1e5dd7070Spatrick //===- ASTStructuralEquivalence.cpp ---------------------------------------===//
2e5dd7070Spatrick //
3e5dd7070Spatrick // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4e5dd7070Spatrick // See https://llvm.org/LICENSE.txt for license information.
5e5dd7070Spatrick // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6e5dd7070Spatrick //
7e5dd7070Spatrick //===----------------------------------------------------------------------===//
8e5dd7070Spatrick //
9e5dd7070Spatrick // This file implement StructuralEquivalenceContext class and helper functions
10e5dd7070Spatrick // for layout matching.
11e5dd7070Spatrick //
12e5dd7070Spatrick // The structural equivalence check could have been implemented as a parallel
13e5dd7070Spatrick // BFS on a pair of graphs. That must have been the original approach at the
14e5dd7070Spatrick // beginning.
15e5dd7070Spatrick // Let's consider this simple BFS algorithm from the `s` source:
16e5dd7070Spatrick // ```
17e5dd7070Spatrick // void bfs(Graph G, int s)
18e5dd7070Spatrick // {
19e5dd7070Spatrick // Queue<Integer> queue = new Queue<Integer>();
20e5dd7070Spatrick // marked[s] = true; // Mark the source
21e5dd7070Spatrick // queue.enqueue(s); // and put it on the queue.
22e5dd7070Spatrick // while (!q.isEmpty()) {
23e5dd7070Spatrick // int v = queue.dequeue(); // Remove next vertex from the queue.
24e5dd7070Spatrick // for (int w : G.adj(v))
25e5dd7070Spatrick // if (!marked[w]) // For every unmarked adjacent vertex,
26e5dd7070Spatrick // {
27e5dd7070Spatrick // marked[w] = true;
28e5dd7070Spatrick // queue.enqueue(w);
29e5dd7070Spatrick // }
30e5dd7070Spatrick // }
31e5dd7070Spatrick // }
32e5dd7070Spatrick // ```
33e5dd7070Spatrick // Indeed, it has it's queue, which holds pairs of nodes, one from each graph,
34ec727ea7Spatrick // this is the `DeclsToCheck` member. `VisitedDecls` plays the role of the
35ec727ea7Spatrick // marking (`marked`) functionality above, we use it to check whether we've
36ec727ea7Spatrick // already seen a pair of nodes.
37e5dd7070Spatrick //
38e5dd7070Spatrick // We put in the elements into the queue only in the toplevel decl check
39e5dd7070Spatrick // function:
40e5dd7070Spatrick // ```
41e5dd7070Spatrick // static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
42e5dd7070Spatrick // Decl *D1, Decl *D2);
43e5dd7070Spatrick // ```
44e5dd7070Spatrick // The `while` loop where we iterate over the children is implemented in
45e5dd7070Spatrick // `Finish()`. And `Finish` is called only from the two **member** functions
46e5dd7070Spatrick // which check the equivalency of two Decls or two Types. ASTImporter (and
47e5dd7070Spatrick // other clients) call only these functions.
48e5dd7070Spatrick //
49e5dd7070Spatrick // The `static` implementation functions are called from `Finish`, these push
50e5dd7070Spatrick // the children nodes to the queue via `static bool
51e5dd7070Spatrick // IsStructurallyEquivalent(StructuralEquivalenceContext &Context, Decl *D1,
52e5dd7070Spatrick // Decl *D2)`. So far so good, this is almost like the BFS. However, if we
53e5dd7070Spatrick // let a static implementation function to call `Finish` via another **member**
54e5dd7070Spatrick // function that means we end up with two nested while loops each of them
55e5dd7070Spatrick // working on the same queue. This is wrong and nobody can reason about it's
56e5dd7070Spatrick // doing. Thus, static implementation functions must not call the **member**
57e5dd7070Spatrick // functions.
58e5dd7070Spatrick //
59e5dd7070Spatrick //===----------------------------------------------------------------------===//
60e5dd7070Spatrick
61e5dd7070Spatrick #include "clang/AST/ASTStructuralEquivalence.h"
62e5dd7070Spatrick #include "clang/AST/ASTContext.h"
63e5dd7070Spatrick #include "clang/AST/ASTDiagnostic.h"
64e5dd7070Spatrick #include "clang/AST/Decl.h"
65e5dd7070Spatrick #include "clang/AST/DeclBase.h"
66e5dd7070Spatrick #include "clang/AST/DeclCXX.h"
67e5dd7070Spatrick #include "clang/AST/DeclFriend.h"
68e5dd7070Spatrick #include "clang/AST/DeclObjC.h"
69a9ac8606Spatrick #include "clang/AST/DeclOpenMP.h"
70e5dd7070Spatrick #include "clang/AST/DeclTemplate.h"
71e5dd7070Spatrick #include "clang/AST/ExprCXX.h"
72a9ac8606Spatrick #include "clang/AST/ExprConcepts.h"
73a9ac8606Spatrick #include "clang/AST/ExprObjC.h"
74a9ac8606Spatrick #include "clang/AST/ExprOpenMP.h"
75e5dd7070Spatrick #include "clang/AST/NestedNameSpecifier.h"
76a9ac8606Spatrick #include "clang/AST/StmtObjC.h"
77a9ac8606Spatrick #include "clang/AST/StmtOpenMP.h"
78e5dd7070Spatrick #include "clang/AST/TemplateBase.h"
79e5dd7070Spatrick #include "clang/AST/TemplateName.h"
80e5dd7070Spatrick #include "clang/AST/Type.h"
81e5dd7070Spatrick #include "clang/Basic/ExceptionSpecificationType.h"
82e5dd7070Spatrick #include "clang/Basic/IdentifierTable.h"
83e5dd7070Spatrick #include "clang/Basic/LLVM.h"
84e5dd7070Spatrick #include "clang/Basic/SourceLocation.h"
85e5dd7070Spatrick #include "llvm/ADT/APInt.h"
86e5dd7070Spatrick #include "llvm/ADT/APSInt.h"
87a9ac8606Spatrick #include "llvm/ADT/StringExtras.h"
88e5dd7070Spatrick #include "llvm/Support/Casting.h"
89e5dd7070Spatrick #include "llvm/Support/Compiler.h"
90e5dd7070Spatrick #include "llvm/Support/ErrorHandling.h"
91e5dd7070Spatrick #include <cassert>
92*12c85518Srobert #include <optional>
93e5dd7070Spatrick #include <utility>
94e5dd7070Spatrick
95e5dd7070Spatrick using namespace clang;
96e5dd7070Spatrick
97e5dd7070Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
98e5dd7070Spatrick QualType T1, QualType T2);
99e5dd7070Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
100e5dd7070Spatrick Decl *D1, Decl *D2);
101e5dd7070Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
102e5dd7070Spatrick const TemplateArgument &Arg1,
103e5dd7070Spatrick const TemplateArgument &Arg2);
104e5dd7070Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
105*12c85518Srobert const TemplateArgumentLoc &Arg1,
106*12c85518Srobert const TemplateArgumentLoc &Arg2);
107*12c85518Srobert static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
108e5dd7070Spatrick NestedNameSpecifier *NNS1,
109e5dd7070Spatrick NestedNameSpecifier *NNS2);
110e5dd7070Spatrick static bool IsStructurallyEquivalent(const IdentifierInfo *Name1,
111e5dd7070Spatrick const IdentifierInfo *Name2);
112e5dd7070Spatrick
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,const DeclarationName Name1,const DeclarationName Name2)113e5dd7070Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
114e5dd7070Spatrick const DeclarationName Name1,
115e5dd7070Spatrick const DeclarationName Name2) {
116e5dd7070Spatrick if (Name1.getNameKind() != Name2.getNameKind())
117e5dd7070Spatrick return false;
118e5dd7070Spatrick
119e5dd7070Spatrick switch (Name1.getNameKind()) {
120e5dd7070Spatrick
121e5dd7070Spatrick case DeclarationName::Identifier:
122e5dd7070Spatrick return IsStructurallyEquivalent(Name1.getAsIdentifierInfo(),
123e5dd7070Spatrick Name2.getAsIdentifierInfo());
124e5dd7070Spatrick
125e5dd7070Spatrick case DeclarationName::CXXConstructorName:
126e5dd7070Spatrick case DeclarationName::CXXDestructorName:
127e5dd7070Spatrick case DeclarationName::CXXConversionFunctionName:
128e5dd7070Spatrick return IsStructurallyEquivalent(Context, Name1.getCXXNameType(),
129e5dd7070Spatrick Name2.getCXXNameType());
130e5dd7070Spatrick
131e5dd7070Spatrick case DeclarationName::CXXDeductionGuideName: {
132e5dd7070Spatrick if (!IsStructurallyEquivalent(
133e5dd7070Spatrick Context, Name1.getCXXDeductionGuideTemplate()->getDeclName(),
134e5dd7070Spatrick Name2.getCXXDeductionGuideTemplate()->getDeclName()))
135e5dd7070Spatrick return false;
136e5dd7070Spatrick return IsStructurallyEquivalent(Context,
137e5dd7070Spatrick Name1.getCXXDeductionGuideTemplate(),
138e5dd7070Spatrick Name2.getCXXDeductionGuideTemplate());
139e5dd7070Spatrick }
140e5dd7070Spatrick
141e5dd7070Spatrick case DeclarationName::CXXOperatorName:
142e5dd7070Spatrick return Name1.getCXXOverloadedOperator() == Name2.getCXXOverloadedOperator();
143e5dd7070Spatrick
144e5dd7070Spatrick case DeclarationName::CXXLiteralOperatorName:
145e5dd7070Spatrick return IsStructurallyEquivalent(Name1.getCXXLiteralIdentifier(),
146e5dd7070Spatrick Name2.getCXXLiteralIdentifier());
147e5dd7070Spatrick
148e5dd7070Spatrick case DeclarationName::CXXUsingDirective:
149e5dd7070Spatrick return true; // FIXME When do we consider two using directives equal?
150e5dd7070Spatrick
151e5dd7070Spatrick case DeclarationName::ObjCZeroArgSelector:
152e5dd7070Spatrick case DeclarationName::ObjCOneArgSelector:
153e5dd7070Spatrick case DeclarationName::ObjCMultiArgSelector:
154e5dd7070Spatrick return true; // FIXME
155e5dd7070Spatrick }
156e5dd7070Spatrick
157e5dd7070Spatrick llvm_unreachable("Unhandled kind of DeclarationName");
158e5dd7070Spatrick return true;
159e5dd7070Spatrick }
160e5dd7070Spatrick
161a9ac8606Spatrick namespace {
162a9ac8606Spatrick /// Encapsulates Stmt comparison logic.
163a9ac8606Spatrick class StmtComparer {
164a9ac8606Spatrick StructuralEquivalenceContext &Context;
165e5dd7070Spatrick
166a9ac8606Spatrick // IsStmtEquivalent overloads. Each overload compares a specific statement
167a9ac8606Spatrick // and only has to compare the data that is specific to the specific statement
168a9ac8606Spatrick // class. Should only be called from TraverseStmt.
169a9ac8606Spatrick
IsStmtEquivalent(const AddrLabelExpr * E1,const AddrLabelExpr * E2)170a9ac8606Spatrick bool IsStmtEquivalent(const AddrLabelExpr *E1, const AddrLabelExpr *E2) {
171a9ac8606Spatrick return IsStructurallyEquivalent(Context, E1->getLabel(), E2->getLabel());
172a9ac8606Spatrick }
173a9ac8606Spatrick
IsStmtEquivalent(const AtomicExpr * E1,const AtomicExpr * E2)174a9ac8606Spatrick bool IsStmtEquivalent(const AtomicExpr *E1, const AtomicExpr *E2) {
175a9ac8606Spatrick return E1->getOp() == E2->getOp();
176a9ac8606Spatrick }
177a9ac8606Spatrick
IsStmtEquivalent(const BinaryOperator * E1,const BinaryOperator * E2)178a9ac8606Spatrick bool IsStmtEquivalent(const BinaryOperator *E1, const BinaryOperator *E2) {
179a9ac8606Spatrick return E1->getOpcode() == E2->getOpcode();
180a9ac8606Spatrick }
181a9ac8606Spatrick
IsStmtEquivalent(const CallExpr * E1,const CallExpr * E2)182a9ac8606Spatrick bool IsStmtEquivalent(const CallExpr *E1, const CallExpr *E2) {
183a9ac8606Spatrick // FIXME: IsStructurallyEquivalent requires non-const Decls.
184a9ac8606Spatrick Decl *Callee1 = const_cast<Decl *>(E1->getCalleeDecl());
185a9ac8606Spatrick Decl *Callee2 = const_cast<Decl *>(E2->getCalleeDecl());
186a9ac8606Spatrick
187a9ac8606Spatrick // Compare whether both calls know their callee.
188a9ac8606Spatrick if (static_cast<bool>(Callee1) != static_cast<bool>(Callee2))
189e5dd7070Spatrick return false;
190a9ac8606Spatrick
191a9ac8606Spatrick // Both calls have no callee, so nothing to do.
192a9ac8606Spatrick if (!static_cast<bool>(Callee1))
193a9ac8606Spatrick return true;
194a9ac8606Spatrick
195a9ac8606Spatrick assert(Callee2);
196a9ac8606Spatrick return IsStructurallyEquivalent(Context, Callee1, Callee2);
197a9ac8606Spatrick }
198a9ac8606Spatrick
IsStmtEquivalent(const CharacterLiteral * E1,const CharacterLiteral * E2)199a9ac8606Spatrick bool IsStmtEquivalent(const CharacterLiteral *E1,
200a9ac8606Spatrick const CharacterLiteral *E2) {
201a9ac8606Spatrick return E1->getValue() == E2->getValue() && E1->getKind() == E2->getKind();
202a9ac8606Spatrick }
203a9ac8606Spatrick
IsStmtEquivalent(const ChooseExpr * E1,const ChooseExpr * E2)204a9ac8606Spatrick bool IsStmtEquivalent(const ChooseExpr *E1, const ChooseExpr *E2) {
205a9ac8606Spatrick return true; // Semantics only depend on children.
206a9ac8606Spatrick }
207a9ac8606Spatrick
IsStmtEquivalent(const CompoundStmt * E1,const CompoundStmt * E2)208a9ac8606Spatrick bool IsStmtEquivalent(const CompoundStmt *E1, const CompoundStmt *E2) {
209a9ac8606Spatrick // Number of children is actually checked by the generic children comparison
210a9ac8606Spatrick // code, but a CompoundStmt is one of the few statements where the number of
211a9ac8606Spatrick // children frequently differs and the number of statements is also always
212a9ac8606Spatrick // precomputed. Directly comparing the number of children here is thus
213a9ac8606Spatrick // just an optimization.
214a9ac8606Spatrick return E1->size() == E2->size();
215a9ac8606Spatrick }
216a9ac8606Spatrick
IsStmtEquivalent(const DependentScopeDeclRefExpr * DE1,const DependentScopeDeclRefExpr * DE2)217a9ac8606Spatrick bool IsStmtEquivalent(const DependentScopeDeclRefExpr *DE1,
218a9ac8606Spatrick const DependentScopeDeclRefExpr *DE2) {
219e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, DE1->getDeclName(),
220e5dd7070Spatrick DE2->getDeclName()))
221e5dd7070Spatrick return false;
222e5dd7070Spatrick return IsStructurallyEquivalent(Context, DE1->getQualifier(),
223e5dd7070Spatrick DE2->getQualifier());
224e5dd7070Spatrick }
225a9ac8606Spatrick
IsStmtEquivalent(const Expr * E1,const Expr * E2)226a9ac8606Spatrick bool IsStmtEquivalent(const Expr *E1, const Expr *E2) {
227a9ac8606Spatrick return IsStructurallyEquivalent(Context, E1->getType(), E2->getType());
228a9ac8606Spatrick }
229a9ac8606Spatrick
IsStmtEquivalent(const ExpressionTraitExpr * E1,const ExpressionTraitExpr * E2)230a9ac8606Spatrick bool IsStmtEquivalent(const ExpressionTraitExpr *E1,
231a9ac8606Spatrick const ExpressionTraitExpr *E2) {
232a9ac8606Spatrick return E1->getTrait() == E2->getTrait() && E1->getValue() == E2->getValue();
233a9ac8606Spatrick }
234a9ac8606Spatrick
IsStmtEquivalent(const FloatingLiteral * E1,const FloatingLiteral * E2)235a9ac8606Spatrick bool IsStmtEquivalent(const FloatingLiteral *E1, const FloatingLiteral *E2) {
236a9ac8606Spatrick return E1->isExact() == E2->isExact() && E1->getValue() == E2->getValue();
237a9ac8606Spatrick }
238a9ac8606Spatrick
IsStmtEquivalent(const GenericSelectionExpr * E1,const GenericSelectionExpr * E2)239a9ac8606Spatrick bool IsStmtEquivalent(const GenericSelectionExpr *E1,
240a9ac8606Spatrick const GenericSelectionExpr *E2) {
241a9ac8606Spatrick for (auto Pair : zip_longest(E1->getAssocTypeSourceInfos(),
242a9ac8606Spatrick E2->getAssocTypeSourceInfos())) {
243*12c85518Srobert std::optional<TypeSourceInfo *> Child1 = std::get<0>(Pair);
244*12c85518Srobert std::optional<TypeSourceInfo *> Child2 = std::get<1>(Pair);
245a9ac8606Spatrick // Skip this case if there are a different number of associated types.
246a9ac8606Spatrick if (!Child1 || !Child2)
247a9ac8606Spatrick return false;
248a9ac8606Spatrick
249a9ac8606Spatrick if (!IsStructurallyEquivalent(Context, (*Child1)->getType(),
250a9ac8606Spatrick (*Child2)->getType()))
251a9ac8606Spatrick return false;
252a9ac8606Spatrick }
253a9ac8606Spatrick
254a9ac8606Spatrick return true;
255a9ac8606Spatrick }
256a9ac8606Spatrick
IsStmtEquivalent(const ImplicitCastExpr * CastE1,const ImplicitCastExpr * CastE2)257a9ac8606Spatrick bool IsStmtEquivalent(const ImplicitCastExpr *CastE1,
258a9ac8606Spatrick const ImplicitCastExpr *CastE2) {
259a9ac8606Spatrick return IsStructurallyEquivalent(Context, CastE1->getType(),
260a9ac8606Spatrick CastE2->getType());
261a9ac8606Spatrick }
262a9ac8606Spatrick
IsStmtEquivalent(const IntegerLiteral * E1,const IntegerLiteral * E2)263a9ac8606Spatrick bool IsStmtEquivalent(const IntegerLiteral *E1, const IntegerLiteral *E2) {
264a9ac8606Spatrick return E1->getValue() == E2->getValue();
265a9ac8606Spatrick }
266a9ac8606Spatrick
IsStmtEquivalent(const MemberExpr * E1,const MemberExpr * E2)267a9ac8606Spatrick bool IsStmtEquivalent(const MemberExpr *E1, const MemberExpr *E2) {
268a9ac8606Spatrick return IsStructurallyEquivalent(Context, E1->getFoundDecl(),
269a9ac8606Spatrick E2->getFoundDecl());
270a9ac8606Spatrick }
271a9ac8606Spatrick
IsStmtEquivalent(const ObjCStringLiteral * E1,const ObjCStringLiteral * E2)272a9ac8606Spatrick bool IsStmtEquivalent(const ObjCStringLiteral *E1,
273a9ac8606Spatrick const ObjCStringLiteral *E2) {
274a9ac8606Spatrick // Just wraps a StringLiteral child.
