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source: src/InitTweak/InitTweak.cc @ 20632a2

ADTaaron-thesisarm-ehast-experimentalcleanup-dtorsdeferred_resndemanglerenumforall-pointer-decayjacob/cs343-translationjenkins-sandboxnew-astnew-ast-unique-exprnew-envno_listpersistent-indexerpthread-emulationqualifiedEnumresolv-newwith_gc

Last change on this file since 20632a2 was 3351cc0, checked in by Thierry Delisle <tdelisle@…>, 6 years ago
Updated benchmark creation for coroutines and better fix for inittweak destructor
Property mode set to `100644`
File size: 23.8 KB

Line
1	#include <algorithm> // for find, all_of
2	#include <cassert> // for assertf, assert, strict_dynamic_cast
3	#include <iostream> // for ostream, cerr, endl
4	#include <iterator> // for back_insert_iterator, back_inserter
5	#include <memory> // for __shared_ptr
6
7	#include "Common/SemanticError.h" // for SemanticError
8	#include "Common/UniqueName.h" // for UniqueName
9	#include "Common/utility.h" // for toString, deleteAll, maybeClone
10	#include "GenPoly/GenPoly.h" // for getFunctionType
11	#include "InitTweak.h"
12	#include "Parser/LinkageSpec.h" // for Spec, isBuiltin, Intrinsic
13	#include "ResolvExpr/typeops.h" // for typesCompatibleIgnoreQualifiers
14	#include "SymTab/Indexer.h" // for Indexer
15	#include "SynTree/Attribute.h" // for Attribute
16	#include "SynTree/Constant.h" // for Constant
17	#include "SynTree/Declaration.h" // for ObjectDecl, DeclarationWithType
18	#include "SynTree/Expression.h" // for Expression, UntypedExpr, Applicati...
19	#include "SynTree/Initializer.h" // for Initializer, ListInit, Designation
20	#include "SynTree/Label.h" // for Label, noLabels
21	#include "SynTree/Statement.h" // for CompoundStmt, ExprStmt, BranchStmt
22	#include "SynTree/Type.h" // for FunctionType, ArrayType, PointerType
23	#include "SynTree/Visitor.h" // for Visitor, maybeAccept
24	#include "Tuples/Tuples.h" // for Tuples::isTtype
25
26	class UntypedValofExpr;
27
28	namespace InitTweak {
29	namespace {
30	class HasDesignations : public Visitor {
31	public:
32	bool hasDesignations = false;
33	virtual void visit( Designation * des ) {
34	if ( ! des->get_designators().empty() ) hasDesignations = true;
35	else Visitor::visit( des );
36	}
37	};
38
39	class InitDepthChecker : public Visitor {
40	public:
41	bool depthOkay = true;
42	Type * type;
43	int curDepth = 0, maxDepth = 0;
44	InitDepthChecker( Type * type ) : type( type ) {
45	Type * t = type;
46	while ( ArrayType * at = dynamic_cast< ArrayType * >( t ) ) {
47	maxDepth++;
48	t = at->get_base();
49	}
50	maxDepth++;
51	}
52	virtual void visit( ListInit * listInit ) {
53	curDepth++;
54	if ( curDepth > maxDepth ) depthOkay = false;
55	Visitor::visit( listInit );
56	curDepth--;
57	}
58	};
59
60	class InitFlattener : public Visitor {
61	public:
62	virtual void visit( SingleInit * singleInit );
63	virtual void visit( ListInit * listInit );
64	std::list< Expression * > argList;
65	};
66
67	void InitFlattener::visit( SingleInit * singleInit ) {
68	argList.push_back( singleInit->get_value()->clone() );
69	}
70
71	void InitFlattener::visit( ListInit * listInit ) {
72	// flatten nested list inits
73	std::list<Initializer*>::iterator it = listInit->begin();
74	for ( ; it != listInit->end(); ++it ) {
75	(it)->accept( this );
76	}
77	}
78	}
79
80	std::list< Expression * > makeInitList( Initializer * init ) {
81	InitFlattener flattener;
82	maybeAccept( init, flattener );
83	return flattener.argList;
84	}
85
86	bool isDesignated( Initializer * init ) {
87	HasDesignations finder;
88	maybeAccept( init, finder );
89	return finder.hasDesignations;
90	}
91
92	bool checkInitDepth( ObjectDecl * objDecl ) {
93	InitDepthChecker checker( objDecl->get_type() );
94	maybeAccept( objDecl->get_init(), checker );
95	return checker.depthOkay;
96	}
97
98	class InitExpander::ExpanderImpl {
99	public:
100	virtual ~ExpanderImpl() = default;
101	virtual std::list< Expression * > next( std::list< Expression * > & indices ) = 0;
