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source: src/InitTweak/FixInit.cc@ 8d70648

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Last change on this file since 8d70648 was 933f32f, checked in by Thierry Delisle <tdelisle@…>, 6 years ago
Merge branch 'master' into cleanup-dtors
Property mode set to `100644`
File size: 54.5 KB

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1	//
2	// Cforall Version 1.0.0 Copyright (C) 2015 University of Waterloo
3	//
4	// The contents of this file are covered under the licence agreement in the
5	// file "LICENCE" distributed with Cforall.
6	//
7	// FixInit.cc --
8	//
9	// Author : Rob Schluntz
10	// Created On : Wed Jan 13 16:29:30 2016
11	// Last Modified By : Peter A. Buhr
12	// Last Modified On : Wed Feb 13 18:15:56 2019
13	// Update Count : 76
14	//
15	#include "FixInit.h"
16
17	#include <stddef.h> // for NULL
18	#include <algorithm> // for set_difference, copy_if
19	#include <cassert> // for assert, strict_dynamic_cast
20	#include <iostream> // for operator<<, ostream, basic_ost...
21	#include <iterator> // for insert_iterator, back_inserter
22	#include <list> // for _List_iterator, list, list<>::...
23	#include <map> // for _Rb_tree_iterator, _Rb_tree_co...
24	#include <memory> // for allocator_traits<>::value_type
25	#include <set> // for set, set<>::value_type
26	#include <unordered_map> // for unordered_map, unordered_map<>...
27	#include <unordered_set> // for unordered_set
28	#include <utility> // for pair
29
30	#include "CodeGen/GenType.h" // for genPrettyType
31	#include "CodeGen/OperatorTable.h"
32	#include "Common/PassVisitor.h" // for PassVisitor, WithStmtsToAdd
33	#include "Common/SemanticError.h" // for SemanticError
34	#include "Common/UniqueName.h" // for UniqueName
35	#include "Common/utility.h" // for CodeLocation, ValueGuard, toSt...
36	#include "FixGlobalInit.h" // for fixGlobalInit
37	#include "GenInit.h" // for genCtorDtor
38	#include "GenPoly/GenPoly.h" // for getFunctionType
39	#include "InitTweak.h" // for getFunctionName, getCallArg
40	#include "Parser/LinkageSpec.h" // for C, Spec, Cforall, isBuiltin
41	#include "ResolvExpr/Resolver.h" // for findVoidExpression
42	#include "ResolvExpr/typeops.h" // for typesCompatible
43	#include "SymTab/Autogen.h" // for genImplicitCall
44	#include "SymTab/Indexer.h" // for Indexer
45	#include "SymTab/Mangler.h" // for Mangler
46	#include "SynTree/Attribute.h" // for Attribute
47	#include "SynTree/Constant.h" // for Constant
48	#include "SynTree/Declaration.h" // for ObjectDecl, FunctionDecl, Decl...
49	#include "SynTree/Expression.h" // for UniqueExpr, VariableExpr, Unty...
50	#include "SynTree/Initializer.h" // for ConstructorInit, SingleInit
51	#include "SynTree/Label.h" // for Label, operator<
52	#include "SynTree/Mutator.h" // for mutateAll, Mutator, maybeMutate
53	#include "SynTree/Statement.h" // for ExprStmt, CompoundStmt, Branch...
54	#include "SynTree/Type.h" // for Type, Type::StorageClasses
55	#include "SynTree/TypeSubstitution.h" // for TypeSubstitution, operator<<
56	#include "SynTree/DeclReplacer.h" // for DeclReplacer
57	#include "SynTree/Visitor.h" // for acceptAll, maybeAccept
58	#include "Validate/FindSpecialDecls.h" // for dtorStmt, dtorStructDestroy
59
60	bool ctordtorp = false; // print all debug
61	bool ctorp = false; // print ctor debug
62	bool cpctorp = false; // print copy ctor debug
63	bool dtorp = false; // print dtor debug
64	#define PRINT( text ) if ( ctordtorp ) { text }
65	#define CP_CTOR_PRINT( text ) if ( ctordtorp \|\| cpctorp ) { text }
66	#define DTOR_PRINT( text ) if ( ctordtorp \|\| dtorp ) { text }
67
68	namespace InitTweak {
69	namespace {
70	struct SelfAssignChecker {
71	void previsit( ApplicationExpr * appExpr );
72	};
73
74	struct InsertImplicitCalls : public WithConstTypeSubstitution {
75	/// wrap function application expressions as ImplicitCopyCtorExpr nodes so that it is easy to identify which
76	/// function calls need their parameters to be copy constructed
77	static void insert( std::list< Declaration * > & translationUnit );
78
79	Expression * postmutate( ApplicationExpr * appExpr );
80	};
81
82	struct ResolveCopyCtors final : public WithStmtsToAdd, public WithIndexer, public WithShortCircuiting, public WithTypeSubstitution, public WithVisitorRef<ResolveCopyCtors> {
83	/// generate temporary ObjectDecls for each argument and return value of each ImplicitCopyCtorExpr,
84	/// generate/resolve copy construction expressions for each, and generate/resolve destructors for both
85	/// arguments and return value temporaries
86	static void resolveImplicitCalls( std::list< Declaration * > & translationUnit );
87
88	Expression * postmutate( ImplicitCopyCtorExpr * impCpCtorExpr );
89	void premutate( StmtExpr * stmtExpr );
90	void premutate( UniqueExpr * unqExpr );
91
92	/// create and resolve ctor/dtor expression: fname(var, [cpArg])
93	Expression * makeCtorDtor( const std::string & fname, ObjectDecl * var, Expression * cpArg = NULL );
94	/// true if type does not need to be copy constructed to ensure correctness
95	bool skipCopyConstruct( Type * type );
96	void copyConstructArg( Expression & arg, ImplicitCopyCtorExpr impCpCtorExpr, Type * formal );
97	void destructRet( ObjectDecl * ret, ImplicitCopyCtorExpr * impCpCtorExpr, Expression *& arg );
98	};
99
100	/// collects constructed object decls - used as a base class
101	struct ObjDeclCollector : public WithGuards, public WithShortCircuiting {
102	// use ordered data structure to maintain ordering for set_difference and for consistent error messages
103	typedef std::list< ObjectDecl * > ObjectSet;
104	void previsit( CompoundStmt *compoundStmt );
105	void previsit( DeclStmt *stmt );
106
107	// don't go into other functions
108	void previsit( FunctionDecl * ) { visit_children = false; }
109
110	protected:
111	ObjectSet curVars;
112	};
113
114	// debug
115	template<typename ObjectSet>
116	struct PrintSet {
117	PrintSet( const ObjectSet & objs ) : objs( objs ) {}
118	const ObjectSet & objs;
119	};
120	template<typename ObjectSet>
121	PrintSet<ObjectSet> printSet( const ObjectSet & objs ) { return PrintSet<ObjectSet>( objs ); }
122	template<typename ObjectSet>
123	std::ostream & operator<<( std::ostream & out, const PrintSet<ObjectSet> & set) {
124	out << "{ ";
125	for ( ObjectDecl * obj : set.objs ) {
126	out << obj->get_name() << ", " ;
127	} // for
128	out << " }";
129	return out;
130	}
131
132	struct LabelFinder final : public ObjDeclCollector {
133	typedef std::map< Label, ObjectSet > LabelMap;
134	// map of Label -> live variables at that label
135	LabelMap vars;
136
137	typedef ObjDeclCollector Parent;
138	using Parent::previsit;
139	void previsit( Statement * stmt );
140
141	void previsit( CompoundStmt *compoundStmt );
142	void previsit( DeclStmt *stmt );
143	};
144
145	struct InsertDtors final : public ObjDeclCollector, public WithStmtsToAdd {
146	/// insert destructor calls at the appropriate places. must happen before CtorInit nodes are removed
147	/// (currently by FixInit)
148	static void insert( std::list< Declaration * > & translationUnit );
149
150	typedef std::list< ObjectDecl * > OrderedDecls;
151	typedef std::list< OrderedDecls > OrderedDeclsStack;
152
153	InsertDtors( PassVisitor<LabelFinder> & finder ) : finder( finder ), labelVars( finder.pass.vars ) {}
154
155	typedef ObjDeclCollector Parent;
156	using Parent::previsit;
157
158	void previsit( FunctionDecl * funcDecl );
159
160	void previsit( BranchStmt * stmt );
161	private:
162	void handleGoto( BranchStmt * stmt );
163
164	PassVisitor<LabelFinder> & finder;
165	LabelFinder::LabelMap & labelVars;
166	OrderedDeclsStack reverseDeclOrder;
167	};
168
169	class FixInit : public WithStmtsToAdd {
170	public:
171	/// expand each object declaration to use its constructor after it is declared.