275a9ac8606Spatrick return true;
276a9ac8606Spatrick }
277a9ac8606Spatrick
IsStmtEquivalent(const Stmt * S1,const Stmt * S2)278a9ac8606Spatrick bool IsStmtEquivalent(const Stmt *S1, const Stmt *S2) { return true; }
279a9ac8606Spatrick
IsStmtEquivalent(const SourceLocExpr * E1,const SourceLocExpr * E2)280a9ac8606Spatrick bool IsStmtEquivalent(const SourceLocExpr *E1, const SourceLocExpr *E2) {
281a9ac8606Spatrick return E1->getIdentKind() == E2->getIdentKind();
282a9ac8606Spatrick }
283a9ac8606Spatrick
IsStmtEquivalent(const StmtExpr * E1,const StmtExpr * E2)284a9ac8606Spatrick bool IsStmtEquivalent(const StmtExpr *E1, const StmtExpr *E2) {
285a9ac8606Spatrick return E1->getTemplateDepth() == E2->getTemplateDepth();
286a9ac8606Spatrick }
287a9ac8606Spatrick
IsStmtEquivalent(const StringLiteral * E1,const StringLiteral * E2)288a9ac8606Spatrick bool IsStmtEquivalent(const StringLiteral *E1, const StringLiteral *E2) {
289a9ac8606Spatrick return E1->getBytes() == E2->getBytes();
290a9ac8606Spatrick }
291a9ac8606Spatrick
IsStmtEquivalent(const SubstNonTypeTemplateParmExpr * E1,const SubstNonTypeTemplateParmExpr * E2)292a9ac8606Spatrick bool IsStmtEquivalent(const SubstNonTypeTemplateParmExpr *E1,
293a9ac8606Spatrick const SubstNonTypeTemplateParmExpr *E2) {
294*12c85518Srobert if (!IsStructurallyEquivalent(Context, E1->getAssociatedDecl(),
295*12c85518Srobert E2->getAssociatedDecl()))
296*12c85518Srobert return false;
297*12c85518Srobert if (E1->getIndex() != E2->getIndex())
298*12c85518Srobert return false;
299*12c85518Srobert if (E1->getPackIndex() != E2->getPackIndex())
300*12c85518Srobert return false;
301*12c85518Srobert return true;
302a9ac8606Spatrick }
303a9ac8606Spatrick
IsStmtEquivalent(const SubstNonTypeTemplateParmPackExpr * E1,const SubstNonTypeTemplateParmPackExpr * E2)304a9ac8606Spatrick bool IsStmtEquivalent(const SubstNonTypeTemplateParmPackExpr *E1,
305a9ac8606Spatrick const SubstNonTypeTemplateParmPackExpr *E2) {
306a9ac8606Spatrick return IsStructurallyEquivalent(Context, E1->getArgumentPack(),
307a9ac8606Spatrick E2->getArgumentPack());
308a9ac8606Spatrick }
309a9ac8606Spatrick
IsStmtEquivalent(const TypeTraitExpr * E1,const TypeTraitExpr * E2)310a9ac8606Spatrick bool IsStmtEquivalent(const TypeTraitExpr *E1, const TypeTraitExpr *E2) {
311a9ac8606Spatrick if (E1->getTrait() != E2->getTrait())
312a9ac8606Spatrick return false;
313a9ac8606Spatrick
314a9ac8606Spatrick for (auto Pair : zip_longest(E1->getArgs(), E2->getArgs())) {
315*12c85518Srobert std::optional<TypeSourceInfo *> Child1 = std::get<0>(Pair);
316*12c85518Srobert std::optional<TypeSourceInfo *> Child2 = std::get<1>(Pair);
317a9ac8606Spatrick // Different number of args.
318a9ac8606Spatrick if (!Child1 || !Child2)
319a9ac8606Spatrick return false;
320a9ac8606Spatrick
321a9ac8606Spatrick if (!IsStructurallyEquivalent(Context, (*Child1)->getType(),
322a9ac8606Spatrick (*Child2)->getType()))
323a9ac8606Spatrick return false;
324a9ac8606Spatrick }
325a9ac8606Spatrick return true;
326a9ac8606Spatrick }
327a9ac8606Spatrick
IsStmtEquivalent(const UnaryExprOrTypeTraitExpr * E1,const UnaryExprOrTypeTraitExpr * E2)328a9ac8606Spatrick bool IsStmtEquivalent(const UnaryExprOrTypeTraitExpr *E1,
329a9ac8606Spatrick const UnaryExprOrTypeTraitExpr *E2) {
330a9ac8606Spatrick if (E1->getKind() != E2->getKind())
331a9ac8606Spatrick return false;
332a9ac8606Spatrick return IsStructurallyEquivalent(Context, E1->getTypeOfArgument(),
333a9ac8606Spatrick E2->getTypeOfArgument());
334a9ac8606Spatrick }
335a9ac8606Spatrick
IsStmtEquivalent(const UnaryOperator * E1,const UnaryOperator * E2)336a9ac8606Spatrick bool IsStmtEquivalent(const UnaryOperator *E1, const UnaryOperator *E2) {
337a9ac8606Spatrick return E1->getOpcode() == E2->getOpcode();
338a9ac8606Spatrick }
339a9ac8606Spatrick
IsStmtEquivalent(const VAArgExpr * E1,const VAArgExpr * E2)340a9ac8606Spatrick bool IsStmtEquivalent(const VAArgExpr *E1, const VAArgExpr *E2) {
341a9ac8606Spatrick // Semantics only depend on children.
342a9ac8606Spatrick return true;
343a9ac8606Spatrick }
344a9ac8606Spatrick
IsStmtEquivalent(const OverloadExpr * E1,const OverloadExpr * E2)345*12c85518Srobert bool IsStmtEquivalent(const OverloadExpr *E1, const OverloadExpr *E2) {
346*12c85518Srobert if (!IsStructurallyEquivalent(Context, E1->getName(), E2->getName()))
347*12c85518Srobert return false;
348*12c85518Srobert
349*12c85518Srobert if (static_cast<bool>(E1->getQualifier()) !=
350*12c85518Srobert static_cast<bool>(E2->getQualifier()))
351*12c85518Srobert return false;
352*12c85518Srobert if (E1->getQualifier() &&
353*12c85518Srobert !IsStructurallyEquivalent(Context, E1->getQualifier(),
354*12c85518Srobert E2->getQualifier()))
355*12c85518Srobert return false;
356*12c85518Srobert
357*12c85518Srobert if (E1->getNumTemplateArgs() != E2->getNumTemplateArgs())
358*12c85518Srobert return false;
359*12c85518Srobert const TemplateArgumentLoc *Args1 = E1->getTemplateArgs();
360*12c85518Srobert const TemplateArgumentLoc *Args2 = E2->getTemplateArgs();
361*12c85518Srobert for (unsigned int ArgI = 0, ArgN = E1->getNumTemplateArgs(); ArgI < ArgN;
362*12c85518Srobert ++ArgI)
363*12c85518Srobert if (!IsStructurallyEquivalent(Context, Args1[ArgI], Args2[ArgI]))
364*12c85518Srobert return false;
365*12c85518Srobert
366*12c85518Srobert return true;
367*12c85518Srobert }
368*12c85518Srobert
369a9ac8606Spatrick /// End point of the traversal chain.
TraverseStmt(const Stmt * S1,const Stmt * S2)370a9ac8606Spatrick bool TraverseStmt(const Stmt *S1, const Stmt *S2) { return true; }
371a9ac8606Spatrick
372a9ac8606Spatrick // Create traversal methods that traverse the class hierarchy and return
373a9ac8606Spatrick // the accumulated result of the comparison. Each TraverseStmt overload
374a9ac8606Spatrick // calls the TraverseStmt overload of the parent class. For example,
375a9ac8606Spatrick // the TraverseStmt overload for 'BinaryOperator' calls the TraverseStmt
376a9ac8606Spatrick // overload of 'Expr' which then calls the overload for 'Stmt'.
377a9ac8606Spatrick #define STMT(CLASS, PARENT) \
378a9ac8606Spatrick bool TraverseStmt(const CLASS *S1, const CLASS *S2) { \
379a9ac8606Spatrick if (!TraverseStmt(static_cast<const PARENT *>(S1), \
380a9ac8606Spatrick static_cast<const PARENT *>(S2))) \
381a9ac8606Spatrick return false; \
382a9ac8606Spatrick return IsStmtEquivalent(S1, S2); \
383a9ac8606Spatrick }
384a9ac8606Spatrick #include "clang/AST/StmtNodes.inc"
385a9ac8606Spatrick
386a9ac8606Spatrick public:
StmtComparer(StructuralEquivalenceContext & C)387a9ac8606Spatrick StmtComparer(StructuralEquivalenceContext &C) : Context(C) {}
388a9ac8606Spatrick
389a9ac8606Spatrick /// Determine whether two statements are equivalent. The statements have to
390a9ac8606Spatrick /// be of the same kind. The children of the statements and their properties
391a9ac8606Spatrick /// are not compared by this function.
IsEquivalent(const Stmt * S1,const Stmt * S2)392a9ac8606Spatrick bool IsEquivalent(const Stmt *S1, const Stmt *S2) {
393a9ac8606Spatrick if (S1->getStmtClass() != S2->getStmtClass())
394a9ac8606Spatrick return false;
395a9ac8606Spatrick
396a9ac8606Spatrick // Each TraverseStmt walks the class hierarchy from the leaf class to
397a9ac8606Spatrick // the root class 'Stmt' (e.g. 'BinaryOperator' -> 'Expr' -> 'Stmt'). Cast
398a9ac8606Spatrick // the Stmt we have here to its specific subclass so that we call the
399a9ac8606Spatrick // overload that walks the whole class hierarchy from leaf to root (e.g.,
400a9ac8606Spatrick // cast to 'BinaryOperator' so that 'Expr' and 'Stmt' is traversed).
401a9ac8606Spatrick switch (S1->getStmtClass()) {
402a9ac8606Spatrick case Stmt::NoStmtClass:
403a9ac8606Spatrick llvm_unreachable("Can't traverse NoStmtClass");
404a9ac8606Spatrick #define STMT(CLASS, PARENT) \
405a9ac8606Spatrick case Stmt::StmtClass::CLASS##Class: \
406a9ac8606Spatrick return TraverseStmt(static_cast<const CLASS *>(S1), \
407a9ac8606Spatrick static_cast<const CLASS *>(S2));
408a9ac8606Spatrick #define ABSTRACT_STMT(S)
409a9ac8606Spatrick #include "clang/AST/StmtNodes.inc"
410a9ac8606Spatrick }
411a9ac8606Spatrick llvm_unreachable("Invalid statement kind");
412a9ac8606Spatrick }
413a9ac8606Spatrick };
414a9ac8606Spatrick } // namespace
415a9ac8606Spatrick
416a9ac8606Spatrick /// Determine structural equivalence of two statements.
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,const Stmt * S1,const Stmt * S2)417a9ac8606Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
418a9ac8606Spatrick const Stmt *S1, const Stmt *S2) {
419a9ac8606Spatrick if (!S1 || !S2)
420a9ac8606Spatrick return S1 == S2;
421a9ac8606Spatrick
422a9ac8606Spatrick // Compare the statements itself.
423a9ac8606Spatrick StmtComparer Comparer(Context);
424a9ac8606Spatrick if (!Comparer.IsEquivalent(S1, S2))
425a9ac8606Spatrick return false;
426a9ac8606Spatrick
427a9ac8606Spatrick // Iterate over the children of both statements and also compare them.
428a9ac8606Spatrick for (auto Pair : zip_longest(S1->children(), S2->children())) {
429*12c85518Srobert std::optional<const Stmt *> Child1 = std::get<0>(Pair);
430*12c85518Srobert std::optional<const Stmt *> Child2 = std::get<1>(Pair);
431a9ac8606Spatrick // One of the statements has a different amount of children than the other,
432a9ac8606Spatrick // so the statements can't be equivalent.
433a9ac8606Spatrick if (!Child1 || !Child2)
434a9ac8606Spatrick return false;
435a9ac8606Spatrick if (!IsStructurallyEquivalent(Context, *Child1, *Child2))
436a9ac8606Spatrick return false;
437a9ac8606Spatrick }
438e5dd7070Spatrick return true;
439e5dd7070Spatrick }
440e5dd7070Spatrick
441e5dd7070Spatrick /// Determine whether two identifiers are equivalent.
IsStructurallyEquivalent(const IdentifierInfo * Name1,const IdentifierInfo * Name2)442e5dd7070Spatrick static bool IsStructurallyEquivalent(const IdentifierInfo *Name1,
443e5dd7070Spatrick const IdentifierInfo *Name2) {
444e5dd7070Spatrick if (!Name1 || !Name2)
445e5dd7070Spatrick return Name1 == Name2;
446e5dd7070Spatrick
447e5dd7070Spatrick return Name1->getName() == Name2->getName();
448e5dd7070Spatrick }
449e5dd7070Spatrick
450e5dd7070Spatrick /// Determine whether two nested-name-specifiers are equivalent.
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,NestedNameSpecifier * NNS1,NestedNameSpecifier * NNS2)451e5dd7070Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
452e5dd7070Spatrick NestedNameSpecifier *NNS1,
453e5dd7070Spatrick NestedNameSpecifier *NNS2) {
454e5dd7070Spatrick if (NNS1->getKind() != NNS2->getKind())
455e5dd7070Spatrick return false;
456e5dd7070Spatrick
457e5dd7070Spatrick NestedNameSpecifier *Prefix1 = NNS1->getPrefix(),
458e5dd7070Spatrick *Prefix2 = NNS2->getPrefix();
459e5dd7070Spatrick if ((bool)Prefix1 != (bool)Prefix2)
460e5dd7070Spatrick return false;
461e5dd7070Spatrick
462e5dd7070Spatrick if (Prefix1)
463e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Prefix1, Prefix2))
464e5dd7070Spatrick return false;
465e5dd7070Spatrick
466e5dd7070Spatrick switch (NNS1->getKind()) {
467e5dd7070Spatrick case NestedNameSpecifier::Identifier:
468e5dd7070Spatrick return IsStructurallyEquivalent(NNS1->getAsIdentifier(),
469e5dd7070Spatrick NNS2->getAsIdentifier());
470e5dd7070Spatrick case NestedNameSpecifier::Namespace:
471e5dd7070Spatrick return IsStructurallyEquivalent(Context, NNS1->getAsNamespace(),
472e5dd7070Spatrick NNS2->getAsNamespace());
473e5dd7070Spatrick case NestedNameSpecifier::NamespaceAlias:
474e5dd7070Spatrick return IsStructurallyEquivalent(Context, NNS1->getAsNamespaceAlias(),
475e5dd7070Spatrick NNS2->getAsNamespaceAlias());
476e5dd7070Spatrick case NestedNameSpecifier::TypeSpec:
477e5dd7070Spatrick case NestedNameSpecifier::TypeSpecWithTemplate:
478e5dd7070Spatrick return IsStructurallyEquivalent(Context, QualType(NNS1->getAsType(), 0),
479e5dd7070Spatrick QualType(NNS2->getAsType(), 0));
480e5dd7070Spatrick case NestedNameSpecifier::Global:
481e5dd7070Spatrick return true;
482e5dd7070Spatrick case NestedNameSpecifier::Super:
483e5dd7070Spatrick return IsStructurallyEquivalent(Context, NNS1->getAsRecordDecl(),
484e5dd7070Spatrick NNS2->getAsRecordDecl());
485e5dd7070Spatrick }
486e5dd7070Spatrick return false;
487e5dd7070Spatrick }
488e5dd7070Spatrick
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,const TemplateName & N1,const TemplateName & N2)489e5dd7070Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
490e5dd7070Spatrick const TemplateName &N1,
491e5dd7070Spatrick const TemplateName &N2) {
492e5dd7070Spatrick TemplateDecl *TemplateDeclN1 = N1.getAsTemplateDecl();
493e5dd7070Spatrick TemplateDecl *TemplateDeclN2 = N2.getAsTemplateDecl();
494e5dd7070Spatrick if (TemplateDeclN1 && TemplateDeclN2) {
495e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, TemplateDeclN1, TemplateDeclN2))
496e5dd7070Spatrick return false;
497e5dd7070Spatrick // If the kind is different we compare only the template decl.
498e5dd7070Spatrick if (N1.getKind() != N2.getKind())
499e5dd7070Spatrick return true;
500e5dd7070Spatrick } else if (TemplateDeclN1 || TemplateDeclN2)
501e5dd7070Spatrick return false;
502e5dd7070Spatrick else if (N1.getKind() != N2.getKind())
503e5dd7070Spatrick return false;
504e5dd7070Spatrick
505e5dd7070Spatrick // Check for special case incompatibilities.
506e5dd7070Spatrick switch (N1.getKind()) {
507e5dd7070Spatrick
508e5dd7070Spatrick case TemplateName::OverloadedTemplate: {
509e5dd7070Spatrick OverloadedTemplateStorage *OS1 = N1.getAsOverloadedTemplate(),
510e5dd7070Spatrick *OS2 = N2.getAsOverloadedTemplate();
511e5dd7070Spatrick OverloadedTemplateStorage::iterator I1 = OS1->begin(), I2 = OS2->begin(),
512e5dd7070Spatrick E1 = OS1->end(), E2 = OS2->end();
513e5dd7070Spatrick for (; I1 != E1 && I2 != E2; ++I1, ++I2)
514e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, *I1, *I2))
515e5dd7070Spatrick return false;
516e5dd7070Spatrick return I1 == E1 && I2 == E2;
517e5dd7070Spatrick }
518e5dd7070Spatrick
519e5dd7070Spatrick case TemplateName::AssumedTemplate: {
520e5dd7070Spatrick AssumedTemplateStorage *TN1 = N1.getAsAssumedTemplateName(),
521e5dd7070Spatrick *TN2 = N1.getAsAssumedTemplateName();
522e5dd7070Spatrick return TN1->getDeclName() == TN2->getDeclName();
523e5dd7070Spatrick }
524e5dd7070Spatrick
525e5dd7070Spatrick case TemplateName::DependentTemplate: {
526e5dd7070Spatrick DependentTemplateName *DN1 = N1.getAsDependentTemplateName(),
527e5dd7070Spatrick *DN2 = N2.getAsDependentTemplateName();
528e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, DN1->getQualifier(),
529e5dd7070Spatrick DN2->getQualifier()))
530e5dd7070Spatrick return false;
531e5dd7070Spatrick if (DN1->isIdentifier() && DN2->isIdentifier())
532e5dd7070Spatrick return IsStructurallyEquivalent(DN1->getIdentifier(),
533e5dd7070Spatrick DN2->getIdentifier());
534e5dd7070Spatrick else if (DN1->isOverloadedOperator() && DN2->isOverloadedOperator())
535e5dd7070Spatrick return DN1->getOperator() == DN2->getOperator();
536e5dd7070Spatrick return false;
537e5dd7070Spatrick }
538e5dd7070Spatrick
539e5dd7070Spatrick case TemplateName::SubstTemplateTemplateParmPack: {
540e5dd7070Spatrick SubstTemplateTemplateParmPackStorage
541e5dd7070Spatrick *P1 = N1.getAsSubstTemplateTemplateParmPack(),
542e5dd7070Spatrick *P2 = N2.getAsSubstTemplateTemplateParmPack();
543e5dd7070Spatrick return IsStructurallyEquivalent(Context, P1->getArgumentPack(),
544e5dd7070Spatrick P2->getArgumentPack()) &&
545*12c85518Srobert IsStructurallyEquivalent(Context, P1->getAssociatedDecl(),
546*12c85518Srobert P2->getAssociatedDecl()) &&
547*12c85518Srobert P1->getIndex() == P2->getIndex();
548e5dd7070Spatrick }
549e5dd7070Spatrick
550e5dd7070Spatrick case TemplateName::Template:
551e5dd7070Spatrick case TemplateName::QualifiedTemplate:
552e5dd7070Spatrick case TemplateName::SubstTemplateTemplateParm:
553*12c85518Srobert case TemplateName::UsingTemplate:
554e5dd7070Spatrick // It is sufficient to check value of getAsTemplateDecl.
