSubstitution.h" // for TypeSubstitution, operator<<
	42	#include "SynTree/DeclReplacer.h" // for DeclReplacer
	43	#include "SynTree/Visitor.h" // for acceptAll, maybeAccept
	44	#include "Validate/FindSpecialDecls.h" // for dtorStmt, dtorStructDestroy
	45
	46	#include "AST/Expr.hpp"
	47	#include "AST/Node.hpp"
	48	#include "AST/Pass.hpp"
	49	#include "AST/Print.hpp"
	50	#include "AST/SymbolTable.hpp"
	51	#include "AST/Type.hpp"
	52	#include "AST/DeclReplacer.hpp"
	53
	54	extern bool ctordtorp; // print all debug
	55	extern bool ctorp; // print ctor debug
	56	extern bool cpctorp; // print copy ctor debug
	57	extern bool dtorp; // print dtor debug
	58	#define PRINT( text ) if ( ctordtorp ) { text }
	59	#define CP_CTOR_PRINT( text ) if ( ctordtorp \|\| cpctorp ) { text }
	60	#define DTOR_PRINT( text ) if ( ctordtorp \|\| dtorp ) { text }
	61
	62	namespace InitTweak {
[0e707bd]	63	namespace {
	64	struct SelfAssignChecker {
	65	void previsit( const ast::ApplicationExpr * appExpr );
	66	};
	67
	68	struct StmtExprResult {
	69	const ast::StmtExpr * previsit( const ast::StmtExpr * stmtExpr );
	70	};
	71
	72	/// wrap function application expressions as ImplicitCopyCtorExpr nodes so that it is easy to identify which
	73	/// function calls need their parameters to be copy constructed
	74	struct InsertImplicitCalls : public ast::WithConstTypeSubstitution, public ast::WithShortCircuiting {
	75	const ast::Expr * postvisit( const ast::ApplicationExpr * appExpr );
	76
	77	// only handles each UniqueExpr once
	78	// if order of visit does not change, this should be safe
	79	void previsit (const ast::UniqueExpr *);
	80
	81	std::unordered_set<decltype(ast::UniqueExpr::id)> visitedIds;
	82	};
	83
	84	/// generate temporary ObjectDecls for each argument and return value of each ImplicitCopyCtorExpr,
	85	/// generate/resolve copy construction expressions for each, and generate/resolve destructors for both
	86	/// arguments and return value temporaries
	87	struct ResolveCopyCtors final : public ast::WithGuards, public ast::WithStmtsToAdd<>, public ast::WithSymbolTable, public ast::WithShortCircuiting, public ast::WithVisitorRef<ResolveCopyCtors> {
	88	const ast::Expr * postvisit( const ast::ImplicitCopyCtorExpr * impCpCtorExpr );
	89	const ast::StmtExpr * previsit( const ast::StmtExpr * stmtExpr );
	90	const ast::UniqueExpr * previsit( const ast::UniqueExpr * unqExpr );
	91
	92	/// handles distant mutations of environment manually.
	93	/// WithConstTypeSubstitution cannot remember where the environment is from
	94
	95	/// MUST be called at start of overload previsit
	96	void previsit( const ast::Expr * expr);
	97	/// MUST be called at return of overload postvisit
	98	const ast::Expr * postvisit(const ast::Expr * expr);
	99
	100	/// create and resolve ctor/dtor expression: fname(var, [cpArg])
	101	const ast::Expr * makeCtorDtor( const std::string & fname, const ast::ObjectDecl * var, const ast::Expr * cpArg = nullptr );
	102	/// true if type does not need to be copy constructed to ensure correctness
	103	bool skipCopyConstruct( const ast::Type * type );
	104	ast::ptr< ast::Expr > copyConstructArg( const ast::Expr * arg, const ast::ImplicitCopyCtorExpr * impCpCtorExpr, const ast::Type * formal );
	105	ast::Expr * destructRet( const ast::ObjectDecl * ret, const ast::Expr * arg );
	106	private:
	107	/// hack to implement WithTypeSubstitution while conforming to mutation safety.
	108	ast::TypeSubstitution * env;
	109	bool envModified;
	110	};
	111
	112	/// collects constructed object decls - used as a base class
	113	struct ObjDeclCollector : public ast::WithGuards, public ast::WithShortCircuiting {
	114	// use ordered data structure to maintain ordering for set_difference and for consistent error messages
	115	typedef std::list< const ast::ObjectDecl * > ObjectSet;
	116	void previsit( const ast::CompoundStmt *compoundStmt );
	117	void previsit( const ast::DeclStmt *stmt );
	118
	119	// don't go into other functions
	120	void previsit( const ast::FunctionDecl * ) { visit_children = false; }
	121
	122	protected:
	123	ObjectSet curVars;
	124	};
	125
	126	// debug
	127	template<typename ObjectSet>
	128	struct PrintSet {
	129	PrintSet( const ObjectSet & objs ) : objs( objs ) {}
	130	const ObjectSet & objs;
	131	};
	132	template<typename ObjectSet>
	133	PrintSet<ObjectSet> printSet( const ObjectSet & objs ) { return PrintSet<ObjectSet>( objs ); }
	134	template<typename ObjectSet>
	135	std::ostream & operator<<( std::ostream & out, const PrintSet<ObjectSet> & set) {
	136	out << "{ ";
	137	for ( auto & obj : set.objs ) {
	138	out << obj->name << ", " ;
	139	} // for
	140	out << " }";
	141	return out;
	142	}
[490fb92e]	143
[0e707bd]	144	struct LabelFinder final : public ObjDeclCollector {
	145	typedef std::map< std::string, ObjectSet > LabelMap;
	146	// map of Label -> live variables at that label
	147	LabelMap vars;
[490fb92e]	148
[0e707bd]	149	typedef ObjDeclCollector Parent;
	150	using Parent::previsit;
	151	void previsit( const ast::Stmt * stmt );
[490fb92e]	152
[0e707bd]	153	void previsit( const ast::CompoundStmt *compoundStmt );
	154	void previsit( const ast::DeclStmt *stmt );
	155	};
[490fb92e]	156
[0e707bd]	157	/// insert destructor calls at the appropriate places. must happen before CtorInit nodes are removed
	158	/// (currently by FixInit)
	159	struct InsertDtors final : public ObjDeclCollector, public ast::WithStmtsToAdd<> {
	160	typedef std::list< ObjectDecl * > OrderedDecls;
	161	typedef std::list< OrderedDecls > OrderedDeclsStack;
[490fb92e]	162
[0e707bd]	163	InsertDtors( ast::Pass<LabelFinder> & finder ) : finder( finder ), labelVars( finder.core.vars ) {}
[490fb92e]	164
[0e707bd]	165	typedef ObjDeclCollector Parent;
	166	using Parent::previsit;
[490fb92e]	167
[0e707bd]	168	void previsit( const ast::FunctionDecl * funcDecl );
[490fb92e]	169
[0e707bd]	170	void previsit( const ast::BranchStmt * stmt );
	171	private:
	172	void handleGoto( const ast::BranchStmt * stmt );
[490fb92e]	173
[0e707bd]	174	ast::Pass<LabelFinder> & finder;
	175	LabelFinder::LabelMap & labelVars;
	176	OrderedDeclsStack reverseDeclOrder;
	177	};
[490fb92e]	178
[0e707bd]	179	/// expand each object declaration to use its constructor after it is declared.
	180	struct FixInit : public ast::WithStmtsToAdd<> {
[293dc1c]	181	static void fixInitializers( ast::TranslationUnit &translationUnit );
[490fb92e]	182
[0e707bd]	183	const ast::DeclWithType * postvisit( const ast::ObjectDecl *objDecl );
[490fb92e]	184
[0e707bd]	185	std::list< ast::ptr< ast::Decl > > staticDtorDecls;
	186	};
[490fb92e]	187
[0e707bd]	188	/// generate default/copy ctor and dtor calls for user-defined struct ctor/dtors
	189	/// for any member that is missing a corresponding ctor/dtor call.
	190	/// error if a member is used before constructed
	191	struct GenStructMemberCalls final : public ast::WithGuards, public ast::WithShortCircuiting, public ast::WithSymbolTable, public ast::WithVisitorRef<GenStructMemberCalls> {
	192	void previsit( const ast::FunctionDecl * funcDecl );
	193	const ast::DeclWithType * postvisit( const ast::FunctionDecl * funcDecl );
[490fb92e]	194
[0e707bd]	195	void previsit( const ast::MemberExpr * memberExpr );
	196	void previsit( const ast::ApplicationExpr * appExpr );
[490fb92e]	197
[0e707bd]	198	/// Note: this post mutate used to be in a separate visitor. If this pass breaks, one place to examine is whether it is
	199	/// okay for this part of the recursion to occur alongside the rest.
	200	const ast::Expr * postvisit( const ast::UntypedExpr * expr );
[490fb92e]	201
[0e707bd]	202	SemanticErrorException errors;
	203	private:
	204	template< typename... Params >
	205	void emit( CodeLocation, const Params &... params );
	206
	207	ast::FunctionDecl * function = nullptr;
	208	std::set< const ast::DeclWithType * > unhandled;
	209	std::map< const ast::DeclWithType *, CodeLocation > usedUninit;
	210	const ast::ObjectDecl * thisParam = nullptr;
	211	bool isCtor = false; // true if current function is a constructor
	212	const ast::StructDecl * structDecl = nullptr;
	213	};
	214
	215	/// expands ConstructorExpr nodes into comma expressions, using a temporary for the first argument
	216	struct FixCtorExprs final : public ast::WithDeclsToAdd<>, public ast::WithSymbolTable, public ast::WithShortCircuiting {
	217	const ast::Expr * postvisit( const ast::ConstructorExpr * ctorExpr );
	218	};
	219
	220	/// add CompoundStmts around top-level expressions so that temporaries are destroyed in the correct places.
