ExternalASTMerger.cpp source code [clang/lib/AST/ExternalASTMerger.cpp]

1	//===- ExternalASTMerger.cpp - Merging External AST Interface ---- C++ --===//
2	//
3	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4	// See https://llvm.org/LICENSE.txt for license information.
5	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6	//
7	//===----------------------------------------------------------------------===//
8	//
9	// This file implements the ExternalASTMerger, which vends a combination of
10	// ASTs from several different ASTContext/FileManager pairs
11	//
12	//===----------------------------------------------------------------------===//
13
14	#include "clang/AST/ASTContext.h"
15	#include "clang/AST/Decl.h"
16	#include "clang/AST/DeclCXX.h"
17	#include "clang/AST/DeclObjC.h"
18	#include "clang/AST/DeclTemplate.h"
19	#include "clang/AST/ExternalASTMerger.h"
20
21	using namespace clang;
22
23	namespace {
24
25	template <typename T> struct Source {
26	T t;
27	Source(T t) : t(t) {}
28	operator T() { return t; }
29	template <typename U = T> U &get() { return t; }
30	template <typename U = T> const U &get() const { return t; }
31	template <typename U> operator Source<U>() { return Source<U>(t); }
32	};
33
34	typedef std::pair<Source<NamedDecl >, ASTImporter > Candidate;
35
36	/// For the given DC, return the DC that is safe to perform lookups on. This is
37	/// the DC we actually want to work with most of the time.
38	const DeclContext CanonicalizeDC(const* DeclContext *DC) {
39	if (isa<LinkageSpecDecl>(Val: DC))
40	return DC->getRedeclContext();
41	return DC;
42	}
43
44	Source<const DeclContext *>
45	LookupSameContext(Source<TranslationUnitDecl > SourceTU, const* DeclContext *DC,
46	ASTImporter &ReverseImporter) {
47	DC = CanonicalizeDC(DC);
48	if (DC->isTranslationUnit()) {
49	return SourceTU;
50	}
51	Source<const DeclContext *> SourceParentDC =
52	LookupSameContext(SourceTU, DC: DC->getParent(), ReverseImporter);
53	if (!SourceParentDC) {
54	// If we couldn't find the parent DC in this TranslationUnit, give up.
55	return nullptr;
56	}
57	auto *ND = cast<NamedDecl>(Val: DC);
58	DeclarationName Name = ND->getDeclName();
59	auto SourceNameOrErr = ReverseImporter.Import(FromName: Name);
60	if (!SourceNameOrErr) {
61	llvm::consumeError(Err: SourceNameOrErr.takeError());
62	return nullptr;
63	}
64	Source<DeclarationName> SourceName = *SourceNameOrErr;
65	DeclContext::lookup_result SearchResult =
66	SourceParentDC.get()->lookup(Name: SourceName.get());
67
68	// There are two cases here. First, we might not find the name.
69	// We might also find multiple copies, in which case we have no
70	// guarantee that the one we wanted is the one we pick. (E.g.,
71	// if we have two specializations of the same template it is
72	// very hard to determine which is the one you want.)
73	//
74	// The Origins map fixes this problem by allowing the origin to be
75	// explicitly recorded, so we trigger that recording by returning
76	// nothing (rather than a possibly-inaccurate guess) here.
77	if (SearchResult.isSingleResult()) {
78	NamedDecl *SearchResultDecl = SearchResult.front();
79	if (isa<DeclContext>(Val: SearchResultDecl) &&
80	SearchResultDecl->getKind() == DC->getDeclKind())
81	return cast<DeclContext>(Val: SearchResultDecl)->getPrimaryContext();
82	return nullptr; // This type of lookup is unsupported
83	} else {
84	return nullptr;
85	}
86	}
87
88	/// A custom implementation of ASTImporter, for ExternalASTMerger's purposes.
89	///
90	/// There are several modifications:
91	///
92	/// - It enables lazy lookup (via the HasExternalLexicalStorage flag and a few
93	/// others), which instructs Clang to refer to ExternalASTMerger. Also, it
94	/// forces MinimalImport to true, which is necessary to make this work.
95	/// - It maintains a reverse importer for use with names. This allows lookup of
96	/// arbitrary names in the source context.
97	/// - It updates the ExternalASTMerger's origin map as needed whenever a
98	/// it sees a DeclContext.