102	virtual Statement * buildListInit( UntypedExpr * callExpr, std::list< Expression * > & indices ) = 0;
103	};
104
105	class InitImpl : public InitExpander::ExpanderImpl {
106	public:
107	InitImpl( Initializer * init ) : init( init ) {}
108	virtual ~InitImpl() = default;
109
110	virtual std::list< Expression * > next( __attribute((unused)) std::list< Expression * > & indices ) {
111	// this is wrong, but just a placeholder for now
112	// if ( ! flattened ) flatten( indices );
113	// return ! inits.empty() ? makeInitList( inits.front() ) : std::list< Expression * >();
114	return makeInitList( init );
115	}
116
117	virtual Statement * buildListInit( UntypedExpr * callExpr, std::list< Expression * > & indices );
118	private:
119	Initializer * init;
120	};
121
122	class ExprImpl : public InitExpander::ExpanderImpl {
123	public:
124	ExprImpl( Expression * expr ) : arg( expr ) {}
125	virtual ~ExprImpl() { delete arg; }
126
127	virtual std::list< Expression * > next( std::list< Expression * > & indices ) {
128	std::list< Expression * > ret;
129	Expression * expr = maybeClone( arg );
130	if ( expr ) {
131	for ( std::list< Expression * >::reverse_iterator it = indices.rbegin(); it != indices.rend(); ++it ) {
132	// go through indices and layer on subscript exprs ?[?]
133	++it;
134	UntypedExpr * subscriptExpr = new UntypedExpr( new NameExpr( "?[?]") );
135	subscriptExpr->get_args().push_back( expr );
136	subscriptExpr->get_args().push_back( (*it)->clone() );
137	expr = subscriptExpr;
138	}
139	ret.push_back( expr );
140	}
141	return ret;
142	}
143
144	virtual Statement * buildListInit( UntypedExpr * callExpr, std::list< Expression * > & indices );
145	private:
146	Expression * arg;
147	};
148
149	InitExpander::InitExpander( Initializer * init ) : expander( new InitImpl( init ) ) {}
150
151	InitExpander::InitExpander( Expression * expr ) : expander( new ExprImpl( expr ) ) {}
152
153	std::list< Expression * > InitExpander::operator*() {
154	return cur;
155	}
156
157	InitExpander & InitExpander::operator++() {
158	cur = expander->next( indices );
159	return *this;
160	}
161
162	// use array indices list to build switch statement
163	void InitExpander::addArrayIndex( Expression * index, Expression * dimension ) {
164	indices.push_back( index );
165	indices.push_back( dimension );
166	}
167
168	void InitExpander::clearArrayIndices() {
169	deleteAll( indices );
170	indices.clear();
171	}
172
173	bool InitExpander::addReference() {
174	bool added = false;
175	for ( Expression *& expr : cur ) {
176	expr = new AddressExpr( expr );
177	added = true;
178	}
179	return added;
180	}
181
182	namespace {
183	/// given index i, dimension d, initializer init, and callExpr f, generates
184	/// if (i < d) f(..., init)
185	/// ++i;
186	/// so that only elements within the range of the array are constructed
187	template< typename OutIterator >
188	void buildCallExpr( UntypedExpr * callExpr, Expression * index, Expression * dimension, Initializer * init, OutIterator out ) {
189	UntypedExpr * cond = new UntypedExpr( new NameExpr( "?<?") );
190	cond->get_args().push_back( index->clone() );
191	cond->get_args().push_back( dimension->clone() );
192
193	std::list< Expression * > args = makeInitList( init );
194	callExpr->get_args().splice( callExpr->get_args().end(), args );
195
196	*out++ = new IfStmt( noLabels, cond, new ExprStmt( noLabels, callExpr ), nullptr );
197
198	UntypedExpr * increment = new UntypedExpr( new NameExpr( "++?" ) );
199	increment->get_args().push_back( index->clone() );
200	*out++ = new ExprStmt( noLabels, increment );
201	}
202
203	template< typename OutIterator >
204	void build( UntypedExpr * callExpr, InitExpander::IndexList::iterator idx, InitExpander::IndexList::iterator idxEnd, Initializer * init, OutIterator out ) {
205	if ( idx == idxEnd ) return;
206	Expression * index = *idx++;
207	assert( idx != idxEnd );
208	Expression * dimension = *idx++;
209
