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source: src/AST/Convert.cpp@ b3a0df6

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ADT arm-eh ast-experimental enum forall-pointer-decay jacob/cs343-translation new-ast-unique-expr pthread-emulation qualifiedEnum

Last change on this file since b3a0df6 was b3a0df6, checked in by Fangren Yu <f37yu@…>, 5 years ago
attempt to fix sizeType in new ast
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1	//
2	// Cforall Version 1.0.0 Copyright (C) 2019 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	// Convert.cpp -- Convert between the new and old syntax trees.
8	//
9	// Author : Thierry Delisle
10	// Created On : Thu May 09 15::37::05 2019
11	// Last Modified By : Andrew Beach
12	// Last Modified On : Thr Nov 12 10:07:00 2020
13	// Update Count : 34
14	//
15
16	#include "Convert.hpp"
17
18	#include <deque>
19	#include <unordered_map>
20
21	#include "AST/Attribute.hpp"
22	#include "AST/Copy.hpp"
23	#include "AST/Decl.hpp"
24	#include "AST/Expr.hpp"
25	#include "AST/Init.hpp"
26	#include "AST/Stmt.hpp"
27	#include "AST/TranslationUnit.hpp"
28	#include "AST/TypeSubstitution.hpp"
29
30	#include "SymTab/Autogen.h"
31	#include "SynTree/Attribute.h"
32	#include "SynTree/Declaration.h"
33	#include "SynTree/TypeSubstitution.h"
34
35	#include "Validate/FindSpecialDecls.h"
36
37	//================================================================================================
38	// Utilities
39	template<template <class...> class C>
40	struct to {
41	template<typename T>
42	static auto from( T && v ) -> C< typename T::value_type > {
43	C< typename T::value_type > l;
44	std::move(std::begin(v), std::end(v), std::back_inserter(l));
45	return l;
46	}
47	};
48
49	//================================================================================================
50	namespace ast {
51
52	// This is to preserve the FindSpecialDecls hack. It does not (and perhaps should not)
53	// allow us to use the same stratagy in the new ast.
54	// xxx - since convert back pass works, this concern seems to be unnecessary.
55
56	// these need to be accessed in new FixInit now
57	ast::ptr<ast::Type> sizeType = nullptr;
58	const ast::FunctionDecl * dereferenceOperator = nullptr;
59	const ast::StructDecl * dtorStruct = nullptr;
60	const ast::FunctionDecl * dtorStructDestroy = nullptr;
61
62	}
63
64	//================================================================================================
65	class ConverterNewToOld : public ast::Visitor {
66	BaseSyntaxNode * node = nullptr;
67	using Cache = std::unordered_map< const ast::Node , BaseSyntaxNode >;
68	Cache cache;
69
70	// Statements can no longer be shared.
71	// however, since StmtExprResult is now implemented, need to still maintain
72	// readonly references.
73	Cache readonlyCache;
74
75	template<typename T>
76	struct Getter {
77	ConverterNewToOld & visitor;
78
79	template<typename U, enum ast::Node::ref_type R>
80	T * accept1( const ast::ptr_base<U, R> & ptr ) {
81	if ( ! ptr ) return nullptr;
82	ptr->accept( visitor );
83	T * ret = strict_dynamic_cast< T * >( visitor.node );
84	visitor.node = nullptr;
85	return ret;
86	}
87
88	template<typename U>
89	std::list< T * > acceptL( const U & container ) {
90	std::list< T * > ret;
91	for ( auto ptr : container ) {
92	ret.emplace_back( accept1( ptr ) );
93	}
94	return ret;
95	}
96	};
97
98	template<typename T>
99	Getter<T> get() {
100	return Getter<T>{ *this };
101	}
102
103	Label makeLabel(Statement * labelled, const ast::Label& label) {
104	// This probably will leak memory, but only until we get rid of the old tree.
105	if ( nullptr == labelled && label.location.isSet() ) {
106	labelled = new NullStmt();
107	labelled->location = label.location;
108	}
109	return Label(
110	label.name,
111	labelled,
112	get<Attribute>().acceptL(label.attributes)
113	);
114	}
115
116	template<template <class...> class C>
117	std::list<Label> makeLabelL(Statement * labelled, const C<ast::Label>& labels) {
118	std::list<Label> ret;
119	for (auto label : labels) {
120	ret.push_back( makeLabel(labelled, label) );
121	}
122	return ret;
123	}
124
125	/// get new qualifiers from old type
126	Type::Qualifiers cv( const ast::Type * ty ) { return { ty->qualifiers.val }; }
127
128	/// returns true and sets `node` if in cache
129	bool inCache( const ast::Node * node ) {
130	auto it = cache.find( node );
131	if ( it == cache.end() ) return false;
132	this->node = it->second;
133	return true;
134	}
135
136	public:
137	Declaration * decl( const ast::Decl * declNode ) {
138	return get<Declaration>().accept1( ast::ptr<ast::Decl>( declNode ) );
139	}
140
141	private:
142	void declPostamble( Declaration * decl, const ast::Decl * node ) {
143	decl->location = node->location;
144	// name comes from constructor
145	// linkage comes from constructor
146	decl->extension = node->extension;
147	decl->uniqueId = node->uniqueId;
148	// storageClasses comes from constructor
149	this->node = decl;
150	}
151
152	const ast::DeclWithType * declWithTypePostamble (
153	DeclarationWithType * decl, const ast::DeclWithType * node ) {
154	cache.emplace( node, decl );
155	decl->mangleName = node->mangleName;
156	decl->scopeLevel = node->scopeLevel;
157	decl->asmName = get<Expression>().accept1( node->asmName );
158	// attributes comes from constructor
159	decl->isDeleted = node->isDeleted;
160	// fs comes from constructor
161	declPostamble( decl, node );
162	return nullptr;
163	}
164
165	const ast::DeclWithType * visit( const ast::ObjectDecl * node ) override final {
166	if ( inCache( node ) ) {
167	return nullptr;
168	}
169	auto bfwd = get<Expression>().accept1( node->bitfieldWidth );
170	auto type = get<Type>().accept1( node->type );
171	auto attr = get<Attribute>().acceptL( node->attributes );
172
173	auto decl = new ObjectDecl(
174	node->name,
175	Type::StorageClasses( node->storage.val ),
176	LinkageSpec::Spec( node->linkage.val ),
177	bfwd,
178	type->clone(),
179	nullptr, // prevent infinite loop
180	attr,
181	Type::FuncSpecifiers( node->funcSpec.val )
182	);
183
184	// handles the case where node->init references itself
185	// xxx - does it really happen?
186	declWithTypePostamble(decl, node);
187	auto init = get<Initializer>().accept1( node->init );
188	decl->init = init;
189
190	this->node = decl;
191	return nullptr;
192	}
193
194	const ast::DeclWithType * visit( const ast::FunctionDecl * node ) override final {
195	if ( inCache( node ) ) return nullptr;
196
197	// function decl contains real variables that the type must use.
198	// the structural change means function type in and out of decl
199	// must be handled differently on convert back to old.
200	auto ftype = new FunctionType(
201	cv(node->type),
202	(bool)node->type->isVarArgs
203	);
204	ftype->returnVals = get<DeclarationWithType>().acceptL(node->returns);
205	ftype->parameters = get<DeclarationWithType>().acceptL(node->params);
206
207	ftype->forall = get<TypeDecl>().acceptL( node->type->forall );
208
209	visitType(node->type, ftype);
210
211	auto decl = new FunctionDecl(
212	node->name,
213	Type::StorageClasses( node->storage.val ),
214	LinkageSpec::Spec( node->linkage.val ),
215	ftype,
216	//get<FunctionType>().accept1( node->type ),
217	{},
218	get<Attribute>().acceptL( node->attributes ),
219	Type::FuncSpecifiers( node->funcSpec.val )
220	);
221	cache.emplace( node, decl );
222	decl->statements = get<CompoundStmt>().accept1( node->stmts );
223	decl->withExprs = get<Expression>().acceptL( node->withExprs );
224	if ( ast::dereferenceOperator == node ) {
225	Validate::dereferenceOperator = decl;
226	}
227	if ( ast::dtorStructDestroy == node ) {
228	Validate::dtorStructDestroy = decl;
229	}
230	return declWithTypePostamble( decl, node );
231	}
232
233	const ast::Decl * namedTypePostamble( NamedTypeDecl * decl, const ast::NamedTypeDecl * node ) {
234	// base comes from constructor
235	decl->assertions = get<DeclarationWithType>().acceptL( node->assertions );
236	declPostamble( decl, node );
237	return nullptr;
238	}
239
240	const ast::Decl * visit( const ast::TypeDecl * node ) override final {
241	if ( inCache( node ) ) return nullptr;
242	auto decl = new TypeDecl(
243	node->name,
244	Type::StorageClasses( node->storage.val ),
245	get<Type>().accept1( node->base ),
246	(TypeDecl::Kind)(unsigned)node->kind,
247	node->sized,
248	get<Type>().accept1( node->init )
249	);
250	cache.emplace( node, decl );
251	return namedTypePostamble( decl, node );
252	}
253
254	const ast::Decl * visit( const ast::TypedefDecl * node ) override final {
255	auto decl = new TypedefDecl(
256	node->name,
257	node->location,
258	Type::StorageClasses( node->storage.val ),
259	get<Type>().accept1( node->base ),
260	LinkageSpec::Spec( node->linkage.val )
261	);
262	return namedTypePostamble( decl, node );
263	}
264
265	const ast::Decl * aggregatePostamble( AggregateDecl * decl, const ast::AggregateDecl * node ) {
266	cache.emplace( node, decl );
267	decl->members = get<Declaration>().acceptL( node->members );
268	decl->parameters = get<TypeDecl>().acceptL( node->params );
269	decl->body = node->body;
270	// attributes come from constructor
271	decl->parent = get<AggregateDecl>().accept1( node->parent );
272	declPostamble( decl, node );
273	return nullptr;
274	}
275
276	const ast::Decl * visit( const ast::StructDecl * node ) override final {
277	if ( inCache( node ) ) return nullptr;
278	auto decl = new StructDecl(
279	node->name,
280	(AggregateDecl::Aggregate)node->kind,
281	get<Attribute>().acceptL( node->attributes ),
282	LinkageSpec::Spec( node->linkage.val )
283	);
284
285	if ( ast::dtorStruct == node ) {
286	Validate::dtorStruct = decl;
287	}
288
289	return aggregatePostamble( decl, node );
290	}
291
292	const ast::Decl * visit( const ast::UnionDecl * node ) override final {
293	if ( inCache( node ) ) return nullptr;
294	auto decl = new UnionDecl(
295	node->name,
296	get<Attribute>().acceptL( node->attributes ),
297	LinkageSpec::Spec( node->linkage.val )
298	);
299	return aggregatePostamble( decl, node );
300	}
301
302	const ast::Decl * visit( const ast::EnumDecl * node ) override final {
303	if ( inCache( node ) ) return nullptr;
304	auto decl = new EnumDecl(
305	node->name,
306	get<Attribute>().acceptL( node->attributes ),
307	LinkageSpec::Spec( node->linkage.val )
308	);
309	return aggregatePostamble( decl, node );
310	}
311
312	const ast::Decl * visit( const ast::TraitDecl * node ) override final {
313	if ( inCache( node ) ) return nullptr;
314	auto decl = new TraitDecl(
315	node->name,
316	{},
317	LinkageSpec::Spec( node->linkage.val )
318	);
319	return aggregatePostamble( decl, node );
320	}
321
322	const ast::AsmDecl * visit( const ast::AsmDecl * node ) override final {
323	auto decl = new AsmDecl( get<AsmStmt>().accept1( node->stmt ) );
324	declPostamble( decl, node );
325	return nullptr;
326	}
327
328	const ast::StaticAssertDecl * visit( const ast::StaticAssertDecl * node ) override final {
329	auto decl = new StaticAssertDecl(
330	get<Expression>().accept1( node->cond ),
331	get<ConstantExpr>().accept1( node->msg )
332	);
333	declPostamble( decl, node );
334	return nullptr;
335	}
336
337	const ast::Stmt * stmtPostamble( Statement * stmt, const ast::Stmt * node ) {
338	// force statements in old tree to be unique.