172	static void fixInitializers( std::list< Declaration * > &translationUnit );
173
174	DeclarationWithType * postmutate( ObjectDecl *objDecl );
175
176	std::list< Declaration * > staticDtorDecls;
177	};
178
179	struct GenStructMemberCalls final : public WithGuards, public WithShortCircuiting, public WithIndexer, public WithVisitorRef<GenStructMemberCalls> {
180	/// generate default/copy ctor and dtor calls for user-defined struct ctor/dtors
181	/// for any member that is missing a corresponding ctor/dtor call.
182	/// error if a member is used before constructed
183	static void generate( std::list< Declaration * > & translationUnit );
184
185	void premutate( FunctionDecl * funcDecl );
186	DeclarationWithType * postmutate( FunctionDecl * funcDecl );
187
188	void premutate( MemberExpr * memberExpr );
189	void premutate( ApplicationExpr * appExpr );
190
191	/// Note: this post mutate used to be in a separate visitor. If this pass breaks, one place to examine is whether it is
192	/// okay for this part of the recursion to occur alongside the rest.
193	Expression * postmutate( UntypedExpr * expr );
194
195	SemanticErrorException errors;
196	private:
197	template< typename... Params >
198	void emit( CodeLocation, const Params &... params );
199
200	FunctionDecl * function = nullptr;
201	std::set< DeclarationWithType * > unhandled;
202	std::map< DeclarationWithType *, CodeLocation > usedUninit;
203	ObjectDecl * thisParam = nullptr;
204	bool isCtor = false; // true if current function is a constructor
205	StructDecl * structDecl = nullptr;
206	};
207
208	struct FixCtorExprs final : public WithDeclsToAdd, public WithIndexer {
209	/// expands ConstructorExpr nodes into comma expressions, using a temporary for the first argument
210	static void fix( std::list< Declaration * > & translationUnit );
211
212	Expression * postmutate( ConstructorExpr * ctorExpr );
213	};
214
215	struct SplitExpressions : public WithShortCircuiting, public WithTypeSubstitution, public WithStmtsToAdd {
216	/// add CompoundStmts around top-level expressions so that temporaries are destroyed in the correct places.
217	static void split( std::list< Declaration * > &translationUnit );
218
219	Statement * postmutate( ExprStmt * stmt );
220	void premutate( TupleAssignExpr * expr );
221	};
222	} // namespace
223
224	void fix( std::list< Declaration * > & translationUnit, bool inLibrary ) {
225	PassVisitor<SelfAssignChecker> checker;
226	acceptAll( translationUnit, checker );
227
228	// fixes ConstructorInit for global variables. should happen before fixInitializers.
229	InitTweak::fixGlobalInit( translationUnit, inLibrary );
230
231	// must happen before ResolveCopyCtors because temporaries have to be inserted into the correct scope
232	SplitExpressions::split( translationUnit );
233
234	InsertImplicitCalls::insert( translationUnit );
235
236	// Needs to happen before ResolveCopyCtors, because argument/return temporaries should not be considered in
237	// error checking branch statements
238	InsertDtors::insert( translationUnit );
239
240	ResolveCopyCtors::resolveImplicitCalls( translationUnit );
241	FixInit::fixInitializers( translationUnit );
242	GenStructMemberCalls::generate( translationUnit );
243
244	// Needs to happen after GenStructMemberCalls, since otherwise member constructors exprs
245	// don't have the correct form, and a member can be constructed more than once.
246	FixCtorExprs::fix( translationUnit );
247	}
248
249	namespace {
250	/// find and return the destructor used in `input`. If `input` is not a simple destructor call, generate a thunk
251	/// that wraps the destructor, insert it into `stmtsToAdd` and return the new function declaration
252	DeclarationWithType * getDtorFunc( ObjectDecl * objDecl, Statement * input, std::list< Statement * > & stmtsToAdd ) {
253	// unwrap implicit statement wrapper
254	Statement * dtor = input;
255	if ( ImplicitCtorDtorStmt * implicit = dynamic_cast< ImplicitCtorDtorStmt * >( input ) ) {
256	// dtor = implicit->callStmt;
257	// implicit->callStmt = nullptr;
258	}
259	assert( dtor );
260	std::list< Expression * > matches;
261	collectCtorDtorCalls( dtor, matches );
262
263	if ( dynamic_cast< ExprStmt * >( dtor ) ) {
264	// only one destructor call in the expression
265	if ( matches.size() == 1 ) {
266	DeclarationWithType * func = getFunction( matches.front() );
267	assertf( func, "getFunction failed to find function in %s", toString( matches.front() ).c_str() );
268
269	// cleanup argument must be a function, not an object (including function pointer)
270	if ( FunctionDecl * dtorFunc = dynamic_cast< FunctionDecl * > ( func ) ) {
271	if ( dtorFunc->type->forall.empty() ) {
272	// simple case where the destructor is a monomorphic function call - can simply
273	// use that function as the cleanup function.
274	delete dtor;
275	return func;
276	}
277	}
278	}
279	}
280
281	// otherwise the cleanup is more complicated - need to build a single argument cleanup function that
282	// wraps the more complicated code.
283	static UniqueName dtorNamer( "__cleanup_dtor" );
284	FunctionDecl * dtorFunc = FunctionDecl::newFunction( dtorNamer.newName(), SymTab::genDefaultType( objDecl->type->stripReferences(), false ), new CompoundStmt() );
285	stmtsToAdd.push_back( new DeclStmt( dtorFunc ) );
286
287	// the original code contains uses of objDecl - replace them with the newly generated 'this' parameter.
288	ObjectDecl * thisParam = getParamThis( dtorFunc->type );
289	Expression * replacement = new VariableExpr( thisParam );
290
291	Type * base = replacement->result->stripReferences();
292	if ( dynamic_cast< ArrayType * >( base ) \|\| dynamic_cast< TupleType * > ( base ) ) {
293	// need to cast away reference for array types, since the destructor is generated without the reference type,
294	// and for tuple types since tuple indexing does not work directly on a reference
295	replacement = new CastExpr( replacement, base->clone() );
296	}
297	DeclReplacer::replace( dtor, { std::make_pair( objDecl, replacement ) } );
298	dtorFunc->statements->push_back( strict_dynamic_cast<Statement *>( dtor ) );
299
300	return dtorFunc;
301	}
302
303	void SplitExpressions::split( std::list< Declaration * > & translationUnit ) {
304	PassVisitor<SplitExpressions> splitter;
305	mutateAll( translationUnit, splitter );
306	}
307
308	void InsertImplicitCalls::insert( std::list< Declaration * > & translationUnit ) {
309	PassVisitor<InsertImplicitCalls> inserter;
310	mutateAll( translationUnit, inserter );
311	}
312
313	void ResolveCopyCtors::resolveImplicitCalls( std::list< Declaration * > & translationUnit ) {
314	PassVisitor<ResolveCopyCtors> resolver;
315	mutateAll( translationUnit, resolver );
316	}
317
318	void FixInit::fixInitializers( std::list< Declaration * > & translationUnit ) {
319	PassVisitor<FixInit> fixer;
320
321	// can't use mutateAll, because need to insert declarations at top-level
322	// can't use DeclMutator, because sometimes need to insert IfStmt, etc.