99	class LazyASTImporter : public ASTImporter {
100	private:
101	ExternalASTMerger &Parent;
102	ASTImporter Reverse;
103	const ExternalASTMerger::OriginMap &FromOrigins;
104	/// @see ExternalASTMerger::ImporterSource::Temporary
105	bool TemporarySource;
106	/// Map of imported declarations back to the declarations they originated
107	/// from.
108	llvm::DenseMap<Decl , Decl > ToOrigin;
109	/// @see ExternalASTMerger::ImporterSource::Merger
110	ExternalASTMerger *SourceMerger;
111	llvm::raw_ostream &logs() { return Parent.logs(); }
112	public:
113	LazyASTImporter(ExternalASTMerger &_Parent, ASTContext &ToContext,
114	FileManager &ToFileManager,
115	const ExternalASTMerger::ImporterSource &S,
116	std::shared_ptr<ASTImporterSharedState> SharedState)
117	: ASTImporter (ToContext, ToFileManager, S.getASTContext(),
118	S.getFileManager(),
119	/MinimalImport=/true, SharedState),
120	Parent(_Parent),
121	Reverse (S.getASTContext(), S.getFileManager(), ToContext, ToFileManager,
122	/MinimalImport=/true),
123	FromOrigins(S.getOriginMap()), TemporarySource(S.isTemporary()),
124	SourceMerger(S.getMerger()) {}
125
126	llvm::Expected<Decl > ImportImpl(Decl FromD) override {
127	if (!TemporarySource \|\| !SourceMerger)
128	return ASTImporter::ImportImpl(From: FromD);
129
130	// If we get here, then this source is importing from a temporary ASTContext
131	// that also has another ExternalASTMerger attached. It could be
132	// possible that the current ExternalASTMerger and the temporary ASTContext
133	// share a common ImporterSource, which means that the temporary
134	// AST could contain declarations that were imported from a source
135	// that this ExternalASTMerger can access directly. Instead of importing
136	// such declarations from the temporary ASTContext, they should instead
137	// be directly imported by this ExternalASTMerger from the original
138	// source. This way the ExternalASTMerger can safely do a minimal import
139	// without creating incomplete declarations originated from a temporary
140	// ASTContext. If we would try to complete such declarations later on, we
141	// would fail to do so as their temporary AST could be deleted (which means
142	// that the missing parts of the minimally imported declaration in that
143	// ASTContext were also deleted).
144	//
145	// The following code tracks back any declaration that needs to be
146	// imported from the temporary ASTContext to a persistent ASTContext.
147	// Then the ExternalASTMerger tries to import from the persistent
148	// ASTContext directly by using the associated ASTImporter. If that
149	// succeeds, this ASTImporter just maps the declarations imported by
150	// the other (persistent) ASTImporter to this (temporary) ASTImporter.
151	// The steps can be visualized like this:
152	//
153	// Target AST <--- 3. Indirect import --- Persistent AST
154	// ^ of persistent decl ^
155	// \| \|
156	// 1. Current import 2. Tracking back to persistent decl
157	// 4. Map persistent decl \|
158	// & pretend we imported. \|
159	// \| \|
160	// Temporary AST -------------------------------'
161
162	// First, ask the ExternalASTMerger of the source where the temporary
163	// declaration originated from.
164	Decl *Persistent = SourceMerger->FindOriginalDecl(D: FromD);
165	// FromD isn't from a persistent AST, so just do a normal import.
166	if (!Persistent)
167	return ASTImporter::ImportImpl(From: FromD);
168	// Now ask the current ExternalASTMerger to try import the persistent
169	// declaration into the target.
170	ASTContext &PersistentCtx = Persistent->getASTContext();
171	ASTImporter &OtherImporter = Parent.ImporterForOrigin(OriginContext&: PersistentCtx);
172	// Check that we never end up in the current Importer again.
173	assert((&PersistentCtx != &getFromContext()) && (&OtherImporter != this) &&
174	"Delegated to same Importer?");
175	auto DeclOrErr = OtherImporter.Import(FromD: Persistent);
176	// Errors when importing the persistent decl are treated as if we
177	// had errors with importing the temporary decl.
178	if (!DeclOrErr)
179	return DeclOrErr.takeError();
180	Decl D = DeclOrErr;
181	// Tell the current ASTImporter that this has already been imported
182	// to prevent any further queries for the temporary decl.