210	// xxx - may want to eventually issue a warning here if we can detect
211	// that the number of elements exceeds to dimension of the array
212	if ( idx == idxEnd ) {
213	if ( ListInit * listInit = dynamic_cast< ListInit * >( init ) ) {
214	for ( Initializer * init : *listInit ) {
215	buildCallExpr( callExpr->clone(), index, dimension, init, out );
216	}
217	} else {
218	buildCallExpr( callExpr->clone(), index, dimension, init, out );
219	}
220	} else {
221	std::list< Statement * > branches;
222
223	unsigned long cond = 0;
224	ListInit * listInit = dynamic_cast< ListInit * >( init );
225	if ( ! listInit ) {
226	// xxx - this shouldn't be an error, but need a way to
227	// terminate without creating output, so should catch this error
228	throw SemanticError( "unbalanced list initializers" );
229	}
230
231	static UniqueName targetLabel( "L__autogen__" );
232	Label switchLabel( targetLabel.newName(), 0, std::list< Attribute * >{ new Attribute("unused") } );
233	for ( Initializer * init : *listInit ) {
234	Expression * condition;
235	// check for designations
236	// if ( init-> ) {
237	condition = new ConstantExpr( Constant::from_ulong( cond ) );
238	++cond;
239	// } else {
240	// condition = // ... take designation
241	// cond = // ... take designation+1
242	// }
243	std::list< Statement * > stmts;
244	build( callExpr, idx, idxEnd, init, back_inserter( stmts ) );
245	stmts.push_back( new BranchStmt( noLabels, switchLabel, BranchStmt::Break ) );
246	CaseStmt * caseStmt = new CaseStmt( noLabels, condition, stmts );
247	branches.push_back( caseStmt );
248	}
249	*out++ = new SwitchStmt( noLabels, index->clone(), branches );
250	*out++ = new NullStmt( std::list<Label>{ switchLabel } );
251	}
252	}
253	}
254
255	// if array came with an initializer list: initialize each element
256	// may have more initializers than elements in the array - need to check at each index that
257	// we haven't exceeded size.
258	// may have fewer initializers than elements in the array - need to default construct
259	// remaining elements.
260	// To accomplish this, generate switch statement, consuming all of expander's elements
261	Statement * InitImpl::buildListInit( UntypedExpr * dst, std::list< Expression * > & indices ) {
262	if ( ! init ) return nullptr;
263	CompoundStmt * block = new CompoundStmt( noLabels );
264	build( dst, indices.begin(), indices.end(), init, back_inserter( block->get_kids() ) );
265	if ( block->get_kids().empty() ) {
266	delete block;
267	return nullptr;
268	} else {
269	init = nullptr; // init was consumed in creating the list init
270	return block;
271	}
272	}
273
274	Statement * ExprImpl::buildListInit( UntypedExpr , std::list< Expression > & ) {
275	return nullptr;
276	}
277
278	Statement * InitExpander::buildListInit( UntypedExpr * dst ) {
279	return expander->buildListInit( dst, indices );
280	}
281
282	Type * getTypeofThis( FunctionType * ftype ) {
283	assertf( ftype, "getTypeofThis: nullptr ftype" );
284	ObjectDecl * thisParam = getParamThis( ftype );
285	ReferenceType * refType = strict_dynamic_cast< ReferenceType * >( thisParam->type );
286	return refType->base;
287	}
288
289	ObjectDecl * getParamThis( FunctionType * ftype ) {
290	assertf( ftype, "getParamThis: nullptr ftype" );
291	auto & params = ftype->parameters;
292	assertf( ! params.empty(), "getParamThis: ftype with 0 parameters: %s", toString( ftype ).c_str() );
293	return strict_dynamic_cast< ObjectDecl * >( params.front() );
294	}
295
296	bool tryConstruct( DeclarationWithType * dwt ) {
297	ObjectDecl * objDecl = dynamic_cast< ObjectDecl * >( dwt );
298	if ( ! objDecl ) return false;
299	return ! LinkageSpec::isBuiltin( objDecl->get_linkage() ) &&
300	(objDecl->get_init() == nullptr \|\|
301	( objDecl->get_init() != nullptr && objDecl->get_init()->get_maybeConstructed() ))
302	&& ! objDecl->get_storageClasses().is_extern
303	&& isConstructable( objDecl->type );
304	}
305
306	bool isConstructable( Type * type ) {