	221	struct SplitExpressions : public ast::WithShortCircuiting {
	222	ast::Stmt * postvisit( const ast::ExprStmt * stmt );
	223	void previsit( const ast::TupleAssignExpr * expr );
	224	};
	225	} // namespace
	226
[293dc1c]	227	void fix( ast::TranslationUnit & translationUnit, bool inLibrary ) {
[0e707bd]	228	ast::Pass<SelfAssignChecker>::run( translationUnit );
	229
	230	// fixes StmtExpr to properly link to their resulting expression
	231	ast::Pass<StmtExprResult>::run( translationUnit );
	232
	233	// fixes ConstructorInit for global variables. should happen before fixInitializers.
	234	InitTweak::fixGlobalInit( translationUnit, inLibrary );
	235
	236	// must happen before ResolveCopyCtors because temporaries have to be inserted into the correct scope
	237	ast::Pass<SplitExpressions>::run( translationUnit );
	238
	239	ast::Pass<InsertImplicitCalls>::run( translationUnit );
	240
	241	// Needs to happen before ResolveCopyCtors, because argument/return temporaries should not be considered in
	242	// error checking branch statements
	243	{
	244	ast::Pass<LabelFinder> finder;
	245	ast::Pass<InsertDtors>::run( translationUnit, finder );
[490fb92e]	246	}
	247
[0e707bd]	248	ast::Pass<ResolveCopyCtors>::run( translationUnit );
	249	FixInit::fixInitializers( translationUnit );
	250	ast::Pass<GenStructMemberCalls>::run( translationUnit );
	251
	252	// Needs to happen after GenStructMemberCalls, since otherwise member constructors exprs
	253	// don't have the correct form, and a member can be constructed more than once.
	254	ast::Pass<FixCtorExprs>::run( translationUnit );
	255	}
	256
	257	namespace {
	258	/// find and return the destructor used in `input`. If `input` is not a simple destructor call, generate a thunk
	259	/// that wraps the destructor, insert it into `stmtsToAdd` and return the new function declaration
	260	const ast::DeclWithType * getDtorFunc( const ast::ObjectDecl * objDecl, const ast::Stmt * input, std::list< ast::ptr<ast::Stmt> > & stmtsToAdd ) {
	261	const CodeLocation loc = input->location;
	262	// unwrap implicit statement wrapper
	263	// Statement * dtor = input;
	264	assert( input );
	265	// std::list< const ast::Expr * > matches;
	266	auto matches = collectCtorDtorCalls( input );
	267
	268	if ( dynamic_cast< const ast::ExprStmt * >( input ) ) {
	269	// only one destructor call in the expression
	270	if ( matches.size() == 1 ) {
	271	auto func = getFunction( matches.front() );
	272	assertf( func, "getFunction failed to find function in %s", toString( matches.front() ).c_str() );
	273
	274	// cleanup argument must be a function, not an object (including function pointer)
	275	if ( auto dtorFunc = dynamic_cast< const ast::FunctionDecl * > ( func ) ) {
	276	if ( dtorFunc->type->forall.empty() ) {
	277	// simple case where the destructor is a monomorphic function call - can simply
	278	// use that function as the cleanup function.
	279	return func;
[490fb92e]	280	}
	281	}
	282	}
	283	}
	284
[0e707bd]	285	// otherwise the cleanup is more complicated - need to build a single argument cleanup function that
	286	// wraps the more complicated code.
	287	static UniqueName dtorNamer( "__cleanup_dtor" );
	288	std::string name = dtorNamer.newName();
	289	ast::FunctionDecl * dtorFunc = SymTab::genDefaultFunc( loc, name, objDecl->type->stripReferences(), false );
	290	stmtsToAdd.push_back( new ast::DeclStmt(loc, dtorFunc ) );
	291
	292	// the original code contains uses of objDecl - replace them with the newly generated 'this' parameter.
	293	const ast::ObjectDecl * thisParam = getParamThis( dtorFunc );
	294	const ast::Expr * replacement = new ast::VariableExpr( loc, thisParam );
	295
	296	auto base = replacement->result->stripReferences();
	297	if ( dynamic_cast< const ast::ArrayType * >( base ) \|\| dynamic_cast< const ast::TupleType * > ( base ) ) {
	298	// need to cast away reference for array types, since the destructor is generated without the reference type,
	299	// and for tuple types since tuple indexing does not work directly on a reference
	300	replacement = new ast::CastExpr( replacement, base );
[490fb92e]	301	}
[0e707bd]	302	auto dtor = ast::DeclReplacer::replace( input, ast::DeclReplacer::ExprMap{ std::make_pair( objDecl, replacement ) } );
	303	auto mutStmts = dtorFunc->stmts.get_and_mutate();
	304	mutStmts->push_back(strict_dynamic_cast<const ast::Stmt *>( dtor ));
	305	dtorFunc->stmts = mutStmts;
[490fb92e]	306
[0e707bd]	307	return dtorFunc;
	308	}
[490fb92e]	309
[293dc1c]	310	void FixInit::fixInitializers( ast::TranslationUnit & translationUnit ) {
[0e707bd]	311	ast::Pass<FixInit> fixer;
	312
	313	// can't use mutateAll, because need to insert declarations at top-level
	314	// can't use DeclMutator, because sometimes need to insert IfStmt, etc.
	315	SemanticErrorException errors;
[293dc1c]	316	for ( auto i = translationUnit.decls.begin(); i != translationUnit.decls.end(); ++i ) {
[0e707bd]	317	try {
	318	// maybeAccept( *i, fixer ); translationUnit should never contain null
	319	i = (i)->accept(fixer);
[293dc1c]	320	translationUnit.decls.splice( i, fixer.core.staticDtorDecls );
[0e707bd]	321	} catch( SemanticErrorException &e ) {
	322	errors.append( e );
	323	} // try
	324	} // for
	325	if ( ! errors.isEmpty() ) {
	326	throw errors;
	327	} // if
	328	}
[490fb92e]	329
[0e707bd]	330	const ast::StmtExpr * StmtExprResult::previsit( const ast::StmtExpr * stmtExpr ) {
	331	// we might loose the result expression here so add a pointer to trace back
	332	assert( stmtExpr->result );
	333	const ast::Type * result = stmtExpr->result;
	334	if ( ! result->isVoid() ) {
	335	auto mutExpr = mutate(stmtExpr);
	336	const ast::CompoundStmt * body = mutExpr->stmts;
	337	assert( ! body->kids.empty() );
	338	mutExpr->resultExpr = body->kids.back().strict_as<ast::ExprStmt>();
	339	return mutExpr;
[490fb92e]	340	}
[0e707bd]	341	return stmtExpr;
	342	}
[490fb92e]	343
[0e707bd]	344	ast::Stmt * SplitExpressions::postvisit( const ast::ExprStmt * stmt ) {
	345	// wrap each top-level ExprStmt in a block so that destructors for argument and return temporaries are destroyed
	346	// in the correct places
	347	ast::CompoundStmt * ret = new ast::CompoundStmt( stmt->location, { stmt } );
	348	return ret;
	349	}
[490fb92e]	350
[0e707bd]	351	void SplitExpressions::previsit( const ast::TupleAssignExpr * ) {
	352	// don't do this within TupleAssignExpr, since it is already broken up into multiple expressions
	353	visit_children = false;
	354	}
[490fb92e]	355
[0e707bd]	356	// Relatively simple structural comparison for expressions, needed to determine
	357	// if two expressions are "the same" (used to determine if self assignment occurs)
	358	struct StructuralChecker {
[6a036eb]	359	// Strip all casts and then dynamic_cast.
	360	template<typename T>
	361	static const T * cast( const ast::Expr * expr ) {
[0e707bd]	362	// this might be too permissive. It's possible that only particular casts are relevant.