183	MapImported(From: FromD, To: D);
184	return D;
185	}
186
187	/// Implements the ASTImporter interface for tracking back a declaration
188	/// to its original declaration it came from.
189	Decl GetOriginalDecl(Decl To) override {
190	return ToOrigin.lookup(Val: To);
191	}
192
193	/// Whenever a DeclContext is imported, ensure that ExternalASTSource's origin
194	/// map is kept up to date. Also set the appropriate flags.
195	void Imported(Decl From, Decl To) override {
196	ToOrigin [To] = From;
197
198	if (auto *ToDC = dyn_cast<DeclContext>(Val: To)) {
199	const bool LoggingEnabled = Parent.LoggingEnabled();
200	if (LoggingEnabled)
201	logs() << "(ExternalASTMerger)" << (void**)&Parent
202	<< " imported (DeclContext)" << (void**)ToDC
203	<< ", (ASTContext)" << (void**)&getToContext()
204	<< " from (DeclContext)" << (void**)llvm::cast<DeclContext>(Val: From)
205	<< ", (ASTContext)" << (void**)&getFromContext()
206	<< "\n";
207	Source<DeclContext *> FromDC(
208	cast<DeclContext>(Val: From)->getPrimaryContext());
209	if (FromOrigins.count(x: FromDC) &&
210	Parent.HasImporterForOrigin(OriginContext&: *FromOrigins.at(k: FromDC).AST)) {
211	if (LoggingEnabled)
212	logs() << "(ExternalASTMerger)" << (void**)&Parent
213	<< " forced origin (DeclContext*)"
214	<< (void*)FromOrigins.at(k: FromDC).DC
215	<< ", (ASTContext*)"
216	<< (void*)FromOrigins.at(k: FromDC).AST
217	<< "\n";
218	Parent.ForceRecordOrigin(ToDC, Origin: FromOrigins.at(k: FromDC));
219	} else {
220	if (LoggingEnabled)
221	logs() << "(ExternalASTMerger)" << (void**)&Parent
222	<< " maybe recording origin (DeclContext)" << (void**)FromDC
223	<< ", (ASTContext)" << (void**)&getFromContext()
224	<< "\n";
225	Parent.MaybeRecordOrigin(ToDC, Origin: {.DC: FromDC, .AST: &getFromContext()});
226	}
227	}
228	if (auto *ToTag = dyn_cast<TagDecl>(Val: To)) {
229	ToTag->setHasExternalLexicalStorage();
230	ToTag->getPrimaryContext()->setMustBuildLookupTable();
231	assert(Parent.CanComplete(ToTag));
232	} else if (auto *ToNamespace = dyn_cast<NamespaceDecl>(Val: To)) {
233	ToNamespace->setHasExternalVisibleStorage();
234	assert(Parent.CanComplete(ToNamespace));
235	} else if (auto *ToContainer = dyn_cast<ObjCContainerDecl>(Val: To)) {
236	ToContainer->setHasExternalLexicalStorage();
237	ToContainer->getPrimaryContext()->setMustBuildLookupTable();
238	assert(Parent.CanComplete(ToContainer));
239	}
240	}
241	ASTImporter &GetReverse() { return Reverse; }
242	};
243
244	bool HasDeclOfSameType(llvm::ArrayRef<Candidate> Decls, const Candidate &C) {
245	if (isa<FunctionDecl>(Val: C.first.get()))
246	return false;
247	return llvm::any_of(Range&: Decls, P: [&](const Candidate &D) {
248	return C.first.get()->getKind() == D.first.get()->getKind();
249	});
250	}
251
252	} // end namespace
253
254	ASTImporter &ExternalASTMerger::ImporterForOrigin(ASTContext &OriginContext) {
255	for (const std::unique_ptr<ASTImporter> &I : Importers)
256	if (&I ->getFromContext() == &OriginContext)
257	return *I;
258	llvm_unreachable("We should have an importer for this origin!");
259	}
260
261	namespace {
262	LazyASTImporter &LazyImporterForOrigin(ExternalASTMerger &Merger,
263	ASTContext &OriginContext) {
264	return static_cast<LazyASTImporter &>(
265	Merger.ImporterForOrigin(OriginContext));
266	}
267	}
268
269	bool ExternalASTMerger::HasImporterForOrigin(ASTContext &OriginContext) {
270	for (const std::unique_ptr<ASTImporter> &I : Importers)