307	return ! dynamic_cast< VarArgsType * >( type ) && ! dynamic_cast< ReferenceType * >( type ) && ! dynamic_cast< FunctionType * >( type ) && ! Tuples::isTtype( type );
308	}
309
310	class CallFinder : public Visitor {
311	public:
312	typedef Visitor Parent;
313	CallFinder( const std::list< std::string > & names ) : names( names ) {}
314
315	virtual void visit( ApplicationExpr * appExpr ) {
316	handleCallExpr( appExpr );
317	}
318
319	virtual void visit( UntypedExpr * untypedExpr ) {
320	handleCallExpr( untypedExpr );
321	}
322
323	std::list< Expression * > * matches;
324	private:
325	const std::list< std::string > names;
326
327	template< typename CallExpr >
328	void handleCallExpr( CallExpr * expr ) {
329	Parent::visit( expr );
330	std::string fname = getFunctionName( expr );
331	if ( std::find( names.begin(), names.end(), fname ) != names.end() ) {
332	matches->push_back( expr );
333	}
334	}
335	};
336
337	void collectCtorDtorCalls( Statement * stmt, std::list< Expression * > & matches ) {
338	static CallFinder finder( std::list< std::string >{ "?{}", "^?{}" } );
339	finder.matches = &matches;
340	maybeAccept( stmt, finder );
341	}
342
343	Expression * getCtorDtorCall( Statement * stmt ) {
344	std::list< Expression * > matches;
345	collectCtorDtorCalls( stmt, matches );
346	assert( matches.size() <= 1 );
347	return matches.size() == 1 ? matches.front() : nullptr;
348	}
349
350	namespace {
351	DeclarationWithType * getCalledFunction( Expression * expr );
352
353	template<typename CallExpr>
354	DeclarationWithType * handleDerefCalledFunction( CallExpr * expr ) {
355	// (*f)(x) => should get "f"
356	std::string name = getFunctionName( expr );
357	assertf( name == "*?", "Unexpected untyped expression: %s", name.c_str() );
358	assertf( ! expr->get_args().empty(), "Cannot get called function from dereference with no arguments" );
359	return getCalledFunction( expr->get_args().front() );
360	}
361
362	DeclarationWithType * getCalledFunction( Expression * expr ) {
363	assert( expr );
364	if ( VariableExpr * varExpr = dynamic_cast< VariableExpr * >( expr ) ) {
365	return varExpr->var;
366	} else if ( MemberExpr * memberExpr = dynamic_cast< MemberExpr * >( expr ) ) {
367	return memberExpr->member;
368	} else if ( CastExpr * castExpr = dynamic_cast< CastExpr * >( expr ) ) {
369	return getCalledFunction( castExpr->arg );
370	} else if ( UntypedExpr * untypedExpr = dynamic_cast< UntypedExpr * >( expr ) ) {
371	return handleDerefCalledFunction( untypedExpr );
372	} else if ( ApplicationExpr * appExpr = dynamic_cast< ApplicationExpr * > ( expr ) ) {
373	return handleDerefCalledFunction( appExpr );
374	} else if ( AddressExpr * addrExpr = dynamic_cast< AddressExpr * >( expr ) ) {
375	return getCalledFunction( addrExpr->arg );
376	} else if ( CommaExpr * commaExpr = dynamic_cast< CommaExpr * >( expr ) ) {
377	return getCalledFunction( commaExpr->arg2 );
378	}
379	return nullptr;
380	}
381	}
382
383	DeclarationWithType * getFunction( Expression * expr ) {
384	if ( ApplicationExpr * appExpr = dynamic_cast< ApplicationExpr * >( expr ) ) {
385	return getCalledFunction( appExpr->get_function() );
386	} else if ( UntypedExpr * untyped = dynamic_cast< UntypedExpr * > ( expr ) ) {
387	return getCalledFunction( untyped->get_function() );
388	}
389	assertf( false, "getFunction received unknown expression: %s", toString( expr ).c_str() );
390	}
391
392	ApplicationExpr * isIntrinsicCallExpr( Expression * expr ) {
393	ApplicationExpr * appExpr = dynamic_cast< ApplicationExpr * >( expr );
394	if ( ! appExpr ) return nullptr;
395	DeclarationWithType * function = getCalledFunction( appExpr->get_function() );
396	assertf( function, "getCalledFunction returned nullptr: %s", toString( appExpr->get_function() ).c_str() );
397	// check for Intrinsic only - don't want to remove all overridable ctor/dtors because autogenerated ctor/dtor
398	// will call all member dtors, and some members may have a user defined dtor.