	363	while ( auto cast = dynamic_cast< const ast::CastExpr * >( expr ) ) {
	364	expr = cast->arg;
[490fb92e]	365	}
[6a036eb]	366	return dynamic_cast< const T * >( expr );
[0e707bd]	367	}
[490fb92e]	368
[0e707bd]	369	void previsit( const ast::Expr * ) {
	370	// anything else does not qualify
[6a036eb]	371	result = false;
[0e707bd]	372	}
[490fb92e]	373
[0e707bd]	374	// ignore casts
	375	void previsit( const ast::CastExpr * ) {}
	376
	377	void previsit( const ast::MemberExpr * memExpr ) {
[6a036eb]	378	if ( auto otherMember = cast< ast::MemberExpr >( other ) ) {
[0e707bd]	379	if ( otherMember->member == memExpr->member ) {
	380	other = otherMember->aggregate;
	381	return;
[490fb92e]	382	}
	383	}
[6a036eb]	384	result = false;
[0e707bd]	385	}
[490fb92e]	386
[0e707bd]	387	void previsit( const ast::VariableExpr * varExpr ) {
[6a036eb]	388	if ( auto otherVar = cast< ast::VariableExpr >( other ) ) {
[0e707bd]	389	if ( otherVar->var == varExpr->var ) {
[490fb92e]	390	return;
	391	}
	392	}
[6a036eb]	393	result = false;
[0e707bd]	394	}
[490fb92e]	395
[0e707bd]	396	void previsit( const ast::AddressExpr * ) {
[6a036eb]	397	if ( auto addrExpr = cast< ast::AddressExpr >( other ) ) {
[0e707bd]	398	other = addrExpr->arg;
	399	return;
	400	}
[6a036eb]	401	result = false;
[490fb92e]	402	}
	403
[6a036eb]	404	const ast::Expr * other;
	405	bool result = true;
	406	StructuralChecker( const ast::Expr * other ) : other(other) {}
[0e707bd]	407	};
	408
	409	bool structurallySimilar( const ast::Expr * e1, const ast::Expr * e2 ) {
[6a036eb]	410	return ast::Pass<StructuralChecker>::read( e1, e2 );
[0e707bd]	411	}
	412
	413	void SelfAssignChecker::previsit( const ast::ApplicationExpr * appExpr ) {
	414	auto function = getFunction( appExpr );
[4a8f150]	415	// Doesn't use isAssignment, because ?+=?, etc. should not count as self-assignment.
	416	if ( function->name == "?=?" && appExpr->args.size() == 2
	417	// Check for structural similarity (same variable use, ignore casts, etc.
	418	// (but does not look too deeply, anything looking like a function is off limits).
	419	&& structurallySimilar( appExpr->args.front(), appExpr->args.back() ) ) {
	420	SemanticWarning( appExpr->location, Warning::SelfAssignment, toCString( appExpr->args.front() ) );
[490fb92e]	421	}
[0e707bd]	422	}
[490fb92e]	423
[0e707bd]	424	const ast::Expr * InsertImplicitCalls::postvisit( const ast::ApplicationExpr * appExpr ) {
	425	if ( auto function = appExpr->func.as<ast::VariableExpr>() ) {
	426	if ( function->var->linkage.is_builtin ) {
	427	// optimization: don't need to copy construct in order to call intrinsic functions
	428	return appExpr;
	429	} else if ( auto funcDecl = function->var.as<ast::DeclWithType>() ) {
	430	auto ftype = dynamic_cast< const ast::FunctionType * >( GenPoly::getFunctionType( funcDecl->get_type() ) );
	431	assertf( ftype, "Function call without function type: %s", toString( funcDecl ).c_str() );
	432	if ( CodeGen::isConstructor( funcDecl->name ) && ftype->params.size() == 2 ) {
	433	auto t1 = getPointerBase( ftype->params.front() );
	434	auto t2 = ftype->params.back();
	435	assert( t1 );
	436
	437	if ( ResolvExpr::typesCompatible( t1, t2 ) ) {
	438	// optimization: don't need to copy construct in order to call a copy constructor
[490fb92e]	439	return appExpr;
	440	} // if
[0e707bd]	441	} else if ( CodeGen::isDestructor( funcDecl->name ) ) {
	442	// correctness: never copy construct arguments to a destructor
	443	return appExpr;
[490fb92e]	444	} // if
	445	} // if
[0e707bd]	446	} // if
	447	CP_CTOR_PRINT( std::cerr << "InsertImplicitCalls: adding a wrapper " << appExpr << std::endl; )
	448
	449	// wrap each function call so that it is easy to identify nodes that have to be copy constructed
	450	ast::ptr<ast::TypeSubstitution> tmp = appExpr->env;
	451	auto mutExpr = mutate(appExpr);
	452	mutExpr->env = nullptr;
	453
	454	auto expr = new ast::ImplicitCopyCtorExpr( appExpr->location, mutExpr );
	455	// Move the type substitution to the new top-level, if it is attached to the appExpr.
	456	// Ensure it is not deleted with the ImplicitCopyCtorExpr by removing it before deletion.
	457	// The substitution is needed to obtain the type of temporary variables so that copy constructor
	458	// calls can be resolved.
	459	assert( typeSubs );
	460	// assert (mutExpr->env);
	461	expr->env = tmp;
	462	// mutExpr->env = nullptr;
	463	//std::swap( expr->env, appExpr->env );
	464	return expr;
	465	}
[490fb92e]	466
[0e707bd]	467	void ResolveCopyCtors::previsit(const ast::Expr * expr) {
	468	if (expr->env) {
	469	GuardValue(env);
	470	GuardValue(envModified);
	471	env = expr->env->clone();
	472	envModified = false;
[490fb92e]	473	}
[0e707bd]	474	}
[490fb92e]	475
[0e707bd]	476	const ast::Expr * ResolveCopyCtors::postvisit(const ast::Expr * expr) {
	477	if (expr->env) {
	478	if (envModified) {
	479	auto mutExpr = mutate(expr);
	480	mutExpr->env = env;
	481	return mutExpr;
[490fb92e]	482	}
	483	else {
[0e707bd]	484	// env was not mutated, skip and delete the shallow copy
	485	delete env;
[490fb92e]	486	return expr;
	487	}
	488	}
[0e707bd]	489	else {
	490	return expr;
[490fb92e]	491	}
[0e707bd]	492	}
[490fb92e]	493
[0e707bd]	494	bool ResolveCopyCtors::skipCopyConstruct( const ast::Type * type ) { return ! isConstructable( type ); }
	495
	496	const ast::Expr * ResolveCopyCtors::makeCtorDtor( const std::string & fname, const ast::ObjectDecl * var, const ast::Expr * cpArg ) {
	497	assert( var );
	498	assert (var->isManaged());
	499	assert (!cpArg \|\| cpArg->isManaged());
	500	// arrays are not copy constructed, so this should always be an ExprStmt
	501	ast::ptr< ast::Stmt > stmt = genCtorDtor(var->location, fname, var, cpArg );
	502	assertf( stmt, "ResolveCopyCtors: genCtorDtor returned nullptr: %s / %s / %s", fname.c_str(), toString( var ).c_str(), toString( cpArg ).c_str() );
	503	auto exprStmt = stmt.strict_as<ast::ImplicitCtorDtorStmt>()->callStmt.strict_as<ast::ExprStmt>();
	504	ast::ptr<ast::Expr> untyped = exprStmt->expr; // take ownership of expr
	505	// exprStmt->expr = nullptr;
	506
	507	// resolve copy constructor
	508	// should only be one alternative for copy ctor and dtor expressions, since all arguments are fixed
	509	// (VariableExpr and already resolved expression)
	510	CP_CTOR_PRINT( std::cerr << "ResolvingCtorDtor " << untyped << std::endl; )
	511	ast::ptr<ast::Expr> resolved = ResolvExpr::findVoidExpression(untyped, symtab);
	512	assert( resolved );
	513	if ( resolved->env ) {
	514	// Extract useful information and discard new environments. Keeping them causes problems in PolyMutator passes.
	515	env->add( *resolved->env );
	516	envModified = true;
	517	// delete resolved->env;
	518	auto mut = mutate(resolved.get());
	519	assertf(mut == resolved.get(), "newly resolved expression must be unique");
	520	mut->env = nullptr;
	521	} // if
	522	// delete stmt;
	523	if ( auto assign = resolved.as<ast::TupleAssignExpr>() ) {
	524	// fix newly generated StmtExpr
	525	previsit( assign->stmtExpr );
	526	}
	527	return resolved.release();
	528	}
[490fb92e]	529
[0e707bd]	530	ast::ptr<ast::Expr> ResolveCopyCtors::copyConstructArg(
	531	const ast::Expr * arg, const ast::ImplicitCopyCtorExpr * impCpCtorExpr, const ast::Type * formal )
	532	{
	533	static UniqueName tempNamer("_tmp_cp");
	534	assert( env );
	535	const CodeLocation loc = impCpCtorExpr->location;
	536	// CP_CTOR_PRINT( std::cerr << "Type Substitution: " << *env << std::endl; )
	537	assert( arg->result );
	538	ast::ptr<ast::Type> result = arg->result;
	539	if ( skipCopyConstruct( result ) ) return arg; // skip certain non-copyable types
	540
	541	// type may involve type variables, so apply type substitution to get temporary variable's actual type,
	542	// since result type may not be substituted (e.g., if the type does not appear in the parameter list)
	543	// Use applyFree so that types bound in function pointers are not substituted, e.g. in forall(dtype T) void (*)(T).
	544
	545	// xxx - this originally mutates arg->result in place. is it correct?
	546	result = env->applyFree( result.get() ).node;
	547	auto mutResult = result.get_and_mutate();
	548	mutResult->set_const(false);
	549
	550	auto mutArg = mutate(arg);
	551	mutArg->result = mutResult;
	552
	553	ast::ptr<ast::Expr> guard = mutArg;
	554
	555	ast::ptr<ast::ObjectDecl> tmp = new ast::ObjectDecl({}, "__tmp", mutResult, nullptr );
	556
	557	// create and resolve copy constructor
	558	CP_CTOR_PRINT( std::cerr << "makeCtorDtor for an argument" << std::endl; )
	559	auto cpCtor = makeCtorDtor( "?{}", tmp, mutArg );
	560
	561	if ( auto appExpr = dynamic_cast< const ast::ApplicationExpr * >( cpCtor ) ) {
	562	// if the chosen constructor is intrinsic, the copy is unnecessary, so
	563	// don't create the temporary and don't call the copy constructor
	564	auto function = appExpr->func.strict_as<ast::VariableExpr>();
	565	if ( function->var->linkage == ast::Linkage::Intrinsic ) {
	566	// arguments that need to be boxed need a temporary regardless of whether the copy constructor is intrinsic,
	567	// so that the object isn't changed inside of the polymorphic function
	568	if ( ! GenPoly::needsBoxing( formal, result, impCpCtorExpr->callExpr, env ) ) {
	569	// xxx - should arg->result be mutated? see comment above.