323	SemanticErrorException errors;
324	for ( std::list< Declaration * >::iterator i = translationUnit.begin(); i != translationUnit.end(); ++i ) {
325	try {
326	maybeMutate( *i, fixer );
327	translationUnit.splice( i, fixer.pass.staticDtorDecls );
328	} catch( SemanticErrorException &e ) {
329	errors.append( e );
330	} // try
331	} // for
332	if ( ! errors.isEmpty() ) {
333	throw errors;
334	} // if
335	}
336
337	void InsertDtors::insert( std::list< Declaration * > & translationUnit ) {
338	PassVisitor<LabelFinder> finder;
339	PassVisitor<InsertDtors> inserter( finder );
340	acceptAll( translationUnit, inserter );
341	}
342
343	void GenStructMemberCalls::generate( std::list< Declaration * > & translationUnit ) {
344	PassVisitor<GenStructMemberCalls> warner;
345	mutateAll( translationUnit, warner );
346	}
347
348	void FixCtorExprs::fix( std::list< Declaration * > & translationUnit ) {
349	PassVisitor<FixCtorExprs> fixer;
350	mutateAll( translationUnit, fixer );
351	}
352
353	Statement * SplitExpressions::postmutate( ExprStmt * stmt ) {
354	// wrap each top-level ExprStmt in a block so that destructors for argument and return temporaries are destroyed
355	// in the correct places
356	CompoundStmt * ret = new CompoundStmt( { stmt } );
357	return ret;
358	}
359
360	void SplitExpressions::premutate( TupleAssignExpr * ) {
361	// don't do this within TupleAssignExpr, since it is already broken up into multiple expressions
362	visit_children = false;
363	}
364
365	// Relatively simple structural comparison for expressions, needed to determine
366	// if two expressions are "the same" (used to determine if self assignment occurs)
367	struct StructuralChecker {
368	Expression * stripCasts( Expression * expr ) {
369	// this might be too permissive. It's possible that only particular casts are relevant.
370	while ( CastExpr * cast = dynamic_cast< CastExpr * >( expr ) ) {
371	expr = cast->arg;
372	}
373	return expr;
374	}
375
376	void previsit( Expression * ) {
377	// anything else does not qualify
378	isSimilar = false;
379	}
380
381	template<typename T>
382	T * cast( Expression * node ) {
383	// all expressions need to ignore casts, so this bit has been factored out
384	return dynamic_cast< T * >( stripCasts( node ) );
385	}
386
387	// ignore casts
388	void previsit( CastExpr * ) {}
389
390	void previsit( MemberExpr * memExpr ) {
391	if ( MemberExpr * otherMember = cast< MemberExpr >( other ) ) {
392	if ( otherMember->member == memExpr->member ) {
393	other = otherMember->aggregate;
394	return;
395	}
396	}
397	isSimilar = false;
398	}
399
400	void previsit( VariableExpr * varExpr ) {
401	if ( VariableExpr * otherVar = cast< VariableExpr >( other ) ) {
402	if ( otherVar->var == varExpr->var ) {
403	return;
404	}
405	}
406	isSimilar = false;
407	}
408
409	void previsit( AddressExpr * ) {
410	if ( AddressExpr * addrExpr = cast< AddressExpr >( other ) ) {
411	other = addrExpr->arg;
412	return;
413	}
414	isSimilar = false;
415	}
416
417	Expression * other = nullptr;
418	bool isSimilar = true;
419	};
420
421	bool structurallySimilar( Expression * e1, Expression * e2 ) {
422	PassVisitor<StructuralChecker> checker;
423	checker.pass.other = e2;
424	e1->accept( checker );
425	return checker.pass.isSimilar;
426	}
427
428	void SelfAssignChecker::previsit( ApplicationExpr * appExpr ) {
429	DeclarationWithType * function = getFunction( appExpr );
430	if ( function->name == "?=?" ) { // doesn't use isAssignment, because ?+=?, etc. should not count as self-assignment
431	if ( appExpr->args.size() == 2 ) {
432	// check for structural similarity (same variable use, ignore casts, etc. - but does not look too deeply, anything looking like a function is off limits)
433	if ( structurallySimilar( appExpr->args.front(), appExpr->args.back() ) ) {
434	SemanticWarning( appExpr->location, Warning::SelfAssignment, toCString( appExpr->args.front() ) );
435	}
436	}
437	}
438	}
439
440	Expression * InsertImplicitCalls::postmutate( ApplicationExpr * appExpr ) {
441	if ( VariableExpr * function = dynamic_cast< VariableExpr * > ( appExpr->get_function() ) ) {
442	if ( function->var->linkage.is_builtin ) {
443	// optimization: don't need to copy construct in order to call intrinsic functions
444	return appExpr;
445	} else if ( DeclarationWithType * funcDecl = dynamic_cast< DeclarationWithType * > ( function->get_var() ) ) {
446	FunctionType * ftype = dynamic_cast< FunctionType * >( GenPoly::getFunctionType( funcDecl->get_type() ) );
447	assertf( ftype, "Function call without function type: %s", toString( funcDecl ).c_str() );
448	if ( CodeGen::isConstructor( funcDecl->get_name() ) && ftype->parameters.size() == 2 ) {
449	Type * t1 = getPointerBase( ftype->parameters.front()->get_type() );
450	Type * t2 = ftype->parameters.back()->get_type();
451	assert( t1 );
452
453	if ( ResolvExpr::typesCompatible( t1, t2, SymTab::Indexer() ) ) {
454	// optimization: don't need to copy construct in order to call a copy constructor
455	return appExpr;
456	} // if
457	} else if ( CodeGen::isDestructor( funcDecl->get_name() ) ) {
458	// correctness: never copy construct arguments to a destructor
459	return appExpr;
460	} // if
461	} // if
462	} // if
463	CP_CTOR_PRINT( std::cerr << "InsertImplicitCalls: adding a wrapper " << appExpr << std::endl; )
464
465	// wrap each function call so that it is easy to identify nodes that have to be copy constructed
466	ImplicitCopyCtorExpr * expr = new ImplicitCopyCtorExpr( appExpr );
467	// Move the type substitution to the new top-level, if it is attached to the appExpr.
468	// Ensure it is not deleted with the ImplicitCopyCtorExpr by removing it before deletion.
469	// The substitution is needed to obtain the type of temporary variables so that copy constructor
470	// calls can be resolved.
471	assert( env );
472	std::swap( expr->env, appExpr->env );
473	return expr;
474	}
475
476	bool ResolveCopyCtors::skipCopyConstruct( Type * type ) { return ! isConstructable( type ); }
477
478	Expression * ResolveCopyCtors::makeCtorDtor( const std::string & fname, ObjectDecl * var, Expression * cpArg ) {
479	assert( var );
480	// arrays are not copy constructed, so this should always be an ExprStmt
481	ImplicitCtorDtorStmt * stmt = genCtorDtor( fname, var, cpArg );
482	assertf( stmt, "ResolveCopyCtors: genCtorDtor returned nullptr: %s / %s / %s", fname.c_str(), toString( var ).c_str(), toString( cpArg ).c_str() );
483	ExprStmt * exprStmt = strict_dynamic_cast< ExprStmt * >( stmt->callStmt );
484	Expression * resolved = exprStmt->expr;
485	exprStmt->expr = nullptr; // take ownership of expr
486
487	// resolve copy constructor
488	// should only be one alternative for copy ctor and dtor expressions, since all arguments are fixed
489	// (VariableExpr and already resolved expression)
490	CP_CTOR_PRINT( std::cerr << "ResolvingCtorDtor " << resolved << std::endl; )
491	ResolvExpr::findVoidExpression( resolved, indexer );
492	assert( resolved );
493	if ( resolved->env ) {
494	// Extract useful information and discard new environments. Keeping them causes problems in PolyMutator passes.