339	// cache.emplace( node, stmt );
340	readonlyCache.emplace( node, stmt );
341	stmt->location = node->location;
342	stmt->labels = makeLabelL( stmt, node->labels );
343	this->node = stmt;
344	return nullptr;
345	}
346
347	const ast::CompoundStmt * visit( const ast::CompoundStmt * node ) override final {
348	if ( inCache( node ) ) return nullptr;
349	auto stmt = new CompoundStmt( get<Statement>().acceptL( node->kids ) );
350	stmtPostamble( stmt, node );
351	return nullptr;
352	}
353
354	const ast::Stmt * visit( const ast::ExprStmt * node ) override final {
355	if ( inCache( node ) ) return nullptr;
356	auto stmt = new ExprStmt( nullptr );
357	stmt->expr = get<Expression>().accept1( node->expr );
358	return stmtPostamble( stmt, node );
359	}
360
361	const ast::Stmt * visit( const ast::AsmStmt * node ) override final {
362	if ( inCache( node ) ) return nullptr;
363	auto stmt = new AsmStmt(
364	node->isVolatile,
365	get<Expression>().accept1( node->instruction ),
366	get<Expression>().acceptL( node->output ),
367	get<Expression>().acceptL( node->input ),
368	get<ConstantExpr>().acceptL( node->clobber ),
369	makeLabelL( nullptr, node->gotoLabels ) // What are these labelling?
370	);
371	return stmtPostamble( stmt, node );
372	}
373
374	const ast::Stmt * visit( const ast::DirectiveStmt * node ) override final {
375	if ( inCache( node ) ) return nullptr;
376	auto stmt = new DirectiveStmt( node->directive );
377	return stmtPostamble( stmt, node );
378	}
379
380	const ast::Stmt * visit( const ast::IfStmt * node ) override final {
381	if ( inCache( node ) ) return nullptr;
382	auto stmt = new IfStmt(
383	get<Expression>().accept1( node->cond ),
384	get<Statement>().accept1( node->thenPart ),
385	get<Statement>().accept1( node->elsePart ),
386	get<Statement>().acceptL( node->inits )
387	);
388	return stmtPostamble( stmt, node );
389	}
390
391	const ast::Stmt * visit( const ast::SwitchStmt * node ) override final {
392	if ( inCache( node ) ) return nullptr;
393	auto stmt = new SwitchStmt(
394	get<Expression>().accept1( node->cond ),
395	get<Statement>().acceptL( node->stmts )
396	);
397	return stmtPostamble( stmt, node );
398	}
399
400	const ast::Stmt * visit( const ast::CaseStmt * node ) override final {
401	if ( inCache( node ) ) return nullptr;
402	auto stmt = new CaseStmt(
403	get<Expression>().accept1( node->cond ),
404	get<Statement>().acceptL( node->stmts ),
405	node->isDefault()
406	);
407	return stmtPostamble( stmt, node );
408	}
409
410	const ast::Stmt * visit( const ast::WhileStmt * node ) override final {
411	if ( inCache( node ) ) return nullptr;
412	auto inits = get<Statement>().acceptL( node->inits );
413	auto stmt = new WhileStmt(
414	get<Expression>().accept1( node->cond ),
415	get<Statement>().accept1( node->body ),
416	inits,
417	node->isDoWhile
418	);
419	return stmtPostamble( stmt, node );
420	}
421
422	const ast::Stmt * visit( const ast::ForStmt * node ) override final {
423	if ( inCache( node ) ) return nullptr;
424	auto stmt = new ForStmt(
425	get<Statement>().acceptL( node->inits ),
426	get<Expression>().accept1( node->cond ),
427	get<Expression>().accept1( node->inc ),
428	get<Statement>().accept1( node->body )
429	);
430	return stmtPostamble( stmt, node );
431	}
432
433	const ast::Stmt * visit( const ast::BranchStmt * node ) override final {
434	if ( inCache( node ) ) return nullptr;
435	BranchStmt * stmt;
436	if (node->computedTarget) {
437	stmt = new BranchStmt( get<Expression>().accept1( node->computedTarget ),
438	BranchStmt::Goto );
439	} else {
440	BranchStmt::Type type;
441	switch (node->kind) {
442	#define CASE(n) \
443	case ast::BranchStmt::n: \
444	type = BranchStmt::n; \
445	break
446	CASE(Goto);
447	CASE(Break);
448	CASE(Continue);
449	CASE(FallThrough);
450	CASE(FallThroughDefault);
451	#undef CASE
452	default:
453	assertf(false, "Invalid ast::BranchStmt::Kind: %d\n", node->kind);
454	}
455
456	// The labels here are also weird.
457	stmt = new BranchStmt( makeLabel( nullptr, node->originalTarget ), type );
458	stmt->target = makeLabel( stmt, node->target );
459	}
460	return stmtPostamble( stmt, node );
461	}
462
463	const ast::Stmt * visit( const ast::ReturnStmt * node ) override final {
464	if ( inCache( node ) ) return nullptr;
465	auto stmt = new ReturnStmt( get<Expression>().accept1( node->expr ) );
466	return stmtPostamble( stmt, node );
467	}
468
469	const ast::Stmt * visit( const ast::ThrowStmt * node ) override final {
470	if ( inCache( node ) ) return nullptr;
471	ThrowStmt::Kind kind;
472	switch (node->kind) {
473	case ast::ExceptionKind::Terminate:
474	kind = ThrowStmt::Terminate;
475	break;
476	case ast::ExceptionKind::Resume:
477	kind = ThrowStmt::Resume;
478	break;
479	default:
480	assertf(false, "Invalid ast::ThrowStmt::Kind: %d\n", node->kind);
481	}
482	auto stmt = new ThrowStmt(
483	kind,
484	get<Expression>().accept1( node->expr ),
485	get<Expression>().accept1( node->target )
486	);
487	return stmtPostamble( stmt, node );
488	}
489
490	const ast::Stmt * visit( const ast::TryStmt * node ) override final {
491	if ( inCache( node ) ) return nullptr;
492	auto handlers = get<CatchStmt>().acceptL( node->handlers );
493	auto stmt = new TryStmt(
494	get<CompoundStmt>().accept1( node->body ),
495	handlers,
496	get<FinallyStmt>().accept1( node->finally )
497	);
498	return stmtPostamble( stmt, node );
499	}
500
501	const ast::Stmt * visit( const ast::CatchStmt * node ) override final {
502	if ( inCache( node ) ) return nullptr;
503	CatchStmt::Kind kind;
504	switch (node->kind) {
505	case ast::ExceptionKind::Terminate:
506	kind = CatchStmt::Terminate;
507	break;
508	case ast::ExceptionKind::Resume:
509	kind = CatchStmt::Resume;
510	break;
511	default:
512	assertf(false, "Invalid ast::CatchStmt::Kind: %d\n", node->kind);
513	}
514	auto stmt = new CatchStmt(
515	kind,
516	get<Declaration>().accept1( node->decl ),
517	get<Expression>().accept1( node->cond ),
518	get<Statement>().accept1( node->body )
519	);
520	return stmtPostamble( stmt, node );
521	}
522
523	const ast::Stmt * visit( const ast::FinallyStmt * node ) override final {
524	if ( inCache( node ) ) return nullptr;
525	auto stmt = new FinallyStmt( get<CompoundStmt>().accept1( node->body ) );
526	return stmtPostamble( stmt, node );
527	}
528
529	const ast::Stmt * visit(const ast::SuspendStmt * node ) override final {
530	if ( inCache( node ) ) return nullptr;
531	auto stmt = new SuspendStmt();
532	stmt->then = get<CompoundStmt>().accept1( node->then );
533	switch(node->type) {
534	case ast::SuspendStmt::None : stmt->type = SuspendStmt::None ; break;
535	case ast::SuspendStmt::Coroutine: stmt->type = SuspendStmt::Coroutine; break;
536	case ast::SuspendStmt::Generator: stmt->type = SuspendStmt::Generator; break;
537	}
538	return stmtPostamble( stmt, node );
539	}
540
541	const ast::Stmt * visit( const ast::WaitForStmt * node ) override final {
542	if ( inCache( node ) ) return nullptr;
543	auto stmt = new WaitForStmt;
544	stmt->clauses.reserve( node->clauses.size() );
545	for ( auto clause : node->clauses ) {
546	stmt->clauses.push_back({{
547	get<Expression>().accept1( clause.target.func ),
548	get<Expression>().acceptL( clause.target.args ),
549	},
550	get<Statement>().accept1( clause.stmt ),
551	get<Expression>().accept1( clause.cond ),
552	});
553	}
554	stmt->timeout = {
555	get<Expression>().accept1( node->timeout.time ),
556	get<Statement>().accept1( node->timeout.stmt ),
557	get<Expression>().accept1( node->timeout.cond ),
558	};
559	stmt->orelse = {
560	get<Statement>().accept1( node->orElse.stmt ),
561	get<Expression>().accept1( node->orElse.cond ),
562	};
563	return stmtPostamble( stmt, node );
564	}
565
566	const ast::Decl * visit( const ast::WithStmt * node ) override final {
567	if ( inCache( node ) ) return nullptr;
568	auto stmt = new WithStmt(
569	get<Expression>().acceptL( node->exprs ),
570	get<Statement>().accept1( node->stmt )
571	);
572	declPostamble( stmt, node );
573	return nullptr;
574	}
575
576	const ast::NullStmt * visit( const ast::NullStmt * node ) override final {
577	if ( inCache( node ) ) return nullptr;
578	auto stmt = new NullStmt();
579	stmtPostamble( stmt, node );
580	return nullptr;
581	}
582
583	const ast::Stmt * visit( const ast::DeclStmt * node ) override final {
584	if ( inCache( node ) ) return nullptr;
585	auto stmt = new DeclStmt( get<Declaration>().accept1( node->decl ) );
586	return stmtPostamble( stmt, node );
587	}
588
589	const ast::Stmt * visit( const ast::ImplicitCtorDtorStmt * node ) override final {
590	if ( inCache( node ) ) return nullptr;
591	auto stmt = new ImplicitCtorDtorStmt{
592	get<Statement>().accept1( node->callStmt )
593	};
594	return stmtPostamble( stmt, node );
595	}
596
597	TypeSubstitution * convertTypeSubstitution(const ast::TypeSubstitution * src) {
598
599	if (!src) return nullptr;
600
601	TypeSubstitution *rslt = new TypeSubstitution();
602
603	for (decltype(src->begin()) src_i = src->begin(); src_i != src->end(); src_i++) {
604	rslt->add( src_i->first,
605	get<Type>().accept1(src_i->second) );
606	}
607
608	for (decltype(src->beginVar()) src_i = src->beginVar(); src_i != src->endVar(); src_i++) {
609	rslt->addVar( src_i->first,
610	get<Expression>().accept1(src_i->second) );
611	}
612
613	return rslt;
614	}
615
616	void convertInferUnion(std::map<UniqueId,ParamEntry> &tgtInferParams,
617	std::vector<UniqueId> &tgtResnSlots,
618	const ast::Expr::InferUnion &srcInferred ) {
619
620	assert( tgtInferParams.empty() );
621	assert( tgtResnSlots.empty() );
622
623	if ( srcInferred.data.inferParams ) {
624	const ast::InferredParams &srcParams = srcInferred.inferParams();
625	for (auto & srcParam : srcParams) {
626	auto res = tgtInferParams.emplace(srcParam.first, ParamEntry(
627	srcParam.second.decl,
628	get<Declaration>().accept1(srcParam.second.declptr),
629	get<Type>().accept1(srcParam.second.actualType)->clone(),
630	get<Type>().accept1(srcParam.second.formalType)->clone(),
631	get<Expression>().accept1(srcParam.second.expr)->clone()
632	));
633	assert(res.second);
634	}
635	}
636	if ( srcInferred.data.resnSlots ) {
637	const ast::ResnSlots &srcSlots = srcInferred.resnSlots();
638	for (auto srcSlot : srcSlots) {
639	tgtResnSlots.push_back(srcSlot);
640	}
641	}
642	}
643
644	Expression * visitBaseExpr_skipResultType(const ast::Expr * src, Expression * tgt) {
645
646	tgt->location = src->location;
647	tgt->env = convertTypeSubstitution(src->env);
648	tgt->extension = src->extension;
649
650	convertInferUnion(tgt->inferParams, tgt->resnSlots, src->inferred);
651	return tgt;
652	}
653
654	Expression * visitBaseExpr(const ast::Expr * src, Expression * tgt) {
655
656	tgt->result = get<Type>().accept1(src->result);
657	// Unconditionally use a clone of the result type.
658	// We know this will leak some objects: much of the immediate conversion result.
659	// In some cases, using the conversion result directly gives unintended object sharing.
660	// A parameter (ObjectDecl, a child of a FunctionType) is shared by the weak-ref cache.
661	// But tgt->result must be fully owned privately by tgt.