	570	return guard;
[490fb92e]	571	}
	572	}
[0e707bd]	573	}
[490fb92e]	574
[0e707bd]	575	// set a unique name for the temporary once it's certain the call is necessary
	576	auto mut = tmp.get_and_mutate();
	577	assertf (mut == tmp, "newly created ObjectDecl must be unique");
	578	mut->name = tempNamer.newName();
[490fb92e]	579
[0e707bd]	580	// replace argument to function call with temporary
	581	stmtsToAddBefore.push_back( new ast::DeclStmt(loc, tmp ) );
	582	arg = cpCtor;
	583	return destructRet( tmp, arg );
[490fb92e]	584
[0e707bd]	585	// impCpCtorExpr->dtors.push_front( makeCtorDtor( "^?{}", tmp ) );
	586	}
[490fb92e]	587
[0e707bd]	588	ast::Expr * ResolveCopyCtors::destructRet( const ast::ObjectDecl * ret, const ast::Expr * arg ) {
	589	// TODO: refactor code for generating cleanup attribute, since it's common and reused in ~3-4 places
	590	// check for existing cleanup attribute before adding another(?)
	591	// need to add __Destructor for _tmp_cp variables as well
[490fb92e]	592
[0e707bd]	593	assertf( ast::dtorStruct && ast::dtorStruct->members.size() == 2, "Destructor generation requires __Destructor definition." );
	594	assertf( ast::dtorStructDestroy, "Destructor generation requires __destroy_Destructor." );
[490fb92e]	595
[0e707bd]	596	const CodeLocation loc = ret->location;
[490fb92e]	597
[0e707bd]	598	// generate a __Destructor for ret that calls the destructor
	599	auto res = makeCtorDtor( "^?{}", ret );
	600	auto dtor = mutate(res);
[490fb92e]	601
[0e707bd]	602	// if the chosen destructor is intrinsic, elide the generated dtor handler
	603	if ( arg && isIntrinsicCallExpr( dtor ) ) {
	604	return new ast::CommaExpr(loc, arg, new ast::VariableExpr(loc, ret ) );
	605	// return;
	606	}
[490fb92e]	607
[0e707bd]	608	if ( ! dtor->env ) dtor->env = maybeClone( env );
	609	auto dtorFunc = getDtorFunc( ret, new ast::ExprStmt(loc, dtor ), stmtsToAddBefore );
[490fb92e]	610
[0e707bd]	611	auto dtorStructType = new ast::StructInstType(ast::dtorStruct);
[490fb92e]	612
[0e707bd]	613	// what does this do???
	614	dtorStructType->params.push_back( new ast::TypeExpr(loc, new ast::VoidType() ) );
[490fb92e]	615
[0e707bd]	616	// cast destructor pointer to void ()(void ), to silence GCC incompatible pointer warnings
	617	auto dtorFtype = new ast::FunctionType();
	618	dtorFtype->params.push_back( new ast::PointerType(new ast::VoidType( ) ) );
	619	auto dtorType = new ast::PointerType( dtorFtype );
[490fb92e]	620
[0e707bd]	621	static UniqueName namer( "_ret_dtor" );
	622	auto retDtor = new ast::ObjectDecl(loc, namer.newName(), dtorStructType, new ast::ListInit(loc, { new ast::SingleInit(loc, ast::ConstantExpr::null(loc) ), new ast::SingleInit(loc, new ast::CastExpr( new ast::VariableExpr(loc, dtorFunc ), dtorType ) ) } ) );
	623	retDtor->attributes.push_back( new ast::Attribute( "cleanup", { new ast::VariableExpr(loc, ast::dtorStructDestroy ) } ) );
	624	stmtsToAddBefore.push_back( new ast::DeclStmt(loc, retDtor ) );
[490fb92e]	625
[0e707bd]	626	if ( arg ) {
	627	auto member = new ast::MemberExpr(loc, ast::dtorStruct->members.front().strict_as<ast::DeclWithType>(), new ast::VariableExpr(loc, retDtor ) );
	628	auto object = new ast::CastExpr( new ast::AddressExpr( new ast::VariableExpr(loc, ret ) ), new ast::PointerType(new ast::VoidType() ) );
	629	ast::Expr * assign = createBitwiseAssignment( member, object );
	630	return new ast::CommaExpr(loc, new ast::CommaExpr(loc, arg, assign ), new ast::VariableExpr(loc, ret ) );
[490fb92e]	631	}
[0e707bd]	632	return nullptr;
	633	// impCpCtorExpr->get_dtors().push_front( makeCtorDtor( "^?{}", ret ) );
	634	}
[490fb92e]	635
[0e707bd]	636	const ast::Expr * ResolveCopyCtors::postvisit( const ast::ImplicitCopyCtorExpr *impCpCtorExpr ) {
	637	CP_CTOR_PRINT( std::cerr << "ResolveCopyCtors: " << impCpCtorExpr << std::endl; )
	638
	639	ast::ApplicationExpr * appExpr = mutate(impCpCtorExpr->callExpr.get());
	640	const ast::ObjectDecl * returnDecl = nullptr;
	641	const CodeLocation loc = appExpr->location;
	642
	643	// take each argument and attempt to copy construct it.
	644	auto ftype = GenPoly::getFunctionType( appExpr->func->result );
	645	assert( ftype );
	646	auto & params = ftype->params;
	647	auto iter = params.begin();
	648	for ( auto & arg : appExpr->args ) {
	649	const ast::Type * formal = nullptr;
	650	if ( iter != params.end() ) { // does not copy construct C-style variadic arguments
	651	// DeclarationWithType * param = *iter++;
	652	formal = *iter++;
	653	}
[490fb92e]	654
[0e707bd]	655	arg = copyConstructArg( arg, impCpCtorExpr, formal );
	656	} // for
	657
	658	// each return value from the call needs to be connected with an ObjectDecl at the call site, which is
	659	// initialized with the return value and is destructed later
	660	// xxx - handle named return values?
	661	const ast::Type * result = appExpr->result;
	662	if ( ! result->isVoid() ) {
	663	static UniqueName retNamer("_tmp_cp_ret");
	664	// result = result->clone();
	665	auto subResult = env->apply( result ).node;
	666	auto ret = new ast::ObjectDecl(loc, retNamer.newName(), subResult, nullptr );
	667	auto mutType = mutate(ret->type.get());
	668	mutType->set_const( false );
	669	ret->type = mutType;
	670	returnDecl = ret;
	671	stmtsToAddBefore.push_back( new ast::DeclStmt(loc, ret ) );
	672	CP_CTOR_PRINT( std::cerr << "makeCtorDtor for a return" << std::endl; )
	673	} // for
	674	CP_CTOR_PRINT( std::cerr << "after Resolving: " << impCpCtorExpr << std::endl; )
	675	// ------------------------------------------------------
	676
	677	CP_CTOR_PRINT( std::cerr << "Coming out the back..." << impCpCtorExpr << std::endl; )
	678
	679	// detach fields from wrapper node so that it can be deleted without deleting too much
	680
	681	// xxx - actual env might be somewhere else, need to keep invariant
	682
	683	// deletion of wrapper should be handled by pass template now
	684
	685	// impCpCtorExpr->callExpr = nullptr;
	686	assert (appExpr->env == nullptr);
	687	appExpr->env = impCpCtorExpr->env;
	688	// std::swap( impCpCtorExpr->env, appExpr->env );
	689	// assert( impCpCtorExpr->env == nullptr );
	690	// delete impCpCtorExpr;
	691
	692	if ( returnDecl ) {
	693	ast::Expr * assign = createBitwiseAssignment( new ast::VariableExpr(loc, returnDecl ), appExpr );
	694	if ( ! dynamic_cast< const ast::ReferenceType * >( result ) ) {
	695	// destructing reference returns is bad because it can cause multiple destructor calls to the same object - the returned object is not a temporary
	696	assign = destructRet( returnDecl, assign );
	697	assert(assign);
[490fb92e]	698	} else {
[0e707bd]	699	assign = new ast::CommaExpr(loc, assign, new ast::VariableExpr(loc, returnDecl ) );
	700	}
	701	// move env from appExpr to retExpr
	702	// std::swap( assign->env, appExpr->env );
	703	assign->env = appExpr->env;
	704	// actual env is handled by common routine that replaces WithTypeSubstitution
	705	return postvisit((const ast::Expr *)assign);
	706	} else {
	707	return postvisit((const ast::Expr *)appExpr);
	708	} // if
	709	}
[490fb92e]	710
[0e707bd]	711	const ast::StmtExpr * ResolveCopyCtors::previsit( const ast::StmtExpr * _stmtExpr ) {
	712	// function call temporaries should be placed at statement-level, rather than nested inside of a new statement expression,
	713	// since temporaries can be shared across sub-expressions, e.g.