495	env->add( *resolved->env );
496	delete resolved->env;
497	resolved->env = nullptr;
498	} // if
499	delete stmt;
500	if ( TupleAssignExpr * assign = dynamic_cast< TupleAssignExpr * >( resolved ) ) {
501	// fix newly generated StmtExpr
502	premutate( assign->stmtExpr );
503	}
504	return resolved;
505	}
506
507	void ResolveCopyCtors::copyConstructArg( Expression & arg, ImplicitCopyCtorExpr impCpCtorExpr, Type * formal ) {
508	static UniqueName tempNamer("_tmp_cp");
509	assert( env );
510	CP_CTOR_PRINT( std::cerr << "Type Substitution: " << *env << std::endl; )
511	assert( arg->result );
512	Type * result = arg->result;
513	if ( skipCopyConstruct( result ) ) return; // skip certain non-copyable types
514
515	// type may involve type variables, so apply type substitution to get temporary variable's actual type,
516	// since result type may not be substituted (e.g., if the type does not appear in the parameter list)
517	// Use applyFree so that types bound in function pointers are not substituted, e.g. in forall(dtype T) void (*)(T).
518	env->applyFree( result );
519	ObjectDecl * tmp = ObjectDecl::newObject( "__tmp", result, nullptr );
520	tmp->get_type()->set_const( false );
521
522	// create and resolve copy constructor
523	CP_CTOR_PRINT( std::cerr << "makeCtorDtor for an argument" << std::endl; )
524	Expression * cpCtor = makeCtorDtor( "?{}", tmp, arg );
525
526	if ( ApplicationExpr * appExpr = dynamic_cast< ApplicationExpr * >( cpCtor ) ) {
527	// if the chosen constructor is intrinsic, the copy is unnecessary, so
528	// don't create the temporary and don't call the copy constructor
529	VariableExpr * function = strict_dynamic_cast< VariableExpr * >( appExpr->function );
530	if ( function->var->linkage == LinkageSpec::Intrinsic ) {
531	// arguments that need to be boxed need a temporary regardless of whether the copy constructor is intrinsic,
532	// so that the object isn't changed inside of the polymorphic function
533	if ( ! GenPoly::needsBoxing( formal, result, impCpCtorExpr->callExpr, env ) ) return;
534	// xxx - leaking tmp
535	}
536	}
537
538	// set a unique name for the temporary once it's certain the call is necessary
539	tmp->name = tempNamer.newName();
540
541	// replace argument to function call with temporary
542	stmtsToAddBefore.push_back( new DeclStmt( tmp ) );
543	arg = cpCtor;
544	destructRet( tmp, impCpCtorExpr, arg );
545
546	// impCpCtorExpr->dtors.push_front( makeCtorDtor( "^?{}", tmp ) );
547	}
548
549	void ResolveCopyCtors::destructRet( ObjectDecl * ret, ImplicitCopyCtorExpr * /impCpCtorExpr/, Expression *& arg ) {
550	// TODO: refactor code for generating cleanup attribute, since it's common and reused in ~3-4 places
551	// check for existing cleanup attribute before adding another(?)
552	// need to add __Destructor for _tmp_cp variables as well
553
554	assertf( Validate::dtorStruct && Validate::dtorStruct->members.size() == 2, "Destructor generation requires __Destructor definition." );
555	assertf( Validate::dtorStructDestroy, "Destructor generation requires __destroy_Destructor." );
556
557	// generate a __Destructor for ret that calls the destructor
558	Expression * dtor = makeCtorDtor( "^?{}", ret );
559
560	// if the chosen destructor is intrinsic, elide the generated dtor handler
561	if ( arg && isIntrinsicCallExpr( dtor ) ) {
562	arg = new CommaExpr( arg, new VariableExpr( ret ) );
563	return;
564	}
565
566	if ( ! dtor->env ) dtor->env = maybeClone( env );
567	DeclarationWithType * dtorFunc = getDtorFunc( ret, new ExprStmt( dtor ), stmtsToAddBefore );
568
569	StructInstType * dtorStructType = new StructInstType( Type::Qualifiers(), Validate::dtorStruct );
570	dtorStructType->parameters.push_back( new TypeExpr( new VoidType( Type::Qualifiers() ) ) );
571
572	// cast destructor pointer to void ()(void ), to silence GCC incompatible pointer warnings
573	FunctionType * dtorFtype = new FunctionType( Type::Qualifiers(), false );
574	dtorFtype->parameters.push_back( ObjectDecl::newObject( "", new PointerType( Type::Qualifiers(), new VoidType( Type::Qualifiers() ) ), nullptr ) );
575	Type * dtorType = new PointerType( Type::Qualifiers(), dtorFtype );
576
577	static UniqueName namer( "_ret_dtor" );
578	ObjectDecl * retDtor = ObjectDecl::newObject( namer.newName(), dtorStructType, new ListInit( { new SingleInit( new ConstantExpr( Constant::null() ) ), new SingleInit( new CastExpr( new VariableExpr( dtorFunc ), dtorType ) ) } ) );
579	retDtor->attributes.push_back( new Attribute( "cleanup", { new VariableExpr( Validate::dtorStructDestroy ) } ) );
580	stmtsToAddBefore.push_back( new DeclStmt( retDtor ) );
581
582	if ( arg ) {
583	Expression * member = new MemberExpr( strict_dynamic_cast<DeclarationWithType *>( Validate::dtorStruct->members.front() ), new VariableExpr( retDtor ) );
584	Expression * object = new CastExpr( new AddressExpr( new VariableExpr( ret ) ), new PointerType( Type::Qualifiers(), new VoidType( Type::Qualifiers() ) ) );
585	Expression * assign = createBitwiseAssignment( member, object );
586	arg = new CommaExpr( new CommaExpr( arg, assign ), new VariableExpr( ret ) );
587	}
588
589	// impCpCtorExpr->get_dtors().push_front( makeCtorDtor( "^?{}", ret ) );
590	}
591
592	Expression * ResolveCopyCtors::postmutate( ImplicitCopyCtorExpr *impCpCtorExpr ) {
593	CP_CTOR_PRINT( std::cerr << "ResolveCopyCtors: " << impCpCtorExpr << std::endl; )
594
595	ApplicationExpr * appExpr = impCpCtorExpr->callExpr;
596	ObjectDecl * returnDecl = nullptr;
597
598	// take each argument and attempt to copy construct it.
599	FunctionType * ftype = GenPoly::getFunctionType( appExpr->function->result );
600	assert( ftype );
601	auto & params = ftype->parameters;
602	auto iter = params.begin();
603	for ( Expression * & arg : appExpr->args ) {
604	Type * formal = nullptr;
605	if ( iter != params.end() ) { // does not copy construct C-style variadic arguments
606	DeclarationWithType * param = *iter++;
607	formal = param->get_type();
608	}
609
610	copyConstructArg( arg, impCpCtorExpr, formal );
611	} // for
612
613	// each return value from the call needs to be connected with an ObjectDecl at the call site, which is
614	// initialized with the return value and is destructed later
615	// xxx - handle named return values?