271	if (&I ->getFromContext() == &OriginContext)
272	return true;
273	return false;
274	}
275
276	template <typename CallbackType>
277	void ExternalASTMerger::ForEachMatchingDC(const DeclContext *DC,
278	CallbackType Callback) {
279	if (Origins.count(x: DC)) {
280	ExternalASTMerger::DCOrigin Origin = Origins [DC];
281	LazyASTImporter &Importer = LazyImporterForOrigin(Merger&: *this, OriginContext&: *Origin.AST);
282	Callback(Importer, Importer.GetReverse(), Origin.DC);
283	} else {
284	bool DidCallback = false;
285	for (const std::unique_ptr<ASTImporter> &Importer : Importers) {
286	Source<TranslationUnitDecl *> SourceTU =
287	Importer ->getFromContext().getTranslationUnitDecl();
288	ASTImporter &Reverse =
289	static_cast<LazyASTImporter *>(Importer.get())->GetReverse();
290	if (auto SourceDC = LookupSameContext(SourceTU, DC, ReverseImporter&: Reverse)) {
291	DidCallback = true;
292	if (Callback(*Importer, Reverse, SourceDC))
293	break;
294	}
295	}
296	if (!DidCallback && LoggingEnabled())
297	logs() << "(ExternalASTMerger)" << (void)this**
298	<< " asserting for (DeclContext)" << (const* void*)DC
299	<< ", (ASTContext)" << (void**)&Target.AST
300	<< "\n";
301	assert(DidCallback && "Couldn't find a source context matching our DC");
302	}
303	}
304
305	void ExternalASTMerger::CompleteType(TagDecl *Tag) {
306	assert(Tag->hasExternalLexicalStorage());
307	ForEachMatchingDC(Tag, [&](ASTImporter &Forward, ASTImporter &Reverse,
308	Source<const DeclContext > SourceDC) -> bool* {
309	auto SourceTag = const_cast<TagDecl >(cast<TagDecl>(Val: SourceDC.get()));
310	if (SourceTag->hasExternalLexicalStorage())
311	SourceTag->getASTContext().getExternalSource()->CompleteType(SourceTag);
312	if (!SourceTag->getDefinition())
313	return false;
314	Forward.MapImported(SourceTag, Tag);
315	if (llvm::Error Err = Forward.ImportDefinition(SourceTag))
316	llvm::consumeError(Err: std::move(Err));
317	Tag->setCompleteDefinition(SourceTag->isCompleteDefinition());
318	return true;
319	});
320	}
321
322	void ExternalASTMerger::CompleteType(ObjCInterfaceDecl *Interface) {
323	assert(Interface->hasExternalLexicalStorage());
324	ForEachMatchingDC(
325	Interface, [&](ASTImporter &Forward, ASTImporter &Reverse,
326	Source<const DeclContext > SourceDC) -> bool* {
327	auto SourceInterface = const_cast<ObjCInterfaceDecl >(
328	cast<ObjCInterfaceDecl>(Val: SourceDC.get()));
329	if (SourceInterface->hasExternalLexicalStorage())
330	SourceInterface->getASTContext().getExternalSource()->CompleteType(
331	SourceInterface);
332	if (!SourceInterface->getDefinition())
333	return false;
334	Forward.MapImported(SourceInterface, Interface);
335	if (llvm::Error Err = Forward.ImportDefinition(SourceInterface))
336	llvm::consumeError(Err: std::move(Err));
337	return true;
338	});
339	}
340
341	bool ExternalASTMerger::CanComplete(DeclContext *Interface) {
342	assert(Interface->hasExternalLexicalStorage() \|\|
343	Interface->hasExternalVisibleStorage());
344	bool FoundMatchingDC = false;
345	ForEachMatchingDC(DC: Interface,
346	Callback: [&](ASTImporter &Forward, ASTImporter &Reverse,
347	Source<const DeclContext > SourceDC) -> bool* {
348	FoundMatchingDC = true;
349	return true;
350	});
351	return FoundMatchingDC;
352	}
353
354	namespace {
355	bool IsSameDC(const DeclContext D1, const* DeclContext *D2) {
356	if (isa<ObjCContainerDecl>(Val: D1) && isa<ObjCContainerDecl>(Val: D2))
357	return true; // There are many cases where Objective-C is ambiguous.