662	// Applying these conservative copies here means
663	// - weak references point at the declaration's copy, not these expr.result copies (good)
664	// - we copy more objects than really needed (bad, tolerated)
665	if (tgt->result) {
666	tgt->result = tgt->result->clone();
667	}
668	return visitBaseExpr_skipResultType(src, tgt);
669	}
670
671	const ast::Expr * visit( const ast::ApplicationExpr * node ) override final {
672	auto expr = visitBaseExpr( node,
673	new ApplicationExpr(
674	get<Expression>().accept1(node->func),
675	get<Expression>().acceptL(node->args)
676	)
677	);
678	this->node = expr;
679	return nullptr;
680	}
681
682	const ast::Expr * visit( const ast::UntypedExpr * node ) override final {
683	auto expr = visitBaseExpr( node,
684	new UntypedExpr(
685	get<Expression>().accept1(node->func),
686	get<Expression>().acceptL(node->args)
687	)
688	);
689	this->node = expr;
690	return nullptr;
691	}
692
693	const ast::Expr * visit( const ast::NameExpr * node ) override final {
694	auto expr = visitBaseExpr( node,
695	new NameExpr(
696	node->name
697	)
698	);
699	this->node = expr;
700	return nullptr;
701	}
702
703	const ast::Expr * visit( const ast::AddressExpr * node ) override final {
704	auto expr = visitBaseExpr( node,
705	new AddressExpr(
706	get<Expression>().accept1(node->arg)
707	)
708	);
709	this->node = expr;
710	return nullptr;
711	}
712
713	const ast::Expr * visit( const ast::LabelAddressExpr * node ) override final {
714	auto expr = visitBaseExpr( node,
715	new LabelAddressExpr(
716	makeLabel(nullptr, node->arg)
717	)
718	);
719	this->node = expr;
720	return nullptr;
721	}
722
723	const ast::Expr * visit( const ast::CastExpr * node ) override final {
724	auto expr = visitBaseExpr( node,
725	new CastExpr(
726	get<Expression>().accept1(node->arg),
727	(node->isGenerated == ast::GeneratedCast)
728	)
729	);
730	this->node = expr;
731	return nullptr;
732	}
733
734	const ast::Expr * visit( const ast::KeywordCastExpr * node ) override final {
735	AggregateDecl::Aggregate castTarget = (AggregateDecl::Aggregate)node->target;
736	assert( AggregateDecl::Generator <= castTarget && castTarget <= AggregateDecl::Thread );
737	auto expr = visitBaseExpr( node,
738	new KeywordCastExpr(
739	get<Expression>().accept1(node->arg),
740	castTarget,
741	{node->concrete_target.field, node->concrete_target.getter}
742	)
743	);
744	this->node = expr;
745	return nullptr;
746	}
747
748	const ast::Expr * visit( const ast::VirtualCastExpr * node ) override final {
749	auto expr = visitBaseExpr_skipResultType( node,
750	new VirtualCastExpr(
751	get<Expression>().accept1(node->arg),
752	get<Type>().accept1(node->result)
753	)
754	);
755	this->node = expr;
756	return nullptr;
757	}
758
759	const ast::Expr * visit( const ast::UntypedMemberExpr * node ) override final {
760	auto expr = visitBaseExpr( node,
761	new UntypedMemberExpr(
762	get<Expression>().accept1(node->member),
763	get<Expression>().accept1(node->aggregate)
764	)
765	);
766	this->node = expr;
767	return nullptr;
768	}
769
770	const ast::Expr * visit( const ast::MemberExpr * node ) override final {
771	auto expr = visitBaseExpr( node,
772	new MemberExpr(
773	get<DeclarationWithType>().accept1(node->member),
774	get<Expression>().accept1(node->aggregate)
775	)
776	);
777	this->node = expr;
778	return nullptr;
779	}
780
781	const ast::Expr * visit( const ast::VariableExpr * node ) override final {
782	auto expr = new VariableExpr();
783	expr->var = get<DeclarationWithType>().accept1(node->var);
784	visitBaseExpr( node, expr );
785	this->node = expr;
786	return nullptr;
787	}
788
789	const ast::Expr * visit( const ast::ConstantExpr * node ) override final {
790	// Old world: two types: rslt->constant.type, rslt->result
791	// New workd: one public type: node->result, plus node->underlyer only to support roundtrip conversion
792	// preserving underlyer because the correct type for string literals is complicated to construct,
793	// and distinguishing a string from other literals using the type is hard to do accurately
794	// Both worlds: the outer, expression-level type can change during resolution
795	// for a string, that's char[k] before-resolve and char * after
796	// Old world: the inner Constant type stays what it was built with
797	// for a string, that's char[k] always
798	// Both worlds: the "rep" field of a constant is the C source file fragment that compiles to the desired value
799	// for a string, that includes outer quotes, backslashes, et al cases from the Literals test
800	ConstantExpr *rslt = new ConstantExpr(Constant(
801	get<Type>().accept1(node->underlyer),
802	node->rep,
803	node->ival));
804	auto expr = visitBaseExpr( node, rslt );
805	this->node = expr;
806	return nullptr;
807	}
808
809	const ast::Expr * visit( const ast::SizeofExpr * node ) override final {
810	assert (node->expr \|\| node->type);
811	assert (! (node->expr && node->type));
812	SizeofExpr *rslt;
813	if (node->expr) {
814	rslt = new SizeofExpr(
815	get<Expression>().accept1(node->expr)
816	);
817	assert (!rslt->isType);
818	}
819	else {
820	assert(node->type);
821	rslt = new SizeofExpr(
822	get<Type>().accept1(node->type)
823	);
824	assert (rslt->isType);
825	}
826	auto expr = visitBaseExpr( node, rslt );
827	this->node = expr;
828	return nullptr;
829	}
830
831	const ast::Expr * visit( const ast::AlignofExpr * node ) override final {
832	assert (node->expr \|\| node->type);
833	assert (! (node->expr && node->type));
834	AlignofExpr *rslt;
835	if (node->expr) {
836	rslt = new AlignofExpr(
837	get<Expression>().accept1(node->expr)
838	);
839	assert (!rslt->isType);
840	}
841	else {
842	assert(node->type);
843	rslt = new AlignofExpr(
844	get<Type>().accept1(node->type)
845	);
846	assert (rslt->isType);
847	}
848	auto expr = visitBaseExpr( node, rslt );
849	this->node = expr;
850	return nullptr;
851	}
852
853	const ast::Expr * visit( const ast::UntypedOffsetofExpr * node ) override final {
854	auto expr = visitBaseExpr( node,
855	new UntypedOffsetofExpr(
856	get<Type>().accept1(node->type),
857	node->member
858	)
859	);
860	this->node = expr;
861	return nullptr;
862	}
863
864	const ast::Expr * visit( const ast::OffsetofExpr * node ) override final {
865	auto expr = visitBaseExpr( node,
866	new OffsetofExpr(
867	get<Type>().accept1(node->type),
868	get<DeclarationWithType>().accept1(node->member)
869	)
870	);
871	this->node = expr;
872	return nullptr;
873	}
874
875	const ast::Expr * visit( const ast::OffsetPackExpr * node ) override final {
876	auto expr = visitBaseExpr( node,
877	new OffsetPackExpr(
878	get<StructInstType>().accept1(node->type)
879	)
880	);
881	this->node = expr;
882	return nullptr;
883	}
884
885	const ast::Expr * visit( const ast::LogicalExpr * node ) override final {
886	assert (node->isAnd == ast::LogicalFlag::AndExpr \|\|
887	node->isAnd == ast::LogicalFlag::OrExpr );
888	auto expr = visitBaseExpr( node,
889	new LogicalExpr(
890	get<Expression>().accept1(node->arg1),
891	get<Expression>().accept1(node->arg2),
892	(node->isAnd == ast::LogicalFlag::AndExpr)
893	)
894	);
895	this->node = expr;
896	return nullptr;
897	}
898
899	const ast::Expr * visit( const ast::ConditionalExpr * node ) override final {
900	auto expr = visitBaseExpr( node,
901	new ConditionalExpr(
902	get<Expression>().accept1(node->arg1),
903	get<Expression>().accept1(node->arg2),
904	get<Expression>().accept1(node->arg3)
905	)
906	);
907	this->node = expr;
908	return nullptr;
909	}
910
911	const ast::Expr * visit( const ast::CommaExpr * node ) override final {
912	auto expr = visitBaseExpr( node,
913	new CommaExpr(
914	get<Expression>().accept1(node->arg1),
915	get<Expression>().accept1(node->arg2)
916	)
917	);
918	this->node = expr;
919	return nullptr;
920	}
921
922	const ast::Expr * visit( const ast::TypeExpr * node ) override final {
923	auto expr = visitBaseExpr( node,
924	new TypeExpr(
925	get<Type>().accept1(node->type)
926	)
927	);
928	this->node = expr;
929	return nullptr;
930	}
931
932	const ast::Expr * visit( const ast::AsmExpr * node ) override final {
933	auto expr = visitBaseExpr( node,
934	new AsmExpr(
935	new std::string(node->inout),
936	get<Expression>().accept1(node->constraint),
937	get<Expression>().accept1(node->operand)
938	)
939	);
940	this->node = expr;
941	return nullptr;
942	}
943
944	const ast::Expr * visit( const ast::ImplicitCopyCtorExpr * node ) override final {
945	auto rslt = new ImplicitCopyCtorExpr(
946	get<ApplicationExpr>().accept1(node->callExpr)
947	);
948
949	auto expr = visitBaseExpr( node, rslt );
950	this->node = expr;
951	return nullptr;
952	}
953
954	const ast::Expr * visit( const ast::ConstructorExpr * node ) override final {
955	auto expr = visitBaseExpr( node,
956	new ConstructorExpr(
957	get<Expression>().accept1(node->callExpr)
958	)
959	);
960	this->node = expr;
961	return nullptr;
962	}
963
964	const ast::Expr * visit( const ast::CompoundLiteralExpr * node ) override final {
965	auto expr = visitBaseExpr_skipResultType( node,
966	new CompoundLiteralExpr(
967	get<Type>().accept1(node->result),
968	get<Initializer>().accept1(node->init)
969	)
970	);
971	this->node = expr;
972	return nullptr;
973	}
974
975	const ast::Expr * visit( const ast::RangeExpr * node ) override final {
976	auto expr = visitBaseExpr( node,
977	new RangeExpr(
978	get<Expression>().accept1(node->low),
979	get<Expression>().accept1(node->high)
980	)
981	);
982	this->node = expr;
983	return nullptr;
984	}
985
986	const ast::Expr * visit( const ast::UntypedTupleExpr * node ) override final {
987	auto expr = visitBaseExpr( node,
988	new UntypedTupleExpr(
989	get<Expression>().acceptL(node->exprs)
990	)
991	);
992	this->node = expr;
993	return nullptr;
994	}
995
996	const ast::Expr * visit( const ast::TupleExpr * node ) override final {
997	auto expr = visitBaseExpr( node,
998	new TupleExpr(
999	get<Expression>().acceptL(node->exprs)
1000	)
1001	);
1002	this->node = expr;
1003	return nullptr;
1004	}
1005
1006	const ast::Expr * visit( const ast::TupleIndexExpr * node ) override final {
1007	auto expr = visitBaseExpr( node,
1008	new TupleIndexExpr(
1009	get<Expression>().accept1(node->tuple),
1010	node->index
1011	)
1012	);
1013	this->node = expr;
1014	return nullptr;
1015	}
1016
1017	const ast::Expr * visit( const ast::TupleAssignExpr * node ) override final {
1018	auto expr = visitBaseExpr( node,
1019	new TupleAssignExpr(
1020	get<StmtExpr>().accept1(node->stmtExpr)
1021	)
1022	);
1023	this->node = expr;
1024	return nullptr;
1025	}
1026
1027	const ast::Expr * visit( const ast::StmtExpr * node ) override final {
1028	auto stmts = node->stmts;
1029	// disable sharing between multiple StmtExprs explicitly.
1030	// this should no longer be true.
1031
1032	auto rslt = new StmtExpr(
1033	get<CompoundStmt>().accept1(stmts)
1034	);
1035
1036	rslt->returnDecls = get<ObjectDecl>().acceptL(node->returnDecls);
1037	rslt->dtors = get<Expression>().acceptL(node->dtors);
1038	if (node->resultExpr) {
1039	// this MUST be found by children visit
1040	rslt->resultExpr = strict_dynamic_cast<ExprStmt *>(readonlyCache.at(node->resultExpr));
1041	}
1042
1043	auto expr = visitBaseExpr( node, rslt );
1044	this->node = expr;
1045	return nullptr;
1046	}
1047
1048	const ast::Expr * visit( const ast::UniqueExpr * node ) override final {
1049	auto rslt = new UniqueExpr(
1050	get<Expression>().accept1(node->expr),
1051	node->id
1052	);
1053
1054	rslt->object = get<ObjectDecl> ().accept1(node->object);
1055	rslt->var = get<VariableExpr>().accept1(node->var);
1056
1057	auto expr = visitBaseExpr( node, rslt );
1058	this->node = expr->clone();
1059	return nullptr;
1060	}
1061
1062	const ast::Expr * visit( const ast::UntypedInitExpr * node ) override final {
1063	std::list<InitAlternative> initAlts;
1064	for (auto ia : node->initAlts) {
1065	initAlts.push_back(InitAlternative(
1066	get<Type> ().accept1(ia.type),
1067	get<Designation>().accept1(ia.designation)
1068	));
1069	}
1070	auto expr = visitBaseExpr( node,
1071	new UntypedInitExpr(
1072	get<Expression>().accept1(node->expr),
1073	initAlts
1074	)
1075	);
1076	this->node = expr;
1077	return nullptr;
1078	}
1079
1080	const ast::Expr * visit( const ast::InitExpr * node ) override final {
1081	auto expr = visitBaseExpr( node,
1082	new InitExpr(
1083	get<Expression>().accept1(node->expr),
1084	get<Designation>().accept1(node->designation)
1085	)
1086	);
1087	this->node = expr;
1088	return nullptr;
1089	}
1090
1091	const ast::Expr * visit( const ast::DeletedExpr * node ) override final {
1092	auto expr = visitBaseExpr( node,
1093	new DeletedExpr(
1094	get<Expression>().accept1(node->expr),
1095	inCache(node->deleteStmt) ?