616	Type * result = appExpr->result;
617	if ( ! result->isVoid() ) {
618	static UniqueName retNamer("_tmp_cp_ret");
619	result = result->clone();
620	env->apply( result );
621	ObjectDecl * ret = ObjectDecl::newObject( retNamer.newName(), result, nullptr );
622	ret->type->set_const( false );
623	returnDecl = ret;
624	stmtsToAddBefore.push_back( new DeclStmt( ret ) );
625	CP_CTOR_PRINT( std::cerr << "makeCtorDtor for a return" << std::endl; )
626	} // for
627	CP_CTOR_PRINT( std::cerr << "after Resolving: " << impCpCtorExpr << std::endl; )
628	// ------------------------------------------------------
629
630	CP_CTOR_PRINT( std::cerr << "Coming out the back..." << impCpCtorExpr << std::endl; )
631
632	// detach fields from wrapper node so that it can be deleted without deleting too much
633	impCpCtorExpr->callExpr = nullptr;
634	std::swap( impCpCtorExpr->env, appExpr->env );
635	assert( impCpCtorExpr->env == nullptr );
636	delete impCpCtorExpr;
637
638	if ( returnDecl ) {
639	Expression * assign = createBitwiseAssignment( new VariableExpr( returnDecl ), appExpr );
640	if ( ! dynamic_cast< ReferenceType * >( result ) ) {
641	// destructing reference returns is bad because it can cause multiple destructor calls to the same object - the returned object is not a temporary
642	destructRet( returnDecl, impCpCtorExpr, assign );
643	} else {
644	assign = new CommaExpr( assign, new VariableExpr( returnDecl ) );
645	}
646	// move env from appExpr to retExpr
647	std::swap( assign->env, appExpr->env );
648	return assign;
649	} else {
650	return appExpr;
651	} // if
652	}
653
654	void ResolveCopyCtors::premutate( StmtExpr * stmtExpr ) {
655	// function call temporaries should be placed at statement-level, rather than nested inside of a new statement expression,
656	// since temporaries can be shared across sub-expressions, e.g.
657	// [A, A] f();
658	// g([A] x, [A] y);
659	// g(f());
660	// f is executed once, so the return temporary is shared across the tuple constructors for x and y.
661	// Explicitly mutating children instead of mutating the inner compound statement forces the temporaries to be added
662	// to the outer context, rather than inside of the statement expression.
663	visit_children = false;
664
665	assert( env );
666
667	// visit all statements
668	std::list< Statement * > & stmts = stmtExpr->statements->get_kids();
669	for ( Statement *& stmt : stmts ) {
670	stmt = stmt->acceptMutator( *visitor );
671	} // for
672
673	assert( stmtExpr->result );
674	Type * result = stmtExpr->result;
675	if ( ! result->isVoid() ) {
676	static UniqueName retNamer("_tmp_stmtexpr_ret");
677
678	result = result->clone();
679	env->apply( result );
680	if ( ! InitTweak::isConstructable( result ) ) {
681	delete result;
682	return;
683	}
684
685	// create variable that will hold the result of the stmt expr
686	ObjectDecl * ret = ObjectDecl::newObject( retNamer.newName(), result, nullptr );
687	ret->type->set_const( false );
688	stmtsToAddBefore.push_back( new DeclStmt( ret ) );
689
690	// must have a non-empty body, otherwise it wouldn't have a result
691	CompoundStmt * body = stmtExpr->statements;
692	assert( ! body->kids.empty() );
693	// must be an ExprStmt, otherwise it wouldn't have a result
694	ExprStmt * last = strict_dynamic_cast< ExprStmt * >( body->kids.back() );
695	last->expr = makeCtorDtor( "?{}", ret, last->expr );
696
697	// add destructors after current statement
698	stmtsToAddAfter.push_back( new ExprStmt( makeCtorDtor( "^?{}", ret ) ) );
699
700	// must have a non-empty body, otherwise it wouldn't have a result
701	assert( ! stmts.empty() );
702
703	// if there is a return decl, add a use as the last statement; will not have return decl on non-constructable returns
704	stmts.push_back( new ExprStmt( new VariableExpr( ret ) ) );
705	} // if
706
707	assert( stmtExpr->returnDecls.empty() );
708	assert( stmtExpr->dtors.empty() );
709	}
710
711	// to prevent warnings (‘_unq0’ may be used uninitialized in this function),
712	// insert an appropriate zero initializer for UniqueExpr temporaries.
713	Initializer * makeInit( Type * t ) {
714	if ( StructInstType * inst = dynamic_cast< StructInstType * >( t ) ) {
715	// initizer for empty struct must be empty
716	if ( inst->baseStruct->members.empty() ) return new ListInit({});
717	} else if ( UnionInstType * inst = dynamic_cast< UnionInstType * >( t ) ) {
718	// initizer for empty union must be empty
719	if ( inst->baseUnion->members.empty() ) return new ListInit({});
720	}
721
722	return new ListInit( { new SingleInit( new ConstantExpr( Constant::from_int( 0 ) ) ) } );
723	}
724
725	void ResolveCopyCtors::premutate( UniqueExpr * unqExpr ) {
726	visit_children = false;
727	// xxx - hack to prevent double-handling of unique exprs, otherwise too many temporary variables and destructors are generated
728	static std::unordered_map< int, UniqueExpr * > unqMap;
729	if ( ! unqMap.count( unqExpr->get_id() ) ) {
730	// resolve expr and find its
731
732	ImplicitCopyCtorExpr * impCpCtorExpr = dynamic_cast< ImplicitCopyCtorExpr * >( unqExpr->expr );
733	// PassVisitor<ResolveCopyCtors> fixer;
734	unqExpr->expr = unqExpr->expr->acceptMutator( *visitor );
735
736	// it should never be necessary to wrap a void-returning expression in a UniqueExpr - if this assumption changes, this needs to be rethought
737	assert( unqExpr->result );
738	if ( impCpCtorExpr ) {
739	CommaExpr * comma = strict_dynamic_cast< CommaExpr * >( unqExpr->expr );
740	VariableExpr * var = strict_dynamic_cast<VariableExpr *>( comma->arg2 );
741	// note the variable used as the result from the call
742	unqExpr->var = var->clone();
743	} else {
744	// expr isn't a call expr, so create a new temporary variable to use to hold the value of the unique expression
745	unqExpr->object = ObjectDecl::newObject( toString("_unq", unqExpr->get_id()), unqExpr->result->clone(), makeInit( unqExpr->result ) );
746	unqExpr->var = new VariableExpr( unqExpr->object );
747	}
748
749	// stmtsToAddBefore.splice( stmtsToAddBefore.end(), fixer.pass.stmtsToAddBefore );
750	// stmtsToAddAfter.splice( stmtsToAddAfter.end(), fixer.pass.stmtsToAddAfter );
751	unqMap[unqExpr->get_id()] = unqExpr;
752	} else {
753	// take data from other UniqueExpr to ensure consistency
754	delete unqExpr->get_expr();
755	unqExpr->expr = unqMap[unqExpr->get_id()]->expr->clone();
756	delete unqExpr->result;
757	unqExpr->result = maybeClone( unqExpr->expr->result );
758	}
759	}
760
761	DeclarationWithType * FixInit::postmutate( ObjectDecl *objDecl ) {
762	// since this removes the init field from objDecl, it must occur after children are mutated (i.e. postmutate)
763	if ( ConstructorInit * ctorInit = dynamic_cast< ConstructorInit * >( objDecl->get_init() ) ) {
764	// a decision should have been made by the resolver, so ctor and init are not both non-NULL
765	assert( ! ctorInit->get_ctor() \|\| ! ctorInit->get_init() );
766	if ( Statement * ctor = ctorInit->get_ctor() ) {
767	if ( objDecl->get_storageClasses().is_static ) {
768	// originally wanted to take advantage of gcc nested functions, but
769	// we get memory errors with this approach. To remedy this, the static
770	// variable is hoisted when the destructor needs to be called.
771	//
772	// generate:
773	// static T __objName_static_varN;
774	// void __objName_dtor_atexitN() {
775	// __dtor__...;
776	// }
777	// int f(...) {
778	// ...
779	// static bool __objName_uninitialized = true;
780	// if (__objName_uninitialized) {
781	// __ctor(__objName);
782	// __objName_uninitialized = false;
783	// atexit(__objName_dtor_atexitN);
784	// }
785	// ...