555e5dd7070Spatrick break;
556e5dd7070Spatrick
557e5dd7070Spatrick }
558e5dd7070Spatrick
559e5dd7070Spatrick return true;
560e5dd7070Spatrick }
561e5dd7070Spatrick
562*12c85518Srobert static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
563*12c85518Srobert ArrayRef<TemplateArgument> Args1,
564*12c85518Srobert ArrayRef<TemplateArgument> Args2);
565*12c85518Srobert
566e5dd7070Spatrick /// Determine whether two template arguments are equivalent.
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,const TemplateArgument & Arg1,const TemplateArgument & Arg2)567e5dd7070Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
568e5dd7070Spatrick const TemplateArgument &Arg1,
569e5dd7070Spatrick const TemplateArgument &Arg2) {
570e5dd7070Spatrick if (Arg1.getKind() != Arg2.getKind())
571e5dd7070Spatrick return false;
572e5dd7070Spatrick
573e5dd7070Spatrick switch (Arg1.getKind()) {
574e5dd7070Spatrick case TemplateArgument::Null:
575e5dd7070Spatrick return true;
576e5dd7070Spatrick
577e5dd7070Spatrick case TemplateArgument::Type:
578e5dd7070Spatrick return IsStructurallyEquivalent(Context, Arg1.getAsType(), Arg2.getAsType());
579e5dd7070Spatrick
580e5dd7070Spatrick case TemplateArgument::Integral:
581e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Arg1.getIntegralType(),
582e5dd7070Spatrick Arg2.getIntegralType()))
583e5dd7070Spatrick return false;
584e5dd7070Spatrick
585e5dd7070Spatrick return llvm::APSInt::isSameValue(Arg1.getAsIntegral(),
586e5dd7070Spatrick Arg2.getAsIntegral());
587e5dd7070Spatrick
588e5dd7070Spatrick case TemplateArgument::Declaration:
589e5dd7070Spatrick return IsStructurallyEquivalent(Context, Arg1.getAsDecl(), Arg2.getAsDecl());
590e5dd7070Spatrick
591e5dd7070Spatrick case TemplateArgument::NullPtr:
592e5dd7070Spatrick return true; // FIXME: Is this correct?
593e5dd7070Spatrick
594e5dd7070Spatrick case TemplateArgument::Template:
595e5dd7070Spatrick return IsStructurallyEquivalent(Context, Arg1.getAsTemplate(),
596e5dd7070Spatrick Arg2.getAsTemplate());
597e5dd7070Spatrick
598e5dd7070Spatrick case TemplateArgument::TemplateExpansion:
599e5dd7070Spatrick return IsStructurallyEquivalent(Context,
600e5dd7070Spatrick Arg1.getAsTemplateOrTemplatePattern(),
601e5dd7070Spatrick Arg2.getAsTemplateOrTemplatePattern());
602e5dd7070Spatrick
603e5dd7070Spatrick case TemplateArgument::Expression:
604e5dd7070Spatrick return IsStructurallyEquivalent(Context, Arg1.getAsExpr(),
605e5dd7070Spatrick Arg2.getAsExpr());
606e5dd7070Spatrick
607e5dd7070Spatrick case TemplateArgument::Pack:
608*12c85518Srobert return IsStructurallyEquivalent(Context, Arg1.pack_elements(),
609*12c85518Srobert Arg2.pack_elements());
610e5dd7070Spatrick }
611e5dd7070Spatrick
612e5dd7070Spatrick llvm_unreachable("Invalid template argument kind");
613e5dd7070Spatrick }
614e5dd7070Spatrick
615*12c85518Srobert /// Determine structural equivalence of two template argument lists.
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,ArrayRef<TemplateArgument> Args1,ArrayRef<TemplateArgument> Args2)616*12c85518Srobert static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
617*12c85518Srobert ArrayRef<TemplateArgument> Args1,
618*12c85518Srobert ArrayRef<TemplateArgument> Args2) {
619*12c85518Srobert if (Args1.size() != Args2.size())
620*12c85518Srobert return false;
621*12c85518Srobert for (unsigned I = 0, N = Args1.size(); I != N; ++I) {
622*12c85518Srobert if (!IsStructurallyEquivalent(Context, Args1[I], Args2[I]))
623*12c85518Srobert return false;
624*12c85518Srobert }
625*12c85518Srobert return true;
626*12c85518Srobert }
627*12c85518Srobert
628*12c85518Srobert /// Determine whether two template argument locations are equivalent.
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,const TemplateArgumentLoc & Arg1,const TemplateArgumentLoc & Arg2)629*12c85518Srobert static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
630*12c85518Srobert const TemplateArgumentLoc &Arg1,
631*12c85518Srobert const TemplateArgumentLoc &Arg2) {
632*12c85518Srobert return IsStructurallyEquivalent(Context, Arg1.getArgument(),
633*12c85518Srobert Arg2.getArgument());
634*12c85518Srobert }
635*12c85518Srobert
636e5dd7070Spatrick /// Determine structural equivalence for the common part of array
637e5dd7070Spatrick /// types.
IsArrayStructurallyEquivalent(StructuralEquivalenceContext & Context,const ArrayType * Array1,const ArrayType * Array2)638e5dd7070Spatrick static bool IsArrayStructurallyEquivalent(StructuralEquivalenceContext &Context,
639e5dd7070Spatrick const ArrayType *Array1,
640e5dd7070Spatrick const ArrayType *Array2) {
641e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Array1->getElementType(),
642e5dd7070Spatrick Array2->getElementType()))
643e5dd7070Spatrick return false;
644e5dd7070Spatrick if (Array1->getSizeModifier() != Array2->getSizeModifier())
645e5dd7070Spatrick return false;
646e5dd7070Spatrick if (Array1->getIndexTypeQualifiers() != Array2->getIndexTypeQualifiers())
647e5dd7070Spatrick return false;
648e5dd7070Spatrick
649e5dd7070Spatrick return true;
650e5dd7070Spatrick }
651e5dd7070Spatrick
652e5dd7070Spatrick /// Determine structural equivalence based on the ExtInfo of functions. This
653e5dd7070Spatrick /// is inspired by ASTContext::mergeFunctionTypes(), we compare calling
654e5dd7070Spatrick /// conventions bits but must not compare some other bits.
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,FunctionType::ExtInfo EI1,FunctionType::ExtInfo EI2)655e5dd7070Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
656e5dd7070Spatrick FunctionType::ExtInfo EI1,
657e5dd7070Spatrick FunctionType::ExtInfo EI2) {
658e5dd7070Spatrick // Compatible functions must have compatible calling conventions.
659e5dd7070Spatrick if (EI1.getCC() != EI2.getCC())
660e5dd7070Spatrick return false;
661e5dd7070Spatrick
662e5dd7070Spatrick // Regparm is part of the calling convention.
663e5dd7070Spatrick if (EI1.getHasRegParm() != EI2.getHasRegParm())
664e5dd7070Spatrick return false;
665e5dd7070Spatrick if (EI1.getRegParm() != EI2.getRegParm())
666e5dd7070Spatrick return false;
667e5dd7070Spatrick
668e5dd7070Spatrick if (EI1.getProducesResult() != EI2.getProducesResult())
669e5dd7070Spatrick return false;
670e5dd7070Spatrick if (EI1.getNoCallerSavedRegs() != EI2.getNoCallerSavedRegs())
671e5dd7070Spatrick return false;
672e5dd7070Spatrick if (EI1.getNoCfCheck() != EI2.getNoCfCheck())
673e5dd7070Spatrick return false;
674e5dd7070Spatrick
675e5dd7070Spatrick return true;
676e5dd7070Spatrick }
677e5dd7070Spatrick
678e5dd7070Spatrick /// Check the equivalence of exception specifications.
IsEquivalentExceptionSpec(StructuralEquivalenceContext & Context,const FunctionProtoType * Proto1,const FunctionProtoType * Proto2)679e5dd7070Spatrick static bool IsEquivalentExceptionSpec(StructuralEquivalenceContext &Context,
680e5dd7070Spatrick const FunctionProtoType *Proto1,
681e5dd7070Spatrick const FunctionProtoType *Proto2) {
682e5dd7070Spatrick
683e5dd7070Spatrick auto Spec1 = Proto1->getExceptionSpecType();
684e5dd7070Spatrick auto Spec2 = Proto2->getExceptionSpecType();
685e5dd7070Spatrick
686e5dd7070Spatrick if (isUnresolvedExceptionSpec(Spec1) || isUnresolvedExceptionSpec(Spec2))
687e5dd7070Spatrick return true;
688e5dd7070Spatrick
689e5dd7070Spatrick if (Spec1 != Spec2)
690e5dd7070Spatrick return false;
691e5dd7070Spatrick if (Spec1 == EST_Dynamic) {
692e5dd7070Spatrick if (Proto1->getNumExceptions() != Proto2->getNumExceptions())
693e5dd7070Spatrick return false;
694e5dd7070Spatrick for (unsigned I = 0, N = Proto1->getNumExceptions(); I != N; ++I) {
695e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Proto1->getExceptionType(I),
696e5dd7070Spatrick Proto2->getExceptionType(I)))
697e5dd7070Spatrick return false;
698e5dd7070Spatrick }
699e5dd7070Spatrick } else if (isComputedNoexcept(Spec1)) {
700e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Proto1->getNoexceptExpr(),
701e5dd7070Spatrick Proto2->getNoexceptExpr()))
702e5dd7070Spatrick return false;
703e5dd7070Spatrick }
704e5dd7070Spatrick
705e5dd7070Spatrick return true;
706e5dd7070Spatrick }
707e5dd7070Spatrick
708e5dd7070Spatrick /// Determine structural equivalence of two types.
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,QualType T1,QualType T2)709e5dd7070Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
710e5dd7070Spatrick QualType T1, QualType T2) {
711e5dd7070Spatrick if (T1.isNull() || T2.isNull())
712e5dd7070Spatrick return T1.isNull() && T2.isNull();
713e5dd7070Spatrick
714e5dd7070Spatrick QualType OrigT1 = T1;
715e5dd7070Spatrick QualType OrigT2 = T2;
716e5dd7070Spatrick
717e5dd7070Spatrick if (!Context.StrictTypeSpelling) {
718e5dd7070Spatrick // We aren't being strict about token-to-token equivalence of types,
719e5dd7070Spatrick // so map down to the canonical type.
720e5dd7070Spatrick T1 = Context.FromCtx.getCanonicalType(T1);
721e5dd7070Spatrick T2 = Context.ToCtx.getCanonicalType(T2);
722e5dd7070Spatrick }
723e5dd7070Spatrick
724e5dd7070Spatrick if (T1.getQualifiers() != T2.getQualifiers())
725e5dd7070Spatrick return false;
726e5dd7070Spatrick
727e5dd7070Spatrick Type::TypeClass TC = T1->getTypeClass();
728e5dd7070Spatrick
729e5dd7070Spatrick if (T1->getTypeClass() != T2->getTypeClass()) {
730e5dd7070Spatrick // Compare function types with prototypes vs. without prototypes as if
731e5dd7070Spatrick // both did not have prototypes.
732e5dd7070Spatrick if (T1->getTypeClass() == Type::FunctionProto &&
733e5dd7070Spatrick T2->getTypeClass() == Type::FunctionNoProto)
734e5dd7070Spatrick TC = Type::FunctionNoProto;
735e5dd7070Spatrick else if (T1->getTypeClass() == Type::FunctionNoProto &&
736e5dd7070Spatrick T2->getTypeClass() == Type::FunctionProto)
737e5dd7070Spatrick TC = Type::FunctionNoProto;
738e5dd7070Spatrick else
739e5dd7070Spatrick return false;
740e5dd7070Spatrick }
741e5dd7070Spatrick
742e5dd7070Spatrick switch (TC) {
743e5dd7070Spatrick case Type::Builtin:
744e5dd7070Spatrick // FIXME: Deal with Char_S/Char_U.
745e5dd7070Spatrick if (cast<BuiltinType>(T1)->getKind() != cast<BuiltinType>(T2)->getKind())
746e5dd7070Spatrick return false;
747e5dd7070Spatrick break;
748e5dd7070Spatrick
749e5dd7070Spatrick case Type::Complex:
750e5dd7070Spatrick if (!IsStructurallyEquivalent(Context,
751e5dd7070Spatrick cast<ComplexType>(T1)->getElementType(),
752e5dd7070Spatrick cast<ComplexType>(T2)->getElementType()))
753e5dd7070Spatrick return false;
754e5dd7070Spatrick break;
755e5dd7070Spatrick
756e5dd7070Spatrick case Type::Adjusted:
757e5dd7070Spatrick case Type::Decayed:
758e5dd7070Spatrick if (!IsStructurallyEquivalent(Context,
759e5dd7070Spatrick cast<AdjustedType>(T1)->getOriginalType(),
760e5dd7070Spatrick cast<AdjustedType>(T2)->getOriginalType()))
761e5dd7070Spatrick return false;
762e5dd7070Spatrick break;
763e5dd7070Spatrick
764e5dd7070Spatrick case Type::Pointer:
765e5dd7070Spatrick if (!IsStructurallyEquivalent(Context,
766e5dd7070Spatrick cast<PointerType>(T1)->getPointeeType(),
767e5dd7070Spatrick cast<PointerType>(T2)->getPointeeType()))
768e5dd7070Spatrick return false;
769e5dd7070Spatrick break;
770e5dd7070Spatrick
771e5dd7070Spatrick case Type::BlockPointer:
772e5dd7070Spatrick if (!IsStructurallyEquivalent(Context,
773e5dd7070Spatrick cast<BlockPointerType>(T1)->getPointeeType(),
774e5dd7070Spatrick cast<BlockPointerType>(T2)->getPointeeType()))
775e5dd7070Spatrick return false;
776e5dd7070Spatrick break;
777e5dd7070Spatrick
778e5dd7070Spatrick case Type::LValueReference:
779e5dd7070Spatrick case Type::RValueReference: {
780e5dd7070Spatrick const auto *Ref1 = cast<ReferenceType>(T1);
781e5dd7070Spatrick const auto *Ref2 = cast<ReferenceType>(T2);
782e5dd7070Spatrick if (Ref1->isSpelledAsLValue() != Ref2->isSpelledAsLValue())
783e5dd7070Spatrick return false;
784e5dd7070Spatrick if (Ref1->isInnerRef() != Ref2->isInnerRef())
785e5dd7070Spatrick return false;
786e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Ref1->getPointeeTypeAsWritten(),
787e5dd7070Spatrick Ref2->getPointeeTypeAsWritten()))
788e5dd7070Spatrick return false;
789e5dd7070Spatrick break;
790e5dd7070Spatrick }
791e5dd7070Spatrick
792e5dd7070Spatrick case Type::MemberPointer: {
793e5dd7070Spatrick const auto *MemPtr1 = cast<MemberPointerType>(T1);
794e5dd7070Spatrick const auto *MemPtr2 = cast<MemberPointerType>(T2);
795e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, MemPtr1->getPointeeType(),
796e5dd7070Spatrick MemPtr2->getPointeeType()))
797e5dd7070Spatrick return false;
798e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, QualType(MemPtr1->getClass(), 0),
799e5dd7070Spatrick QualType(MemPtr2->getClass(), 0)))
800e5dd7070Spatrick return false;
801e5dd7070Spatrick break;
802e5dd7070Spatrick }
803e5dd7070Spatrick
804e5dd7070Spatrick case Type::ConstantArray: {
805e5dd7070Spatrick const auto *Array1 = cast<ConstantArrayType>(T1);
806e5dd7070Spatrick const auto *Array2 = cast<ConstantArrayType>(T2);
807e5dd7070Spatrick if (!llvm::APInt::isSameValue(Array1->getSize(), Array2->getSize()))
808e5dd7070Spatrick return false;
809e5dd7070Spatrick
810e5dd7070Spatrick if (!IsArrayStructurallyEquivalent(Context, Array1, Array2))
811e5dd7070Spatrick return false;
812e5dd7070Spatrick break;
813e5dd7070Spatrick }
814e5dd7070Spatrick
815e5dd7070Spatrick case Type::IncompleteArray:
816e5dd7070Spatrick if (!IsArrayStructurallyEquivalent(Context, cast<ArrayType>(T1),
817e5dd7070Spatrick cast<ArrayType>(T2)))
818e5dd7070Spatrick return false;
819e5dd7070Spatrick break;
820e5dd7070Spatrick
821e5dd7070Spatrick case Type::VariableArray: {
822e5dd7070Spatrick const auto *Array1 = cast<VariableArrayType>(T1);
823e5dd7070Spatrick const auto *Array2 = cast<VariableArrayType>(T2);
824e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Array1->getSizeExpr(),
825e5dd7070Spatrick Array2->getSizeExpr()))
826e5dd7070Spatrick return false;
827e5dd7070Spatrick
828e5dd7070Spatrick if (!IsArrayStructurallyEquivalent(Context, Array1, Array2))
829e5dd7070Spatrick return false;
830e5dd7070Spatrick
831e5dd7070Spatrick break;
832e5dd7070Spatrick }
833e5dd7070Spatrick
834e5dd7070Spatrick case Type::DependentSizedArray: {
835e5dd7070Spatrick const auto *Array1 = cast<DependentSizedArrayType>(T1);
836e5dd7070Spatrick const auto *Array2 = cast<DependentSizedArrayType>(T2);
837e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Array1->getSizeExpr(),
838e5dd7070Spatrick Array2->getSizeExpr()))
839e5dd7070Spatrick return false;
840e5dd7070Spatrick
841e5dd7070Spatrick if (!IsArrayStructurallyEquivalent(Context, Array1, Array2))
842e5dd7070Spatrick return false;
843e5dd7070Spatrick
844e5dd7070Spatrick break;
845e5dd7070Spatrick }
846e5dd7070Spatrick
847e5dd7070Spatrick case Type::DependentAddressSpace: {
848e5dd7070Spatrick const auto *DepAddressSpace1 = cast<DependentAddressSpaceType>(T1);
849e5dd7070Spatrick const auto *DepAddressSpace2 = cast<DependentAddressSpaceType>(T2);
850e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, DepAddressSpace1->getAddrSpaceExpr(),
851e5dd7070Spatrick DepAddressSpace2->getAddrSpaceExpr()))
852e5dd7070Spatrick return false;
853e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, DepAddressSpace1->getPointeeType(),
854e5dd7070Spatrick DepAddressSpace2->getPointeeType()))
855e5dd7070Spatrick return false;
856e5dd7070Spatrick
857e5dd7070Spatrick break;
858e5dd7070Spatrick }
859e5dd7070Spatrick
860e5dd7070Spatrick case Type::DependentSizedExtVector: {
861e5dd7070Spatrick const auto *Vec1 = cast<DependentSizedExtVectorType>(T1);
862e5dd7070Spatrick const auto *Vec2 = cast<DependentSizedExtVectorType>(T2);
863e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Vec1->getSizeExpr(),
864e5dd7070Spatrick Vec2->getSizeExpr()))
865e5dd7070Spatrick return false;
866e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Vec1->getElementType(),
867e5dd7070Spatrick Vec2->getElementType()))
868e5dd7070Spatrick return false;
869e5dd7070Spatrick break;
870e5dd7070Spatrick }
871e5dd7070Spatrick
872e5dd7070Spatrick case Type::DependentVector: {
873e5dd7070Spatrick const auto *Vec1 = cast<DependentVectorType>(T1);
874e5dd7070Spatrick const auto *Vec2 = cast<DependentVectorType>(T2);
875e5dd7070Spatrick if (Vec1->getVectorKind() != Vec2->getVectorKind())
876e5dd7070Spatrick return false;
877e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Vec1->getSizeExpr(),
878e5dd7070Spatrick Vec2->getSizeExpr()))
879e5dd7070Spatrick return false;
880e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Vec1->getElementType(),
881e5dd7070Spatrick Vec2->getElementType()))
882e5dd7070Spatrick return false;
883e5dd7070Spatrick break;
884e5dd7070Spatrick }
885e5dd7070Spatrick
886e5dd7070Spatrick case Type::Vector:
887e5dd7070Spatrick case Type::ExtVector: {
888e5dd7070Spatrick const auto *Vec1 = cast<VectorType>(T1);
889e5dd7070Spatrick const auto *Vec2 = cast<VectorType>(T2);
890e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Vec1->getElementType(),
891e5dd7070Spatrick Vec2->getElementType()))
892e5dd7070Spatrick return false;
893e5dd7070Spatrick if (Vec1->getNumElements() != Vec2->getNumElements())
894e5dd7070Spatrick return false;
895e5dd7070Spatrick if (Vec1->getVectorKind() != Vec2->getVectorKind())
896e5dd7070Spatrick return false;
897e5dd7070Spatrick break;
898e5dd7070Spatrick }
899e5dd7070Spatrick
900ec727ea7Spatrick case Type::DependentSizedMatrix: {
901ec727ea7Spatrick const DependentSizedMatrixType *Mat1 = cast<DependentSizedMatrixType>(T1);
902ec727ea7Spatrick const DependentSizedMatrixType *Mat2 = cast<DependentSizedMatrixType>(T2);
903ec727ea7Spatrick // The element types, row and column expressions must be structurally
904ec727ea7Spatrick // equivalent.