358	if (auto *T1 = dyn_cast<TagDecl>(Val: D1))
359	if (auto *T2 = dyn_cast<TagDecl>(Val: D2))
360	if (T1->getFirstDecl() == T2->getFirstDecl())
361	return true;
362	return D1 == D2 \|\| D1 == CanonicalizeDC(DC: D2);
363	}
364	}
365
366	void ExternalASTMerger::MaybeRecordOrigin(const DeclContext *ToDC,
367	DCOrigin Origin) {
368	LazyASTImporter &Importer = LazyImporterForOrigin(Merger&: *this, OriginContext&: *Origin.AST);
369	ASTImporter &Reverse = Importer.GetReverse();
370	Source<const DeclContext *> FoundFromDC =
371	LookupSameContext(SourceTU: Origin.AST->getTranslationUnitDecl(), DC: ToDC, ReverseImporter&: Reverse);
372	const bool DoRecord = !FoundFromDC \|\| !IsSameDC(D1: FoundFromDC.get(), D2: Origin.DC);
373	if (DoRecord)
374	RecordOriginImpl(ToDC, Origin, importer&: Importer);
375	if (LoggingEnabled())
376	logs() << "(ExternalASTMerger)" << (void)this**
377	<< (DoRecord ? " decided " : " decided NOT")
378	<< " to record origin (DeclContext)" << (void**)Origin.DC
379	<< ", (ASTContext)" << (void**)&Origin.AST
380	<< "\n";
381	}
382
383	void ExternalASTMerger::ForceRecordOrigin(const DeclContext *ToDC,
384	DCOrigin Origin) {
385	RecordOriginImpl(ToDC, Origin, importer&: ImporterForOrigin(OriginContext&: *Origin.AST));
386	}
387
388	void ExternalASTMerger::RecordOriginImpl(const DeclContext *ToDC, DCOrigin Origin,
389	ASTImporter &Importer) {
390	Origins [ToDC] = Origin;
391	Importer.ASTImporter::MapImported(From: cast<Decl>(Val: Origin.DC), To: const_cast<Decl*>(cast<Decl>(Val: ToDC)));
392	}
393
394	ExternalASTMerger::ExternalASTMerger(const ImporterTarget &Target,
395	llvm::ArrayRef<ImporterSource> Sources) : LogStream(&llvm::nulls()), Target (Target) {
396	SharedState = std::make_shared<ASTImporterSharedState>(
397	args&: *Target.AST.getTranslationUnitDecl());
398	AddSources(Sources);
399	}
400
401	Decl ExternalASTMerger::FindOriginalDecl(Decl D) {
402	assert(&D->getASTContext() == &Target.AST);
403	for (const auto &I : Importers)
404	if (auto Result = I ->GetOriginalDecl(To: D))
405	return Result;
406	return nullptr;
407	}
408
409	void ExternalASTMerger::AddSources(llvm::ArrayRef<ImporterSource> Sources) {
410	for (const ImporterSource &S : Sources) {
411	assert(&S.getASTContext() != &Target.AST);
412	// Check that the associated merger actually imports into the source AST.
413	assert(!S.getMerger() \|\| &S.getMerger()->Target.AST == &S.getASTContext());
414	Importers.push_back(x: std::make_unique<LazyASTImporter>(
415	args&: *this, args&: Target.AST, args&: Target.FM, args: S, args&: SharedState));
416	}
417	}
418
419	void ExternalASTMerger::RemoveSources(llvm::ArrayRef<ImporterSource> Sources) {
420	if (LoggingEnabled())
421	for (const ImporterSource &S : Sources)
422	logs() << "(ExternalASTMerger)" << (void* )this*
423	<< " removing source (ASTContext)" << (void* *)&S.getASTContext()
424	<< "\n";
425	llvm::erase_if(C&: Importers,
426	P: [&Sources](std::unique_ptr<ASTImporter> &Importer) -> bool {
427	for (const ImporterSource &S : Sources) {
428	if (&Importer ->getFromContext() == &S.getASTContext())
429	return true;
430	}
431	return false;
432	});
433	for (OriginMap::iterator OI = Origins.begin(), OE = Origins.end(); OI != OE; ) {
434	std::pair<const DeclContext , DCOrigin> Origin = OI;
435	bool Erase = false;
436	for (const ImporterSource &S : Sources) {
437	if (&S.getASTContext() == Origin.second.AST) {
438	Erase = true;
439	break;
440	}
441	}
442	if (Erase)
443	OI = Origins.erase(position: OI);
444	else
445	++OI;
446	}
447	}
448
449	template <typename DeclTy>
450	static bool importSpecializations(DeclTy D, ASTImporter Importer) {
451	for (auto *Spec : D->specializations()) {
452	auto ImportedSpecOrError = Importer->Import(Spec);
453	if (!ImportedSpecOrError) {
454	llvm::consumeError(Err: ImportedSpecOrError.takeError());
455	return true;
456	}
457	}
458	return false;
459	}
460
461	/// Imports specializations from template declarations that can be specialized.