786	// }
787
788	static UniqueName dtorCallerNamer( "_dtor_atexit" );
789
790	// static bool __objName_uninitialized = true
791	BasicType * boolType = new BasicType( Type::Qualifiers(), BasicType::Bool );
792	SingleInit * boolInitExpr = new SingleInit( new ConstantExpr( Constant::from_int( 1 ) ) );
793	ObjectDecl * isUninitializedVar = new ObjectDecl( objDecl->get_mangleName() + "_uninitialized", Type::StorageClasses( Type::Static ), LinkageSpec::Cforall, 0, boolType, boolInitExpr );
794	isUninitializedVar->fixUniqueId();
795
796	// __objName_uninitialized = false;
797	UntypedExpr * setTrue = new UntypedExpr( new NameExpr( "?=?" ) );
798	setTrue->get_args().push_back( new VariableExpr( isUninitializedVar ) );
799	setTrue->get_args().push_back( new ConstantExpr( Constant::from_int( 0 ) ) );
800
801	// generate body of if
802	CompoundStmt * initStmts = new CompoundStmt();
803	std::list< Statement * > & body = initStmts->get_kids();
804	body.push_back( ctor );
805	body.push_back( new ExprStmt( setTrue ) );
806
807	// put it all together
808	IfStmt * ifStmt = new IfStmt( new VariableExpr( isUninitializedVar ), initStmts, 0 );
809	stmtsToAddAfter.push_back( new DeclStmt( isUninitializedVar ) );
810	stmtsToAddAfter.push_back( ifStmt );
811
812	Statement * dtor = ctorInit->get_dtor();
813	objDecl->set_init( nullptr );
814	ctorInit->set_ctor( nullptr );
815	ctorInit->set_dtor( nullptr );
816	if ( dtor ) {
817	// if the object has a non-trivial destructor, have to
818	// hoist it and the object into the global space and
819	// call the destructor function with atexit.
820
821	Statement * dtorStmt = dtor->clone();
822
823	// void __objName_dtor_atexitN(...) {...}
824	FunctionDecl * dtorCaller = new FunctionDecl( objDecl->get_mangleName() + dtorCallerNamer.newName(), Type::StorageClasses( Type::Static ), LinkageSpec::C, new FunctionType( Type::Qualifiers(), false ), new CompoundStmt() );
825	dtorCaller->fixUniqueId();
826	dtorCaller->get_statements()->push_back( dtorStmt );
827
828	// atexit(dtor_atexit);
829	UntypedExpr * callAtexit = new UntypedExpr( new NameExpr( "atexit" ) );
830	callAtexit->get_args().push_back( new VariableExpr( dtorCaller ) );
831
832	body.push_back( new ExprStmt( callAtexit ) );
833
834	// hoist variable and dtor caller decls to list of decls that will be added into global scope
835	staticDtorDecls.push_back( objDecl );
836	staticDtorDecls.push_back( dtorCaller );
837
838	// need to rename object uniquely since it now appears
839	// at global scope and there could be multiple function-scoped
840	// static variables with the same name in different functions.
841	// Note: it isn't sufficient to modify only the mangleName, because
842	// then subsequent Indexer passes can choke on seeing the object's name
843	// if another object has the same name and type. An unfortunate side-effect
844	// of renaming the object is that subsequent NameExprs may fail to resolve,
845	// but there shouldn't be any remaining past this point.
846	static UniqueName staticNamer( "_static_var" );
847	objDecl->set_name( objDecl->get_name() + staticNamer.newName() );
848	objDecl->set_mangleName( SymTab::Mangler::mangle( objDecl ) );
849
850	// xxx - temporary hack: need to return a declaration, but want to hoist the current object out of this scope
851	// create a new object which is never used
852	static UniqueName dummyNamer( "_dummy" );
853	ObjectDecl * dummy = new ObjectDecl( dummyNamer.newName(), Type::StorageClasses( Type::Static ), LinkageSpec::Cforall, 0, new PointerType( Type::Qualifiers(), new VoidType( Type::Qualifiers() ) ), 0, std::list< Attribute * >{ new Attribute("unused") } );
854	delete ctorInit;
855	return dummy;
856	}
857	} else {
858	ImplicitCtorDtorStmt * implicit = strict_dynamic_cast< ImplicitCtorDtorStmt * > ( ctor );
859	ExprStmt * ctorStmt = dynamic_cast< ExprStmt * >( implicit->callStmt );
860	ApplicationExpr * ctorCall = nullptr;
861	if ( ctorStmt && (ctorCall = isIntrinsicCallExpr( ctorStmt->expr )) && ctorCall->get_args().size() == 2 ) {
862	// clean up intrinsic copy constructor calls by making them into SingleInits
863	Expression * ctorArg = ctorCall->args.back();
864	std::swap( ctorArg->env, ctorCall->env );
865	objDecl->init = new SingleInit( ctorArg );
866
867	ctorCall->args.pop_back();
868	} else {
869	stmtsToAddAfter.push_back( ctor );
870	objDecl->init = nullptr;
871	ctorInit->ctor = nullptr;
872	}
873
874	Statement * dtor = ctorInit->dtor;
875	if ( dtor ) {
876	ImplicitCtorDtorStmt * implicit = strict_dynamic_cast< ImplicitCtorDtorStmt * >( dtor );
877	Statement * dtorStmt = implicit->callStmt;
878
879	// don't need to call intrinsic dtor, because it does nothing, but
880	// non-intrinsic dtors must be called
881	if ( ! isIntrinsicSingleArgCallStmt( dtorStmt ) ) {
882	// set dtor location to the object's location for error messages
883	DeclarationWithType * dtorFunc = getDtorFunc( objDecl, dtorStmt, stmtsToAddBefore );
884	objDecl->attributes.push_back( new Attribute( "cleanup", { new VariableExpr( dtorFunc ) } ) );
885	ctorInit->dtor = nullptr;
886	} // if
887	}
888	} // if
889	} else if ( Initializer * init = ctorInit->init ) {
890	objDecl->init = init;
891	ctorInit->init = nullptr;
892	} else {
893	// no constructor and no initializer, which is okay
894	objDecl->init = nullptr;
895	} // if
896	delete ctorInit;
897	} // if
898	return objDecl;
899	}
900
901	void ObjDeclCollector::previsit( CompoundStmt * ) {
902	GuardValue( curVars );
903	}
904
905	void ObjDeclCollector::previsit( DeclStmt * stmt ) {
906	// keep track of all variables currently in scope
907	if ( ObjectDecl * objDecl = dynamic_cast< ObjectDecl * > ( stmt->get_decl() ) ) {
908	curVars.push_back( objDecl );
909	} // if
910	}
911
912	void LabelFinder::previsit( Statement * stmt ) {
913	// for each label, remember the variables in scope at that label.
914	for ( Label l : stmt->get_labels() ) {
915	vars[l] = curVars;
916	} // for
917	}
918
919	void LabelFinder::previsit( CompoundStmt * stmt ) {
920	previsit( (Statement *)stmt );
921	Parent::previsit( stmt );
922	}
923
924	void LabelFinder::previsit( DeclStmt * stmt ) {
925	previsit( (Statement *)stmt );
926	Parent::previsit( stmt );
927	}
928
929
930	void InsertDtors::previsit( FunctionDecl * funcDecl ) {
931	// each function needs to have its own set of labels
932	GuardValue( labelVars );
933	labelVars.clear();
934	// LabelFinder does not recurse into FunctionDecl, so need to visit
935	// its children manually.
936	maybeAccept( funcDecl->type, finder );
937	maybeAccept( funcDecl->statements, finder );
938
939	// all labels for this function have been collected, insert destructors as appropriate via implicit recursion.
940	}
941
942	// Handle break/continue/goto in the same manner as C++. Basic idea: any objects that are in scope at the
943	// BranchStmt but not at the labelled (target) statement must be destructed. If there are any objects in scope
944	// at the target location but not at the BranchStmt then those objects would be uninitialized so notify the user
945	// of the error. See C++ Reference 6.6 Jump Statements for details.