399	return function->get_linkage() == LinkageSpec::Intrinsic ? appExpr : nullptr;
400	}
401
402	namespace {
403	template <typename Predicate>
404	bool allofCtorDtor( Statement * stmt, const Predicate & pred ) {
405	std::list< Expression * > callExprs;
406	collectCtorDtorCalls( stmt, callExprs );
407	// if ( callExprs.empty() ) return false; // xxx - do I still need this check?
408	return std::all_of( callExprs.begin(), callExprs.end(), pred);
409	}
410	}
411
412	bool isIntrinsicSingleArgCallStmt( Statement * stmt ) {
413	return allofCtorDtor( stmt, []( Expression * callExpr ){
414	if ( ApplicationExpr * appExpr = isIntrinsicCallExpr( callExpr ) ) {
415	FunctionType *funcType = GenPoly::getFunctionType( appExpr->get_function()->get_result() );
416	assert( funcType );
417	return funcType->get_parameters().size() == 1;
418	}
419	return false;
420	});
421	}
422
423	bool isIntrinsicCallStmt( Statement * stmt ) {
424	return allofCtorDtor( stmt, []( Expression * callExpr ) {
425	return isIntrinsicCallExpr( callExpr );
426	});
427	}
428
429	namespace {
430	template<typename CallExpr>
431	Expression & callArg( CallExpr callExpr, unsigned int pos ) {
432	if ( pos >= callExpr->get_args().size() ) assertf( false, "getCallArg for argument that doesn't exist: (%u); %s.", pos, toString( callExpr ).c_str() );
433	for ( Expression *& arg : callExpr->get_args() ) {
434	if ( pos == 0 ) return arg;
435	pos--;
436	}
437	assert( false );
438	}
439	}
440
441	Expression & getCallArg( Expression callExpr, unsigned int pos ) {
442	if ( ApplicationExpr * appExpr = dynamic_cast< ApplicationExpr * >( callExpr ) ) {
443	return callArg( appExpr, pos );
444	} else if ( UntypedExpr * untypedExpr = dynamic_cast< UntypedExpr * >( callExpr ) ) {
445	return callArg( untypedExpr, pos );
446	} else if ( TupleAssignExpr * tupleExpr = dynamic_cast< TupleAssignExpr * > ( callExpr ) ) {
447	std::list< Statement * > & stmts = tupleExpr->get_stmtExpr()->get_statements()->get_kids();
448	assertf( ! stmts.empty(), "TupleAssignExpr somehow has no statements." );
449	ExprStmt * stmt = strict_dynamic_cast< ExprStmt * >( stmts.back() );
450	TupleExpr * tuple = strict_dynamic_cast< TupleExpr * >( stmt->get_expr() );
451	assertf( ! tuple->get_exprs().empty(), "TupleAssignExpr somehow has empty tuple expr." );
452	return getCallArg( tuple->get_exprs().front(), pos );
453	} else if ( ImplicitCopyCtorExpr * copyCtor = dynamic_cast< ImplicitCopyCtorExpr * >( callExpr ) ) {
454	return getCallArg( copyCtor->callExpr, pos );
455	} else {
456	assertf( false, "Unexpected expression type passed to getCallArg: %s", toString( callExpr ).c_str() );
457	}
458	}
459
460	namespace {
461	std::string funcName( Expression * func );
462
463	template<typename CallExpr>
464	std::string handleDerefName( CallExpr * expr ) {
465	// (*f)(x) => should get name "f"
466	std::string name = getFunctionName( expr );
467	assertf( name == "*?", "Unexpected untyped expression: %s", name.c_str() );
468	assertf( ! expr->get_args().empty(), "Cannot get function name from dereference with no arguments" );
469	return funcName( expr->get_args().front() );
470	}
471
472	std::string funcName( Expression * func ) {
473	if ( NameExpr * nameExpr = dynamic_cast< NameExpr * >( func ) ) {
474	return nameExpr->get_name();
475	} else if ( VariableExpr * varExpr = dynamic_cast< VariableExpr * >( func ) ) {