1096	strict_dynamic_cast<Declaration*>(this->node) :
1097	get<Declaration>().accept1(node->deleteStmt)
1098	)
1099	);
1100	this->node = expr;
1101	return nullptr;
1102	}
1103
1104	const ast::Expr * visit( const ast::DefaultArgExpr * node ) override final {
1105	auto expr = visitBaseExpr( node,
1106	new DefaultArgExpr(
1107	get<Expression>().accept1(node->expr)
1108	)
1109	);
1110	this->node = expr;
1111	return nullptr;
1112	}
1113
1114	const ast::Expr * visit( const ast::GenericExpr * node ) override final {
1115	std::list<GenericExpr::Association> associations;
1116	for (auto association : node->associations) {
1117	associations.push_back(GenericExpr::Association(
1118	get<Type> ().accept1(association.type),
1119	get<Expression>().accept1(association.expr)
1120	));
1121	}
1122	auto expr = visitBaseExpr( node,
1123	new GenericExpr(
1124	get<Expression>().accept1(node->control),
1125	associations
1126	)
1127	);
1128	this->node = expr;
1129	return nullptr;
1130	}
1131
1132	const ast::Type * visitType( const ast::Type * node, Type * type ) {
1133	// Some types do this in their constructor so add a check.
1134	if ( !node->attributes.empty() && type->attributes.empty() ) {
1135	type->attributes = get<Attribute>().acceptL( node->attributes );
1136	}
1137	this->node = type;
1138	return nullptr;
1139	}
1140
1141	const ast::Type * visit( const ast::VoidType * node ) override final {
1142	return visitType( node, new VoidType{ cv( node ) } );
1143	}
1144
1145	const ast::Type * visit( const ast::BasicType * node ) override final {
1146	auto type = new BasicType{ cv( node ), (BasicType::Kind)(unsigned)node->kind };
1147	// I believe this should always be a BasicType.
1148	if ( ast::sizeType == node ) {
1149	Validate::SizeType = type;
1150	}
1151	return visitType( node, type );
1152	}
1153
1154	const ast::Type * visit( const ast::PointerType * node ) override final {
1155	return visitType( node, new PointerType{
1156	cv( node ),
1157	get<Type>().accept1( node->base ),
1158	get<Expression>().accept1( node->dimension ),
1159	(bool)node->isVarLen,
1160	(bool)node->isStatic
1161	} );
1162	}
1163
1164	const ast::Type * visit( const ast::ArrayType * node ) override final {
1165	return visitType( node, new ArrayType{
1166	cv( node ),
1167	get<Type>().accept1( node->base ),
1168	get<Expression>().accept1( node->dimension ),
1169	(bool)node->isVarLen,
1170	(bool)node->isStatic
1171	} );
1172	}
1173
1174	const ast::Type * visit( const ast::ReferenceType * node ) override final {
1175	return visitType( node, new ReferenceType{
1176	cv( node ),
1177	get<Type>().accept1( node->base )
1178	} );
1179	}
1180
1181	const ast::Type * visit( const ast::QualifiedType * node ) override final {
1182	return visitType( node, new QualifiedType{
1183	cv( node ),
1184	get<Type>().accept1( node->parent ),
1185	get<Type>().accept1( node->child )
1186	} );
1187	}
1188
1189	const ast::Type * visit( const ast::FunctionType * node ) override final {
1190	static std::string dummy_paramvar_prefix = "__param_";
1191	static std::string dummy_returnvar_prefix = "__retval_";
1192
1193	auto ty = new FunctionType {
1194	cv( node ),
1195	(bool)node->isVarArgs
1196	};
1197	auto returns = get<Type>().acceptL(node->returns);
1198	auto params = get<Type>().acceptL(node->params);
1199
1200	int ret_index = 0;
1201	for (auto t: returns) {
1202	// xxx - LinkageSpec shouldn't matter but needs to be something
1203	ObjectDecl * dummy = new ObjectDecl(dummy_returnvar_prefix + std::to_string(ret_index++), {}, LinkageSpec::C, nullptr, t, nullptr);
1204	ty->returnVals.push_back(dummy);
1205	}
1206	int param_index = 0;
1207	for (auto t: params) {
1208	ObjectDecl * dummy = new ObjectDecl(dummy_paramvar_prefix + std::to_string(param_index++), {}, LinkageSpec::C, nullptr, t, nullptr);
1209	ty->parameters.push_back(dummy);
1210	}
1211
1212	// ty->returnVals = get<DeclarationWithType>().acceptL( node->returns );
1213	// ty->parameters = get<DeclarationWithType>().acceptL( node->params );
1214	ty->forall = get<TypeDecl>().acceptL( node->forall );
1215	return visitType( node, ty );
1216	}
1217
1218	const ast::Type * postvisit( const ast::BaseInstType * old, ReferenceToType * ty ) {
1219	ty->forall = get<TypeDecl>().acceptL( old->forall );
1220	ty->parameters = get<Expression>().acceptL( old->params );
1221	ty->hoistType = old->hoistType;
1222	return visitType( old, ty );
1223	}
1224
1225	const ast::Type * visit( const ast::StructInstType * node ) override final {
1226	StructInstType * ty;
1227	if ( node->base ) {
1228	ty = new StructInstType{
1229	cv( node ),
1230	get<StructDecl>().accept1( node->base ),
1231	get<Attribute>().acceptL( node->attributes )
1232	};
1233	} else {
1234	ty = new StructInstType{
1235	cv( node ),
1236	node->name,
1237	get<Attribute>().acceptL( node->attributes )
1238	};
1239	}
1240	return postvisit( node, ty );
1241	}
1242
1243	const ast::Type * visit( const ast::UnionInstType * node ) override final {
1244	UnionInstType * ty;
1245	if ( node->base ) {
1246	ty = new UnionInstType{
1247	cv( node ),
1248	get<UnionDecl>().accept1( node->base ),
1249	get<Attribute>().acceptL( node->attributes )
1250	};
1251	} else {
1252	ty = new UnionInstType{
1253	cv( node ),
1254	node->name,
1255	get<Attribute>().acceptL( node->attributes )
1256	};
1257	}
1258	return postvisit( node, ty );
1259	}
1260
1261	const ast::Type * visit( const ast::EnumInstType * node ) override final {
1262	EnumInstType * ty;
1263	if ( node->base ) {
1264	ty = new EnumInstType{
1265	cv( node ),
1266	get<EnumDecl>().accept1( node->base ),
1267	get<Attribute>().acceptL( node->attributes )
1268	};
1269	} else {
1270	ty = new EnumInstType{
1271	cv( node ),
1272	node->name,
1273	get<Attribute>().acceptL( node->attributes )
1274	};
1275	}
1276	return postvisit( node, ty );
1277	}
1278
1279	const ast::Type * visit( const ast::TraitInstType * node ) override final {
1280	TraitInstType * ty;
1281	if ( node->base ) {
1282	ty = new TraitInstType{
1283	cv( node ),
1284	get<TraitDecl>().accept1( node->base ),
1285	get<Attribute>().acceptL( node->attributes )
1286	};
1287	} else {
1288	ty = new TraitInstType{
1289	cv( node ),
1290	node->name,
1291	get<Attribute>().acceptL( node->attributes )
1292	};
1293	}
1294	return postvisit( node, ty );
1295	}
1296
1297	const ast::Type * visit( const ast::TypeInstType * node ) override final {
1298	TypeInstType * ty;
1299	if ( node->base ) {
1300	ty = new TypeInstType{
1301	cv( node ),
1302	node->name,
1303	get<TypeDecl>().accept1( node->base ),
1304	get<Attribute>().acceptL( node->attributes )
1305	};
1306	} else {
1307	ty = new TypeInstType{
1308	cv( node ),
1309	node->name,
1310	node->kind == ast::TypeDecl::Ftype,
1311	get<Attribute>().acceptL( node->attributes )
1312	};
1313	}
1314	return postvisit( node, ty );
1315	}
1316
1317	const ast::Type * visit( const ast::TupleType * node ) override final {
1318	return visitType( node, new TupleType{
1319	cv( node ),
1320	get<Type>().acceptL( node->types )
1321	// members generated by TupleType c'tor
1322	} );
1323	}
1324
1325	const ast::Type * visit( const ast::TypeofType * node ) override final {
1326	return visitType( node, new TypeofType{
1327	cv( node ),
1328	get<Expression>().accept1( node->expr ),
1329	(bool)node->kind
1330	} );
1331	}
1332
1333	const ast::Type * visit( const ast::VarArgsType * node ) override final {
1334	return visitType( node, new VarArgsType{ cv( node ) } );
1335	}
1336
1337	const ast::Type * visit( const ast::ZeroType * node ) override final {
1338	return visitType( node, new ZeroType{ cv( node ) } );
1339	}
1340
1341	const ast::Type * visit( const ast::OneType * node ) override final {
1342	return visitType( node, new OneType{ cv( node ) } );
1343	}
1344
1345	const ast::Type * visit( const ast::GlobalScopeType * node ) override final {
1346	return visitType( node, new GlobalScopeType{} );
1347	}
1348
1349	const ast::Designation * visit( const ast::Designation * node ) override final {
1350	auto designation = new Designation( get<Expression>().acceptL( node->designators ) );
1351	designation->location = node->location;
1352	this->node = designation;
1353	return nullptr;
1354	}
1355
1356	const ast::Init * visit( const ast::SingleInit * node ) override final {
1357	auto init = new SingleInit(
1358	get<Expression>().accept1( node->value ),
1359	ast::MaybeConstruct == node->maybeConstructed
1360	);
1361	init->location = node->location;
1362	this->node = init;
1363	return nullptr;
1364	}
1365
1366	const ast::Init * visit( const ast::ListInit * node ) override final {
1367	auto init = new ListInit(
1368	get<Initializer>().acceptL( node->initializers ),
1369	get<Designation>().acceptL( node->designations ),
1370	ast::MaybeConstruct == node->maybeConstructed
1371	);
1372	init->location = node->location;
1373	this->node = init;
1374	return nullptr;
1375	}
1376
1377	const ast::Init * visit( const ast::ConstructorInit * node ) override final {
1378	auto init = new ConstructorInit(
1379	get<Statement>().accept1( node->ctor ),
1380	get<Statement>().accept1( node->dtor ),
1381	get<Initializer>().accept1( node->init )
1382	);
1383	init->location = node->location;
1384	this->node = init;
1385	return nullptr;
1386	}
1387
1388	const ast::Attribute * visit( const ast::Attribute * node ) override final {
1389	auto attr = new Attribute(
1390	node->name,
1391	get<Expression>().acceptL(node->params)
1392	);
1393	this->node = attr;
1394	return nullptr;
1395	}
1396
1397	const ast::TypeSubstitution * visit( const ast::TypeSubstitution * node ) override final {
1398	// Handled by convertTypeSubstitution helper instead.
1399	// TypeSubstitution is not a node in the old model, so the conversion result wouldn't fit in this->node.
1400	assert( 0 );
1401	(void)node;
1402	return nullptr;
1403	}
1404	};
1405
1406	std::list< Declaration * > convert( const ast::TranslationUnit && translationUnit ) {
1407	ConverterNewToOld c;
1408	std::list< Declaration * > decls;
1409	for(auto d : translationUnit.decls) {
1410	decls.emplace_back( c.decl( d ) );
1411	}
1412	return decls;
1413	}
1414
1415	//================================================================================================
1416
1417	class ConverterOldToNew : public Visitor {
1418	public:
1419	ast::Decl * decl() {
1420	return strict_dynamic_cast< ast::Decl * >( node );
1421	}
1422
1423	ConverterOldToNew() = default;
1424	ConverterOldToNew(const ConverterOldToNew &) = delete;
1425	ConverterOldToNew(ConverterOldToNew &&) = delete;
1426	private:
1427	/// conversion output
1428	ast::Node * node = nullptr;
1429	/// cache of nodes that might be referenced by readonly<> for de-duplication
1430	/// in case that some nodes are dropped by conversion (due to possible structural change)
1431	/// use smart pointers in cache value to prevent accidental invalidation.