905ec727ea7Spatrick if (!IsStructurallyEquivalent(Context, Mat1->getRowExpr(),
906ec727ea7Spatrick Mat2->getRowExpr()) ||
907ec727ea7Spatrick !IsStructurallyEquivalent(Context, Mat1->getColumnExpr(),
908ec727ea7Spatrick Mat2->getColumnExpr()) ||
909ec727ea7Spatrick !IsStructurallyEquivalent(Context, Mat1->getElementType(),
910ec727ea7Spatrick Mat2->getElementType()))
911ec727ea7Spatrick return false;
912ec727ea7Spatrick break;
913ec727ea7Spatrick }
914ec727ea7Spatrick
915ec727ea7Spatrick case Type::ConstantMatrix: {
916ec727ea7Spatrick const ConstantMatrixType *Mat1 = cast<ConstantMatrixType>(T1);
917ec727ea7Spatrick const ConstantMatrixType *Mat2 = cast<ConstantMatrixType>(T2);
918ec727ea7Spatrick // The element types must be structurally equivalent and the number of rows
919ec727ea7Spatrick // and columns must match.
920ec727ea7Spatrick if (!IsStructurallyEquivalent(Context, Mat1->getElementType(),
921ec727ea7Spatrick Mat2->getElementType()) ||
922ec727ea7Spatrick Mat1->getNumRows() != Mat2->getNumRows() ||
923ec727ea7Spatrick Mat1->getNumColumns() != Mat2->getNumColumns())
924ec727ea7Spatrick return false;
925ec727ea7Spatrick break;
926ec727ea7Spatrick }
927ec727ea7Spatrick
928e5dd7070Spatrick case Type::FunctionProto: {
929e5dd7070Spatrick const auto *Proto1 = cast<FunctionProtoType>(T1);
930e5dd7070Spatrick const auto *Proto2 = cast<FunctionProtoType>(T2);
931e5dd7070Spatrick
932e5dd7070Spatrick if (Proto1->getNumParams() != Proto2->getNumParams())
933e5dd7070Spatrick return false;
934e5dd7070Spatrick for (unsigned I = 0, N = Proto1->getNumParams(); I != N; ++I) {
935e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Proto1->getParamType(I),
936e5dd7070Spatrick Proto2->getParamType(I)))
937e5dd7070Spatrick return false;
938e5dd7070Spatrick }
939e5dd7070Spatrick if (Proto1->isVariadic() != Proto2->isVariadic())
940e5dd7070Spatrick return false;
941e5dd7070Spatrick
942e5dd7070Spatrick if (Proto1->getMethodQuals() != Proto2->getMethodQuals())
943e5dd7070Spatrick return false;
944e5dd7070Spatrick
945e5dd7070Spatrick // Check exceptions, this information is lost in canonical type.
946e5dd7070Spatrick const auto *OrigProto1 =
947e5dd7070Spatrick cast<FunctionProtoType>(OrigT1.getDesugaredType(Context.FromCtx));
948e5dd7070Spatrick const auto *OrigProto2 =
949e5dd7070Spatrick cast<FunctionProtoType>(OrigT2.getDesugaredType(Context.ToCtx));
950e5dd7070Spatrick if (!IsEquivalentExceptionSpec(Context, OrigProto1, OrigProto2))
951e5dd7070Spatrick return false;
952e5dd7070Spatrick
953e5dd7070Spatrick // Fall through to check the bits common with FunctionNoProtoType.
954*12c85518Srobert [[fallthrough]];
955e5dd7070Spatrick }
956e5dd7070Spatrick
957e5dd7070Spatrick case Type::FunctionNoProto: {
958e5dd7070Spatrick const auto *Function1 = cast<FunctionType>(T1);
959e5dd7070Spatrick const auto *Function2 = cast<FunctionType>(T2);
960e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Function1->getReturnType(),
961e5dd7070Spatrick Function2->getReturnType()))
962e5dd7070Spatrick return false;
963e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Function1->getExtInfo(),
964e5dd7070Spatrick Function2->getExtInfo()))
965e5dd7070Spatrick return false;
966e5dd7070Spatrick break;
967e5dd7070Spatrick }
968e5dd7070Spatrick
969e5dd7070Spatrick case Type::UnresolvedUsing:
970e5dd7070Spatrick if (!IsStructurallyEquivalent(Context,
971e5dd7070Spatrick cast<UnresolvedUsingType>(T1)->getDecl(),
972e5dd7070Spatrick cast<UnresolvedUsingType>(T2)->getDecl()))
973e5dd7070Spatrick return false;
974e5dd7070Spatrick break;
975e5dd7070Spatrick
976e5dd7070Spatrick case Type::Attributed:
977e5dd7070Spatrick if (!IsStructurallyEquivalent(Context,
978e5dd7070Spatrick cast<AttributedType>(T1)->getModifiedType(),
979e5dd7070Spatrick cast<AttributedType>(T2)->getModifiedType()))
980e5dd7070Spatrick return false;
981e5dd7070Spatrick if (!IsStructurallyEquivalent(
982e5dd7070Spatrick Context, cast<AttributedType>(T1)->getEquivalentType(),
983e5dd7070Spatrick cast<AttributedType>(T2)->getEquivalentType()))
984e5dd7070Spatrick return false;
985e5dd7070Spatrick break;
986e5dd7070Spatrick
987*12c85518Srobert case Type::BTFTagAttributed:
988*12c85518Srobert if (!IsStructurallyEquivalent(
989*12c85518Srobert Context, cast<BTFTagAttributedType>(T1)->getWrappedType(),
990*12c85518Srobert cast<BTFTagAttributedType>(T2)->getWrappedType()))
991*12c85518Srobert return false;
992*12c85518Srobert break;
993*12c85518Srobert
994e5dd7070Spatrick case Type::Paren:
995e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, cast<ParenType>(T1)->getInnerType(),
996e5dd7070Spatrick cast<ParenType>(T2)->getInnerType()))
997e5dd7070Spatrick return false;
998e5dd7070Spatrick break;
999e5dd7070Spatrick
1000e5dd7070Spatrick case Type::MacroQualified:
1001e5dd7070Spatrick if (!IsStructurallyEquivalent(
1002e5dd7070Spatrick Context, cast<MacroQualifiedType>(T1)->getUnderlyingType(),
1003e5dd7070Spatrick cast<MacroQualifiedType>(T2)->getUnderlyingType()))
1004e5dd7070Spatrick return false;
1005e5dd7070Spatrick break;
1006e5dd7070Spatrick
1007*12c85518Srobert case Type::Using:
1008*12c85518Srobert if (!IsStructurallyEquivalent(Context, cast<UsingType>(T1)->getFoundDecl(),
1009*12c85518Srobert cast<UsingType>(T2)->getFoundDecl()))
1010*12c85518Srobert return false;
1011*12c85518Srobert if (!IsStructurallyEquivalent(Context,
1012*12c85518Srobert cast<UsingType>(T1)->getUnderlyingType(),
1013*12c85518Srobert cast<UsingType>(T2)->getUnderlyingType()))
1014*12c85518Srobert return false;
1015*12c85518Srobert break;
1016*12c85518Srobert
1017e5dd7070Spatrick case Type::Typedef:
1018e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, cast<TypedefType>(T1)->getDecl(),
1019*12c85518Srobert cast<TypedefType>(T2)->getDecl()) ||
1020*12c85518Srobert !IsStructurallyEquivalent(Context, cast<TypedefType>(T1)->desugar(),
1021*12c85518Srobert cast<TypedefType>(T2)->desugar()))
1022e5dd7070Spatrick return false;
1023e5dd7070Spatrick break;
1024e5dd7070Spatrick
1025e5dd7070Spatrick case Type::TypeOfExpr:
1026e5dd7070Spatrick if (!IsStructurallyEquivalent(
1027e5dd7070Spatrick Context, cast<TypeOfExprType>(T1)->getUnderlyingExpr(),
1028e5dd7070Spatrick cast<TypeOfExprType>(T2)->getUnderlyingExpr()))
1029e5dd7070Spatrick return false;
1030e5dd7070Spatrick break;
1031e5dd7070Spatrick
1032e5dd7070Spatrick case Type::TypeOf:
1033e5dd7070Spatrick if (!IsStructurallyEquivalent(Context,
1034*12c85518Srobert cast<TypeOfType>(T1)->getUnmodifiedType(),
1035*12c85518Srobert cast<TypeOfType>(T2)->getUnmodifiedType()))
1036e5dd7070Spatrick return false;
1037e5dd7070Spatrick break;
1038e5dd7070Spatrick
1039e5dd7070Spatrick case Type::UnaryTransform:
1040e5dd7070Spatrick if (!IsStructurallyEquivalent(
1041e5dd7070Spatrick Context, cast<UnaryTransformType>(T1)->getUnderlyingType(),
1042e5dd7070Spatrick cast<UnaryTransformType>(T2)->getUnderlyingType()))
1043e5dd7070Spatrick return false;
1044e5dd7070Spatrick break;
1045e5dd7070Spatrick
1046e5dd7070Spatrick case Type::Decltype:
1047e5dd7070Spatrick if (!IsStructurallyEquivalent(Context,
1048e5dd7070Spatrick cast<DecltypeType>(T1)->getUnderlyingExpr(),
1049e5dd7070Spatrick cast<DecltypeType>(T2)->getUnderlyingExpr()))
1050e5dd7070Spatrick return false;
1051e5dd7070Spatrick break;
1052e5dd7070Spatrick
1053e5dd7070Spatrick case Type::Auto: {
1054e5dd7070Spatrick auto *Auto1 = cast<AutoType>(T1);
1055e5dd7070Spatrick auto *Auto2 = cast<AutoType>(T2);
1056e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Auto1->getDeducedType(),
1057e5dd7070Spatrick Auto2->getDeducedType()))
1058e5dd7070Spatrick return false;
1059e5dd7070Spatrick if (Auto1->isConstrained() != Auto2->isConstrained())
1060e5dd7070Spatrick return false;
1061e5dd7070Spatrick if (Auto1->isConstrained()) {
1062e5dd7070Spatrick if (Auto1->getTypeConstraintConcept() !=
1063e5dd7070Spatrick Auto2->getTypeConstraintConcept())
1064e5dd7070Spatrick return false;
1065*12c85518Srobert if (!IsStructurallyEquivalent(Context,
1066*12c85518Srobert Auto1->getTypeConstraintArguments(),
1067*12c85518Srobert Auto2->getTypeConstraintArguments()))
1068e5dd7070Spatrick return false;
1069e5dd7070Spatrick }
1070e5dd7070Spatrick break;
1071e5dd7070Spatrick }
1072e5dd7070Spatrick
1073e5dd7070Spatrick case Type::DeducedTemplateSpecialization: {
1074e5dd7070Spatrick const auto *DT1 = cast<DeducedTemplateSpecializationType>(T1);
1075e5dd7070Spatrick const auto *DT2 = cast<DeducedTemplateSpecializationType>(T2);
1076e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, DT1->getTemplateName(),
1077e5dd7070Spatrick DT2->getTemplateName()))
1078e5dd7070Spatrick return false;
1079e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, DT1->getDeducedType(),
1080e5dd7070Spatrick DT2->getDeducedType()))
1081e5dd7070Spatrick return false;
1082e5dd7070Spatrick break;
1083e5dd7070Spatrick }
1084e5dd7070Spatrick
1085e5dd7070Spatrick case Type::Record:
1086e5dd7070Spatrick case Type::Enum:
1087e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, cast<TagType>(T1)->getDecl(),
1088e5dd7070Spatrick cast<TagType>(T2)->getDecl()))
1089e5dd7070Spatrick return false;
1090e5dd7070Spatrick break;
1091e5dd7070Spatrick
1092e5dd7070Spatrick case Type::TemplateTypeParm: {
1093e5dd7070Spatrick const auto *Parm1 = cast<TemplateTypeParmType>(T1);
1094e5dd7070Spatrick const auto *Parm2 = cast<TemplateTypeParmType>(T2);
1095e5dd7070Spatrick if (Parm1->getDepth() != Parm2->getDepth())
1096e5dd7070Spatrick return false;
1097e5dd7070Spatrick if (Parm1->getIndex() != Parm2->getIndex())
1098e5dd7070Spatrick return false;
1099e5dd7070Spatrick if (Parm1->isParameterPack() != Parm2->isParameterPack())
1100e5dd7070Spatrick return false;
1101e5dd7070Spatrick
1102e5dd7070Spatrick // Names of template type parameters are never significant.
1103e5dd7070Spatrick break;
1104e5dd7070Spatrick }
1105e5dd7070Spatrick
1106e5dd7070Spatrick case Type::SubstTemplateTypeParm: {
1107e5dd7070Spatrick const auto *Subst1 = cast<SubstTemplateTypeParmType>(T1);
1108e5dd7070Spatrick const auto *Subst2 = cast<SubstTemplateTypeParmType>(T2);
1109e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Subst1->getReplacementType(),
1110e5dd7070Spatrick Subst2->getReplacementType()))
1111e5dd7070Spatrick return false;
1112*12c85518Srobert if (!IsStructurallyEquivalent(Context, Subst1->getAssociatedDecl(),
1113*12c85518Srobert Subst2->getAssociatedDecl()))
1114*12c85518Srobert return false;
1115*12c85518Srobert if (Subst1->getIndex() != Subst2->getIndex())
1116*12c85518Srobert return false;
1117*12c85518Srobert if (Subst1->getPackIndex() != Subst2->getPackIndex())
1118*12c85518Srobert return false;
1119e5dd7070Spatrick break;
1120e5dd7070Spatrick }
1121e5dd7070Spatrick
1122e5dd7070Spatrick case Type::SubstTemplateTypeParmPack: {
1123e5dd7070Spatrick const auto *Subst1 = cast<SubstTemplateTypeParmPackType>(T1);
1124e5dd7070Spatrick const auto *Subst2 = cast<SubstTemplateTypeParmPackType>(T2);
1125*12c85518Srobert if (!IsStructurallyEquivalent(Context, Subst1->getAssociatedDecl(),
1126*12c85518Srobert Subst2->getAssociatedDecl()))
1127*12c85518Srobert return false;
1128*12c85518Srobert if (Subst1->getIndex() != Subst2->getIndex())
1129e5dd7070Spatrick return false;
1130e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Subst1->getArgumentPack(),
1131e5dd7070Spatrick Subst2->getArgumentPack()))
1132e5dd7070Spatrick return false;
1133e5dd7070Spatrick break;
1134e5dd7070Spatrick }
1135e5dd7070Spatrick
1136e5dd7070Spatrick case Type::TemplateSpecialization: {
1137e5dd7070Spatrick const auto *Spec1 = cast<TemplateSpecializationType>(T1);
1138e5dd7070Spatrick const auto *Spec2 = cast<TemplateSpecializationType>(T2);
1139e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Spec1->getTemplateName(),
1140e5dd7070Spatrick Spec2->getTemplateName()))
1141e5dd7070Spatrick return false;
1142*12c85518Srobert if (!IsStructurallyEquivalent(Context, Spec1->template_arguments(),
1143*12c85518Srobert Spec2->template_arguments()))
1144e5dd7070Spatrick return false;
1145e5dd7070Spatrick break;
1146e5dd7070Spatrick }
1147e5dd7070Spatrick
1148e5dd7070Spatrick case Type::Elaborated: {
1149e5dd7070Spatrick const auto *Elab1 = cast<ElaboratedType>(T1);
1150e5dd7070Spatrick const auto *Elab2 = cast<ElaboratedType>(T2);
1151e5dd7070Spatrick // CHECKME: what if a keyword is ETK_None or ETK_typename ?