476	return varExpr->get_var()->get_name();
477	} else if ( CastExpr * castExpr = dynamic_cast< CastExpr * >( func ) ) {
478	return funcName( castExpr->get_arg() );
479	} else if ( MemberExpr * memberExpr = dynamic_cast< MemberExpr * >( func ) ) {
480	return memberExpr->get_member()->get_name();
481	} else if ( UntypedMemberExpr * memberExpr = dynamic_cast< UntypedMemberExpr * > ( func ) ) {
482	return funcName( memberExpr->get_member() );
483	} else if ( UntypedExpr * untypedExpr = dynamic_cast< UntypedExpr * >( func ) ) {
484	return handleDerefName( untypedExpr );
485	} else if ( ApplicationExpr * appExpr = dynamic_cast< ApplicationExpr * >( func ) ) {
486	return handleDerefName( appExpr );
487	} else if ( ConstructorExpr * ctorExpr = dynamic_cast< ConstructorExpr * >( func ) ) {
488	return funcName( getCallArg( ctorExpr->get_callExpr(), 0 ) );
489	} else {
490	assertf( false, "Unexpected expression type being called as a function in call expression: %s", toString( func ).c_str() );
491	}
492	}
493	}
494
495	std::string getFunctionName( Expression * expr ) {
496	// there's some unforunate overlap here with getCalledFunction. Ideally this would be able to use getCalledFunction and
497	// return the name of the DeclarationWithType, but this needs to work for NameExpr and UntypedMemberExpr, where getCalledFunction
498	// can't possibly do anything reasonable.
499	if ( ApplicationExpr * appExpr = dynamic_cast< ApplicationExpr * >( expr ) ) {
500	return funcName( appExpr->get_function() );
501	} else if ( UntypedExpr * untypedExpr = dynamic_cast< UntypedExpr * > ( expr ) ) {
502	return funcName( untypedExpr->get_function() );
503	} else {
504	std::cerr << expr << std::endl;
505	assertf( false, "Unexpected expression type passed to getFunctionName" );
506	}
507	}
508
509	Type * getPointerBase( Type * type ) {
510	if ( PointerType * ptrType = dynamic_cast< PointerType * >( type ) ) {
511	return ptrType->get_base();
512	} else if ( ArrayType * arrayType = dynamic_cast< ArrayType * >( type ) ) {
513	return arrayType->get_base();
514	} else if ( ReferenceType * refType = dynamic_cast< ReferenceType * >( type ) ) {
515	return refType->get_base();
516	} else {
517	return nullptr;
518	}
519	}
520
521	Type * isPointerType( Type * type ) {
522	if ( getPointerBase( type ) ) return type;
523	else return nullptr;
524	}
525
526	class ConstExprChecker : public Visitor {
527	public:
528	ConstExprChecker() : isConstExpr( true ) {}
529
530	using Visitor::visit;
531
532	virtual void visit( ApplicationExpr * ) { isConstExpr = false; }
533	virtual void visit( UntypedExpr * ) { isConstExpr = false; }
534	virtual void visit( NameExpr * ) { isConstExpr = false; }
535	// virtual void visit( CastExpr *castExpr ) { isConstExpr = false; }
536	virtual void visit( AddressExpr *addressExpr ) {
537	// address of a variable or member expression is constexpr
538	Expression * arg = addressExpr->get_arg();
539	if ( ! dynamic_cast< NameExpr * >( arg) && ! dynamic_cast< VariableExpr * >( arg ) && ! dynamic_cast< MemberExpr * >( arg ) && ! dynamic_cast< UntypedMemberExpr * >( arg ) ) isConstExpr = false;
540	}
541	virtual void visit( UntypedMemberExpr * ) { isConstExpr = false; }
542	virtual void visit( MemberExpr * ) { isConstExpr = false; }
543	virtual void visit( VariableExpr * ) { isConstExpr = false; }
544	// these might be okay?