	714	// [A, A] f(); // decl
	715	// g([A] x, [A] y); // decl
	716	// g(f()); // call
	717	// f is executed once, so the return temporary is shared across the tuple constructors for x and y.
	718	// Explicitly mutating children instead of mutating the inner compound statement forces the temporaries to be added
	719	// to the outer context, rather than inside of the statement expression.
	720
	721	// call the common routine that replaces WithTypeSubstitution
	722	previsit((const ast::Expr *) _stmtExpr);
	723
	724	visit_children = false;
	725	const CodeLocation loc = _stmtExpr->location;
	726
	727	assert( env );
	728
	729	symtab.enterScope();
	730	// visit all statements
	731	auto stmtExpr = mutate(_stmtExpr);
	732	auto mutStmts = mutate(stmtExpr->stmts.get());
	733
	734	auto & stmts = mutStmts->kids;
	735	for ( auto & stmt : stmts ) {
	736	stmt = stmt->accept( *visitor );
	737	} // for
	738	stmtExpr->stmts = mutStmts;
	739	symtab.leaveScope();
	740
	741	assert( stmtExpr->result );
	742	// const ast::Type * result = stmtExpr->result;
	743	if ( ! stmtExpr->result->isVoid() ) {
	744	static UniqueName retNamer("_tmp_stmtexpr_ret");
	745
	746	// result = result->clone();
	747	auto result = env->apply( stmtExpr->result.get() ).node;
	748	if ( ! InitTweak::isConstructable( result ) ) {
	749	// delete result;
	750	return stmtExpr;
	751	}
	752	auto mutResult = result.get_and_mutate();
	753	mutResult->set_const(false);
[490fb92e]	754
[0e707bd]	755	// create variable that will hold the result of the stmt expr
	756	auto ret = new ast::ObjectDecl(loc, retNamer.newName(), mutResult, nullptr );
	757	stmtsToAddBefore.push_back( new ast::DeclStmt(loc, ret ) );
	758
	759	assertf(
	760	stmtExpr->resultExpr,
	761	"Statement-Expression should have a resulting expression at %s:%d",
	762	stmtExpr->location.filename.c_str(),
	763	stmtExpr->location.first_line
	764	);
	765
	766	const ast::ExprStmt * last = stmtExpr->resultExpr;
	767	// xxx - if this is non-unique, need to copy while making resultExpr ref
	768	assertf(last->unique(), "attempt to modify weakly shared statement");
	769	auto mutLast = mutate(last);
	770	// above assertion means in-place mutation is OK
	771	try {
	772	mutLast->expr = makeCtorDtor( "?{}", ret, mutLast->expr );
	773	} catch(...) {
	774	std::cerr << "*CFA internal error: ";
	775	std::cerr << "can't resolve implicit constructor";
	776	std::cerr << " at " << stmtExpr->location.filename;
	777	std::cerr << ":" << stmtExpr->location.first_line << std::endl;
	778
	779	abort();
	780	}
[490fb92e]	781
[0e707bd]	782	// add destructors after current statement
	783	stmtsToAddAfter.push_back( new ast::ExprStmt(loc, makeCtorDtor( "^?{}", ret ) ) );
[490fb92e]	784
[0e707bd]	785	// must have a non-empty body, otherwise it wouldn't have a result
	786	assert( ! stmts.empty() );
[490fb92e]	787
[0e707bd]	788	// if there is a return decl, add a use as the last statement; will not have return decl on non-constructable returns
	789	stmts.push_back( new ast::ExprStmt(loc, new ast::VariableExpr(loc, ret ) ) );
	790	} // if
[490fb92e]	791
[0e707bd]	792	assert( stmtExpr->returnDecls.empty() );
	793	assert( stmtExpr->dtors.empty() );
[490fb92e]	794
[0e707bd]	795	return stmtExpr;
	796	}
[490fb92e]	797
[0e707bd]	798	// to prevent warnings ('_unq0' may be used uninitialized in this function),
	799	// insert an appropriate zero initializer for UniqueExpr temporaries.
	800	ast::Init * makeInit( const ast::Type * t ) {
	801	if ( auto inst = dynamic_cast< const ast::StructInstType * >( t ) ) {
	802	// initizer for empty struct must be empty
	803	if ( inst->base->members.empty() ) return new ast::ListInit({}, {});
	804	} else if ( auto inst = dynamic_cast< const ast::UnionInstType * >( t ) ) {
	805	// initizer for empty union must be empty
	806	if ( inst->base->members.empty() ) return new ast::ListInit({}, {});
[490fb92e]	807	}
	808
[0e707bd]	809	return new ast::ListInit( {}, { new ast::SingleInit( {}, ast::ConstantExpr::from_int({}, 0) ) } );
	810	}
[490fb92e]	811
[0e707bd]	812	const ast::UniqueExpr * ResolveCopyCtors::previsit( const ast::UniqueExpr * unqExpr ) {
	813	visit_children = false;
	814	// xxx - hack to prevent double-handling of unique exprs, otherwise too many temporary variables and destructors are generated
	815	static std::unordered_map< int, const ast::UniqueExpr * > unqMap;
	816	auto mutExpr = mutate(unqExpr);
	817	if ( ! unqMap.count( unqExpr->id ) ) {
	818	// resolve expr and find its
	819
	820	auto impCpCtorExpr = mutExpr->expr.as<ast::ImplicitCopyCtorExpr>();
	821	// PassVisitor<ResolveCopyCtors> fixer;
	822
	823	mutExpr->expr = mutExpr->expr->accept( *visitor );
	824	// it should never be necessary to wrap a void-returning expression in a UniqueExpr - if this assumption changes, this needs to be rethought
	825	assert( unqExpr->result );
	826	if ( impCpCtorExpr ) {
	827	auto comma = unqExpr->expr.strict_as<ast::CommaExpr>();
	828	auto var = comma->arg2.strict_as<ast::VariableExpr>();
	829	// note the variable used as the result from the call
	830	mutExpr->var = var;
[490fb92e]	831	} else {
[0e707bd]	832	// expr isn't a call expr, so create a new temporary variable to use to hold the value of the unique expression
	833	mutExpr->object = new ast::ObjectDecl( mutExpr->location, toString("_unq", mutExpr->id), mutExpr->result, makeInit( mutExpr->result ) );
	834	mutExpr->var = new ast::VariableExpr( mutExpr->location, mutExpr->object );
[490fb92e]	835	}
[0e707bd]	836
	837	// stmtsToAddBefore.splice( stmtsToAddBefore.end(), fixer.pass.stmtsToAddBefore );
	838	// stmtsToAddAfter.splice( stmtsToAddAfter.end(), fixer.pass.stmtsToAddAfter );
	839	unqMap[mutExpr->id] = mutExpr;
	840	} else {
	841	// take data from other UniqueExpr to ensure consistency
	842	// delete unqExpr->get_expr();
	843	mutExpr->expr = unqMap[mutExpr->id]->expr;
	844	// delete unqExpr->result;
	845	mutExpr->result = mutExpr->expr->result;
[490fb92e]	846	}
[0e707bd]	847	return mutExpr;
	848	}
[490fb92e]	849
[0e707bd]	850	const ast::DeclWithType * FixInit::postvisit( const ast::ObjectDecl *_objDecl ) {
	851	const CodeLocation loc = _objDecl->location;
[490fb92e]	852
[0e707bd]	853	// since this removes the init field from objDecl, it must occur after children are mutated (i.e. postvisit)
	854	if ( ast::ptr<ast::ConstructorInit> ctorInit = _objDecl->init.as<ast::ConstructorInit>() ) {
	855	auto objDecl = mutate(_objDecl);
[490fb92e]	856
[0e707bd]	857	// could this be non-unique?
	858	if (objDecl != _objDecl) {
	859	std::cerr << "FixInit: non-unique object decl " << objDecl->location << objDecl->name << std::endl;
	860	}
	861	// a decision should have been made by the resolver, so ctor and init are not both non-NULL
	862	assert( ! ctorInit->ctor \|\| ! ctorInit->init );
	863	if ( const ast::Stmt * ctor = ctorInit->ctor ) {
	864	if ( objDecl->storage.is_static ) {
[7d651a6]	865	addDataSectionAttribute(objDecl);
[0e707bd]	866	// originally wanted to take advantage of gcc nested functions, but
	867	// we get memory errors with this approach. To remedy this, the static
	868	// variable is hoisted when the destructor needs to be called.
	869	//
	870	// generate:
	871	// static T __objName_static_varN;
	872	// void __objName_dtor_atexitN() {
	873	// __dtor__...;
	874	// }
	875	// int f(...) {
	876	// ...
	877	// static bool __objName_uninitialized = true;
	878	// if (__objName_uninitialized) {
	879	// __ctor(__objName);
	880	// __objName_uninitialized = false;
	881	// atexit(__objName_dtor_atexitN);
	882	// }
	883	// ...