1152e5dd7070Spatrick if (Elab1->getKeyword() != Elab2->getKeyword())
1153e5dd7070Spatrick return false;
1154e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Elab1->getQualifier(),
1155e5dd7070Spatrick Elab2->getQualifier()))
1156e5dd7070Spatrick return false;
1157e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Elab1->getNamedType(),
1158e5dd7070Spatrick Elab2->getNamedType()))
1159e5dd7070Spatrick return false;
1160e5dd7070Spatrick break;
1161e5dd7070Spatrick }
1162e5dd7070Spatrick
1163e5dd7070Spatrick case Type::InjectedClassName: {
1164e5dd7070Spatrick const auto *Inj1 = cast<InjectedClassNameType>(T1);
1165e5dd7070Spatrick const auto *Inj2 = cast<InjectedClassNameType>(T2);
1166e5dd7070Spatrick if (!IsStructurallyEquivalent(Context,
1167e5dd7070Spatrick Inj1->getInjectedSpecializationType(),
1168e5dd7070Spatrick Inj2->getInjectedSpecializationType()))
1169e5dd7070Spatrick return false;
1170e5dd7070Spatrick break;
1171e5dd7070Spatrick }
1172e5dd7070Spatrick
1173e5dd7070Spatrick case Type::DependentName: {
1174e5dd7070Spatrick const auto *Typename1 = cast<DependentNameType>(T1);
1175e5dd7070Spatrick const auto *Typename2 = cast<DependentNameType>(T2);
1176e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Typename1->getQualifier(),
1177e5dd7070Spatrick Typename2->getQualifier()))
1178e5dd7070Spatrick return false;
1179e5dd7070Spatrick if (!IsStructurallyEquivalent(Typename1->getIdentifier(),
1180e5dd7070Spatrick Typename2->getIdentifier()))
1181e5dd7070Spatrick return false;
1182e5dd7070Spatrick
1183e5dd7070Spatrick break;
1184e5dd7070Spatrick }
1185e5dd7070Spatrick
1186e5dd7070Spatrick case Type::DependentTemplateSpecialization: {
1187e5dd7070Spatrick const auto *Spec1 = cast<DependentTemplateSpecializationType>(T1);
1188e5dd7070Spatrick const auto *Spec2 = cast<DependentTemplateSpecializationType>(T2);
1189e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Spec1->getQualifier(),
1190e5dd7070Spatrick Spec2->getQualifier()))
1191e5dd7070Spatrick return false;
1192e5dd7070Spatrick if (!IsStructurallyEquivalent(Spec1->getIdentifier(),
1193e5dd7070Spatrick Spec2->getIdentifier()))
1194e5dd7070Spatrick return false;
1195*12c85518Srobert if (!IsStructurallyEquivalent(Context, Spec1->template_arguments(),
1196*12c85518Srobert Spec2->template_arguments()))
1197e5dd7070Spatrick return false;
1198e5dd7070Spatrick break;
1199e5dd7070Spatrick }
1200e5dd7070Spatrick
1201e5dd7070Spatrick case Type::PackExpansion:
1202e5dd7070Spatrick if (!IsStructurallyEquivalent(Context,
1203e5dd7070Spatrick cast<PackExpansionType>(T1)->getPattern(),
1204e5dd7070Spatrick cast<PackExpansionType>(T2)->getPattern()))
1205e5dd7070Spatrick return false;
1206e5dd7070Spatrick break;
1207e5dd7070Spatrick
1208e5dd7070Spatrick case Type::ObjCInterface: {
1209e5dd7070Spatrick const auto *Iface1 = cast<ObjCInterfaceType>(T1);
1210e5dd7070Spatrick const auto *Iface2 = cast<ObjCInterfaceType>(T2);
1211e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Iface1->getDecl(),
1212e5dd7070Spatrick Iface2->getDecl()))
1213e5dd7070Spatrick return false;
1214e5dd7070Spatrick break;
1215e5dd7070Spatrick }
1216e5dd7070Spatrick
1217e5dd7070Spatrick case Type::ObjCTypeParam: {
1218e5dd7070Spatrick const auto *Obj1 = cast<ObjCTypeParamType>(T1);
1219e5dd7070Spatrick const auto *Obj2 = cast<ObjCTypeParamType>(T2);
1220e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Obj1->getDecl(), Obj2->getDecl()))
1221e5dd7070Spatrick return false;
1222e5dd7070Spatrick
1223e5dd7070Spatrick if (Obj1->getNumProtocols() != Obj2->getNumProtocols())
1224e5dd7070Spatrick return false;
1225e5dd7070Spatrick for (unsigned I = 0, N = Obj1->getNumProtocols(); I != N; ++I) {
1226e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Obj1->getProtocol(I),
1227e5dd7070Spatrick Obj2->getProtocol(I)))
1228e5dd7070Spatrick return false;
1229e5dd7070Spatrick }
1230e5dd7070Spatrick break;
1231e5dd7070Spatrick }
1232e5dd7070Spatrick
1233e5dd7070Spatrick case Type::ObjCObject: {
1234e5dd7070Spatrick const auto *Obj1 = cast<ObjCObjectType>(T1);
1235e5dd7070Spatrick const auto *Obj2 = cast<ObjCObjectType>(T2);
1236e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Obj1->getBaseType(),
1237e5dd7070Spatrick Obj2->getBaseType()))
1238e5dd7070Spatrick return false;
1239e5dd7070Spatrick if (Obj1->getNumProtocols() != Obj2->getNumProtocols())
1240e5dd7070Spatrick return false;
1241e5dd7070Spatrick for (unsigned I = 0, N = Obj1->getNumProtocols(); I != N; ++I) {
1242e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Obj1->getProtocol(I),
1243e5dd7070Spatrick Obj2->getProtocol(I)))
1244e5dd7070Spatrick return false;
1245e5dd7070Spatrick }
1246e5dd7070Spatrick break;
1247e5dd7070Spatrick }
1248e5dd7070Spatrick
1249e5dd7070Spatrick case Type::ObjCObjectPointer: {
1250e5dd7070Spatrick const auto *Ptr1 = cast<ObjCObjectPointerType>(T1);
1251e5dd7070Spatrick const auto *Ptr2 = cast<ObjCObjectPointerType>(T2);
1252e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Ptr1->getPointeeType(),
1253e5dd7070Spatrick Ptr2->getPointeeType()))
1254e5dd7070Spatrick return false;
1255e5dd7070Spatrick break;
1256e5dd7070Spatrick }
1257e5dd7070Spatrick
1258e5dd7070Spatrick case Type::Atomic:
1259e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, cast<AtomicType>(T1)->getValueType(),
1260e5dd7070Spatrick cast<AtomicType>(T2)->getValueType()))
1261e5dd7070Spatrick return false;
1262e5dd7070Spatrick break;
1263e5dd7070Spatrick
1264e5dd7070Spatrick case Type::Pipe:
1265e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, cast<PipeType>(T1)->getElementType(),
1266e5dd7070Spatrick cast<PipeType>(T2)->getElementType()))
1267e5dd7070Spatrick return false;
1268e5dd7070Spatrick break;
1269*12c85518Srobert case Type::BitInt: {
1270*12c85518Srobert const auto *Int1 = cast<BitIntType>(T1);
1271*12c85518Srobert const auto *Int2 = cast<BitIntType>(T2);
1272ec727ea7Spatrick
1273ec727ea7Spatrick if (Int1->isUnsigned() != Int2->isUnsigned() ||
1274ec727ea7Spatrick Int1->getNumBits() != Int2->getNumBits())
1275ec727ea7Spatrick return false;
1276ec727ea7Spatrick break;
1277ec727ea7Spatrick }
1278*12c85518Srobert case Type::DependentBitInt: {
1279*12c85518Srobert const auto *Int1 = cast<DependentBitIntType>(T1);
1280*12c85518Srobert const auto *Int2 = cast<DependentBitIntType>(T2);
1281ec727ea7Spatrick
1282ec727ea7Spatrick if (Int1->isUnsigned() != Int2->isUnsigned() ||
1283ec727ea7Spatrick !IsStructurallyEquivalent(Context, Int1->getNumBitsExpr(),
1284ec727ea7Spatrick Int2->getNumBitsExpr()))
1285ec727ea7Spatrick return false;
1286*12c85518Srobert break;
1287ec727ea7Spatrick }
1288e5dd7070Spatrick } // end switch
1289e5dd7070Spatrick
1290e5dd7070Spatrick return true;
1291e5dd7070Spatrick }
1292e5dd7070Spatrick
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,FieldDecl * Field1,FieldDecl * Field2,QualType Owner2Type)1293e5dd7070Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
1294*12c85518Srobert FieldDecl *Field1, FieldDecl *Field2,
1295*12c85518Srobert QualType Owner2Type) {
1296*12c85518Srobert const auto *Owner2 = cast<Decl>(Field2->getDeclContext());
1297e5dd7070Spatrick
1298e5dd7070Spatrick // For anonymous structs/unions, match up the anonymous struct/union type
1299e5dd7070Spatrick // declarations directly, so that we don't go off searching for anonymous
1300e5dd7070Spatrick // types
1301e5dd7070Spatrick if (Field1->isAnonymousStructOrUnion() &&
1302e5dd7070Spatrick Field2->isAnonymousStructOrUnion()) {
1303e5dd7070Spatrick RecordDecl *D1 = Field1->getType()->castAs<RecordType>()->getDecl();
1304e5dd7070Spatrick RecordDecl *D2 = Field2->getType()->castAs<RecordType>()->getDecl();
1305e5dd7070Spatrick return IsStructurallyEquivalent(Context, D1, D2);
1306e5dd7070Spatrick }
1307e5dd7070Spatrick
1308e5dd7070Spatrick // Check for equivalent field names.
1309e5dd7070Spatrick IdentifierInfo *Name1 = Field1->getIdentifier();
1310e5dd7070Spatrick IdentifierInfo *Name2 = Field2->getIdentifier();
1311e5dd7070Spatrick if (!::IsStructurallyEquivalent(Name1, Name2)) {
1312e5dd7070Spatrick if (Context.Complain) {
1313e5dd7070Spatrick Context.Diag2(
1314e5dd7070Spatrick Owner2->getLocation(),
1315e5dd7070Spatrick Context.getApplicableDiagnostic(diag::err_odr_tag_type_inconsistent))
1316*12c85518Srobert << Owner2Type;
1317e5dd7070Spatrick Context.Diag2(Field2->getLocation(), diag::note_odr_field_name)
1318e5dd7070Spatrick << Field2->getDeclName();
1319e5dd7070Spatrick Context.Diag1(Field1->getLocation(), diag::note_odr_field_name)
1320e5dd7070Spatrick << Field1->getDeclName();
1321e5dd7070Spatrick }
1322e5dd7070Spatrick return false;
1323e5dd7070Spatrick }
1324e5dd7070Spatrick
1325e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Field1->getType(),
1326e5dd7070Spatrick Field2->getType())) {
1327e5dd7070Spatrick if (Context.Complain) {
1328e5dd7070Spatrick Context.Diag2(
1329e5dd7070Spatrick Owner2->getLocation(),
1330e5dd7070Spatrick Context.getApplicableDiagnostic(diag::err_odr_tag_type_inconsistent))
1331*12c85518Srobert << Owner2Type;
1332e5dd7070Spatrick Context.Diag2(Field2->getLocation(), diag::note_odr_field)
1333e5dd7070Spatrick << Field2->getDeclName() << Field2->getType();
1334e5dd7070Spatrick Context.Diag1(Field1->getLocation(), diag::note_odr_field)
1335e5dd7070Spatrick << Field1->getDeclName() << Field1->getType();
1336e5dd7070Spatrick }
1337e5dd7070Spatrick return false;
1338e5dd7070Spatrick }
1339e5dd7070Spatrick
1340a9ac8606Spatrick if (Field1->isBitField())
1341a9ac8606Spatrick return IsStructurallyEquivalent(Context, Field1->getBitWidth(),
1342a9ac8606Spatrick Field2->getBitWidth());
1343e5dd7070Spatrick
1344e5dd7070Spatrick return true;
1345e5dd7070Spatrick }
1346e5dd7070Spatrick
1347*12c85518Srobert /// Determine structural equivalence of two fields.
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,FieldDecl * Field1,FieldDecl * Field2)1348*12c85518Srobert static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
1349*12c85518Srobert FieldDecl *Field1, FieldDecl *Field2) {
1350*12c85518Srobert const auto *Owner2 = cast<RecordDecl>(Field2->getDeclContext());
1351*12c85518Srobert return IsStructurallyEquivalent(Context, Field1, Field2,
1352*12c85518Srobert Context.ToCtx.getTypeDeclType(Owner2));
1353*12c85518Srobert }
1354*12c85518Srobert
1355e5dd7070Spatrick /// Determine structural equivalence of two methods.
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,CXXMethodDecl * Method1,CXXMethodDecl * Method2)1356e5dd7070Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
1357e5dd7070Spatrick CXXMethodDecl *Method1,
1358e5dd7070Spatrick CXXMethodDecl *Method2) {
1359e5dd7070Spatrick bool PropertiesEqual =
1360e5dd7070Spatrick Method1->getDeclKind() == Method2->getDeclKind() &&
1361e5dd7070Spatrick Method1->getRefQualifier() == Method2->getRefQualifier() &&
1362e5dd7070Spatrick Method1->getAccess() == Method2->getAccess() &&
1363e5dd7070Spatrick Method1->getOverloadedOperator() == Method2->getOverloadedOperator() &&
1364e5dd7070Spatrick Method1->isStatic() == Method2->isStatic() &&
1365e5dd7070Spatrick Method1->isConst() == Method2->isConst() &&
1366e5dd7070Spatrick Method1->isVolatile() == Method2->isVolatile() &&
1367e5dd7070Spatrick Method1->isVirtual() == Method2->isVirtual() &&
1368e5dd7070Spatrick Method1->isPure() == Method2->isPure() &&
1369e5dd7070Spatrick Method1->isDefaulted() == Method2->isDefaulted() &&
1370e5dd7070Spatrick Method1->isDeleted() == Method2->isDeleted();
1371e5dd7070Spatrick if (!PropertiesEqual)
1372e5dd7070Spatrick return false;
1373e5dd7070Spatrick // FIXME: Check for 'final'.
1374e5dd7070Spatrick
1375e5dd7070Spatrick if (auto *Constructor1 = dyn_cast<CXXConstructorDecl>(Method1)) {
1376e5dd7070Spatrick auto *Constructor2 = cast<CXXConstructorDecl>(Method2);
1377e5dd7070Spatrick if (!Constructor1->getExplicitSpecifier().isEquivalent(
1378e5dd7070Spatrick Constructor2->getExplicitSpecifier()))
1379e5dd7070Spatrick return false;
1380e5dd7070Spatrick }
1381e5dd7070Spatrick
1382e5dd7070Spatrick if (auto *Conversion1 = dyn_cast<CXXConversionDecl>(Method1)) {
1383e5dd7070Spatrick auto *Conversion2 = cast<CXXConversionDecl>(Method2);
1384e5dd7070Spatrick if (!Conversion1->getExplicitSpecifier().isEquivalent(
1385e5dd7070Spatrick Conversion2->getExplicitSpecifier()))
1386e5dd7070Spatrick return false;
1387e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Conversion1->getConversionType(),
1388e5dd7070Spatrick Conversion2->getConversionType()))
1389e5dd7070Spatrick return false;
1390e5dd7070Spatrick }
1391e5dd7070Spatrick
1392e5dd7070Spatrick const IdentifierInfo *Name1 = Method1->getIdentifier();
1393e5dd7070Spatrick const IdentifierInfo *Name2 = Method2->getIdentifier();
1394e5dd7070Spatrick if (!::IsStructurallyEquivalent(Name1, Name2)) {
1395e5dd7070Spatrick return false;
1396e5dd7070Spatrick // TODO: Names do not match, add warning like at check for FieldDecl.
1397e5dd7070Spatrick }
1398e5dd7070Spatrick
1399e5dd7070Spatrick // Check the prototypes.
1400e5dd7070Spatrick if (!::IsStructurallyEquivalent(Context,
1401e5dd7070Spatrick Method1->getType(), Method2->getType()))
1402e5dd7070Spatrick return false;
1403e5dd7070Spatrick
1404e5dd7070Spatrick return true;
1405e5dd7070Spatrick }
1406e5dd7070Spatrick
1407e5dd7070Spatrick /// Determine structural equivalence of two lambda classes.
1408e5dd7070Spatrick static bool
IsStructurallyEquivalentLambdas(StructuralEquivalenceContext & Context,CXXRecordDecl * D1,CXXRecordDecl * D2)1409e5dd7070Spatrick IsStructurallyEquivalentLambdas(StructuralEquivalenceContext &Context,
1410e5dd7070Spatrick CXXRecordDecl *D1, CXXRecordDecl *D2) {
1411e5dd7070Spatrick assert(D1->isLambda() && D2->isLambda() &&
1412e5dd7070Spatrick "Must be called on lambda classes");
1413e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, D1->getLambdaCallOperator(),
1414e5dd7070Spatrick D2->getLambdaCallOperator()))
1415e5dd7070Spatrick return false;
1416e5dd7070Spatrick
1417e5dd7070Spatrick return true;
1418e5dd7070Spatrick }
1419e5dd7070Spatrick
1420*12c85518Srobert /// Determine if context of a class is equivalent.
IsRecordContextStructurallyEquivalent(RecordDecl * D1,RecordDecl * D2)1421*12c85518Srobert static bool IsRecordContextStructurallyEquivalent(RecordDecl *D1,
1422*12c85518Srobert RecordDecl *D2) {
1423*12c85518Srobert // The context should be completely equal, including anonymous and inline
1424*12c85518Srobert // namespaces.
1425*12c85518Srobert // We compare objects as part of full translation units, not subtrees of
1426*12c85518Srobert // translation units.
1427*12c85518Srobert DeclContext *DC1 = D1->getDeclContext()->getNonTransparentContext();
1428*12c85518Srobert DeclContext *DC2 = D2->getDeclContext()->getNonTransparentContext();
1429*12c85518Srobert while (true) {
1430*12c85518Srobert // Special case: We allow a struct defined in a function to be equivalent
1431*12c85518Srobert // with a similar struct defined outside of a function.
1432*12c85518Srobert if ((DC1->isFunctionOrMethod() && DC2->isTranslationUnit()) ||
1433*12c85518Srobert (DC2->isFunctionOrMethod() && DC1->isTranslationUnit()))
1434*12c85518Srobert return true;
1435*12c85518Srobert
1436*12c85518Srobert if (DC1->getDeclKind() != DC2->getDeclKind())
1437*12c85518Srobert return false;
1438*12c85518Srobert if (DC1->isTranslationUnit())
1439*12c85518Srobert break;
1440*12c85518Srobert if (DC1->isInlineNamespace() != DC2->isInlineNamespace())
1441*12c85518Srobert return false;
1442*12c85518Srobert if (const auto *ND1 = dyn_cast<NamedDecl>(DC1)) {
1443*12c85518Srobert const auto *ND2 = cast<NamedDecl>(DC2);
1444*12c85518Srobert if (!DC1->isInlineNamespace() &&
1445*12c85518Srobert !IsStructurallyEquivalent(ND1->getIdentifier(), ND2->getIdentifier()))
1446*12c85518Srobert return false;
1447*12c85518Srobert }
1448*12c85518Srobert
1449*12c85518Srobert DC1 = DC1->getParent()->getNonTransparentContext();
1450*12c85518Srobert DC2 = DC2->getParent()->getNonTransparentContext();
1451*12c85518Srobert }
1452*12c85518Srobert
1453*12c85518Srobert return true;
1454*12c85518Srobert }
1455*12c85518Srobert
1456e5dd7070Spatrick /// Determine structural equivalence of two records.
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,RecordDecl * D1,RecordDecl * D2)1457e5dd7070Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
1458e5dd7070Spatrick RecordDecl *D1, RecordDecl *D2) {
1459a9ac8606Spatrick
1460a9ac8606Spatrick // Check for equivalent structure names.
1461a9ac8606Spatrick IdentifierInfo *Name1 = D1->getIdentifier();
1462a9ac8606Spatrick if (!Name1 && D1->getTypedefNameForAnonDecl())
1463a9ac8606Spatrick Name1 = D1->getTypedefNameForAnonDecl()->getIdentifier();
1464a9ac8606Spatrick IdentifierInfo *Name2 = D2->getIdentifier();
1465a9ac8606Spatrick if (!Name2 && D2->getTypedefNameForAnonDecl())
1466a9ac8606Spatrick Name2 = D2->getTypedefNameForAnonDecl()->getIdentifier();
1467a9ac8606Spatrick if (!IsStructurallyEquivalent(Name1, Name2))
1468a9ac8606Spatrick return false;
1469a9ac8606Spatrick
1470e5dd7070Spatrick if (D1->isUnion() != D2->isUnion()) {
1471e5dd7070Spatrick if (Context.Complain) {
1472e5dd7070Spatrick Context.Diag2(D2->getLocation(), Context.getApplicableDiagnostic(
1473e5dd7070Spatrick diag::err_odr_tag_type_inconsistent))
1474e5dd7070Spatrick << Context.ToCtx.getTypeDeclType(D2);
1475e5dd7070Spatrick Context.Diag1(D1->getLocation(), diag::note_odr_tag_kind_here)
1476e5dd7070Spatrick << D1->getDeclName() << (unsigned)D1->getTagKind();
1477e5dd7070Spatrick }
1478e5dd7070Spatrick return false;
1479e5dd7070Spatrick }
1480e5dd7070Spatrick
1481e5dd7070Spatrick if (!D1->getDeclName() && !D2->getDeclName()) {
1482e5dd7070Spatrick // If both anonymous structs/unions are in a record context, make sure
1483e5dd7070Spatrick // they occur in the same location in the context records.