946	void InsertDtors::handleGoto( BranchStmt * stmt ) {
947	// can't do anything for computed goto
948	if ( stmt->computedTarget ) return;
949
950	assertf( stmt->get_target() != "", "BranchStmt missing a label: %s", toString( stmt ).c_str() );
951	// S_L = lvars = set of objects in scope at label definition
952	// S_G = curVars = set of objects in scope at goto statement
953	ObjectSet & lvars = labelVars[ stmt->get_target() ];
954
955	DTOR_PRINT(
956	std::cerr << "at goto label: " << stmt->get_target().get_name() << std::endl;
957	std::cerr << "S_G = " << printSet( curVars ) << std::endl;
958	std::cerr << "S_L = " << printSet( lvars ) << std::endl;
959	)
960
961	ObjectSet diff;
962	// S_L-S_G results in set of objects whose construction is skipped - it's an error if this set is non-empty
963	std::set_difference( lvars.begin(), lvars.end(), curVars.begin(), curVars.end(), std::inserter( diff, diff.begin() ) );
964	DTOR_PRINT(
965	std::cerr << "S_L-S_G = " << printSet( diff ) << std::endl;
966	)
967	if ( ! diff.empty() ) {
968	SemanticError( stmt, std::string("jump to label '") + stmt->get_target().get_name() + "' crosses initialization of " + (*diff.begin())->get_name() + " " );
969	} // if
970	}
971
972	void InsertDtors::previsit( BranchStmt * stmt ) {
973	switch( stmt->get_type() ) {
974	case BranchStmt::Continue:
975	case BranchStmt::Break:
976	// could optimize the break/continue case, because the S_L-S_G check is unnecessary (this set should
977	// always be empty), but it serves as a small sanity check.
978	case BranchStmt::Goto:
979	handleGoto( stmt );
980	break;
981	default:
982	assert( false );
983	} // switch
984	}
985
986	bool checkWarnings( FunctionDecl * funcDecl ) {
987	// only check for warnings if the current function is a user-defined
988	// constructor or destructor
989	if ( ! funcDecl ) return false;
990	if ( ! funcDecl->get_statements() ) return false;
991	return CodeGen::isCtorDtor( funcDecl->get_name() ) && ! LinkageSpec::isOverridable( funcDecl->get_linkage() );
992	}
993
994	void GenStructMemberCalls::premutate( FunctionDecl * funcDecl ) {
995	GuardValue( function );
996	GuardValue( unhandled );
997	GuardValue( usedUninit );
998	GuardValue( thisParam );
999	GuardValue( isCtor );
1000	GuardValue( structDecl );
1001	errors = SemanticErrorException(); // clear previous errors
1002
1003	// need to start with fresh sets
1004	unhandled.clear();
1005	usedUninit.clear();
1006
1007	function = funcDecl;
1008	isCtor = CodeGen::isConstructor( function->get_name() );
1009	if ( checkWarnings( function ) ) {
1010	FunctionType * type = function->get_functionType();
1011	assert( ! type->get_parameters().empty() );
1012	thisParam = strict_dynamic_cast< ObjectDecl * >( type->get_parameters().front() );
1013	Type * thisType = getPointerBase( thisParam->get_type() );
1014	StructInstType * structType = dynamic_cast< StructInstType * >( thisType );
1015	if ( structType ) {
1016	structDecl = structType->get_baseStruct();
1017	for ( Declaration * member : structDecl->get_members() ) {
1018	if ( ObjectDecl * field = dynamic_cast< ObjectDecl * >( member ) ) {
1019	// record all of the struct type's members that need to be constructed or
1020	// destructed by the end of the function
1021	unhandled.insert( field );
1022	}
1023	}
1024	}
1025	}
1026	}
1027
1028	DeclarationWithType * GenStructMemberCalls::postmutate( FunctionDecl * funcDecl ) {
1029	// remove the unhandled objects from usedUninit, because a call is inserted
1030	// to handle them - only objects that are later constructed are used uninitialized.
1031	std::map< DeclarationWithType *, CodeLocation > diff;
1032	// need the comparator since usedUninit and unhandled have different types
1033	struct comp_t {
1034	typedef decltype(usedUninit)::value_type usedUninit_t;
1035	typedef decltype(unhandled)::value_type unhandled_t;
1036	bool operator()(usedUninit_t x, unhandled_t y) { return x.first < y; }
1037	bool operator()(unhandled_t x, usedUninit_t y) { return x < y.first; }
1038	} comp;
1039	std::set_difference( usedUninit.begin(), usedUninit.end(), unhandled.begin(), unhandled.end(), std::inserter( diff, diff.begin() ), comp );
1040	for ( auto p : diff ) {
1041	DeclarationWithType * member = p.first;
1042	CodeLocation loc = p.second;
1043	// xxx - make error message better by also tracking the location that the object is constructed at?
1044	emit( loc, "in ", CodeGen::genPrettyType( function->get_functionType(), function->get_name() ), ", field ", member->get_name(), " used before being constructed" );
1045	}
1046
1047	if ( ! unhandled.empty() ) {
1048	// need to explicitly re-add function parameters to the indexer in order to resolve copy constructors
1049	auto guard = makeFuncGuard( [this]() { indexer.enterScope(); }, [this]() { indexer.leaveScope(); } );
1050	indexer.addFunctionType( function->type );
1051
1052	// need to iterate through members in reverse in order for
1053	// ctor/dtor statements to come out in the right order
1054	for ( Declaration * member : reverseIterate( structDecl->get_members() ) ) {
1055	DeclarationWithType * field = dynamic_cast< DeclarationWithType * >( member );
1056	// skip non-DWT members
1057	if ( ! field ) continue;
1058	// skip non-constructable members
1059	if ( ! tryConstruct( field ) ) continue;
1060	// skip handled members
1061	if ( ! unhandled.count( field ) ) continue;
1062
1063	// insert and resolve default/copy constructor call for each field that's unhandled
1064	std::list< Statement * > stmt;
1065	Expression * arg2 = nullptr;
1066	if ( isCopyConstructor( function ) ) {
1067	// if copy ctor, need to pass second-param-of-this-function.field
1068	std::list< DeclarationWithType * > & params = function->get_functionType()->get_parameters();
1069	assert( params.size() == 2 );
1070	arg2 = new MemberExpr( field, new VariableExpr( params.back() ) );
1071	}
1072	InitExpander srcParam( arg2 );
1073	// cast away reference type and construct field.