1432	/// at conversion stage, all created nodes are guaranteed to be unique, therefore
1433	/// const_casting out of smart pointers is permitted.
1434	std::unordered_map< const BaseSyntaxNode *, ast::ptr<ast::Node> > cache = {};
1435
1436	// Local Utilities:
1437
1438	template<typename NewT, typename OldT>
1439	NewT * getAccept1( OldT old ) {
1440	if ( ! old ) return nullptr;
1441	old->accept(*this);
1442	ast::Node * ret = node;
1443	node = nullptr;
1444	return strict_dynamic_cast< NewT * >( ret );
1445	}
1446
1447	# define GET_ACCEPT_1(child, type) \
1448	getAccept1< ast::type, decltype( old->child ) >( old->child )
1449
1450	template<typename NewT, typename OldC>
1451	std::vector< ast::ptr<NewT> > getAcceptV( const OldC& old ) {
1452	std::vector< ast::ptr<NewT> > ret;
1453	ret.reserve( old.size() );
1454	for ( auto a : old ) {
1455	a->accept( *this );
1456	ret.emplace_back( strict_dynamic_cast< NewT * >(node) );
1457	node = nullptr;
1458	}
1459	return ret;
1460	}
1461
1462	# define GET_ACCEPT_V(child, type) \
1463	getAcceptV< ast::type, decltype( old->child ) >( old->child )
1464
1465	template<typename NewT, typename OldC>
1466	std::deque< ast::ptr<NewT> > getAcceptD( const OldC& old ) {
1467	std::deque< ast::ptr<NewT> > ret;
1468	for ( auto a : old ) {
1469	a->accept( *this );
1470	ret.emplace_back( strict_dynamic_cast< NewT * >(node) );
1471	node = nullptr;
1472	}
1473	return ret;
1474	}
1475
1476	# define GET_ACCEPT_D(child, type) \
1477	getAcceptD< ast::type, decltype( old->child ) >( old->child )
1478
1479	ast::Label make_label(const Label* old) {
1480	CodeLocation const & location =
1481	( old->labelled ) ? old->labelled->location : CodeLocation();
1482	return ast::Label(
1483	location,
1484	old->name,
1485	GET_ACCEPT_V(attributes, Attribute)
1486	);
1487	}
1488
1489	template<template <class...> class C>
1490	C<ast::Label> make_labels(C<Label> olds) {
1491	C<ast::Label> ret;
1492	for (auto oldn : olds) {
1493	ret.push_back( make_label( &oldn ) );
1494	}
1495	return ret;
1496	}
1497
1498	# define GET_LABELS_V(labels) \
1499	to<std::vector>::from( make_labels( std::move( labels ) ) )
1500
1501	static ast::CV::Qualifiers cv( const Type * ty ) { return { ty->tq.val }; }
1502
1503	/// returns true and sets `node` if in cache
1504	bool inCache( const BaseSyntaxNode * old ) {
1505	auto it = cache.find( old );
1506	if ( it == cache.end() ) return false;
1507	node = const_cast<ast::Node *>(it->second.get());
1508	return true;
1509	}
1510
1511	// Now all the visit functions:
1512
1513	virtual void visit( const ObjectDecl * old ) override final {
1514	auto&& type = GET_ACCEPT_1(type, Type);
1515	auto&& init = GET_ACCEPT_1(init, Init);
1516	auto&& bfwd = GET_ACCEPT_1(bitfieldWidth, Expr);
1517	auto&& attr = GET_ACCEPT_V(attributes, Attribute);
1518	if ( inCache( old ) ) {
1519	return;
1520	}
1521	auto decl = new ast::ObjectDecl(
1522	old->location,
1523	old->name,
1524	type,
1525	init,
1526	{ old->get_storageClasses().val },
1527	{ old->linkage.val },
1528	bfwd,
1529	std::move(attr),
1530	{ old->get_funcSpec().val }
1531	);
1532	cache.emplace(old, decl);
1533	assert(cache.find( old ) != cache.end());
1534	decl->scopeLevel = old->scopeLevel;
1535	decl->mangleName = old->mangleName;
1536	decl->isDeleted = old->isDeleted;
1537	decl->asmName = GET_ACCEPT_1(asmName, Expr);
1538	decl->uniqueId = old->uniqueId;
1539	decl->extension = old->extension;
1540
1541	this->node = decl;
1542	}
1543
1544	virtual void visit( const FunctionDecl * old ) override final {
1545	if ( inCache( old ) ) return;
1546	auto paramVars = GET_ACCEPT_V(type->parameters, DeclWithType);
1547	auto returnVars = GET_ACCEPT_V(type->returnVals, DeclWithType);
1548	auto forall = GET_ACCEPT_V(type->forall, TypeDecl);
1549
1550	// function type is now derived from parameter decls instead of storing them
1551
1552	/*
1553	auto ftype = new ast::FunctionType((ast::ArgumentFlag)old->type->isVarArgs, cv(old->type));
1554	ftype->params.reserve(paramVars.size());
1555	ftype->returns.reserve(returnVars.size());
1556
1557	for (auto & v: paramVars) {
1558	ftype->params.emplace_back(v->get_type());
1559	}
1560	for (auto & v: returnVars) {
1561	ftype->returns.emplace_back(v->get_type());
1562	}
1563	ftype->forall = std::move(forall);
1564	*/
1565
1566	// can function type have attributes? seems not to be the case.
1567	// visitType(old->type, ftype);
1568
1569	auto decl = new ast::FunctionDecl{
1570	old->location,
1571	old->name,
1572	// GET_ACCEPT_1(type, FunctionType),
1573	std::move(forall),
1574	std::move(paramVars),
1575	std::move(returnVars),
1576	{},
1577	{ old->storageClasses.val },
1578	{ old->linkage.val },
1579	GET_ACCEPT_V(attributes, Attribute),
1580	{ old->get_funcSpec().val },
1581	old->type->isVarArgs
1582	};
1583
1584	// decl->type = ftype;
1585	cache.emplace( old, decl );
1586
1587	decl->withExprs = GET_ACCEPT_V(withExprs, Expr);
1588	decl->stmts = GET_ACCEPT_1(statements, CompoundStmt);
1589	decl->scopeLevel = old->scopeLevel;
1590	decl->mangleName = old->mangleName;
1591	decl->isDeleted = old->isDeleted;
1592	decl->asmName = GET_ACCEPT_1(asmName, Expr);
1593	decl->uniqueId = old->uniqueId;
1594	decl->extension = old->extension;
1595
1596	this->node = decl;
1597
1598	if ( Validate::dereferenceOperator == old ) {
1599	ast::dereferenceOperator = decl;
1600	}
1601
1602	if ( Validate::dtorStructDestroy == old ) {
1603	ast::dtorStructDestroy = decl;
1604	}
1605	}
1606
1607	virtual void visit( const StructDecl * old ) override final {
1608	if ( inCache( old ) ) return;
1609	auto decl = new ast::StructDecl(
1610	old->location,
1611	old->name,
1612	(ast::AggregateDecl::Aggregate)old->kind,
1613	GET_ACCEPT_V(attributes, Attribute),
1614	{ old->linkage.val }
1615	);
1616	cache.emplace( old, decl );
1617	decl->parent = GET_ACCEPT_1(parent, AggregateDecl);
1618	decl->body = old->body;
1619	decl->params = GET_ACCEPT_V(parameters, TypeDecl);
1620	decl->members = GET_ACCEPT_V(members, Decl);
1621	decl->extension = old->extension;
1622	decl->uniqueId = old->uniqueId;
1623	decl->storage = { old->storageClasses.val };
1624
1625	this->node = decl;
1626
1627	if ( Validate::dtorStruct == old ) {
1628	ast::dtorStruct = decl;
1629	}
1630	}
1631
1632	virtual void visit( const UnionDecl * old ) override final {
1633	if ( inCache( old ) ) return;
1634	auto decl = new ast::UnionDecl(
1635	old->location,
1636	old->name,
1637	GET_ACCEPT_V(attributes, Attribute),
1638	{ old->linkage.val }
1639	);
1640	cache.emplace( old, decl );
1641	decl->parent = GET_ACCEPT_1(parent, AggregateDecl);
1642	decl->body = old->body;
1643	decl->params = GET_ACCEPT_V(parameters, TypeDecl);
1644	decl->members = GET_ACCEPT_V(members, Decl);
1645	decl->extension = old->extension;
1646	decl->uniqueId = old->uniqueId;
1647	decl->storage = { old->storageClasses.val };
1648
1649	this->node = decl;
1650	}
1651
1652	virtual void visit( const EnumDecl * old ) override final {
1653	if ( inCache( old ) ) return;
1654	auto decl = new ast::EnumDecl(
1655	old->location,
1656	old->name,
1657	GET_ACCEPT_V(attributes, Attribute),
1658	{ old->linkage.val }
1659	);
1660	cache.emplace( old, decl );
1661	decl->parent = GET_ACCEPT_1(parent, AggregateDecl);
1662	decl->body = old->body;
1663	decl->params = GET_ACCEPT_V(parameters, TypeDecl);
1664	decl->members = GET_ACCEPT_V(members, Decl);
1665	decl->extension = old->extension;
1666	decl->uniqueId = old->uniqueId;
1667	decl->storage = { old->storageClasses.val };
1668
1669	this->node = decl;
1670	}
1671
1672	virtual void visit( const TraitDecl * old ) override final {
1673	if ( inCache( old ) ) return;
1674	auto decl = new ast::TraitDecl(
1675	old->location,
1676	old->name,
1677	GET_ACCEPT_V(attributes, Attribute),
1678	{ old->linkage.val }
1679	);
1680	cache.emplace( old, decl );
1681	decl->parent = GET_ACCEPT_1(parent, AggregateDecl);
1682	decl->body = old->body;
1683	decl->params = GET_ACCEPT_V(parameters, TypeDecl);
1684	decl->members = GET_ACCEPT_V(members, Decl);
1685	decl->extension = old->extension;
1686	decl->uniqueId = old->uniqueId;
1687	decl->storage = { old->storageClasses.val };
1688
1689	this->node = decl;
1690	}
1691
1692	virtual void visit( const TypeDecl * old ) override final {
1693	if ( inCache( old ) ) return;
1694	auto decl = new ast::TypeDecl{
1695	old->location,
1696	old->name,
1697	{ old->storageClasses.val },
1698	GET_ACCEPT_1(base, Type),
1699	(ast::TypeDecl::Kind)(unsigned)old->kind,
1700	old->sized,
1701	GET_ACCEPT_1(init, Type)
1702	};
1703	cache.emplace( old, decl );
1704	decl->assertions = GET_ACCEPT_V(assertions, DeclWithType);
1705	decl->extension = old->extension;
1706	decl->uniqueId = old->uniqueId;
1707
1708	this->node = decl;
1709	}
1710
1711	virtual void visit( const TypedefDecl * old ) override final {
1712	auto decl = new ast::TypedefDecl(
1713	old->location,
1714	old->name,
1715	{ old->storageClasses.val },
1716	GET_ACCEPT_1(base, Type),
1717	{ old->linkage.val }
1718	);
1719	decl->assertions = GET_ACCEPT_V(assertions, DeclWithType);
1720	decl->extension = old->extension;
1721	decl->uniqueId = old->uniqueId;
1722	decl->storage = { old->storageClasses.val };
1723
1724	this->node = decl;
1725	}
1726
1727	virtual void visit( const AsmDecl * old ) override final {
1728	auto decl = new ast::AsmDecl{
1729	old->location,
1730	GET_ACCEPT_1(stmt, AsmStmt)
1731	};
1732	decl->extension = old->extension;
1733	decl->uniqueId = old->uniqueId;
1734	decl->storage = { old->storageClasses.val };
1735
1736	this->node = decl;
1737	}
1738
1739	virtual void visit( const StaticAssertDecl * old ) override final {
1740	auto decl = new ast::StaticAssertDecl{
1741	old->location,
1742	GET_ACCEPT_1(condition, Expr),
1743	GET_ACCEPT_1(message, ConstantExpr)
1744	};
1745	decl->extension = old->extension;
1746	decl->uniqueId = old->uniqueId;
1747	decl->storage = { old->storageClasses.val };
1748
1749	this->node = decl;
1750	}
1751
1752	virtual void visit( const CompoundStmt * old ) override final {
1753	if ( inCache( old ) ) return;
1754	auto stmt = new ast::CompoundStmt(
1755	old->location,
1756	to<std::list>::from( GET_ACCEPT_V(kids, Stmt) ),
1757	GET_LABELS_V(old->labels)
1758	);
1759
1760	this->node = stmt;
1761	cache.emplace( old, this->node );
1762	}
1763
1764	virtual void visit( const ExprStmt * old ) override final {
1765	if ( inCache( old ) ) return;