	884	// }
	885
	886	static UniqueName dtorCallerNamer( "_dtor_atexit" );
	887
	888	// static bool __objName_uninitialized = true
	889	auto boolType = new ast::BasicType( ast::BasicType::Kind::Bool );
	890	auto boolInitExpr = new ast::SingleInit(loc, ast::ConstantExpr::from_int(loc, 1 ) );
	891	auto isUninitializedVar = new ast::ObjectDecl(loc, objDecl->mangleName + "_uninitialized", boolType, boolInitExpr, ast::Storage::Static, ast::Linkage::Cforall);
	892	isUninitializedVar->fixUniqueId();
	893
	894	// __objName_uninitialized = false;
	895	auto setTrue = new ast::UntypedExpr(loc, new ast::NameExpr(loc, "?=?" ) );
	896	setTrue->args.push_back( new ast::VariableExpr(loc, isUninitializedVar ) );
	897	setTrue->args.push_back( ast::ConstantExpr::from_int(loc, 0 ) );
	898
	899	// generate body of if
	900	auto initStmts = new ast::CompoundStmt(loc);
	901	auto & body = initStmts->kids;
	902	body.push_back( ctor );
	903	body.push_back( new ast::ExprStmt(loc, setTrue ) );
	904
	905	// put it all together
	906	auto ifStmt = new ast::IfStmt(loc, new ast::VariableExpr(loc, isUninitializedVar ), initStmts, 0 );
	907	stmtsToAddAfter.push_back( new ast::DeclStmt(loc, isUninitializedVar ) );
	908	stmtsToAddAfter.push_back( ifStmt );
	909
	910	const ast::Stmt * dtor = ctorInit->dtor;
	911
	912	// these should be automatically managed once reassigned
	913	// objDecl->set_init( nullptr );
	914	// ctorInit->set_ctor( nullptr );
	915	// ctorInit->set_dtor( nullptr );
	916	if ( dtor ) {
	917	// if the object has a non-trivial destructor, have to
	918	// hoist it and the object into the global space and
	919	// call the destructor function with atexit.
	920
	921	// Statement * dtorStmt = dtor->clone();
	922
	923	// void __objName_dtor_atexitN(...) {...}
	924	ast::FunctionDecl * dtorCaller = new ast::FunctionDecl(loc, objDecl->mangleName + dtorCallerNamer.newName(), {}, {}, {}, new ast::CompoundStmt(loc, {dtor}), ast::Storage::Static, ast::Linkage::C );
	925	dtorCaller->fixUniqueId();
	926	// dtorCaller->stmts->push_back( dtor );
	927
	928	// atexit(dtor_atexit);
	929	auto callAtexit = new ast::UntypedExpr(loc, new ast::NameExpr(loc, "atexit" ) );
	930	callAtexit->args.push_back( new ast::VariableExpr(loc, dtorCaller ) );
	931
	932	body.push_back( new ast::ExprStmt(loc, callAtexit ) );
	933
	934	// hoist variable and dtor caller decls to list of decls that will be added into global scope
	935	staticDtorDecls.push_back( objDecl );
	936	staticDtorDecls.push_back( dtorCaller );
	937
	938	// need to rename object uniquely since it now appears
	939	// at global scope and there could be multiple function-scoped
	940	// static variables with the same name in different functions.
	941	// Note: it isn't sufficient to modify only the mangleName, because
	942	// then subsequent Indexer passes can choke on seeing the object's name
	943	// if another object has the same name and type. An unfortunate side-effect
	944	// of renaming the object is that subsequent NameExprs may fail to resolve,
	945	// but there shouldn't be any remaining past this point.
	946	static UniqueName staticNamer( "_static_var" );
	947	objDecl->name = objDecl->name + staticNamer.newName();
	948	objDecl->mangleName = Mangle::mangle( objDecl );
[7d651a6]	949	objDecl->init = nullptr;
[0e707bd]	950
	951	// xxx - temporary hack: need to return a declaration, but want to hoist the current object out of this scope
	952	// create a new object which is never used
	953	static UniqueName dummyNamer( "_dummy" );
	954	auto dummy = new ast::ObjectDecl(loc, dummyNamer.newName(), new ast::PointerType(new ast::VoidType()), nullptr, ast::Storage::Static, ast::Linkage::Cforall, 0, { new ast::Attribute("unused") } );
	955	// delete ctorInit;
	956	return dummy;
[490fb92e]	957	} else {
[0e707bd]	958	objDecl->init = nullptr;
	959	return objDecl;
	960	}
[490fb92e]	961	} else {
[0e707bd]	962	auto implicit = strict_dynamic_cast< const ast::ImplicitCtorDtorStmt * > ( ctor );
	963	auto ctorStmt = implicit->callStmt.as<ast::ExprStmt>();
	964	const ast::ApplicationExpr * ctorCall = nullptr;
	965	if ( ctorStmt && (ctorCall = isIntrinsicCallExpr( ctorStmt->expr )) && ctorCall->args.size() == 2 ) {
	966	// clean up intrinsic copy constructor calls by making them into SingleInits
	967	const ast::Expr * ctorArg = ctorCall->args.back();
	968	// ctorCall should be gone afterwards
	969	auto mutArg = mutate(ctorArg);
	970	mutArg->env = ctorCall->env;
	971	// std::swap( ctorArg->env, ctorCall->env );
	972	objDecl->init = new ast::SingleInit(loc, mutArg );
	973
	974	// ctorCall->args.pop_back();
	975	} else {
	976	stmtsToAddAfter.push_back( ctor );
	977	objDecl->init = nullptr;
	978	// ctorInit->ctor = nullptr;
	979	}
[490fb92e]	980
[0e707bd]	981	const ast::Stmt * dtor = ctorInit->dtor;
	982	if ( dtor ) {
	983	auto implicit = strict_dynamic_cast< const ast::ImplicitCtorDtorStmt * >( dtor );
	984	const ast::Stmt * dtorStmt = implicit->callStmt;
	985
	986	// don't need to call intrinsic dtor, because it does nothing, but
	987	// non-intrinsic dtors must be called
	988	if ( ! isIntrinsicSingleArgCallStmt( dtorStmt ) ) {
	989	// set dtor location to the object's location for error messages
	990	auto dtorFunc = getDtorFunc( objDecl, dtorStmt, stmtsToAddBefore );
	991	objDecl->attributes.push_back( new ast::Attribute( "cleanup", { new ast::VariableExpr(loc, dtorFunc ) } ) );
	992	// ctorInit->dtor = nullptr;
	993	} // if
	994	}
	995	} // if
	996	} else if ( const ast::Init * init = ctorInit->init ) {
	997	objDecl->init = init;
	998	// ctorInit->init = nullptr;
	999	} else {
	1000	// no constructor and no initializer, which is okay
	1001	objDecl->init = nullptr;
[490fb92e]	1002	} // if
[0e707bd]	1003	// delete ctorInit;
	1004	return objDecl;
	1005	} // if
	1006	return _objDecl;
	1007	}
[490fb92e]	1008
[0e707bd]	1009	void ObjDeclCollector::previsit( const ast::CompoundStmt * ) {
	1010	GuardValue( curVars );
	1011	}
[490fb92e]	1012
[0e707bd]	1013	void ObjDeclCollector::previsit( const ast::DeclStmt * stmt ) {
	1014	// keep track of all variables currently in scope
	1015	if ( auto objDecl = stmt->decl.as<ast::ObjectDecl>() ) {
	1016	curVars.push_back( objDecl );
	1017	} // if
	1018	}
[490fb92e]	1019
[0e707bd]	1020	void LabelFinder::previsit( const ast::Stmt * stmt ) {
	1021	// for each label, remember the variables in scope at that label.
	1022	for ( auto l : stmt->labels ) {
	1023	vars[l] = curVars;
	1024	} // for
	1025	}
[490fb92e]	1026
[0e707bd]	1027	void LabelFinder::previsit( const ast::CompoundStmt * stmt ) {
	1028	previsit( (const ast::Stmt *) stmt );
	1029	Parent::previsit( stmt );
	1030	}
[490fb92e]	1031
[0e707bd]	1032	void LabelFinder::previsit( const ast::DeclStmt * stmt ) {
	1033	previsit( (const ast::Stmt *)stmt );
	1034	Parent::previsit( stmt );
	1035	}
[490fb92e]	1036
	1037
[0e707bd]	1038	void InsertDtors::previsit( const ast::FunctionDecl * funcDecl ) {
	1039	// each function needs to have its own set of labels
	1040	GuardValue( labelVars );
	1041	labelVars.clear();
	1042	// LabelFinder does not recurse into FunctionDecl, so need to visit
	1043	// its children manually.
	1044	if (funcDecl->type) funcDecl->type->accept(finder);
	1045	// maybeAccept( funcDecl->type, finder );
	1046	if (funcDecl->stmts) funcDecl->stmts->accept(finder) ;
[490fb92e]	1047
[0e707bd]	1048	// all labels for this function have been collected, insert destructors as appropriate via implicit recursion.
	1049	}
[490fb92e]	1050
[0e707bd]	1051	// Handle break/continue/goto in the same manner as C++. Basic idea: any objects that are in scope at the
	1052	// BranchStmt but not at the labelled (target) statement must be destructed. If there are any objects in scope
	1053	// at the target location but not at the BranchStmt then those objects would be uninitialized so notify the user
	1054	// of the error. See C++ Reference 6.6 Jump Statements for details.