545	// virtual void visit( SizeofExpr *sizeofExpr );
546	// virtual void visit( AlignofExpr *alignofExpr );
547	// virtual void visit( UntypedOffsetofExpr *offsetofExpr );
548	// virtual void visit( OffsetofExpr *offsetofExpr );
549	// virtual void visit( OffsetPackExpr *offsetPackExpr );
550	// virtual void visit( AttrExpr *attrExpr );
551	// virtual void visit( CommaExpr *commaExpr );
552	// virtual void visit( LogicalExpr *logicalExpr );
553	// virtual void visit( ConditionalExpr *conditionalExpr );
554	virtual void visit( TypeExpr * ) { isConstExpr = false; }
555	virtual void visit( AsmExpr * ) { isConstExpr = false; }
556	virtual void visit( UntypedValofExpr * ) { isConstExpr = false; }
557	virtual void visit( CompoundLiteralExpr * ) { isConstExpr = false; }
558	virtual void visit( UntypedTupleExpr * ) { isConstExpr = false; }
559	virtual void visit( TupleExpr * ) { isConstExpr = false; }
560	virtual void visit( TupleAssignExpr * ) { isConstExpr = false; }
561
562	bool isConstExpr;
563	};
564
565	bool isConstExpr( Expression * expr ) {
566	if ( expr ) {
567	ConstExprChecker checker;
568	expr->accept( checker );
569	return checker.isConstExpr;
570	}
571	return true;
572	}
573
574	bool isConstExpr( Initializer * init ) {
575	if ( init ) {
576	ConstExprChecker checker;
577	init->accept( checker );
578	return checker.isConstExpr;
579	} // if
580	// for all intents and purposes, no initializer means const expr
581	return true;
582	}
583
584	bool isConstructor( const std::string & str ) { return str == "?{}"; }
585	bool isDestructor( const std::string & str ) { return str == "^?{}"; }
586	bool isAssignment( const std::string & str ) { return str == "?=?"; }
587	bool isCtorDtor( const std::string & str ) { return isConstructor( str ) \|\| isDestructor( str ); }
588	bool isCtorDtorAssign( const std::string & str ) { return isCtorDtor( str ) \|\| isAssignment( str ); }
589
590	FunctionDecl * isCopyFunction( Declaration * decl, const std::string & fname ) {
591	FunctionDecl * function = dynamic_cast< FunctionDecl * >( decl );
592	if ( ! function ) return nullptr;
593	if ( function->name != fname ) return nullptr;
594	FunctionType * ftype = function->type;
595	if ( ftype->parameters.size() != 2 ) return nullptr;
596
597	Type * t1 = getPointerBase( ftype->get_parameters().front()->get_type() );
598	Type * t2 = ftype->parameters.back()->get_type();
599	assert( t1 );
600
601	if ( ResolvExpr::typesCompatibleIgnoreQualifiers( t1, t2, SymTab::Indexer() ) ) {
602	return function;
603	} else {
604	return nullptr;
605	}
606	}
607
608	FunctionDecl * isAssignment( Declaration * decl ) {
609	return isCopyFunction( decl, "?=?" );
610	}
611	FunctionDecl * isDestructor( Declaration * decl ) {
612	if ( isDestructor( decl->get_name() ) ) {
613	return dynamic_cast< FunctionDecl * >( decl );
614	}
615	return nullptr;
616	}
617	FunctionDecl * isDefaultConstructor( Declaration * decl ) {
618	if ( isConstructor( decl->name ) ) {
619	if ( FunctionDecl * func = dynamic_cast< FunctionDecl * >( decl ) ) {
620	if ( func->type->parameters.size() == 1 ) {
621	return func;
622	}
623	}
624	}
625	return nullptr;
626	}
627	FunctionDecl * isCopyConstructor( Declaration * decl ) {
628	return isCopyFunction( decl, "?{}" );
629	}
630	}

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