1766	this->node = new ast::ExprStmt(
1767	old->location,
1768	GET_ACCEPT_1(expr, Expr),
1769	GET_LABELS_V(old->labels)
1770	);
1771	cache.emplace( old, this->node );
1772	}
1773
1774	virtual void visit( const AsmStmt * old ) override final {
1775	if ( inCache( old ) ) return;
1776	this->node = new ast::AsmStmt(
1777	old->location,
1778	old->voltile,
1779	GET_ACCEPT_1(instruction, Expr),
1780	GET_ACCEPT_V(output, Expr),
1781	GET_ACCEPT_V(input, Expr),
1782	GET_ACCEPT_V(clobber, ConstantExpr),
1783	GET_LABELS_V(old->gotolabels),
1784	GET_LABELS_V(old->labels)
1785	);
1786	cache.emplace( old, this->node );
1787	}
1788
1789	virtual void visit( const DirectiveStmt * old ) override final {
1790	if ( inCache( old ) ) return;
1791	this->node = new ast::DirectiveStmt(
1792	old->location,
1793	old->directive,
1794	GET_LABELS_V(old->labels)
1795	);
1796	cache.emplace( old, this->node );
1797	}
1798
1799	virtual void visit( const IfStmt * old ) override final {
1800	if ( inCache( old ) ) return;
1801	this->node = new ast::IfStmt(
1802	old->location,
1803	GET_ACCEPT_1(condition, Expr),
1804	GET_ACCEPT_1(thenPart, Stmt),
1805	GET_ACCEPT_1(elsePart, Stmt),
1806	GET_ACCEPT_V(initialization, Stmt),
1807	GET_LABELS_V(old->labels)
1808	);
1809	cache.emplace( old, this->node );
1810	}
1811
1812	virtual void visit( const SwitchStmt * old ) override final {
1813	if ( inCache( old ) ) return;
1814	this->node = new ast::SwitchStmt(
1815	old->location,
1816	GET_ACCEPT_1(condition, Expr),
1817	GET_ACCEPT_V(statements, Stmt),
1818	GET_LABELS_V(old->labels)
1819	);
1820	cache.emplace( old, this->node );
1821	}
1822
1823	virtual void visit( const CaseStmt * old ) override final {
1824	if ( inCache( old ) ) return;
1825	this->node = new ast::CaseStmt(
1826	old->location,
1827	GET_ACCEPT_1(condition, Expr),
1828	GET_ACCEPT_V(stmts, Stmt),
1829	GET_LABELS_V(old->labels)
1830	);
1831	cache.emplace( old, this->node );
1832	}
1833
1834	virtual void visit( const WhileStmt * old ) override final {
1835	if ( inCache( old ) ) return;
1836	this->node = new ast::WhileStmt(
1837	old->location,
1838	GET_ACCEPT_1(condition, Expr),
1839	GET_ACCEPT_1(body, Stmt),
1840	GET_ACCEPT_V(initialization, Stmt),
1841	old->isDoWhile,
1842	GET_LABELS_V(old->labels)
1843	);
1844	cache.emplace( old, this->node );
1845	}
1846
1847	virtual void visit( const ForStmt * old ) override final {
1848	if ( inCache( old ) ) return;
1849	this->node = new ast::ForStmt(
1850	old->location,
1851	GET_ACCEPT_V(initialization, Stmt),
1852	GET_ACCEPT_1(condition, Expr),
1853	GET_ACCEPT_1(increment, Expr),
1854	GET_ACCEPT_1(body, Stmt),
1855	GET_LABELS_V(old->labels)
1856	);
1857	cache.emplace( old, this->node );
1858	}
1859
1860	virtual void visit( const BranchStmt * old ) override final {
1861	if ( inCache( old ) ) return;
1862	if (old->computedTarget) {
1863	this->node = new ast::BranchStmt(
1864	old->location,
1865	GET_ACCEPT_1(computedTarget, Expr),
1866	GET_LABELS_V(old->labels)
1867	);
1868	} else {
1869	ast::BranchStmt::Kind kind;
1870	switch (old->type) {
1871	#define CASE(n) \
1872	case BranchStmt::n: \
1873	kind = ast::BranchStmt::n; \
1874	break
1875	CASE(Goto);
1876	CASE(Break);
1877	CASE(Continue);
1878	CASE(FallThrough);
1879	CASE(FallThroughDefault);
1880	#undef CASE
1881	default:
1882	assertf(false, "Invalid BranchStmt::Type %d\n", old->type);
1883	}
1884
1885	auto stmt = new ast::BranchStmt(
1886	old->location,
1887	kind,
1888	make_label(&old->originalTarget),
1889	GET_LABELS_V(old->labels)
1890	);
1891	stmt->target = make_label(&old->target);
1892	this->node = stmt;
1893	}
1894	cache.emplace( old, this->node );
1895	}
1896
1897	virtual void visit( const ReturnStmt * old ) override final {
1898	if ( inCache( old ) ) return;
1899	this->node = new ast::ReturnStmt(
1900	old->location,
1901	GET_ACCEPT_1(expr, Expr),
1902	GET_LABELS_V(old->labels)
1903	);
1904	cache.emplace( old, this->node );
1905	}
1906
1907	virtual void visit( const ThrowStmt * old ) override final {
1908	if ( inCache( old ) ) return;
1909	ast::ExceptionKind kind;
1910	switch (old->kind) {
1911	case ThrowStmt::Terminate:
1912	kind = ast::ExceptionKind::Terminate;
1913	break;
1914	case ThrowStmt::Resume:
1915	kind = ast::ExceptionKind::Resume;
1916	break;
1917	default:
1918	assertf(false, "Invalid ThrowStmt::Kind %d\n", old->kind);
1919	}
1920
1921	this->node = new ast::ThrowStmt(
1922	old->location,
1923	kind,
1924	GET_ACCEPT_1(expr, Expr),
1925	GET_ACCEPT_1(target, Expr),
1926	GET_LABELS_V(old->labels)
1927	);
1928	cache.emplace( old, this->node );
1929	}
1930
1931	virtual void visit( const TryStmt * old ) override final {
1932	if ( inCache( old ) ) return;
1933	this->node = new ast::TryStmt(
1934	old->location,
1935	GET_ACCEPT_1(block, CompoundStmt),
1936	GET_ACCEPT_V(handlers, CatchStmt),
1937	GET_ACCEPT_1(finallyBlock, FinallyStmt),
1938	GET_LABELS_V(old->labels)
1939	);
1940	cache.emplace( old, this->node );
1941	}
1942
1943	virtual void visit( const CatchStmt * old ) override final {
1944	if ( inCache( old ) ) return;
1945	ast::ExceptionKind kind;
1946	switch (old->kind) {
1947	case CatchStmt::Terminate:
1948	kind = ast::ExceptionKind::Terminate;
1949	break;
1950	case CatchStmt::Resume:
1951	kind = ast::ExceptionKind::Resume;
1952	break;
1953	default:
1954	assertf(false, "Invalid CatchStmt::Kind %d\n", old->kind);
1955	}
1956
1957	this->node = new ast::CatchStmt(
1958	old->location,
1959	kind,
1960	GET_ACCEPT_1(decl, Decl),
1961	GET_ACCEPT_1(cond, Expr),
1962	GET_ACCEPT_1(body, Stmt),
1963	GET_LABELS_V(old->labels)
1964	);
1965	cache.emplace( old, this->node );
1966	}
1967
1968	virtual void visit( const FinallyStmt * old ) override final {
1969	if ( inCache( old ) ) return;
1970	this->node = new ast::FinallyStmt(
1971	old->location,
1972	GET_ACCEPT_1(block, CompoundStmt),
1973	GET_LABELS_V(old->labels)
1974	);
1975	cache.emplace( old, this->node );
1976	}
1977
1978	virtual void visit( const SuspendStmt * old ) override final {
1979	if ( inCache( old ) ) return;
1980	ast::SuspendStmt::Type type;
1981	switch (old->type) {
1982	case SuspendStmt::Coroutine: type = ast::SuspendStmt::Coroutine; break;
1983	case SuspendStmt::Generator: type = ast::SuspendStmt::Generator; break;
1984	case SuspendStmt::None : type = ast::SuspendStmt::None ; break;
1985	default: abort();
1986	}
1987	this->node = new ast::SuspendStmt(
1988	old->location,
1989	GET_ACCEPT_1(then , CompoundStmt),
1990	type,
1991	GET_LABELS_V(old->labels)
1992	);
1993	cache.emplace( old, this->node );
1994	}
1995
1996	virtual void visit( const WaitForStmt * old ) override final {
1997	if ( inCache( old ) ) return;
1998	ast::WaitForStmt * stmt = new ast::WaitForStmt(
1999	old->location,
2000	GET_LABELS_V(old->labels)
2001	);
2002
2003	stmt->clauses.reserve( old->clauses.size() );
2004	for (size_t i = 0 ; i < old->clauses.size() ; ++i) {
2005	stmt->clauses.push_back({
2006	ast::WaitForStmt::Target{
2007	GET_ACCEPT_1(clauses[i].target.function, Expr),
2008	GET_ACCEPT_V(clauses[i].target.arguments, Expr)
2009	},
2010	GET_ACCEPT_1(clauses[i].statement, Stmt),
2011	GET_ACCEPT_1(clauses[i].condition, Expr)
2012	});
2013	}
2014	stmt->timeout = {
2015	GET_ACCEPT_1(timeout.time, Expr),
2016	GET_ACCEPT_1(timeout.statement, Stmt),
2017	GET_ACCEPT_1(timeout.condition, Expr),
2018	};
2019	stmt->orElse = {
2020	GET_ACCEPT_1(orelse.statement, Stmt),
2021	GET_ACCEPT_1(orelse.condition, Expr),
2022	};
2023
2024	this->node = stmt;
2025	cache.emplace( old, this->node );
2026	}
2027
2028	virtual void visit( const WithStmt * old ) override final {
2029	if ( inCache( old ) ) return;
2030	this->node = new ast::WithStmt(
2031	old->location,
2032	GET_ACCEPT_V(exprs, Expr),
2033	GET_ACCEPT_1(stmt, Stmt)
2034	);
2035	cache.emplace( old, this->node );
2036	}
2037
2038	virtual void visit( const NullStmt * old ) override final {
2039	if ( inCache( old ) ) return;
2040	this->node = new ast::NullStmt(
2041	old->location,
2042	GET_LABELS_V(old->labels)
2043	);
2044	cache.emplace( old, this->node );
2045	}
2046
2047	virtual void visit( const DeclStmt * old ) override final {
2048	if ( inCache( old ) ) return;
2049	this->node = new ast::DeclStmt(
2050	old->location,
2051	GET_ACCEPT_1(decl, Decl),
2052	GET_LABELS_V(old->labels)
2053	);
2054	cache.emplace( old, this->node );
2055	}
2056
2057	virtual void visit( const ImplicitCtorDtorStmt * old ) override final {
2058	if ( inCache( old ) ) return;
2059	auto stmt = new ast::ImplicitCtorDtorStmt(
2060	old->location,
2061	nullptr,
2062	GET_LABELS_V(old->labels)
2063	);
2064	cache.emplace( old, stmt );
2065	stmt->callStmt = GET_ACCEPT_1(callStmt, Stmt);
2066	this->node = stmt;
2067	}
2068
2069	ast::TypeSubstitution * convertTypeSubstitution(const TypeSubstitution * old) {
2070
2071	if (!old) return nullptr;
2072
2073	ast::TypeSubstitution *rslt = new ast::TypeSubstitution();
2074
2075	for (decltype(old->begin()) old_i = old->begin(); old_i != old->end(); old_i++) {
2076	rslt->add( old_i->first,
2077	getAccept1<ast::Type>(old_i->second) );
2078	}
2079
2080	for (decltype(old->beginVar()) old_i = old->beginVar(); old_i != old->endVar(); old_i++) {
2081	rslt->addVar( old_i->first,
2082	getAccept1<ast::Expr>(old_i->second) );
2083	}
2084
2085	return rslt;
2086	}
2087
2088	void convertInferUnion(ast::Expr::InferUnion &newInferred,
2089	const std::map<UniqueId,ParamEntry> &oldInferParams,
2090	const std::vector<UniqueId> &oldResnSlots) {
2091
2092	assert( oldInferParams.empty() \|\| oldResnSlots.empty() );
2093	// assert( newInferred.mode == ast::Expr::InferUnion::Empty );
2094
2095	if ( !oldInferParams.empty() ) {
2096	ast::InferredParams &tgt = newInferred.inferParams();
2097	for (auto & old : oldInferParams) {
2098	tgt[old.first] = ast::ParamEntry(
2099	old.second.decl,
2100	getAccept1<ast::Decl>(old.second.declptr),
2101	getAccept1<ast::Type>(old.second.actualType),
2102	getAccept1<ast::Type>(old.second.formalType),
2103	getAccept1<ast::Expr>(old.second.expr)
2104	);
2105	}
2106	} else if ( !oldResnSlots.empty() ) {
2107	ast::ResnSlots &tgt = newInferred.resnSlots();
2108	for (auto old : oldResnSlots) {
2109	tgt.push_back(old);
2110	}
2111	}
2112	}
2113
2114	ast::Expr * visitBaseExpr_SkipResultType( const Expression * old, ast::Expr * nw) {
2115
2116	nw->env = convertTypeSubstitution(old->env);
2117
2118	nw->extension = old->extension;