	1055	void InsertDtors::handleGoto( const ast::BranchStmt * stmt ) {
	1056	// can't do anything for computed goto
	1057	if ( stmt->computedTarget ) return;
	1058
	1059	assertf( stmt->target.name != "", "BranchStmt missing a label: %s", toString( stmt ).c_str() );
	1060	// S_L = lvars = set of objects in scope at label definition
	1061	// S_G = curVars = set of objects in scope at goto statement
	1062	ObjectSet & lvars = labelVars[ stmt->target ];
	1063
	1064	DTOR_PRINT(
	1065	std::cerr << "at goto label: " << stmt->target.name << std::endl;
	1066	std::cerr << "S_G = " << printSet( curVars ) << std::endl;
	1067	std::cerr << "S_L = " << printSet( lvars ) << std::endl;
	1068	)
	1069
	1070
	1071	// std::set_difference requires that the inputs be sorted.
	1072	lvars.sort();
	1073	curVars.sort();
	1074
	1075	ObjectSet diff;
	1076	// S_L-S_G results in set of objects whose construction is skipped - it's an error if this set is non-empty
	1077	std::set_difference( lvars.begin(), lvars.end(), curVars.begin(), curVars.end(), std::inserter( diff, diff.begin() ) );
	1078	DTOR_PRINT(
	1079	std::cerr << "S_L-S_G = " << printSet( diff ) << std::endl;
	1080	)
	1081	if ( ! diff.empty() ) {
	1082	SemanticError( stmt, std::string("jump to label '") + stmt->target.name + "' crosses initialization of " + (*diff.begin())->name + " " );
	1083	} // if
	1084	}
[490fb92e]	1085
[0e707bd]	1086	void InsertDtors::previsit( const ast::BranchStmt * stmt ) {
	1087	switch( stmt->kind ) {
	1088	case ast::BranchStmt::Continue:
	1089	case ast::BranchStmt::Break:
	1090	// could optimize the break/continue case, because the S_L-S_G check is unnecessary (this set should
	1091	// always be empty), but it serves as a small sanity check.
	1092	case ast::BranchStmt::Goto:
	1093	handleGoto( stmt );
	1094	break;
	1095	default:
	1096	assert( false );
	1097	} // switch
	1098	}
[490fb92e]	1099
[0e707bd]	1100	bool checkWarnings( const ast::FunctionDecl * funcDecl ) {
	1101	// only check for warnings if the current function is a user-defined
	1102	// constructor or destructor
	1103	if ( ! funcDecl ) return false;
	1104	if ( ! funcDecl->stmts ) return false;
	1105	return CodeGen::isCtorDtor( funcDecl->name ) && ! funcDecl->linkage.is_overrideable;
	1106	}
[490fb92e]	1107
[0e707bd]	1108	void GenStructMemberCalls::previsit( const ast::FunctionDecl * funcDecl ) {
	1109	GuardValue( function );
	1110	GuardValue( unhandled );
	1111	GuardValue( usedUninit );
	1112	GuardValue( thisParam );
	1113	GuardValue( isCtor );
	1114	GuardValue( structDecl );
	1115	errors = SemanticErrorException(); // clear previous errors
	1116
	1117	// need to start with fresh sets
	1118	unhandled.clear();
	1119	usedUninit.clear();
	1120
	1121	function = mutate(funcDecl);
	1122	// could this be non-unique?
	1123	if (function != funcDecl) {
	1124	std::cerr << "GenStructMemberCalls: non-unique FunctionDecl " << funcDecl->location << funcDecl->name << std::endl;
	1125	}
[490fb92e]	1126
[0e707bd]	1127	isCtor = CodeGen::isConstructor( function->name );
	1128	if ( checkWarnings( function ) ) {
	1129	// const ast::FunctionType * type = function->type;
	1130	// assert( ! type->params.empty() );
	1131	thisParam = function->params.front().strict_as<ast::ObjectDecl>();
	1132	auto thisType = getPointerBase( thisParam->get_type() );
	1133	auto structType = dynamic_cast< const ast::StructInstType * >( thisType );
	1134	if ( structType ) {
	1135	structDecl = structType->base;
	1136	for ( auto & member : structDecl->members ) {
	1137	if ( auto field = member.as<ast::ObjectDecl>() ) {
	1138	// record all of the struct type's members that need to be constructed or
	1139	// destructed by the end of the function
	1140	unhandled.insert( field );
[490fb92e]	1141	}
	1142	}
	1143	}
	1144	}
[0e707bd]	1145	}
[490fb92e]	1146
[0e707bd]	1147	const ast::DeclWithType * GenStructMemberCalls::postvisit( const ast::FunctionDecl * funcDecl ) {
	1148	// remove the unhandled objects from usedUninit, because a call is inserted
	1149	// to handle them - only objects that are later constructed are used uninitialized.
	1150	std::map< const ast::DeclWithType *, CodeLocation > diff;
	1151	// need the comparator since usedUninit and unhandled have different types
	1152	struct comp_t {
	1153	typedef decltype(usedUninit)::value_type usedUninit_t;
	1154	typedef decltype(unhandled)::value_type unhandled_t;
	1155	bool operator()(usedUninit_t x, unhandled_t y) { return x.first < y; }
	1156	bool operator()(unhandled_t x, usedUninit_t y) { return x < y.first; }
	1157	} comp;
	1158	std::set_difference( usedUninit.begin(), usedUninit.end(), unhandled.begin(), unhandled.end(), std::inserter( diff, diff.begin() ), comp );
	1159	for ( auto p : diff ) {
	1160	auto member = p.first;
	1161	auto loc = p.second;
	1162	// xxx - make error message better by also tracking the location that the object is constructed at?
	1163	emit( loc, "in ", function->name, ", field ", member->name, " used before being constructed" );
	1164	}
[490fb92e]	1165
[0e707bd]	1166	const CodeLocation loc = funcDecl->location;
	1167
	1168	if ( ! unhandled.empty() ) {
	1169	auto mutStmts = function->stmts.get_and_mutate();
	1170	// need to explicitly re-add function parameters to the indexer in order to resolve copy constructors
	1171	auto guard = makeFuncGuard( [this]() { symtab.enterScope(); }, [this]() { symtab.leaveScope(); } );
	1172	symtab.addFunction( function );
	1173
	1174	// need to iterate through members in reverse in order for
	1175	// ctor/dtor statements to come out in the right order
	1176	for ( auto & member : reverseIterate( structDecl->members ) ) {
	1177	auto field = member.as<ast::ObjectDecl>();
	1178	// skip non-DWT members
	1179	if ( ! field ) continue;
	1180	// skip non-constructable members
	1181	if ( ! tryConstruct( field ) ) continue;
	1182	// skip handled members
	1183	if ( ! unhandled.count( field ) ) continue;
	1184
	1185	// insert and resolve default/copy constructor call for each field that's unhandled
	1186	// std::list< const ast::Stmt * > stmt;
	1187	ast::Expr * arg2 = nullptr;
	1188	if ( function->name == "?{}" && isCopyFunction( function ) ) {
	1189	// if copy ctor, need to pass second-param-of-this-function.field
	1190	// std::list< DeclarationWithType * > & params = function->get_functionType()->get_parameters();
	1191	assert( function->params.size() == 2 );
	1192	arg2 = new ast::MemberExpr(funcDecl->location, field, new ast::VariableExpr(funcDecl->location, function->params.back() ) );
	1193	}
	1194	InitExpander_new srcParam( arg2 );
	1195	// cast away reference type and construct field.
	1196	ast::Expr * thisExpr = new ast::CastExpr(funcDecl->location, new ast::VariableExpr(funcDecl->location, thisParam ), thisParam->get_type()->stripReferences());
	1197	ast::Expr * memberDest = new ast::MemberExpr(funcDecl->location, field, thisExpr );
	1198	ast::ptr<ast::Stmt> callStmt = SymTab::genImplicitCall( srcParam, memberDest, loc, function->name, field, static_cast<SymTab::LoopDirection>(isCtor) );
	1199
	1200	if ( callStmt ) {
	1201	// auto & callStmt = stmt.front();
	1202
	1203	try {
	1204	callStmt = callStmt->accept( *visitor );
	1205	if ( isCtor ) {
	1206	mutStmts->push_front( callStmt );
	1207	} else { // TODO: don't generate destructor function/object for intrinsic calls
	1208	// destructor statements should be added at the end
	1209	// function->get_statements()->push_back( callStmt );
	1210
	1211	// Optimization: do not need to call intrinsic destructors on members
	1212	if ( isIntrinsicSingleArgCallStmt( callStmt ) ) continue;
	1213
	1214	// __Destructor _dtor0 = { (void )&b.a1, (void ()(void *)_destroy_A };
	1215	std::list< ast::ptr<ast::Stmt> > stmtsToAdd;
	1216
	1217	static UniqueName memberDtorNamer = { "__memberDtor" };
	1218	assertf( Validate::dtorStruct, "builtin __Destructor not found." );
	1219	assertf( Validate::dtorStructDestroy, "builtin __destroy_Destructor not found." );
	1220
	1221	ast::Expr * thisExpr = new ast::CastExpr( new ast::AddressExpr( new ast::VariableExpr(loc, thisParam ) ), new ast::PointerType( new ast::VoidType(), ast::CV::Qualifiers() ) );
	1222	ast::Expr * dtorExpr = new ast::VariableExpr(loc, getDtorFunc( thisParam, callStmt, stmtsToAdd ) );
	1223
	1224	// cast destructor pointer to void ()(void ), to silence GCC incompatible pointer warnings
	1225	auto dtorFtype = new ast::FunctionType();
	1226	dtorFtype->params.emplace_back( new ast::PointerType( new ast::VoidType() ) );
	1227	auto dtorType = new ast::PointerType( dtorFtype );
	1228
	1229	auto destructor = new ast::ObjectDecl(loc, memberDtorNamer.newName(), new ast::StructInstType( ast::dtorStruct ), new ast::ListInit(loc, { new ast::SingleInit(loc, thisExpr ), new ast::SingleInit(loc, new ast::CastExpr( dtorExpr, dtorType ) ) } ) );
	1230	destructor->attributes.push_back( new ast::Attribute( "cleanup", { new ast::VariableExpr({}, ast::dtorStructDestroy ) } ) );
	1231	mutStmts->push_front( new ast::DeclStmt(loc, destructor ) );
	1232	mutStmts->kids.splice( mutStmts->kids.begin(), stmtsToAdd );
[490fb92e]	1233	}
[0e707bd]	1234	} catch ( SemanticErrorException & error ) {
	1235	emit( funcDecl->location, "in ", function->name , ", field ", field->name, " not explicitly ", isCtor ? "constructed" : "destructed", " and no ", isCtor ? "default constructor" : "destructor", " found" );
[490fb92e]	1236	}
	1237	}
	1238	}
[0e707bd]	1239	function->stmts = mutStmts;
[490fb92e]	1240	}
[0e707bd]	1241	if (! errors.isEmpty()) {
	1242	throw errors;
[490fb92e]	1243	}
[0e707bd]	1244	// return funcDecl;
	1245	return function;
	1246	}
[490fb92e]	1247
[0e707bd]	1248	/// true if expr is effectively just the 'this' parameter
	1249	bool isThisExpression( const ast::Expr * expr, const ast::DeclWithType * thisParam ) {
	1250	// TODO: there are more complicated ways to pass 'this' to a constructor, e.g. &, &, etc.