1484*12c85518Srobert if (std::optional<unsigned> Index1 =
1485e5dd7070Spatrick StructuralEquivalenceContext::findUntaggedStructOrUnionIndex(D1)) {
1486*12c85518Srobert if (std::optional<unsigned> Index2 =
1487e5dd7070Spatrick StructuralEquivalenceContext::findUntaggedStructOrUnionIndex(
1488e5dd7070Spatrick D2)) {
1489e5dd7070Spatrick if (*Index1 != *Index2)
1490e5dd7070Spatrick return false;
1491e5dd7070Spatrick }
1492e5dd7070Spatrick }
1493e5dd7070Spatrick }
1494e5dd7070Spatrick
1495*12c85518Srobert // If the records occur in different context (namespace), these should be
1496*12c85518Srobert // different. This is specially important if the definition of one or both
1497*12c85518Srobert // records is missing.
1498*12c85518Srobert if (!IsRecordContextStructurallyEquivalent(D1, D2))
1499*12c85518Srobert return false;
1500*12c85518Srobert
1501e5dd7070Spatrick // If both declarations are class template specializations, we know
1502e5dd7070Spatrick // the ODR applies, so check the template and template arguments.
1503e5dd7070Spatrick const auto *Spec1 = dyn_cast<ClassTemplateSpecializationDecl>(D1);
1504e5dd7070Spatrick const auto *Spec2 = dyn_cast<ClassTemplateSpecializationDecl>(D2);
1505e5dd7070Spatrick if (Spec1 && Spec2) {
1506e5dd7070Spatrick // Check that the specialized templates are the same.
1507e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Spec1->getSpecializedTemplate(),
1508e5dd7070Spatrick Spec2->getSpecializedTemplate()))
1509e5dd7070Spatrick return false;
1510e5dd7070Spatrick
1511e5dd7070Spatrick // Check that the template arguments are the same.
1512e5dd7070Spatrick if (Spec1->getTemplateArgs().size() != Spec2->getTemplateArgs().size())
1513e5dd7070Spatrick return false;
1514e5dd7070Spatrick
1515e5dd7070Spatrick for (unsigned I = 0, N = Spec1->getTemplateArgs().size(); I != N; ++I)
1516e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Spec1->getTemplateArgs().get(I),
1517e5dd7070Spatrick Spec2->getTemplateArgs().get(I)))
1518e5dd7070Spatrick return false;
1519e5dd7070Spatrick }
1520e5dd7070Spatrick // If one is a class template specialization and the other is not, these
1521e5dd7070Spatrick // structures are different.
1522e5dd7070Spatrick else if (Spec1 || Spec2)
1523e5dd7070Spatrick return false;
1524e5dd7070Spatrick
1525e5dd7070Spatrick // Compare the definitions of these two records. If either or both are
1526e5dd7070Spatrick // incomplete (i.e. it is a forward decl), we assume that they are
1527e5dd7070Spatrick // equivalent.
1528e5dd7070Spatrick D1 = D1->getDefinition();
1529e5dd7070Spatrick D2 = D2->getDefinition();
1530e5dd7070Spatrick if (!D1 || !D2)
1531e5dd7070Spatrick return true;
1532e5dd7070Spatrick
1533e5dd7070Spatrick // If any of the records has external storage and we do a minimal check (or
1534e5dd7070Spatrick // AST import) we assume they are equivalent. (If we didn't have this
1535e5dd7070Spatrick // assumption then `RecordDecl::LoadFieldsFromExternalStorage` could trigger
1536e5dd7070Spatrick // another AST import which in turn would call the structural equivalency
1537e5dd7070Spatrick // check again and finally we'd have an improper result.)
1538e5dd7070Spatrick if (Context.EqKind == StructuralEquivalenceKind::Minimal)
1539e5dd7070Spatrick if (D1->hasExternalLexicalStorage() || D2->hasExternalLexicalStorage())
1540e5dd7070Spatrick return true;
1541e5dd7070Spatrick
1542e5dd7070Spatrick // If one definition is currently being defined, we do not compare for
1543e5dd7070Spatrick // equality and we assume that the decls are equal.
1544e5dd7070Spatrick if (D1->isBeingDefined() || D2->isBeingDefined())
1545e5dd7070Spatrick return true;
1546e5dd7070Spatrick
1547e5dd7070Spatrick if (auto *D1CXX = dyn_cast<CXXRecordDecl>(D1)) {
1548e5dd7070Spatrick if (auto *D2CXX = dyn_cast<CXXRecordDecl>(D2)) {
1549e5dd7070Spatrick if (D1CXX->hasExternalLexicalStorage() &&
1550e5dd7070Spatrick !D1CXX->isCompleteDefinition()) {
1551e5dd7070Spatrick D1CXX->getASTContext().getExternalSource()->CompleteType(D1CXX);
1552e5dd7070Spatrick }
1553e5dd7070Spatrick
1554e5dd7070Spatrick if (D1CXX->isLambda() != D2CXX->isLambda())
1555e5dd7070Spatrick return false;
1556e5dd7070Spatrick if (D1CXX->isLambda()) {
1557e5dd7070Spatrick if (!IsStructurallyEquivalentLambdas(Context, D1CXX, D2CXX))
1558e5dd7070Spatrick return false;
1559e5dd7070Spatrick }
1560e5dd7070Spatrick
1561e5dd7070Spatrick if (D1CXX->getNumBases() != D2CXX->getNumBases()) {
1562e5dd7070Spatrick if (Context.Complain) {
1563e5dd7070Spatrick Context.Diag2(D2->getLocation(),
1564e5dd7070Spatrick Context.getApplicableDiagnostic(
1565e5dd7070Spatrick diag::err_odr_tag_type_inconsistent))
1566e5dd7070Spatrick << Context.ToCtx.getTypeDeclType(D2);
1567e5dd7070Spatrick Context.Diag2(D2->getLocation(), diag::note_odr_number_of_bases)
1568e5dd7070Spatrick << D2CXX->getNumBases();
1569e5dd7070Spatrick Context.Diag1(D1->getLocation(), diag::note_odr_number_of_bases)
1570e5dd7070Spatrick << D1CXX->getNumBases();
1571e5dd7070Spatrick }
1572e5dd7070Spatrick return false;
1573e5dd7070Spatrick }
1574e5dd7070Spatrick
1575e5dd7070Spatrick // Check the base classes.
1576e5dd7070Spatrick for (CXXRecordDecl::base_class_iterator Base1 = D1CXX->bases_begin(),
1577e5dd7070Spatrick BaseEnd1 = D1CXX->bases_end(),
1578e5dd7070Spatrick Base2 = D2CXX->bases_begin();
1579e5dd7070Spatrick Base1 != BaseEnd1; ++Base1, ++Base2) {
1580e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Base1->getType(),
1581e5dd7070Spatrick Base2->getType())) {
1582e5dd7070Spatrick if (Context.Complain) {
1583e5dd7070Spatrick Context.Diag2(D2->getLocation(),
1584e5dd7070Spatrick Context.getApplicableDiagnostic(
1585e5dd7070Spatrick diag::err_odr_tag_type_inconsistent))
1586e5dd7070Spatrick << Context.ToCtx.getTypeDeclType(D2);
1587e5dd7070Spatrick Context.Diag2(Base2->getBeginLoc(), diag::note_odr_base)
1588e5dd7070Spatrick << Base2->getType() << Base2->getSourceRange();
1589e5dd7070Spatrick Context.Diag1(Base1->getBeginLoc(), diag::note_odr_base)
1590e5dd7070Spatrick << Base1->getType() << Base1->getSourceRange();
1591e5dd7070Spatrick }
1592e5dd7070Spatrick return false;
1593e5dd7070Spatrick }
1594e5dd7070Spatrick
1595e5dd7070Spatrick // Check virtual vs. non-virtual inheritance mismatch.
1596e5dd7070Spatrick if (Base1->isVirtual() != Base2->isVirtual()) {
1597e5dd7070Spatrick if (Context.Complain) {
1598e5dd7070Spatrick Context.Diag2(D2->getLocation(),
1599e5dd7070Spatrick Context.getApplicableDiagnostic(
1600e5dd7070Spatrick diag::err_odr_tag_type_inconsistent))
1601e5dd7070Spatrick << Context.ToCtx.getTypeDeclType(D2);
1602e5dd7070Spatrick Context.Diag2(Base2->getBeginLoc(), diag::note_odr_virtual_base)
1603e5dd7070Spatrick << Base2->isVirtual() << Base2->getSourceRange();
1604e5dd7070Spatrick Context.Diag1(Base1->getBeginLoc(), diag::note_odr_base)
1605e5dd7070Spatrick << Base1->isVirtual() << Base1->getSourceRange();
1606e5dd7070Spatrick }
1607e5dd7070Spatrick return false;
1608e5dd7070Spatrick }
1609e5dd7070Spatrick }
1610e5dd7070Spatrick
1611e5dd7070Spatrick // Check the friends for consistency.
1612e5dd7070Spatrick CXXRecordDecl::friend_iterator Friend2 = D2CXX->friend_begin(),
1613e5dd7070Spatrick Friend2End = D2CXX->friend_end();
1614e5dd7070Spatrick for (CXXRecordDecl::friend_iterator Friend1 = D1CXX->friend_begin(),
1615e5dd7070Spatrick Friend1End = D1CXX->friend_end();
1616e5dd7070Spatrick Friend1 != Friend1End; ++Friend1, ++Friend2) {
1617e5dd7070Spatrick if (Friend2 == Friend2End) {
1618e5dd7070Spatrick if (Context.Complain) {
1619e5dd7070Spatrick Context.Diag2(D2->getLocation(),
1620e5dd7070Spatrick Context.getApplicableDiagnostic(
1621e5dd7070Spatrick diag::err_odr_tag_type_inconsistent))
1622e5dd7070Spatrick << Context.ToCtx.getTypeDeclType(D2CXX);
1623e5dd7070Spatrick Context.Diag1((*Friend1)->getFriendLoc(), diag::note_odr_friend);
1624e5dd7070Spatrick Context.Diag2(D2->getLocation(), diag::note_odr_missing_friend);
1625e5dd7070Spatrick }
1626e5dd7070Spatrick return false;
1627e5dd7070Spatrick }
1628e5dd7070Spatrick
1629e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, *Friend1, *Friend2)) {
1630e5dd7070Spatrick if (Context.Complain) {
1631e5dd7070Spatrick Context.Diag2(D2->getLocation(),
1632e5dd7070Spatrick Context.getApplicableDiagnostic(
1633e5dd7070Spatrick diag::err_odr_tag_type_inconsistent))
1634e5dd7070Spatrick << Context.ToCtx.getTypeDeclType(D2CXX);
1635e5dd7070Spatrick Context.Diag1((*Friend1)->getFriendLoc(), diag::note_odr_friend);
1636e5dd7070Spatrick Context.Diag2((*Friend2)->getFriendLoc(), diag::note_odr_friend);
1637e5dd7070Spatrick }
1638e5dd7070Spatrick return false;
1639e5dd7070Spatrick }
1640e5dd7070Spatrick }
1641e5dd7070Spatrick
1642e5dd7070Spatrick if (Friend2 != Friend2End) {
1643e5dd7070Spatrick if (Context.Complain) {
1644e5dd7070Spatrick Context.Diag2(D2->getLocation(),
1645e5dd7070Spatrick Context.getApplicableDiagnostic(
1646e5dd7070Spatrick diag::err_odr_tag_type_inconsistent))
1647e5dd7070Spatrick << Context.ToCtx.getTypeDeclType(D2);
1648e5dd7070Spatrick Context.Diag2((*Friend2)->getFriendLoc(), diag::note_odr_friend);
1649e5dd7070Spatrick Context.Diag1(D1->getLocation(), diag::note_odr_missing_friend);
1650e5dd7070Spatrick }
1651e5dd7070Spatrick return false;
1652e5dd7070Spatrick }
1653e5dd7070Spatrick } else if (D1CXX->getNumBases() > 0) {
1654e5dd7070Spatrick if (Context.Complain) {
1655e5dd7070Spatrick Context.Diag2(D2->getLocation(),
1656e5dd7070Spatrick Context.getApplicableDiagnostic(
1657e5dd7070Spatrick diag::err_odr_tag_type_inconsistent))
1658e5dd7070Spatrick << Context.ToCtx.getTypeDeclType(D2);
1659e5dd7070Spatrick const CXXBaseSpecifier *Base1 = D1CXX->bases_begin();
1660e5dd7070Spatrick Context.Diag1(Base1->getBeginLoc(), diag::note_odr_base)
1661e5dd7070Spatrick << Base1->getType() << Base1->getSourceRange();
1662e5dd7070Spatrick Context.Diag2(D2->getLocation(), diag::note_odr_missing_base);
1663e5dd7070Spatrick }
1664e5dd7070Spatrick return false;
1665e5dd7070Spatrick }
1666e5dd7070Spatrick }
1667e5dd7070Spatrick
1668e5dd7070Spatrick // Check the fields for consistency.
1669*12c85518Srobert QualType D2Type = Context.ToCtx.getTypeDeclType(D2);
1670e5dd7070Spatrick RecordDecl::field_iterator Field2 = D2->field_begin(),
1671e5dd7070Spatrick Field2End = D2->field_end();
1672e5dd7070Spatrick for (RecordDecl::field_iterator Field1 = D1->field_begin(),
1673e5dd7070Spatrick Field1End = D1->field_end();
1674e5dd7070Spatrick Field1 != Field1End; ++Field1, ++Field2) {
1675e5dd7070Spatrick if (Field2 == Field2End) {
1676e5dd7070Spatrick if (Context.Complain) {
1677e5dd7070Spatrick Context.Diag2(D2->getLocation(),
1678e5dd7070Spatrick Context.getApplicableDiagnostic(
1679e5dd7070Spatrick diag::err_odr_tag_type_inconsistent))
1680e5dd7070Spatrick << Context.ToCtx.getTypeDeclType(D2);
1681e5dd7070Spatrick Context.Diag1(Field1->getLocation(), diag::note_odr_field)
1682e5dd7070Spatrick << Field1->getDeclName() << Field1->getType();
1683e5dd7070Spatrick Context.Diag2(D2->getLocation(), diag::note_odr_missing_field);
1684e5dd7070Spatrick }
1685e5dd7070Spatrick return false;
1686e5dd7070Spatrick }
1687e5dd7070Spatrick
1688*12c85518Srobert if (!IsStructurallyEquivalent(Context, *Field1, *Field2, D2Type))
1689e5dd7070Spatrick return false;
1690e5dd7070Spatrick }
1691e5dd7070Spatrick
1692e5dd7070Spatrick if (Field2 != Field2End) {
1693e5dd7070Spatrick if (Context.Complain) {
1694e5dd7070Spatrick Context.Diag2(D2->getLocation(), Context.getApplicableDiagnostic(
1695e5dd7070Spatrick diag::err_odr_tag_type_inconsistent))
1696e5dd7070Spatrick << Context.ToCtx.getTypeDeclType(D2);
1697e5dd7070Spatrick Context.Diag2(Field2->getLocation(), diag::note_odr_field)
1698e5dd7070Spatrick << Field2->getDeclName() << Field2->getType();
1699e5dd7070Spatrick Context.Diag1(D1->getLocation(), diag::note_odr_missing_field);
1700e5dd7070Spatrick }
1701e5dd7070Spatrick return false;
1702e5dd7070Spatrick }
1703e5dd7070Spatrick
1704e5dd7070Spatrick return true;
1705e5dd7070Spatrick }
1706e5dd7070Spatrick
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,EnumConstantDecl * D1,EnumConstantDecl * D2)1707*12c85518Srobert static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
1708*12c85518Srobert EnumConstantDecl *D1,
1709*12c85518Srobert EnumConstantDecl *D2) {
1710*12c85518Srobert const llvm::APSInt &FromVal = D1->getInitVal();
1711*12c85518Srobert const llvm::APSInt &ToVal = D2->getInitVal();
1712*12c85518Srobert if (FromVal.isSigned() != ToVal.isSigned())
1713*12c85518Srobert return false;
1714*12c85518Srobert if (FromVal.getBitWidth() != ToVal.getBitWidth())
1715*12c85518Srobert return false;
1716*12c85518Srobert if (FromVal != ToVal)
1717*12c85518Srobert return false;
1718*12c85518Srobert
1719*12c85518Srobert if (!IsStructurallyEquivalent(D1->getIdentifier(), D2->getIdentifier()))
1720*12c85518Srobert return false;
1721*12c85518Srobert
1722*12c85518Srobert // Init expressions are the most expensive check, so do them last.
1723*12c85518Srobert return IsStructurallyEquivalent(Context, D1->getInitExpr(),
1724*12c85518Srobert D2->getInitExpr());
1725*12c85518Srobert }
1726*12c85518Srobert
1727e5dd7070Spatrick /// Determine structural equivalence of two enums.
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,EnumDecl * D1,EnumDecl * D2)1728e5dd7070Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
1729e5dd7070Spatrick EnumDecl *D1, EnumDecl *D2) {
1730e5dd7070Spatrick
1731a9ac8606Spatrick // Check for equivalent enum names.
1732a9ac8606Spatrick IdentifierInfo *Name1 = D1->getIdentifier();
1733a9ac8606Spatrick if (!Name1 && D1->getTypedefNameForAnonDecl())
1734a9ac8606Spatrick Name1 = D1->getTypedefNameForAnonDecl()->getIdentifier();
1735a9ac8606Spatrick IdentifierInfo *Name2 = D2->getIdentifier();
1736a9ac8606Spatrick if (!Name2 && D2->getTypedefNameForAnonDecl())
1737a9ac8606Spatrick Name2 = D2->getTypedefNameForAnonDecl()->getIdentifier();
1738a9ac8606Spatrick if (!IsStructurallyEquivalent(Name1, Name2))
1739a9ac8606Spatrick return false;
1740a9ac8606Spatrick
1741e5dd7070Spatrick // Compare the definitions of these two enums. If either or both are
1742e5dd7070Spatrick // incomplete (i.e. forward declared), we assume that they are equivalent.