1074	Expression * thisExpr = new CastExpr( new VariableExpr( thisParam ), thisParam->get_type()->stripReferences()->clone() );
1075	Expression * memberDest = new MemberExpr( field, thisExpr );
1076	SymTab::genImplicitCall( srcParam, memberDest, function->get_name(), back_inserter( stmt ), field, isCtor );
1077
1078	assert( stmt.size() <= 1 );
1079	if ( stmt.size() == 1 ) {
1080	Statement * callStmt = stmt.front();
1081
1082	try {
1083	callStmt->acceptMutator( *visitor );
1084	if ( isCtor ) {
1085	function->statements->push_front( callStmt );
1086	} else { // TODO: don't generate destructor function/object for intrinsic calls
1087	// destructor statements should be added at the end
1088	// function->get_statements()->push_back( callStmt );
1089
1090	// Optimization: do not need to call intrinsic destructors on members
1091	if ( isIntrinsicSingleArgCallStmt( callStmt ) ) continue;;
1092
1093	// __Destructor _dtor0 = { (void )&b.a1, (void ()(void *)_destroy_A };
1094	std::list< Statement * > stmtsToAdd;
1095
1096	static UniqueName memberDtorNamer = { "__memberDtor" };
1097	assertf( Validate::dtorStruct, "builtin __Destructor not found." );
1098	assertf( Validate::dtorStructDestroy, "builtin __destroy_Destructor not found." );
1099
1100	Expression * thisExpr = new CastExpr( new AddressExpr( new VariableExpr( thisParam ) ), new PointerType( Type::Qualifiers(), new VoidType( Type::Qualifiers() ) ) );
1101	Expression * dtorExpr = new VariableExpr( getDtorFunc( thisParam, callStmt, stmtsToAdd ) );
1102
1103	// cast destructor pointer to void ()(void ), to silence GCC incompatible pointer warnings
1104	FunctionType * dtorFtype = new FunctionType( Type::Qualifiers(), false );
1105	dtorFtype->parameters.push_back( ObjectDecl::newObject( "", new PointerType( Type::Qualifiers(), new VoidType( Type::Qualifiers() ) ), nullptr ) );
1106	Type * dtorType = new PointerType( Type::Qualifiers(), dtorFtype );
1107
1108	ObjectDecl * destructor = ObjectDecl::newObject( memberDtorNamer.newName(), new StructInstType( Type::Qualifiers(), Validate::dtorStruct ), new ListInit( { new SingleInit( thisExpr ), new SingleInit( new CastExpr( dtorExpr, dtorType ) ) } ) );
1109	function->statements->push_front( new DeclStmt( destructor ) );
1110	destructor->attributes.push_back( new Attribute( "cleanup", { new VariableExpr( Validate::dtorStructDestroy ) } ) );
1111
1112	function->statements->kids.splice( function->statements->kids.begin(), stmtsToAdd );
1113	}
1114	} catch ( SemanticErrorException & error ) {
1115	emit( funcDecl->location, "in ", CodeGen::genPrettyType( function->get_functionType(), function->get_name() ), ", field ", field->get_name(), " not explicitly ", isCtor ? "constructed" : "destructed", " and no ", isCtor ? "default constructor" : "destructor", " found" );
1116	}
1117	}
1118	}
1119	}
1120	if (! errors.isEmpty()) {
1121	throw errors;
1122	}
1123	return funcDecl;
1124	}
1125
1126	/// true if expr is effectively just the 'this' parameter
1127	bool isThisExpression( Expression * expr, DeclarationWithType * thisParam ) {
1128	// TODO: there are more complicated ways to pass 'this' to a constructor, e.g. &, &, etc.
1129	if ( VariableExpr * varExpr = dynamic_cast< VariableExpr * >( expr ) ) {
1130	return varExpr->get_var() == thisParam;
1131	} else if ( CastExpr * castExpr = dynamic_cast< CastExpr * > ( expr ) ) {
1132	return isThisExpression( castExpr->get_arg(), thisParam );
1133	}
1134	return false;
1135	}
1136
1137	/// returns a MemberExpr if expr is effectively just member access on the 'this' parameter, else nullptr
1138	MemberExpr * isThisMemberExpr( Expression * expr, DeclarationWithType * thisParam ) {
1139	if ( MemberExpr * memberExpr = dynamic_cast< MemberExpr * >( expr ) ) {
1140	if ( isThisExpression( memberExpr->get_aggregate(), thisParam ) ) {
1141	return memberExpr;
1142	}
1143	} else if ( CastExpr * castExpr = dynamic_cast< CastExpr * >( expr ) ) {
1144	return isThisMemberExpr( castExpr->get_arg(), thisParam );
1145	}
1146	return nullptr;
1147	}
1148
1149	void GenStructMemberCalls::premutate( ApplicationExpr * appExpr ) {
1150	if ( ! checkWarnings( function ) ) {
1151	visit_children = false;
1152	return;
1153	}
1154
1155	std::string fname = getFunctionName( appExpr );
1156	if ( fname == function->name ) {
1157	// call to same kind of function
1158	Expression * firstParam = appExpr->args.front();
1159
1160	if ( isThisExpression( firstParam, thisParam ) ) {
1161	// if calling another constructor on thisParam, assume that function handles
1162	// all members - if it doesn't a warning will appear in that function.
1163	unhandled.clear();
1164	} else if ( MemberExpr * memberExpr = isThisMemberExpr( firstParam, thisParam ) ) {
1165	// if first parameter is a member expression on the this parameter,
1166	// then remove the member from unhandled set.
1167	if ( isThisExpression( memberExpr->aggregate, thisParam ) ) {
1168	unhandled.erase( memberExpr->member );
1169	}
1170	}
1171	}
1172	}
1173
1174	void GenStructMemberCalls::premutate( MemberExpr * memberExpr ) {
1175	if ( ! checkWarnings( function ) \|\| ! isCtor ) {
1176	visit_children = false;
1177	return;
1178	}
1179
1180	if ( isThisExpression( memberExpr->get_aggregate(), thisParam ) ) {
1181	if ( unhandled.count( memberExpr->get_member() ) ) {
1182	// emit a warning because a member was used before it was constructed
1183	usedUninit.insert( { memberExpr->get_member(), memberExpr->location } );
1184	}
1185	}
1186	}
1187
1188	template< typename Visitor, typename... Params >
1189	void error( Visitor & v, CodeLocation loc, const Params &... params ) {
1190	SemanticErrorException err( loc, toString( params... ) );
1191	v.errors.append( err );
1192	}
1193
1194	template< typename... Params >
1195	void GenStructMemberCalls::emit( CodeLocation loc, const Params &... params ) {
1196	// toggle warnings vs. errors here.
1197	// warn( params... );
1198	error( *this, loc, params... );
1199	}
1200
1201	Expression * GenStructMemberCalls::postmutate( UntypedExpr * untypedExpr ) {
1202	Expression * newExpr = untypedExpr;
1203	ResolvExpr::findVoidExpression( newExpr, indexer );
1204	return newExpr;
1205	}
1206
1207	Expression * FixCtorExprs::postmutate( ConstructorExpr * ctorExpr ) {
1208	static UniqueName tempNamer( "_tmp_ctor_expr" );
1209	// xxx - is the size check necessary?
1210	assert( ctorExpr->result && ctorExpr->get_result()->size() == 1 );
1211
1212	// xxx - this can be TupleAssignExpr now. Need to properly handle this case.
1213	ApplicationExpr * callExpr = strict_dynamic_cast< ApplicationExpr * > ( ctorExpr->get_callExpr() );
1214	TypeSubstitution * env = ctorExpr->get_env();
1215	ctorExpr->set_callExpr( nullptr );
1216	ctorExpr->set_env( nullptr );
1217
1218	// 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.
1219	ObjectDecl * tmp = ObjectDecl::newObject( tempNamer.newName(), callExpr->args.front()->result->clone(), nullptr );
1220	declsToAddBefore.push_back( tmp );
1221	delete ctorExpr;
1222
1223	// build assignment and replace constructor's first argument with new temporary
1224	Expression *& firstArg = callExpr->get_args().front();
1225	Expression * assign = new UntypedExpr( new NameExpr( "?=?" ), { new AddressExpr( new VariableExpr( tmp ) ), new AddressExpr( firstArg ) } );
1226	firstArg = new VariableExpr( tmp );
1227
1228	// resolve assignment and dispose of new env
1229	ResolvExpr::findVoidExpression( assign, indexer );
1230	delete assign->env;
1231	assign->env = nullptr;
1232
1233	// for constructor expr:
1234	// T x;
1235	// x{};
1236	// results in:
1237	// T x;
1238	// T & tmp;
1239	// &tmp = &x, ?{}(tmp), tmp
1240	CommaExpr * commaExpr = new CommaExpr( assign, new CommaExpr( callExpr, new VariableExpr( tmp ) ) );
1241	commaExpr->set_env( env );
1242	return commaExpr;
1243	}
1244	} // namespace
1245	} // namespace InitTweak
1246
1247	// Local Variables: //
1248	// tab-width: 4 //
1249	// mode: c++ //
1250	// compile-command: "make install" //
1251	// End: //

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