	1251	if ( auto varExpr = dynamic_cast< const ast::VariableExpr * >( expr ) ) {
	1252	return varExpr->var == thisParam;
	1253	} else if ( auto castExpr = dynamic_cast< const ast::CastExpr * > ( expr ) ) {
	1254	return isThisExpression( castExpr->arg, thisParam );
[490fb92e]	1255	}
[0e707bd]	1256	return false;
	1257	}
[490fb92e]	1258
[0e707bd]	1259	/// returns a MemberExpr if expr is effectively just member access on the 'this' parameter, else nullptr
	1260	const ast::MemberExpr * isThisMemberExpr( const ast::Expr * expr, const ast::DeclWithType * thisParam ) {
	1261	if ( auto memberExpr = dynamic_cast< const ast::MemberExpr * >( expr ) ) {
	1262	if ( isThisExpression( memberExpr->aggregate, thisParam ) ) {
	1263	return memberExpr;
[490fb92e]	1264	}
[0e707bd]	1265	} else if ( auto castExpr = dynamic_cast< const ast::CastExpr * >( expr ) ) {
	1266	return isThisMemberExpr( castExpr->arg, thisParam );
[490fb92e]	1267	}
[0e707bd]	1268	return nullptr;
	1269	}
[490fb92e]	1270
[0e707bd]	1271	void GenStructMemberCalls::previsit( const ast::ApplicationExpr * appExpr ) {
	1272	if ( ! checkWarnings( function ) ) {
	1273	visit_children = false;
	1274	return;
	1275	}
[490fb92e]	1276
[0e707bd]	1277	std::string fname = getFunctionName( appExpr );
	1278	if ( fname == function->name ) {
	1279	// call to same kind of function
	1280	const ast::Expr * firstParam = appExpr->args.front();
	1281
	1282	if ( isThisExpression( firstParam, thisParam ) ) {
	1283	// if calling another constructor on thisParam, assume that function handles
	1284	// all members - if it doesn't a warning will appear in that function.
	1285	unhandled.clear();
	1286	} else if ( auto memberExpr = isThisMemberExpr( firstParam, thisParam ) ) {
	1287	// if first parameter is a member expression on the this parameter,
	1288	// then remove the member from unhandled set.
	1289	if ( isThisExpression( memberExpr->aggregate, thisParam ) ) {
	1290	unhandled.erase( memberExpr->member );
[490fb92e]	1291	}
	1292	}
	1293	}
[0e707bd]	1294	}
[490fb92e]	1295
[0e707bd]	1296	void GenStructMemberCalls::previsit( const ast::MemberExpr * memberExpr ) {
	1297	if ( ! checkWarnings( function ) \|\| ! isCtor ) {
	1298	visit_children = false;
	1299	return;
[490fb92e]	1300	}
	1301
[0e707bd]	1302	if ( isThisExpression( memberExpr->aggregate, thisParam ) ) {
	1303	if ( unhandled.count( memberExpr->member ) ) {
	1304	// emit a warning because a member was used before it was constructed
	1305	usedUninit.insert( { memberExpr->member, memberExpr->location } );
	1306	}
[490fb92e]	1307	}
[0e707bd]	1308	}
[490fb92e]	1309
[0e707bd]	1310	template< typename Visitor, typename... Params >
	1311	void error( Visitor & v, CodeLocation loc, const Params &... params ) {
	1312	SemanticErrorException err( loc, toString( params... ) );
	1313	v.errors.append( err );
	1314	}
[490fb92e]	1315
[0e707bd]	1316	template< typename... Params >
	1317	void GenStructMemberCalls::emit( CodeLocation loc, const Params &... params ) {
	1318	// toggle warnings vs. errors here.
	1319	// warn( params... );
	1320	error( *this, loc, params... );
	1321	}
[490fb92e]	1322
[0e707bd]	1323	const ast::Expr * GenStructMemberCalls::postvisit( const ast::UntypedExpr * untypedExpr ) {
	1324	// Expression * newExpr = untypedExpr;
	1325	// xxx - functions returning ast::ptr seems wrong...
	1326	auto res = ResolvExpr::findVoidExpression( untypedExpr, symtab );
	1327	return res.release();
	1328	// return newExpr;
	1329	}
[490fb92e]	1330
[0e707bd]	1331	void InsertImplicitCalls::previsit(const ast::UniqueExpr * unqExpr) {
	1332	if (visitedIds.count(unqExpr->id)) visit_children = false;
	1333	else visitedIds.insert(unqExpr->id);
	1334	}
	1335
	1336	const ast::Expr * FixCtorExprs::postvisit( const ast::ConstructorExpr * ctorExpr ) {
	1337	const CodeLocation loc = ctorExpr->location;
	1338	static UniqueName tempNamer( "_tmp_ctor_expr" );
	1339	// xxx - is the size check necessary?
	1340	assert( ctorExpr->result && ctorExpr->result->size() == 1 );
	1341
	1342	// xxx - this can be TupleAssignExpr now. Need to properly handle this case.
	1343	// take possession of expr and env
	1344	ast::ptr<ast::ApplicationExpr> callExpr = ctorExpr->callExpr.strict_as<ast::ApplicationExpr>();
	1345	ast::ptr<ast::TypeSubstitution> env = ctorExpr->env;
	1346	// ctorExpr->set_callExpr( nullptr );
	1347	// ctorExpr->set_env( nullptr );
	1348
	1349	// xxx - ideally we would reuse the temporary generated from the copy constructor passes from within firstArg if it exists and not generate a temporary if it's unnecessary.
	1350	auto tmp = new ast::ObjectDecl(loc, tempNamer.newName(), callExpr->args.front()->result );
	1351	declsToAddBefore.push_back( tmp );
	1352	// delete ctorExpr;
	1353
	1354	// build assignment and replace constructor's first argument with new temporary
	1355	auto mutCallExpr = callExpr.get_and_mutate();
	1356	const ast::Expr * firstArg = callExpr->args.front();
	1357	ast::Expr * assign = new ast::UntypedExpr(loc, new ast::NameExpr(loc, "?=?" ), { new ast::AddressExpr(loc, new ast::VariableExpr(loc, tmp ) ), new ast::AddressExpr( firstArg ) } );
	1358	firstArg = new ast::VariableExpr(loc, tmp );
	1359	mutCallExpr->args.front() = firstArg;
	1360
	1361	// resolve assignment and dispose of new env
	1362	auto resolved = ResolvExpr::findVoidExpression( assign, symtab );
	1363	auto mut = resolved.get_and_mutate();
	1364	assertf(resolved.get() == mut, "newly resolved expression must be unique");
	1365	mut->env = nullptr;
	1366
	1367	// for constructor expr:
	1368	// T x;
	1369	// x{};
	1370	// results in:
	1371	// T x;
	1372	// T & tmp;
	1373	// &tmp = &x, ?{}(tmp), tmp
	1374	ast::CommaExpr * commaExpr = new ast::CommaExpr(loc, resolved, new ast::CommaExpr(loc, mutCallExpr, new ast::VariableExpr(loc, tmp ) ) );
	1375	commaExpr->env = env;
	1376	return commaExpr;
	1377	}
	1378	} // namespace
[490fb92e]	1379	} // namespace InitTweak
	1380
	1381	// Local Variables: //
	1382	// tab-width: 4 //
	1383	// mode: c++ //
	1384	// compile-command: "make install" //
	1385	// End: //

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