1743e5dd7070Spatrick D1 = D1->getDefinition();
1744e5dd7070Spatrick D2 = D2->getDefinition();
1745e5dd7070Spatrick if (!D1 || !D2)
1746e5dd7070Spatrick return true;
1747e5dd7070Spatrick
1748e5dd7070Spatrick EnumDecl::enumerator_iterator EC2 = D2->enumerator_begin(),
1749e5dd7070Spatrick EC2End = D2->enumerator_end();
1750e5dd7070Spatrick for (EnumDecl::enumerator_iterator EC1 = D1->enumerator_begin(),
1751e5dd7070Spatrick EC1End = D1->enumerator_end();
1752e5dd7070Spatrick EC1 != EC1End; ++EC1, ++EC2) {
1753e5dd7070Spatrick if (EC2 == EC2End) {
1754e5dd7070Spatrick if (Context.Complain) {
1755e5dd7070Spatrick Context.Diag2(D2->getLocation(),
1756e5dd7070Spatrick Context.getApplicableDiagnostic(
1757e5dd7070Spatrick diag::err_odr_tag_type_inconsistent))
1758e5dd7070Spatrick << Context.ToCtx.getTypeDeclType(D2);
1759e5dd7070Spatrick Context.Diag1(EC1->getLocation(), diag::note_odr_enumerator)
1760a9ac8606Spatrick << EC1->getDeclName() << toString(EC1->getInitVal(), 10);
1761e5dd7070Spatrick Context.Diag2(D2->getLocation(), diag::note_odr_missing_enumerator);
1762e5dd7070Spatrick }
1763e5dd7070Spatrick return false;
1764e5dd7070Spatrick }
1765e5dd7070Spatrick
1766e5dd7070Spatrick llvm::APSInt Val1 = EC1->getInitVal();
1767e5dd7070Spatrick llvm::APSInt Val2 = EC2->getInitVal();
1768e5dd7070Spatrick if (!llvm::APSInt::isSameValue(Val1, Val2) ||
1769e5dd7070Spatrick !IsStructurallyEquivalent(EC1->getIdentifier(), EC2->getIdentifier())) {
1770e5dd7070Spatrick if (Context.Complain) {
1771e5dd7070Spatrick Context.Diag2(D2->getLocation(),
1772e5dd7070Spatrick Context.getApplicableDiagnostic(
1773e5dd7070Spatrick diag::err_odr_tag_type_inconsistent))
1774e5dd7070Spatrick << Context.ToCtx.getTypeDeclType(D2);
1775e5dd7070Spatrick Context.Diag2(EC2->getLocation(), diag::note_odr_enumerator)
1776a9ac8606Spatrick << EC2->getDeclName() << toString(EC2->getInitVal(), 10);
1777e5dd7070Spatrick Context.Diag1(EC1->getLocation(), diag::note_odr_enumerator)
1778a9ac8606Spatrick << EC1->getDeclName() << toString(EC1->getInitVal(), 10);
1779e5dd7070Spatrick }
1780e5dd7070Spatrick return false;
1781e5dd7070Spatrick }
1782e5dd7070Spatrick }
1783e5dd7070Spatrick
1784e5dd7070Spatrick if (EC2 != EC2End) {
1785e5dd7070Spatrick if (Context.Complain) {
1786e5dd7070Spatrick Context.Diag2(D2->getLocation(), Context.getApplicableDiagnostic(
1787e5dd7070Spatrick diag::err_odr_tag_type_inconsistent))
1788e5dd7070Spatrick << Context.ToCtx.getTypeDeclType(D2);
1789e5dd7070Spatrick Context.Diag2(EC2->getLocation(), diag::note_odr_enumerator)
1790a9ac8606Spatrick << EC2->getDeclName() << toString(EC2->getInitVal(), 10);
1791e5dd7070Spatrick Context.Diag1(D1->getLocation(), diag::note_odr_missing_enumerator);
1792e5dd7070Spatrick }
1793e5dd7070Spatrick return false;
1794e5dd7070Spatrick }
1795e5dd7070Spatrick
1796e5dd7070Spatrick return true;
1797e5dd7070Spatrick }
1798e5dd7070Spatrick
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,TemplateParameterList * Params1,TemplateParameterList * Params2)1799e5dd7070Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
1800e5dd7070Spatrick TemplateParameterList *Params1,
1801e5dd7070Spatrick TemplateParameterList *Params2) {
1802e5dd7070Spatrick if (Params1->size() != Params2->size()) {
1803e5dd7070Spatrick if (Context.Complain) {
1804e5dd7070Spatrick Context.Diag2(Params2->getTemplateLoc(),
1805e5dd7070Spatrick Context.getApplicableDiagnostic(
1806e5dd7070Spatrick diag::err_odr_different_num_template_parameters))
1807e5dd7070Spatrick << Params1->size() << Params2->size();
1808e5dd7070Spatrick Context.Diag1(Params1->getTemplateLoc(),
1809e5dd7070Spatrick diag::note_odr_template_parameter_list);
1810e5dd7070Spatrick }
1811e5dd7070Spatrick return false;
1812e5dd7070Spatrick }
1813e5dd7070Spatrick
1814e5dd7070Spatrick for (unsigned I = 0, N = Params1->size(); I != N; ++I) {
1815e5dd7070Spatrick if (Params1->getParam(I)->getKind() != Params2->getParam(I)->getKind()) {
1816e5dd7070Spatrick if (Context.Complain) {
1817e5dd7070Spatrick Context.Diag2(Params2->getParam(I)->getLocation(),
1818e5dd7070Spatrick Context.getApplicableDiagnostic(
1819e5dd7070Spatrick diag::err_odr_different_template_parameter_kind));
1820e5dd7070Spatrick Context.Diag1(Params1->getParam(I)->getLocation(),
1821e5dd7070Spatrick diag::note_odr_template_parameter_here);
1822e5dd7070Spatrick }
1823e5dd7070Spatrick return false;
1824e5dd7070Spatrick }
1825e5dd7070Spatrick
1826e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, Params1->getParam(I),
1827e5dd7070Spatrick Params2->getParam(I)))
1828e5dd7070Spatrick return false;
1829e5dd7070Spatrick }
1830e5dd7070Spatrick
1831e5dd7070Spatrick return true;
1832e5dd7070Spatrick }
1833e5dd7070Spatrick
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,TemplateTypeParmDecl * D1,TemplateTypeParmDecl * D2)1834e5dd7070Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
1835e5dd7070Spatrick TemplateTypeParmDecl *D1,
1836e5dd7070Spatrick TemplateTypeParmDecl *D2) {
1837e5dd7070Spatrick if (D1->isParameterPack() != D2->isParameterPack()) {
1838e5dd7070Spatrick if (Context.Complain) {
1839e5dd7070Spatrick Context.Diag2(D2->getLocation(),
1840e5dd7070Spatrick Context.getApplicableDiagnostic(
1841e5dd7070Spatrick diag::err_odr_parameter_pack_non_pack))
1842e5dd7070Spatrick << D2->isParameterPack();
1843e5dd7070Spatrick Context.Diag1(D1->getLocation(), diag::note_odr_parameter_pack_non_pack)
1844e5dd7070Spatrick << D1->isParameterPack();
1845e5dd7070Spatrick }
1846e5dd7070Spatrick return false;
1847e5dd7070Spatrick }
1848e5dd7070Spatrick
1849e5dd7070Spatrick return true;
1850e5dd7070Spatrick }
1851e5dd7070Spatrick
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,NonTypeTemplateParmDecl * D1,NonTypeTemplateParmDecl * D2)1852e5dd7070Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
1853e5dd7070Spatrick NonTypeTemplateParmDecl *D1,
1854e5dd7070Spatrick NonTypeTemplateParmDecl *D2) {
1855e5dd7070Spatrick if (D1->isParameterPack() != D2->isParameterPack()) {
1856e5dd7070Spatrick if (Context.Complain) {
1857e5dd7070Spatrick Context.Diag2(D2->getLocation(),
1858e5dd7070Spatrick Context.getApplicableDiagnostic(
1859e5dd7070Spatrick diag::err_odr_parameter_pack_non_pack))
1860e5dd7070Spatrick << D2->isParameterPack();
1861e5dd7070Spatrick Context.Diag1(D1->getLocation(), diag::note_odr_parameter_pack_non_pack)
1862e5dd7070Spatrick << D1->isParameterPack();
1863e5dd7070Spatrick }
1864e5dd7070Spatrick return false;
1865e5dd7070Spatrick }
1866e5dd7070Spatrick
1867e5dd7070Spatrick // Check types.
1868e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, D1->getType(), D2->getType())) {
1869e5dd7070Spatrick if (Context.Complain) {
1870e5dd7070Spatrick Context.Diag2(D2->getLocation(),
1871e5dd7070Spatrick Context.getApplicableDiagnostic(
1872e5dd7070Spatrick diag::err_odr_non_type_parameter_type_inconsistent))
1873e5dd7070Spatrick << D2->getType() << D1->getType();
1874e5dd7070Spatrick Context.Diag1(D1->getLocation(), diag::note_odr_value_here)
1875e5dd7070Spatrick << D1->getType();
1876e5dd7070Spatrick }
1877e5dd7070Spatrick return false;
1878e5dd7070Spatrick }
1879e5dd7070Spatrick
1880e5dd7070Spatrick return true;
1881e5dd7070Spatrick }
1882e5dd7070Spatrick
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,TemplateTemplateParmDecl * D1,TemplateTemplateParmDecl * D2)1883e5dd7070Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
1884e5dd7070Spatrick TemplateTemplateParmDecl *D1,
1885e5dd7070Spatrick TemplateTemplateParmDecl *D2) {
1886e5dd7070Spatrick if (D1->isParameterPack() != D2->isParameterPack()) {
1887e5dd7070Spatrick if (Context.Complain) {
1888e5dd7070Spatrick Context.Diag2(D2->getLocation(),
1889e5dd7070Spatrick Context.getApplicableDiagnostic(
1890e5dd7070Spatrick diag::err_odr_parameter_pack_non_pack))
1891e5dd7070Spatrick << D2->isParameterPack();
1892e5dd7070Spatrick Context.Diag1(D1->getLocation(), diag::note_odr_parameter_pack_non_pack)
1893e5dd7070Spatrick << D1->isParameterPack();
1894e5dd7070Spatrick }
1895e5dd7070Spatrick return false;
1896e5dd7070Spatrick }
1897e5dd7070Spatrick
1898e5dd7070Spatrick // Check template parameter lists.
1899e5dd7070Spatrick return IsStructurallyEquivalent(Context, D1->getTemplateParameters(),
1900e5dd7070Spatrick D2->getTemplateParameters());
1901e5dd7070Spatrick }
1902e5dd7070Spatrick
IsTemplateDeclCommonStructurallyEquivalent(StructuralEquivalenceContext & Ctx,TemplateDecl * D1,TemplateDecl * D2)1903e5dd7070Spatrick static bool IsTemplateDeclCommonStructurallyEquivalent(
1904e5dd7070Spatrick StructuralEquivalenceContext &Ctx, TemplateDecl *D1, TemplateDecl *D2) {
1905e5dd7070Spatrick if (!IsStructurallyEquivalent(D1->getIdentifier(), D2->getIdentifier()))
1906e5dd7070Spatrick return false;
1907e5dd7070Spatrick if (!D1->getIdentifier()) // Special name
1908e5dd7070Spatrick if (D1->getNameAsString() != D2->getNameAsString())
1909e5dd7070Spatrick return false;
1910e5dd7070Spatrick return IsStructurallyEquivalent(Ctx, D1->getTemplateParameters(),
1911e5dd7070Spatrick D2->getTemplateParameters());
1912e5dd7070Spatrick }
1913e5dd7070Spatrick
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,ClassTemplateDecl * D1,ClassTemplateDecl * D2)1914e5dd7070Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
1915e5dd7070Spatrick ClassTemplateDecl *D1,
1916e5dd7070Spatrick ClassTemplateDecl *D2) {
1917e5dd7070Spatrick // Check template parameters.
1918e5dd7070Spatrick if (!IsTemplateDeclCommonStructurallyEquivalent(Context, D1, D2))
1919e5dd7070Spatrick return false;
1920e5dd7070Spatrick
1921e5dd7070Spatrick // Check the templated declaration.
1922e5dd7070Spatrick return IsStructurallyEquivalent(Context, D1->getTemplatedDecl(),
1923e5dd7070Spatrick D2->getTemplatedDecl());
1924e5dd7070Spatrick }
1925e5dd7070Spatrick
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,FunctionTemplateDecl * D1,FunctionTemplateDecl * D2)1926e5dd7070Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
1927e5dd7070Spatrick FunctionTemplateDecl *D1,
1928e5dd7070Spatrick FunctionTemplateDecl *D2) {
1929e5dd7070Spatrick // Check template parameters.
1930e5dd7070Spatrick if (!IsTemplateDeclCommonStructurallyEquivalent(Context, D1, D2))
1931e5dd7070Spatrick return false;
1932e5dd7070Spatrick
1933e5dd7070Spatrick // Check the templated declaration.
1934e5dd7070Spatrick return IsStructurallyEquivalent(Context, D1->getTemplatedDecl()->getType(),
1935e5dd7070Spatrick D2->getTemplatedDecl()->getType());
1936e5dd7070Spatrick }
1937e5dd7070Spatrick
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,ConceptDecl * D1,ConceptDecl * D2)1938e5dd7070Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
1939e5dd7070Spatrick ConceptDecl *D1,
1940e5dd7070Spatrick ConceptDecl *D2) {
1941e5dd7070Spatrick // Check template parameters.
1942e5dd7070Spatrick if (!IsTemplateDeclCommonStructurallyEquivalent(Context, D1, D2))
1943e5dd7070Spatrick return false;
1944e5dd7070Spatrick
1945e5dd7070Spatrick // Check the constraint expression.
1946e5dd7070Spatrick return IsStructurallyEquivalent(Context, D1->getConstraintExpr(),
1947e5dd7070Spatrick D2->getConstraintExpr());
1948e5dd7070Spatrick }
1949e5dd7070Spatrick
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,FriendDecl * D1,FriendDecl * D2)1950e5dd7070Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
1951e5dd7070Spatrick FriendDecl *D1, FriendDecl *D2) {
1952e5dd7070Spatrick if ((D1->getFriendType() && D2->getFriendDecl()) ||
1953e5dd7070Spatrick (D1->getFriendDecl() && D2->getFriendType())) {
1954e5dd7070Spatrick return false;
1955e5dd7070Spatrick }
1956e5dd7070Spatrick if (D1->getFriendType() && D2->getFriendType())
1957e5dd7070Spatrick return IsStructurallyEquivalent(Context,
1958e5dd7070Spatrick D1->getFriendType()->getType(),
1959e5dd7070Spatrick D2->getFriendType()->getType());
1960e5dd7070Spatrick if (D1->getFriendDecl() && D2->getFriendDecl())
1961e5dd7070Spatrick return IsStructurallyEquivalent(Context, D1->getFriendDecl(),
1962e5dd7070Spatrick D2->getFriendDecl());
1963e5dd7070Spatrick return false;
1964e5dd7070Spatrick }
1965e5dd7070Spatrick
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,TypedefNameDecl * D1,TypedefNameDecl * D2)1966e5dd7070Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
1967a9ac8606Spatrick TypedefNameDecl *D1, TypedefNameDecl *D2) {
1968a9ac8606Spatrick if (!IsStructurallyEquivalent(D1->getIdentifier(), D2->getIdentifier()))
1969a9ac8606Spatrick return false;
1970a9ac8606Spatrick
1971a9ac8606Spatrick return IsStructurallyEquivalent(Context, D1->getUnderlyingType(),
1972a9ac8606Spatrick D2->getUnderlyingType());
1973a9ac8606Spatrick }
1974a9ac8606Spatrick
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,FunctionDecl * D1,FunctionDecl * D2)1975a9ac8606Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
1976e5dd7070Spatrick FunctionDecl *D1, FunctionDecl *D2) {
1977a9ac8606Spatrick if (!IsStructurallyEquivalent(D1->getIdentifier(), D2->getIdentifier()))
1978a9ac8606Spatrick return false;
1979a9ac8606Spatrick
1980a9ac8606Spatrick if (D1->isOverloadedOperator()) {
1981a9ac8606Spatrick if (!D2->isOverloadedOperator())
1982a9ac8606Spatrick return false;
1983a9ac8606Spatrick if (D1->getOverloadedOperator() != D2->getOverloadedOperator())
1984a9ac8606Spatrick return false;
1985a9ac8606Spatrick }
1986a9ac8606Spatrick
1987e5dd7070Spatrick // FIXME: Consider checking for function attributes as well.
1988e5dd7070Spatrick if (!IsStructurallyEquivalent(Context, D1->getType(), D2->getType()))
1989e5dd7070Spatrick return false;
1990e5dd7070Spatrick
1991e5dd7070Spatrick return true;
1992e5dd7070Spatrick }
1993e5dd7070Spatrick
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,ObjCIvarDecl * D1,ObjCIvarDecl * D2,QualType Owner2Type)1994*12c85518Srobert static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
1995*12c85518Srobert ObjCIvarDecl *D1, ObjCIvarDecl *D2,
1996*12c85518Srobert QualType Owner2Type) {
1997*12c85518Srobert if (D1->getAccessControl() != D2->getAccessControl())
1998*12c85518Srobert return false;
1999*12c85518Srobert
2000*12c85518Srobert return IsStructurallyEquivalent(Context, cast<FieldDecl>(D1),
2001*12c85518Srobert cast<FieldDecl>(D2), Owner2Type);
2002*12c85518Srobert }
2003*12c85518Srobert
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,ObjCIvarDecl * D1,ObjCIvarDecl * D2)2004*12c85518Srobert static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
2005*12c85518Srobert ObjCIvarDecl *D1, ObjCIvarDecl *D2) {
2006*12c85518Srobert QualType Owner2Type =
2007*12c85518Srobert Context.ToCtx.getObjCInterfaceType(D2->getContainingInterface());
2008*12c85518Srobert return IsStructurallyEquivalent(Context, D1, D2, Owner2Type);
2009*12c85518Srobert }
2010*12c85518Srobert
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,ObjCMethodDecl * Method1,ObjCMethodDecl * Method2)2011*12c85518Srobert static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
2012*12c85518Srobert ObjCMethodDecl *Method1,
2013*12c85518Srobert ObjCMethodDecl *Method2) {
2014*12c85518Srobert bool PropertiesEqual =
2015*12c85518Srobert Method1->isInstanceMethod() == Method2->isInstanceMethod() &&
2016*12c85518Srobert Method1->isVariadic() == Method2->isVariadic() &&
2017*12c85518Srobert Method1->isDirectMethod() == Method2->isDirectMethod();
2018*12c85518Srobert if (!PropertiesEqual)
2019*12c85518Srobert return false;
2020*12c85518Srobert
2021*12c85518Srobert // Compare selector slot names.
2022*12c85518Srobert Selector Selector1 = Method1->getSelector(),
2023*12c85518Srobert Selector2 = Method2->getSelector();
2024*12c85518Srobert unsigned NumArgs = Selector1.getNumArgs();
2025*12c85518Srobert if (NumArgs != Selector2.getNumArgs())
2026*12c85518Srobert return false;
2027*12c85518Srobert // Compare all selector slots. For selectors with arguments it means all arg
2028*12c85518Srobert // slots. And if there are no arguments, compare the first-and-only slot.
2029*12c85518Srobert unsigned SlotsToCheck = NumArgs > 0 ? NumArgs : 1;
2030*12c85518Srobert for (unsigned I = 0; I < SlotsToCheck; ++I) {
2031*12c85518Srobert if (!IsStructurallyEquivalent(Selector1.getIdentifierInfoForSlot(I),
2032*12c85518Srobert Selector2.getIdentifierInfoForSlot(I)))
2033*12c85518Srobert return false;
2034*12c85518Srobert }
2035*12c85518Srobert
2036*12c85518Srobert // Compare types.
2037*12c85518Srobert if (!IsStructurallyEquivalent(Context, Method1->getReturnType(),
2038*12c85518Srobert Method2->getReturnType()))
2039*12c85518Srobert return false;
2040*12c85518Srobert assert(
2041*12c85518Srobert Method1->param_size() == Method2->param_size() &&
2042*12c85518Srobert "Same number of arguments should be already enforced in Selector checks");
2043*12c85518Srobert for (ObjCMethodDecl::param_type_iterator
2044*12c85518Srobert ParamT1 = Method1->param_type_begin(),
2045*12c85518Srobert ParamT1End = Method1->param_type_end(),
2046*12c85518Srobert ParamT2 = Method2->param_type_begin(),
2047*12c85518Srobert ParamT2End = Method2->param_type_end();
2048*12c85518Srobert (ParamT1 != ParamT1End) && (ParamT2 != ParamT2End);
2049*12c85518Srobert ++ParamT1, ++ParamT2) {
2050*12c85518Srobert if (!IsStructurallyEquivalent(Context, *ParamT1, *ParamT2))
2051*12c85518Srobert return false;
2052*12c85518Srobert }
2053*12c85518Srobert
2054*12c85518Srobert return true;
2055*12c85518Srobert }
2056*12c85518Srobert
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,ObjCCategoryDecl * D1,ObjCCategoryDecl * D2)2057*12c85518Srobert static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
2058*12c85518Srobert ObjCCategoryDecl *D1,
2059*12c85518Srobert ObjCCategoryDecl *D2) {
2060*12c85518Srobert if (!IsStructurallyEquivalent(D1->getIdentifier(), D2->getIdentifier()))
2061*12c85518Srobert return false;
2062*12c85518Srobert
2063*12c85518Srobert if (!IsStructurallyEquivalent(D1->getClassInterface()->getIdentifier(),
2064*12c85518Srobert D2->getClassInterface()->getIdentifier()))
2065*12c85518Srobert return false;
2066*12c85518Srobert
2067*12c85518Srobert // Compare protocols.