2119	convertInferUnion(nw->inferred, old->inferParams, old->resnSlots);
2120
2121	return nw;
2122	}
2123
2124	ast::Expr * visitBaseExpr( const Expression * old, ast::Expr * nw) {
2125
2126	nw->result = GET_ACCEPT_1(result, Type);
2127	return visitBaseExpr_SkipResultType(old, nw);;
2128	}
2129
2130	virtual void visit( const ApplicationExpr * old ) override final {
2131	this->node = visitBaseExpr( old,
2132	new ast::ApplicationExpr(
2133	old->location,
2134	GET_ACCEPT_1(function, Expr),
2135	GET_ACCEPT_V(args, Expr)
2136	)
2137	);
2138	}
2139
2140	virtual void visit( const UntypedExpr * old ) override final {
2141	this->node = visitBaseExpr( old,
2142	new ast::UntypedExpr(
2143	old->location,
2144	GET_ACCEPT_1(function, Expr),
2145	GET_ACCEPT_V(args, Expr)
2146	)
2147	);
2148	}
2149
2150	virtual void visit( const NameExpr * old ) override final {
2151	this->node = visitBaseExpr( old,
2152	new ast::NameExpr(
2153	old->location,
2154	old->get_name()
2155	)
2156	);
2157	}
2158
2159	virtual void visit( const CastExpr * old ) override final {
2160	this->node = visitBaseExpr( old,
2161	new ast::CastExpr(
2162	old->location,
2163	GET_ACCEPT_1(arg, Expr),
2164	old->isGenerated ? ast::GeneratedCast : ast::ExplicitCast
2165	)
2166	);
2167	}
2168
2169	virtual void visit( const KeywordCastExpr * old ) override final {
2170	ast::AggregateDecl::Aggregate castTarget = (ast::AggregateDecl::Aggregate)old->target;
2171	assert( ast::AggregateDecl::Generator <= castTarget && castTarget <= ast::AggregateDecl::Thread );
2172	this->node = visitBaseExpr( old,
2173	new ast::KeywordCastExpr(
2174	old->location,
2175	GET_ACCEPT_1(arg, Expr),
2176	castTarget,
2177	{old->concrete_target.field, old->concrete_target.getter}
2178	)
2179	);
2180	}
2181
2182	virtual void visit( const VirtualCastExpr * old ) override final {
2183	this->node = visitBaseExpr_SkipResultType( old,
2184	new ast::VirtualCastExpr(
2185	old->location,
2186	GET_ACCEPT_1(arg, Expr),
2187	GET_ACCEPT_1(result, Type)
2188	)
2189	);
2190	}
2191
2192	virtual void visit( const AddressExpr * old ) override final {
2193	this->node = visitBaseExpr( old,
2194	new ast::AddressExpr(
2195	old->location,
2196	GET_ACCEPT_1(arg, Expr)
2197	)
2198	);
2199	}
2200
2201	virtual void visit( const LabelAddressExpr * old ) override final {
2202	this->node = visitBaseExpr( old,
2203	new ast::LabelAddressExpr(
2204	old->location,
2205	make_label(&old->arg)
2206	)
2207	);
2208	}
2209
2210	virtual void visit( const UntypedMemberExpr * old ) override final {
2211	this->node = visitBaseExpr( old,
2212	new ast::UntypedMemberExpr(
2213	old->location,
2214	GET_ACCEPT_1(member, Expr),
2215	GET_ACCEPT_1(aggregate, Expr)
2216	)
2217	);
2218	}
2219
2220	virtual void visit( const MemberExpr * old ) override final {
2221	this->node = visitBaseExpr( old,
2222	new ast::MemberExpr(
2223	old->location,
2224	GET_ACCEPT_1(member, DeclWithType),
2225	GET_ACCEPT_1(aggregate, Expr),
2226	ast::MemberExpr::NoOpConstructionChosen
2227	)
2228	);
2229	}
2230
2231	virtual void visit( const VariableExpr * old ) override final {
2232	auto expr = new ast::VariableExpr(
2233	old->location
2234	);
2235
2236	expr->var = GET_ACCEPT_1(var, DeclWithType);
2237	visitBaseExpr( old, expr );
2238
2239	this->node = expr;
2240	}
2241
2242	virtual void visit( const ConstantExpr * old ) override final {
2243	ast::ConstantExpr *rslt = new ast::ConstantExpr(
2244	old->location,
2245	GET_ACCEPT_1(result, Type),
2246	old->constant.rep,
2247	old->constant.ival
2248	);
2249	rslt->underlyer = getAccept1< ast::Type, Type* >( old->constant.type );
2250	this->node = visitBaseExpr( old, rslt );
2251	}
2252
2253	virtual void visit( const SizeofExpr * old ) override final {
2254	assert (old->expr \|\| old->type);
2255	assert (! (old->expr && old->type));
2256	ast::SizeofExpr *rslt;
2257	if (old->expr) {
2258	assert(!old->isType);
2259	rslt = new ast::SizeofExpr(
2260	old->location,
2261	GET_ACCEPT_1(expr, Expr)
2262	);
2263	}
2264	if (old->type) {
2265	assert(old->isType);
2266	rslt = new ast::SizeofExpr(
2267	old->location,
2268	GET_ACCEPT_1(type, Type)
2269	);
2270	}
2271	this->node = visitBaseExpr( old, rslt );
2272	}
2273
2274	virtual void visit( const AlignofExpr * old ) override final {
2275	assert (old->expr \|\| old->type);
2276	assert (! (old->expr && old->type));
2277	ast::AlignofExpr *rslt;
2278	if (old->expr) {
2279	assert(!old->isType);
2280	rslt = new ast::AlignofExpr(
2281	old->location,
2282	GET_ACCEPT_1(expr, Expr)
2283	);
2284	}
2285	if (old->type) {
2286	assert(old->isType);
2287	rslt = new ast::AlignofExpr(
2288	old->location,
2289	GET_ACCEPT_1(type, Type)
2290	);
2291	}
2292	this->node = visitBaseExpr( old, rslt );
2293	}
2294
2295	virtual void visit( const UntypedOffsetofExpr * old ) override final {
2296	this->node = visitBaseExpr( old,
2297	new ast::UntypedOffsetofExpr(
2298	old->location,
2299	GET_ACCEPT_1(type, Type),
2300	old->member
2301	)
2302	);
2303	}
2304
2305	virtual void visit( const OffsetofExpr * old ) override final {
2306	this->node = visitBaseExpr( old,
2307	new ast::OffsetofExpr(
2308	old->location,
2309	GET_ACCEPT_1(type, Type),
2310	GET_ACCEPT_1(member, DeclWithType)
2311	)
2312	);
2313	}
2314
2315	virtual void visit( const OffsetPackExpr * old ) override final {
2316	this->node = visitBaseExpr( old,
2317	new ast::OffsetPackExpr(
2318	old->location,
2319	GET_ACCEPT_1(type, StructInstType)
2320	)
2321	);
2322	}
2323
2324	virtual void visit( const LogicalExpr * old ) override final {
2325	this->node = visitBaseExpr( old,
2326	new ast::LogicalExpr(
2327	old->location,
2328	GET_ACCEPT_1(arg1, Expr),
2329	GET_ACCEPT_1(arg2, Expr),
2330	old->get_isAnd() ?
2331	ast::LogicalFlag::AndExpr :
2332	ast::LogicalFlag::OrExpr
2333	)
2334	);
2335	}
2336
2337	virtual void visit( const ConditionalExpr * old ) override final {
2338	this->node = visitBaseExpr( old,
2339	new ast::ConditionalExpr(
2340	old->location,
2341	GET_ACCEPT_1(arg1, Expr),
2342	GET_ACCEPT_1(arg2, Expr),
2343	GET_ACCEPT_1(arg3, Expr)
2344	)
2345	);
2346	}
2347
2348	virtual void visit( const CommaExpr * old ) override final {
2349	this->node = visitBaseExpr( old,
2350	new ast::CommaExpr(
2351	old->location,
2352	GET_ACCEPT_1(arg1, Expr),
2353	GET_ACCEPT_1(arg2, Expr)
2354	)
2355	);
2356	}
2357
2358	virtual void visit( const TypeExpr * old ) override final {
2359	this->node = visitBaseExpr( old,
2360	new ast::TypeExpr(
2361	old->location,
2362	GET_ACCEPT_1(type, Type)
2363	)
2364	);
2365	}
2366
2367	virtual void visit( const AsmExpr * old ) override final {
2368	this->node = visitBaseExpr( old,
2369	new ast::AsmExpr(
2370	old->location,
2371	old->inout,
2372	GET_ACCEPT_1(constraint, Expr),
2373	GET_ACCEPT_1(operand, Expr)
2374	)
2375	);
2376	}
2377
2378	virtual void visit( const ImplicitCopyCtorExpr * old ) override final {
2379	auto rslt = new ast::ImplicitCopyCtorExpr(
2380	old->location,
2381	GET_ACCEPT_1(callExpr, ApplicationExpr)
2382	);
2383
2384	this->node = visitBaseExpr( old, rslt );
2385	}
2386
2387	virtual void visit( const ConstructorExpr * old ) override final {
2388	this->node = visitBaseExpr( old,
2389	new ast::ConstructorExpr(
2390	old->location,
2391	GET_ACCEPT_1(callExpr, Expr)
2392	)
2393	);
2394	}
2395
2396	virtual void visit( const CompoundLiteralExpr * old ) override final {
2397	this->node = visitBaseExpr_SkipResultType( old,
2398	new ast::CompoundLiteralExpr(
2399	old->location,
2400	GET_ACCEPT_1(result, Type),
2401	GET_ACCEPT_1(initializer, Init)
2402	)
2403	);
2404	}
2405
2406	virtual void visit( const RangeExpr * old ) override final {
2407	this->node = visitBaseExpr( old,
2408	new ast::RangeExpr(
2409	old->location,
2410	GET_ACCEPT_1(low, Expr),
2411	GET_ACCEPT_1(high, Expr)
2412	)
2413	);
2414	}
2415
2416	virtual void visit( const UntypedTupleExpr * old ) override final {
2417	this->node = visitBaseExpr( old,
2418	new ast::UntypedTupleExpr(
2419	old->location,
2420	GET_ACCEPT_V(exprs, Expr)
2421	)
2422	);
2423	}
2424
2425	virtual void visit( const TupleExpr * old ) override final {
2426	this->node = visitBaseExpr( old,
2427	new ast::TupleExpr(
2428	old->location,
2429	GET_ACCEPT_V(exprs, Expr)
2430	)
2431	);
2432	}
2433
2434	virtual void visit( const TupleIndexExpr * old ) override final {
2435	this->node = visitBaseExpr( old,
2436	new ast::TupleIndexExpr(
2437	old->location,
2438	GET_ACCEPT_1(tuple, Expr),
2439	old->index
2440	)
2441	);
2442	}
2443
2444	virtual void visit( const TupleAssignExpr * old ) override final {
2445	this->node = visitBaseExpr_SkipResultType( old,
2446	new ast::TupleAssignExpr(
2447	old->location,
2448	GET_ACCEPT_1(result, Type),
2449	GET_ACCEPT_1(stmtExpr, StmtExpr)
2450	)
2451	);
2452	}
2453
2454	virtual void visit( const StmtExpr * old ) override final {
2455	auto rslt = new ast::StmtExpr(
2456	old->location,
2457	GET_ACCEPT_1(statements, CompoundStmt)
2458	);
2459	rslt->returnDecls = GET_ACCEPT_V(returnDecls, ObjectDecl);
2460	rslt->dtors = GET_ACCEPT_V(dtors , Expr);
2461
2462	this->node = visitBaseExpr_SkipResultType( old, rslt );
2463	}
2464
2465	virtual void visit( const UniqueExpr * old ) override final {
2466	auto rslt = new ast::UniqueExpr(
2467	old->location,
2468	GET_ACCEPT_1(expr, Expr),
2469	old->get_id()
2470	);
2471	rslt->object = GET_ACCEPT_1(object, ObjectDecl);
2472	rslt->var = GET_ACCEPT_1(var , VariableExpr);
2473
2474	this->node = visitBaseExpr( old, rslt );
2475	}
2476
2477	virtual void visit( const UntypedInitExpr * old ) override final {
2478	std::deque<ast::InitAlternative> initAlts;
2479	for (auto ia : old->initAlts) {
2480	initAlts.push_back(ast::InitAlternative(
2481	getAccept1< ast::Type, Type * >( ia.type ),
2482	getAccept1< ast::Designation, Designation * >( ia.designation )
2483	));
2484	}
2485	this->node = visitBaseExpr( old,
2486	new ast::UntypedInitExpr(
2487	old->location,
2488	GET_ACCEPT_1(expr, Expr),
2489	std::move(initAlts)
2490	)
2491	);
2492	}
2493
2494	virtual void visit( const InitExpr * old ) override final {
2495	this->node = visitBaseExpr( old,
2496	new ast::InitExpr(
2497	old->location,
2498	GET_ACCEPT_1(expr, Expr),
2499	GET_ACCEPT_1(designation, Designation)
2500	)
2501	);
2502	}
2503
2504	virtual void visit( const DeletedExpr * old ) override final {
2505	this->node = visitBaseExpr( old,
2506	new ast::DeletedExpr(
2507	old->location,
2508	GET_ACCEPT_1(expr, Expr),
2509	inCache(old->deleteStmt) ?