462	static bool importSpecializationsIfNeeded(Decl D, ASTImporter Importer) {
463	if (!isa<TemplateDecl>(Val: D))
464	return false;
465	if (auto *FunctionTD = dyn_cast<FunctionTemplateDecl>(Val: D))
466	return importSpecializations(D: FunctionTD, Importer);
467	else if (auto *ClassTD = dyn_cast<ClassTemplateDecl>(Val: D))
468	return importSpecializations(D: ClassTD, Importer);
469	else if (auto *VarTD = dyn_cast<VarTemplateDecl>(Val: D))
470	return importSpecializations(D: VarTD, Importer);
471	return false;
472	}
473
474	bool ExternalASTMerger::FindExternalVisibleDeclsByName(const DeclContext *DC,
475	DeclarationName Name) {
476	llvm::SmallVector<NamedDecl *, `1`> Decls;
477	llvm::SmallVector<Candidate, `4`> Candidates;
478
479	auto FilterFoundDecl = [&Candidates](const Candidate &C) {
480	if (!HasDeclOfSameType(Decls: Candidates, C))
481	Candidates.push_back(Elt: C);
482	};
483
484	ForEachMatchingDC(DC,
485	Callback: [&](ASTImporter &Forward, ASTImporter &Reverse,
486	Source<const DeclContext > SourceDC) -> bool* {
487	auto FromNameOrErr = Reverse.Import(FromName: Name);
488	if (!FromNameOrErr) {
489	llvm::consumeError(Err: FromNameOrErr.takeError());
490	return false;
491	}
492	DeclContextLookupResult Result =
493	SourceDC.get()->lookup(Name: *FromNameOrErr);
494	for (NamedDecl *FromD : Result) {
495	FilterFoundDecl (std::make_pair(x&: FromD, y: &Forward));
496	}
497	return false;
498	});
499
500	if (Candidates.empty())
501	return false;
502
503	Decls.reserve(N: Candidates.size());
504	for (const Candidate &C : Candidates) {
505	Decl *LookupRes = C.first.get();
506	ASTImporter *Importer = C.second;
507	auto NDOrErr = Importer->Import(FromD: LookupRes);
508	NamedDecl *ND = cast<NamedDecl>(llvm::cantFail(std::move(NDOrErr)));
509	assert(ND);
510	// If we don't import specialization, they are not available via lookup
511	// because the lookup result is imported TemplateDecl and it does not
512	// reference its specializations until they are imported explicitly.
513	bool IsSpecImportFailed =
514	importSpecializationsIfNeeded(D: LookupRes, Importer);
515	assert(!IsSpecImportFailed);
516	(void)IsSpecImportFailed;
517	Decls.push_back(Elt: ND);
518	}
519	SetExternalVisibleDeclsForName(DC, Name, Decls);
520	return true;
521	}
522
523	void ExternalASTMerger::FindExternalLexicalDecls(
524	const DeclContext DC, llvm::function_ref<bool*(Decl::Kind)> IsKindWeWant,
525	SmallVectorImpl<Decl *> &Result) {
526	ForEachMatchingDC(DC, Callback: [&](ASTImporter &Forward, ASTImporter &Reverse,
527	Source<const DeclContext > SourceDC) -> bool* {
528	for (const Decl *SourceDecl : SourceDC.get()->decls()) {
529	if (IsKindWeWant (SourceDecl->getKind())) {
530	auto ImportedDeclOrErr = Forward.Import(FromD: SourceDecl);
531	if (ImportedDeclOrErr)
532	assert(!(*ImportedDeclOrErr) \|\|
533	IsSameDC((*ImportedDeclOrErr)->getDeclContext(), DC));
534	else
535	llvm::consumeError(Err: ImportedDeclOrErr.takeError());
536	}
537	}
538	return false;
539	});
540	}
541

source code of clang/lib/AST/ExternalASTMerger.cpp