2068*12c85518Srobert ObjCCategoryDecl::protocol_iterator Protocol2 = D2->protocol_begin(),
2069*12c85518Srobert Protocol2End = D2->protocol_end();
2070*12c85518Srobert for (ObjCCategoryDecl::protocol_iterator Protocol1 = D1->protocol_begin(),
2071*12c85518Srobert Protocol1End = D1->protocol_end();
2072*12c85518Srobert Protocol1 != Protocol1End; ++Protocol1, ++Protocol2) {
2073*12c85518Srobert if (Protocol2 == Protocol2End)
2074*12c85518Srobert return false;
2075*12c85518Srobert if (!IsStructurallyEquivalent((*Protocol1)->getIdentifier(),
2076*12c85518Srobert (*Protocol2)->getIdentifier()))
2077*12c85518Srobert return false;
2078*12c85518Srobert }
2079*12c85518Srobert if (Protocol2 != Protocol2End)
2080*12c85518Srobert return false;
2081*12c85518Srobert
2082*12c85518Srobert // Compare ivars.
2083*12c85518Srobert QualType D2Type = Context.ToCtx.getObjCInterfaceType(D2->getClassInterface());
2084*12c85518Srobert ObjCCategoryDecl::ivar_iterator Ivar2 = D2->ivar_begin(),
2085*12c85518Srobert Ivar2End = D2->ivar_end();
2086*12c85518Srobert for (ObjCCategoryDecl::ivar_iterator Ivar1 = D1->ivar_begin(),
2087*12c85518Srobert Ivar1End = D1->ivar_end();
2088*12c85518Srobert Ivar1 != Ivar1End; ++Ivar1, ++Ivar2) {
2089*12c85518Srobert if (Ivar2 == Ivar2End)
2090*12c85518Srobert return false;
2091*12c85518Srobert if (!IsStructurallyEquivalent(Context, *Ivar1, *Ivar2, D2Type))
2092*12c85518Srobert return false;
2093*12c85518Srobert }
2094*12c85518Srobert if (Ivar2 != Ivar2End)
2095*12c85518Srobert return false;
2096*12c85518Srobert
2097*12c85518Srobert // Compare methods.
2098*12c85518Srobert ObjCCategoryDecl::method_iterator Method2 = D2->meth_begin(),
2099*12c85518Srobert Method2End = D2->meth_end();
2100*12c85518Srobert for (ObjCCategoryDecl::method_iterator Method1 = D1->meth_begin(),
2101*12c85518Srobert Method1End = D1->meth_end();
2102*12c85518Srobert Method1 != Method1End; ++Method1, ++Method2) {
2103*12c85518Srobert if (Method2 == Method2End)
2104*12c85518Srobert return false;
2105*12c85518Srobert if (!IsStructurallyEquivalent(Context, *Method1, *Method2))
2106*12c85518Srobert return false;
2107*12c85518Srobert }
2108*12c85518Srobert if (Method2 != Method2End)
2109*12c85518Srobert return false;
2110*12c85518Srobert
2111*12c85518Srobert return true;
2112*12c85518Srobert }
2113*12c85518Srobert
2114e5dd7070Spatrick /// Determine structural equivalence of two declarations.
IsStructurallyEquivalent(StructuralEquivalenceContext & Context,Decl * D1,Decl * D2)2115e5dd7070Spatrick static bool IsStructurallyEquivalent(StructuralEquivalenceContext &Context,
2116e5dd7070Spatrick Decl *D1, Decl *D2) {
2117e5dd7070Spatrick // FIXME: Check for known structural equivalences via a callback of some sort.
2118e5dd7070Spatrick
2119e5dd7070Spatrick D1 = D1->getCanonicalDecl();
2120e5dd7070Spatrick D2 = D2->getCanonicalDecl();
2121e5dd7070Spatrick std::pair<Decl *, Decl *> P{D1, D2};
2122e5dd7070Spatrick
2123e5dd7070Spatrick // Check whether we already know that these two declarations are not
2124e5dd7070Spatrick // structurally equivalent.
2125e5dd7070Spatrick if (Context.NonEquivalentDecls.count(P))
2126e5dd7070Spatrick return false;
2127e5dd7070Spatrick
2128e5dd7070Spatrick // Check if a check for these declarations is already pending.
2129e5dd7070Spatrick // If yes D1 and D2 will be checked later (from DeclsToCheck),
2130e5dd7070Spatrick // or these are already checked (and equivalent).
2131e5dd7070Spatrick bool Inserted = Context.VisitedDecls.insert(P).second;
2132e5dd7070Spatrick if (!Inserted)
2133e5dd7070Spatrick return true;
2134e5dd7070Spatrick
2135e5dd7070Spatrick Context.DeclsToCheck.push(P);
2136e5dd7070Spatrick
2137e5dd7070Spatrick return true;
2138e5dd7070Spatrick }
2139e5dd7070Spatrick
Diag1(SourceLocation Loc,unsigned DiagID)2140e5dd7070Spatrick DiagnosticBuilder StructuralEquivalenceContext::Diag1(SourceLocation Loc,
2141e5dd7070Spatrick unsigned DiagID) {
2142e5dd7070Spatrick assert(Complain && "Not allowed to complain");
2143e5dd7070Spatrick if (LastDiagFromC2)
2144e5dd7070Spatrick FromCtx.getDiagnostics().notePriorDiagnosticFrom(ToCtx.getDiagnostics());
2145e5dd7070Spatrick LastDiagFromC2 = false;
2146e5dd7070Spatrick return FromCtx.getDiagnostics().Report(Loc, DiagID);
2147e5dd7070Spatrick }
2148e5dd7070Spatrick
Diag2(SourceLocation Loc,unsigned DiagID)2149e5dd7070Spatrick DiagnosticBuilder StructuralEquivalenceContext::Diag2(SourceLocation Loc,
2150e5dd7070Spatrick unsigned DiagID) {
2151e5dd7070Spatrick assert(Complain && "Not allowed to complain");
2152e5dd7070Spatrick if (!LastDiagFromC2)
2153e5dd7070Spatrick ToCtx.getDiagnostics().notePriorDiagnosticFrom(FromCtx.getDiagnostics());
2154e5dd7070Spatrick LastDiagFromC2 = true;
2155e5dd7070Spatrick return ToCtx.getDiagnostics().Report(Loc, DiagID);
2156e5dd7070Spatrick }
2157e5dd7070Spatrick
2158*12c85518Srobert std::optional<unsigned>
findUntaggedStructOrUnionIndex(RecordDecl * Anon)2159e5dd7070Spatrick StructuralEquivalenceContext::findUntaggedStructOrUnionIndex(RecordDecl *Anon) {
2160e5dd7070Spatrick ASTContext &Context = Anon->getASTContext();
2161e5dd7070Spatrick QualType AnonTy = Context.getRecordType(Anon);
2162e5dd7070Spatrick
2163e5dd7070Spatrick const auto *Owner = dyn_cast<RecordDecl>(Anon->getDeclContext());
2164e5dd7070Spatrick if (!Owner)
2165*12c85518Srobert return std::nullopt;
2166e5dd7070Spatrick
2167e5dd7070Spatrick unsigned Index = 0;
2168e5dd7070Spatrick for (const auto *D : Owner->noload_decls()) {
2169e5dd7070Spatrick const auto *F = dyn_cast<FieldDecl>(D);
2170e5dd7070Spatrick if (!F)
2171e5dd7070Spatrick continue;
2172e5dd7070Spatrick
2173e5dd7070Spatrick if (F->isAnonymousStructOrUnion()) {
2174e5dd7070Spatrick if (Context.hasSameType(F->getType(), AnonTy))
2175e5dd7070Spatrick break;
2176e5dd7070Spatrick ++Index;
2177e5dd7070Spatrick continue;
2178e5dd7070Spatrick }
2179e5dd7070Spatrick
2180e5dd7070Spatrick // If the field looks like this:
2181e5dd7070Spatrick // struct { ... } A;
2182e5dd7070Spatrick QualType FieldType = F->getType();
2183e5dd7070Spatrick // In case of nested structs.
2184e5dd7070Spatrick while (const auto *ElabType = dyn_cast<ElaboratedType>(FieldType))
2185e5dd7070Spatrick FieldType = ElabType->getNamedType();
2186e5dd7070Spatrick
2187e5dd7070Spatrick if (const auto *RecType = dyn_cast<RecordType>(FieldType)) {
2188e5dd7070Spatrick const RecordDecl *RecDecl = RecType->getDecl();
2189e5dd7070Spatrick if (RecDecl->getDeclContext() == Owner && !RecDecl->getIdentifier()) {
2190e5dd7070Spatrick if (Context.hasSameType(FieldType, AnonTy))
2191e5dd7070Spatrick break;
2192e5dd7070Spatrick ++Index;
2193e5dd7070Spatrick continue;
2194e5dd7070Spatrick }
2195e5dd7070Spatrick }
2196e5dd7070Spatrick }
2197e5dd7070Spatrick
2198e5dd7070Spatrick return Index;
2199e5dd7070Spatrick }
2200e5dd7070Spatrick
getApplicableDiagnostic(unsigned ErrorDiagnostic)2201e5dd7070Spatrick unsigned StructuralEquivalenceContext::getApplicableDiagnostic(
2202e5dd7070Spatrick unsigned ErrorDiagnostic) {
2203e5dd7070Spatrick if (ErrorOnTagTypeMismatch)
2204e5dd7070Spatrick return ErrorDiagnostic;
2205e5dd7070Spatrick
2206e5dd7070Spatrick switch (ErrorDiagnostic) {
2207e5dd7070Spatrick case diag::err_odr_variable_type_inconsistent:
2208e5dd7070Spatrick return diag::warn_odr_variable_type_inconsistent;
2209e5dd7070Spatrick case diag::err_odr_variable_multiple_def:
2210e5dd7070Spatrick return diag::warn_odr_variable_multiple_def;
2211e5dd7070Spatrick case diag::err_odr_function_type_inconsistent:
2212e5dd7070Spatrick return diag::warn_odr_function_type_inconsistent;
2213e5dd7070Spatrick case diag::err_odr_tag_type_inconsistent:
2214e5dd7070Spatrick return diag::warn_odr_tag_type_inconsistent;
2215e5dd7070Spatrick case diag::err_odr_field_type_inconsistent:
2216e5dd7070Spatrick return diag::warn_odr_field_type_inconsistent;
2217e5dd7070Spatrick case diag::err_odr_ivar_type_inconsistent:
2218e5dd7070Spatrick return diag::warn_odr_ivar_type_inconsistent;
2219e5dd7070Spatrick case diag::err_odr_objc_superclass_inconsistent:
2220e5dd7070Spatrick return diag::warn_odr_objc_superclass_inconsistent;
2221e5dd7070Spatrick case diag::err_odr_objc_method_result_type_inconsistent:
2222e5dd7070Spatrick return diag::warn_odr_objc_method_result_type_inconsistent;
2223e5dd7070Spatrick case diag::err_odr_objc_method_num_params_inconsistent:
2224e5dd7070Spatrick return diag::warn_odr_objc_method_num_params_inconsistent;
2225e5dd7070Spatrick case diag::err_odr_objc_method_param_type_inconsistent:
2226e5dd7070Spatrick return diag::warn_odr_objc_method_param_type_inconsistent;
2227e5dd7070Spatrick case diag::err_odr_objc_method_variadic_inconsistent:
2228e5dd7070Spatrick return diag::warn_odr_objc_method_variadic_inconsistent;
2229e5dd7070Spatrick case diag::err_odr_objc_property_type_inconsistent:
2230e5dd7070Spatrick return diag::warn_odr_objc_property_type_inconsistent;
2231e5dd7070Spatrick case diag::err_odr_objc_property_impl_kind_inconsistent:
2232e5dd7070Spatrick return diag::warn_odr_objc_property_impl_kind_inconsistent;
2233e5dd7070Spatrick case diag::err_odr_objc_synthesize_ivar_inconsistent:
2234e5dd7070Spatrick return diag::warn_odr_objc_synthesize_ivar_inconsistent;
2235e5dd7070Spatrick case diag::err_odr_different_num_template_parameters:
2236e5dd7070Spatrick return diag::warn_odr_different_num_template_parameters;
2237e5dd7070Spatrick case diag::err_odr_different_template_parameter_kind:
2238e5dd7070Spatrick return diag::warn_odr_different_template_parameter_kind;
2239e5dd7070Spatrick case diag::err_odr_parameter_pack_non_pack:
2240e5dd7070Spatrick return diag::warn_odr_parameter_pack_non_pack;
2241e5dd7070Spatrick case diag::err_odr_non_type_parameter_type_inconsistent:
2242e5dd7070Spatrick return diag::warn_odr_non_type_parameter_type_inconsistent;
2243e5dd7070Spatrick }
2244e5dd7070Spatrick llvm_unreachable("Diagnostic kind not handled in preceding switch");
2245e5dd7070Spatrick }
2246e5dd7070Spatrick
IsEquivalent(Decl * D1,Decl * D2)2247e5dd7070Spatrick bool StructuralEquivalenceContext::IsEquivalent(Decl *D1, Decl *D2) {
2248e5dd7070Spatrick
2249e5dd7070Spatrick // Ensure that the implementation functions (all static functions in this TU)
2250e5dd7070Spatrick // never call the public ASTStructuralEquivalence::IsEquivalent() functions,
2251e5dd7070Spatrick // because that will wreak havoc the internal state (DeclsToCheck and
2252e5dd7070Spatrick // VisitedDecls members) and can cause faulty behaviour.
2253e5dd7070Spatrick // In other words: Do not start a graph search from a new node with the
2254e5dd7070Spatrick // internal data of another search in progress.
2255e5dd7070Spatrick // FIXME: Better encapsulation and separation of internal and public
2256e5dd7070Spatrick // functionality.
2257e5dd7070Spatrick assert(DeclsToCheck.empty());
2258e5dd7070Spatrick assert(VisitedDecls.empty());
2259e5dd7070Spatrick
2260e5dd7070Spatrick if (!::IsStructurallyEquivalent(*this, D1, D2))
2261e5dd7070Spatrick return false;
2262e5dd7070Spatrick
2263e5dd7070Spatrick return !Finish();
2264e5dd7070Spatrick }
2265e5dd7070Spatrick
IsEquivalent(QualType T1,QualType T2)2266e5dd7070Spatrick bool StructuralEquivalenceContext::IsEquivalent(QualType T1, QualType T2) {
2267e5dd7070Spatrick assert(DeclsToCheck.empty());
2268e5dd7070Spatrick assert(VisitedDecls.empty());
2269e5dd7070Spatrick if (!::IsStructurallyEquivalent(*this, T1, T2))
2270e5dd7070Spatrick return false;
2271e5dd7070Spatrick
2272e5dd7070Spatrick return !Finish();
2273e5dd7070Spatrick }
2274e5dd7070Spatrick
IsEquivalent(Stmt * S1,Stmt * S2)2275a9ac8606Spatrick bool StructuralEquivalenceContext::IsEquivalent(Stmt *S1, Stmt *S2) {
2276a9ac8606Spatrick assert(DeclsToCheck.empty());
2277a9ac8606Spatrick assert(VisitedDecls.empty());
2278a9ac8606Spatrick if (!::IsStructurallyEquivalent(*this, S1, S2))
2279a9ac8606Spatrick return false;
2280a9ac8606Spatrick
2281a9ac8606Spatrick return !Finish();
2282a9ac8606Spatrick }
2283a9ac8606Spatrick
CheckCommonEquivalence(Decl * D1,Decl * D2)2284e5dd7070Spatrick bool StructuralEquivalenceContext::CheckCommonEquivalence(Decl *D1, Decl *D2) {
2285e5dd7070Spatrick // Check for equivalent described template.
2286e5dd7070Spatrick TemplateDecl *Template1 = D1->getDescribedTemplate();
2287e5dd7070Spatrick TemplateDecl *Template2 = D2->getDescribedTemplate();
2288e5dd7070Spatrick if ((Template1 != nullptr) != (Template2 != nullptr))
2289e5dd7070Spatrick return false;
2290e5dd7070Spatrick if (Template1 && !IsStructurallyEquivalent(*this, Template1, Template2))
2291e5dd7070Spatrick return false;
2292e5dd7070Spatrick
2293e5dd7070Spatrick // FIXME: Move check for identifier names into this function.
2294e5dd7070Spatrick
2295e5dd7070Spatrick return true;
2296e5dd7070Spatrick }
2297e5dd7070Spatrick
CheckKindSpecificEquivalence(Decl * D1,Decl * D2)2298e5dd7070Spatrick bool StructuralEquivalenceContext::CheckKindSpecificEquivalence(
2299e5dd7070Spatrick Decl *D1, Decl *D2) {
2300e5dd7070Spatrick
2301a9ac8606Spatrick // Kind mismatch.
2302a9ac8606Spatrick if (D1->getKind() != D2->getKind())
2303a9ac8606Spatrick return false;
2304a9ac8606Spatrick
2305a9ac8606Spatrick // Cast the Decls to their actual subclass so that the right overload of
2306a9ac8606Spatrick // IsStructurallyEquivalent is called.
2307a9ac8606Spatrick switch (D1->getKind()) {
2308a9ac8606Spatrick #define ABSTRACT_DECL(DECL)
2309a9ac8606Spatrick #define DECL(DERIVED, BASE) \
2310a9ac8606Spatrick case Decl::Kind::DERIVED: \
2311a9ac8606Spatrick return ::IsStructurallyEquivalent(*this, static_cast<DERIVED##Decl *>(D1), \
2312a9ac8606Spatrick static_cast<DERIVED##Decl *>(D2));
2313a9ac8606Spatrick #include "clang/AST/DeclNodes.inc"
2314a9ac8606Spatrick }
2315e5dd7070Spatrick return true;
2316e5dd7070Spatrick }
2317e5dd7070Spatrick
Finish()2318e5dd7070Spatrick bool StructuralEquivalenceContext::Finish() {
2319e5dd7070Spatrick while (!DeclsToCheck.empty()) {
2320e5dd7070Spatrick // Check the next declaration.
2321e5dd7070Spatrick std::pair<Decl *, Decl *> P = DeclsToCheck.front();
2322e5dd7070Spatrick DeclsToCheck.pop();
2323e5dd7070Spatrick
2324e5dd7070Spatrick Decl *D1 = P.first;
2325e5dd7070Spatrick Decl *D2 = P.second;
2326e5dd7070Spatrick
2327e5dd7070Spatrick bool Equivalent =
2328e5dd7070Spatrick CheckCommonEquivalence(D1, D2) && CheckKindSpecificEquivalence(D1, D2);
2329e5dd7070Spatrick
2330e5dd7070Spatrick if (!Equivalent) {
2331e5dd7070Spatrick // Note that these two declarations are not equivalent (and we already
2332e5dd7070Spatrick // know about it).
2333e5dd7070Spatrick NonEquivalentDecls.insert(P);
2334e5dd7070Spatrick
2335e5dd7070Spatrick return true;
2336e5dd7070Spatrick }
2337e5dd7070Spatrick }
2338e5dd7070Spatrick
2339e5dd7070Spatrick return false;
2340e5dd7070Spatrick }
2341