2510	strict_dynamic_cast<ast::Decl*>(this->node) :
2511	GET_ACCEPT_1(deleteStmt, Decl)
2512	)
2513	);
2514	}
2515
2516	virtual void visit( const DefaultArgExpr * old ) override final {
2517	this->node = visitBaseExpr( old,
2518	new ast::DefaultArgExpr(
2519	old->location,
2520	GET_ACCEPT_1(expr, Expr)
2521	)
2522	);
2523	}
2524
2525	virtual void visit( const GenericExpr * old ) override final {
2526	std::vector<ast::GenericExpr::Association> associations;
2527	for (auto association : old->associations) {
2528	associations.push_back(ast::GenericExpr::Association(
2529	getAccept1< ast::Type, Type * >( association.type ),
2530	getAccept1< ast::Expr, Expression * >( association.expr )
2531	));
2532	}
2533	this->node = visitBaseExpr( old,
2534	new ast::GenericExpr(
2535	old->location,
2536	GET_ACCEPT_1(control, Expr),
2537	std::move(associations)
2538	)
2539	);
2540	}
2541
2542	void visitType( const Type * old, ast::Type * type ) {
2543	// Some types do this in their constructor so add a check.
2544	if ( !old->attributes.empty() && type->attributes.empty() ) {
2545	type->attributes = GET_ACCEPT_V(attributes, Attribute);
2546	}
2547	this->node = type;
2548	}
2549
2550	virtual void visit( const VoidType * old ) override final {
2551	visitType( old, new ast::VoidType{ cv( old ) } );
2552	}
2553
2554	virtual void visit( const BasicType * old ) override final {
2555	auto type = new ast::BasicType{ (ast::BasicType::Kind)(unsigned)old->kind, cv( old ) };
2556	// I believe this should always be a BasicType.
2557	if ( Validate::SizeType == old ) {
2558	ast::sizeType = type;
2559	}
2560	visitType( old, type );
2561	}
2562
2563	virtual void visit( const PointerType * old ) override final {
2564	visitType( old, new ast::PointerType{
2565	GET_ACCEPT_1( base, Type ),
2566	GET_ACCEPT_1( dimension, Expr ),
2567	(ast::LengthFlag)old->isVarLen,
2568	(ast::DimensionFlag)old->isStatic,
2569	cv( old )
2570	} );
2571	}
2572
2573	virtual void visit( const ArrayType * old ) override final {
2574	visitType( old, new ast::ArrayType{
2575	GET_ACCEPT_1( base, Type ),
2576	GET_ACCEPT_1( dimension, Expr ),
2577	(ast::LengthFlag)old->isVarLen,
2578	(ast::DimensionFlag)old->isStatic,
2579	cv( old )
2580	} );
2581	}
2582
2583	virtual void visit( const ReferenceType * old ) override final {
2584	visitType( old, new ast::ReferenceType{
2585	GET_ACCEPT_1( base, Type ),
2586	cv( old )
2587	} );
2588	}
2589
2590	virtual void visit( const QualifiedType * old ) override final {
2591	visitType( old, new ast::QualifiedType{
2592	GET_ACCEPT_1( parent, Type ),
2593	GET_ACCEPT_1( child, Type ),
2594	cv( old )
2595	} );
2596	}
2597
2598	virtual void visit( const FunctionType * old ) override final {
2599	auto ty = new ast::FunctionType {
2600	(ast::ArgumentFlag)old->isVarArgs,
2601	cv( old )
2602	};
2603	auto returnVars = GET_ACCEPT_V(returnVals, DeclWithType);
2604	auto paramVars = GET_ACCEPT_V(parameters, DeclWithType);
2605	// ty->returns = GET_ACCEPT_V( returnVals, DeclWithType );
2606	// ty->params = GET_ACCEPT_V( parameters, DeclWithType );
2607	for (auto & v: returnVars) {
2608	ty->returns.emplace_back(v->get_type());
2609	}
2610	for (auto & v: paramVars) {
2611	ty->params.emplace_back(v->get_type());
2612	}
2613	ty->forall = GET_ACCEPT_V( forall, TypeDecl );
2614	visitType( old, ty );
2615	}
2616
2617	void postvisit( const ReferenceToType * old, ast::BaseInstType * ty ) {
2618	ty->forall = GET_ACCEPT_V( forall, TypeDecl );
2619	ty->params = GET_ACCEPT_V( parameters, Expr );
2620	ty->hoistType = old->hoistType;
2621	visitType( old, ty );
2622	}
2623
2624	virtual void visit( const StructInstType * old ) override final {
2625	ast::StructInstType * ty;
2626	if ( old->baseStruct ) {
2627	ty = new ast::StructInstType{
2628	GET_ACCEPT_1( baseStruct, StructDecl ),
2629	cv( old ),
2630	GET_ACCEPT_V( attributes, Attribute )
2631	};
2632	} else {
2633	ty = new ast::StructInstType{
2634	old->name,
2635	cv( old ),
2636	GET_ACCEPT_V( attributes, Attribute )
2637	};
2638	}
2639	postvisit( old, ty );
2640	}
2641
2642	virtual void visit( const UnionInstType * old ) override final {
2643	ast::UnionInstType * ty;
2644	if ( old->baseUnion ) {
2645	ty = new ast::UnionInstType{
2646	GET_ACCEPT_1( baseUnion, UnionDecl ),
2647	cv( old ),
2648	GET_ACCEPT_V( attributes, Attribute )
2649	};
2650	} else {
2651	ty = new ast::UnionInstType{
2652	old->name,
2653	cv( old ),
2654	GET_ACCEPT_V( attributes, Attribute )
2655	};
2656	}
2657	postvisit( old, ty );
2658	}
2659
2660	virtual void visit( const EnumInstType * old ) override final {
2661	ast::EnumInstType * ty;
2662	if ( old->baseEnum ) {
2663	ty = new ast::EnumInstType{
2664	GET_ACCEPT_1( baseEnum, EnumDecl ),
2665	cv( old ),
2666	GET_ACCEPT_V( attributes, Attribute )
2667	};
2668	} else {
2669	ty = new ast::EnumInstType{
2670	old->name,
2671	cv( old ),
2672	GET_ACCEPT_V( attributes, Attribute )
2673	};
2674	}
2675	postvisit( old, ty );
2676	}
2677
2678	virtual void visit( const TraitInstType * old ) override final {
2679	ast::TraitInstType * ty;
2680	if ( old->baseTrait ) {
2681	ty = new ast::TraitInstType{
2682	GET_ACCEPT_1( baseTrait, TraitDecl ),
2683	cv( old ),
2684	GET_ACCEPT_V( attributes, Attribute )
2685	};
2686	} else {
2687	ty = new ast::TraitInstType{
2688	old->name,
2689	cv( old ),
2690	GET_ACCEPT_V( attributes, Attribute )
2691	};
2692	}
2693	postvisit( old, ty );
2694	}
2695
2696	virtual void visit( const TypeInstType * old ) override final {
2697	ast::TypeInstType * ty;
2698	if ( old->baseType ) {
2699	ty = new ast::TypeInstType{
2700	old->name,
2701	GET_ACCEPT_1( baseType, TypeDecl ),
2702	cv( old ),
2703	GET_ACCEPT_V( attributes, Attribute )
2704	};
2705	} else {
2706	ty = new ast::TypeInstType{
2707	old->name,
2708	old->isFtype ? ast::TypeDecl::Ftype : ast::TypeDecl::Dtype,
2709	cv( old ),
2710	GET_ACCEPT_V( attributes, Attribute )
2711	};
2712	}
2713	postvisit( old, ty );
2714	}
2715
2716	virtual void visit( const TupleType * old ) override final {
2717	visitType( old, new ast::TupleType{
2718	GET_ACCEPT_V( types, Type ),
2719	// members generated by TupleType c'tor
2720	cv( old )
2721	} );
2722	}
2723
2724	virtual void visit( const TypeofType * old ) override final {
2725	visitType( old, new ast::TypeofType{
2726	GET_ACCEPT_1( expr, Expr ),
2727	(ast::TypeofType::Kind)old->is_basetypeof,
2728	cv( old )
2729	} );
2730	}
2731
2732	virtual void visit( const AttrType * ) override final {
2733	assertf( false, "AttrType deprecated in new AST." );
2734	}
2735
2736	virtual void visit( const VarArgsType * old ) override final {
2737	visitType( old, new ast::VarArgsType{ cv( old ) } );
2738	}
2739
2740	virtual void visit( const ZeroType * old ) override final {
2741	visitType( old, new ast::ZeroType{ cv( old ) } );
2742	}
2743
2744	virtual void visit( const OneType * old ) override final {
2745	visitType( old, new ast::OneType{ cv( old ) } );
2746	}
2747
2748	virtual void visit( const GlobalScopeType * old ) override final {
2749	visitType( old, new ast::GlobalScopeType{} );
2750	}
2751
2752	virtual void visit( const Designation * old ) override final {
2753	this->node = new ast::Designation(
2754	old->location,
2755	GET_ACCEPT_D(designators, Expr)
2756	);
2757	}
2758
2759	virtual void visit( const SingleInit * old ) override final {
2760	this->node = new ast::SingleInit(
2761	old->location,
2762	GET_ACCEPT_1(value, Expr),
2763	(old->get_maybeConstructed()) ? ast::MaybeConstruct : ast::NoConstruct
2764	);
2765	}
2766
2767	virtual void visit( const ListInit * old ) override final {
2768	this->node = new ast::ListInit(
2769	old->location,
2770	GET_ACCEPT_V(initializers, Init),
2771	GET_ACCEPT_V(designations, Designation),
2772	(old->get_maybeConstructed()) ? ast::MaybeConstruct : ast::NoConstruct
2773	);
2774	}
2775
2776	virtual void visit( const ConstructorInit * old ) override final {
2777	this->node = new ast::ConstructorInit(
2778	old->location,
2779	GET_ACCEPT_1(ctor, Stmt),
2780	GET_ACCEPT_1(dtor, Stmt),
2781	GET_ACCEPT_1(init, Init)
2782	);
2783	}
2784
2785	virtual void visit( const Constant * ) override final {
2786	// Handled in visit( ConstantEpxr * ).
2787	// In the new tree, Constant fields are inlined into containing ConstantExpression.
2788	assert( 0 );
2789	}
2790
2791	virtual void visit( const Attribute * old ) override final {
2792	this->node = new ast::Attribute(
2793	old->name,
2794	GET_ACCEPT_V( parameters, Expr )
2795	);
2796	}
2797	};
2798
2799	#undef GET_LABELS_V
2800	#undef GET_ACCEPT_V
2801	#undef GET_ACCEPT_1
2802
2803	ast::TranslationUnit convert( const std::list< Declaration * > && translationUnit ) {
2804	ConverterOldToNew c;
2805	ast::TranslationUnit unit;
2806	if (Validate::SizeType) {
2807	// this should be a BasicType.
2808	auto old = strict_dynamic_cast<BasicType *>(Validate::SizeType);
2809	ast::sizeType = new ast::BasicType{ (ast::BasicType::Kind)(unsigned)old->kind };
2810	}
2811
2812	for(auto d : translationUnit) {
2813	d->accept( c );
2814	unit.decls.emplace_back( c.decl() );
2815	}
2816	deleteAll(translationUnit);
2817
2818	// Load the local static varables into the global store.
2819	unit.global.sizeType = ast::sizeType;
2820	unit.global.dereference = ast::dereferenceOperator;
2821	unit.global.dtorStruct = ast::dtorStruct;
2822	unit.global.dtorDestroy = ast::dtorStructDestroy;
2823
2824	return unit;
2825	}

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