1e5dd7070Spatrick //===--- ItaniumMangle.cpp - Itanium C++ Name Mangling ----------*- C++ -*-===//
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 // Implements C++ name mangling according to the Itanium C++ ABI,
10e5dd7070Spatrick // which is used in GCC 3.2 and newer (and many compilers that are
11e5dd7070Spatrick // ABI-compatible with GCC):
12e5dd7070Spatrick //
13e5dd7070Spatrick // http://itanium-cxx-abi.github.io/cxx-abi/abi.html#mangling
14e5dd7070Spatrick //
15e5dd7070Spatrick //===----------------------------------------------------------------------===//
16ec727ea7Spatrick
17e5dd7070Spatrick #include "clang/AST/ASTContext.h"
18e5dd7070Spatrick #include "clang/AST/Attr.h"
19e5dd7070Spatrick #include "clang/AST/Decl.h"
20e5dd7070Spatrick #include "clang/AST/DeclCXX.h"
21e5dd7070Spatrick #include "clang/AST/DeclObjC.h"
22e5dd7070Spatrick #include "clang/AST/DeclOpenMP.h"
23e5dd7070Spatrick #include "clang/AST/DeclTemplate.h"
24e5dd7070Spatrick #include "clang/AST/Expr.h"
25e5dd7070Spatrick #include "clang/AST/ExprCXX.h"
26a9ac8606Spatrick #include "clang/AST/ExprConcepts.h"
27e5dd7070Spatrick #include "clang/AST/ExprObjC.h"
28a9ac8606Spatrick #include "clang/AST/Mangle.h"
29e5dd7070Spatrick #include "clang/AST/TypeLoc.h"
30e5dd7070Spatrick #include "clang/Basic/ABI.h"
31ec727ea7Spatrick #include "clang/Basic/Module.h"
32e5dd7070Spatrick #include "clang/Basic/SourceManager.h"
33e5dd7070Spatrick #include "clang/Basic/TargetInfo.h"
34a9ac8606Spatrick #include "clang/Basic/Thunk.h"
35e5dd7070Spatrick #include "llvm/ADT/StringExtras.h"
36e5dd7070Spatrick #include "llvm/Support/ErrorHandling.h"
37e5dd7070Spatrick #include "llvm/Support/raw_ostream.h"
38*12c85518Srobert #include <optional>
39e5dd7070Spatrick
40e5dd7070Spatrick using namespace clang;
41e5dd7070Spatrick
42e5dd7070Spatrick namespace {
43e5dd7070Spatrick
isLocalContainerContext(const DeclContext * DC)44e5dd7070Spatrick static bool isLocalContainerContext(const DeclContext *DC) {
45e5dd7070Spatrick return isa<FunctionDecl>(DC) || isa<ObjCMethodDecl>(DC) || isa<BlockDecl>(DC);
46e5dd7070Spatrick }
47e5dd7070Spatrick
getStructor(const FunctionDecl * fn)48e5dd7070Spatrick static const FunctionDecl *getStructor(const FunctionDecl *fn) {
49e5dd7070Spatrick if (const FunctionTemplateDecl *ftd = fn->getPrimaryTemplate())
50e5dd7070Spatrick return ftd->getTemplatedDecl();
51e5dd7070Spatrick
52e5dd7070Spatrick return fn;
53e5dd7070Spatrick }
54e5dd7070Spatrick
getStructor(const NamedDecl * decl)55e5dd7070Spatrick static const NamedDecl *getStructor(const NamedDecl *decl) {
56e5dd7070Spatrick const FunctionDecl *fn = dyn_cast_or_null<FunctionDecl>(decl);
57e5dd7070Spatrick return (fn ? getStructor(fn) : decl);
58e5dd7070Spatrick }
59e5dd7070Spatrick
isLambda(const NamedDecl * ND)60e5dd7070Spatrick static bool isLambda(const NamedDecl *ND) {
61e5dd7070Spatrick const CXXRecordDecl *Record = dyn_cast<CXXRecordDecl>(ND);
62e5dd7070Spatrick if (!Record)
63e5dd7070Spatrick return false;
64e5dd7070Spatrick
65e5dd7070Spatrick return Record->isLambda();
66e5dd7070Spatrick }
67e5dd7070Spatrick
68e5dd7070Spatrick static const unsigned UnknownArity = ~0U;
69e5dd7070Spatrick
70e5dd7070Spatrick class ItaniumMangleContextImpl : public ItaniumMangleContext {
71e5dd7070Spatrick typedef std::pair<const DeclContext*, IdentifierInfo*> DiscriminatorKeyTy;
72e5dd7070Spatrick llvm::DenseMap<DiscriminatorKeyTy, unsigned> Discriminator;
73e5dd7070Spatrick llvm::DenseMap<const NamedDecl*, unsigned> Uniquifier;
74a9ac8606Spatrick const DiscriminatorOverrideTy DiscriminatorOverride = nullptr;
75*12c85518Srobert NamespaceDecl *StdNamespace = nullptr;
76a9ac8606Spatrick
77a9ac8606Spatrick bool NeedsUniqueInternalLinkageNames = false;
78e5dd7070Spatrick
79e5dd7070Spatrick public:
ItaniumMangleContextImpl(ASTContext & Context,DiagnosticsEngine & Diags,DiscriminatorOverrideTy DiscriminatorOverride,bool IsAux=false)80a9ac8606Spatrick explicit ItaniumMangleContextImpl(
81a9ac8606Spatrick ASTContext &Context, DiagnosticsEngine &Diags,
82*12c85518Srobert DiscriminatorOverrideTy DiscriminatorOverride, bool IsAux = false)
83*12c85518Srobert : ItaniumMangleContext(Context, Diags, IsAux),
84a9ac8606Spatrick DiscriminatorOverride(DiscriminatorOverride) {}
85e5dd7070Spatrick
86e5dd7070Spatrick /// @name Mangler Entry Points
87e5dd7070Spatrick /// @{
88e5dd7070Spatrick
89e5dd7070Spatrick bool shouldMangleCXXName(const NamedDecl *D) override;
shouldMangleStringLiteral(const StringLiteral *)90e5dd7070Spatrick bool shouldMangleStringLiteral(const StringLiteral *) override {
91e5dd7070Spatrick return false;
92e5dd7070Spatrick }
93a9ac8606Spatrick
94a9ac8606Spatrick bool isUniqueInternalLinkageDecl(const NamedDecl *ND) override;
needsUniqueInternalLinkageNames()95a9ac8606Spatrick void needsUniqueInternalLinkageNames() override {
96a9ac8606Spatrick NeedsUniqueInternalLinkageNames = true;
97a9ac8606Spatrick }
98a9ac8606Spatrick
99ec727ea7Spatrick void mangleCXXName(GlobalDecl GD, raw_ostream &) override;
100e5dd7070Spatrick void mangleThunk(const CXXMethodDecl *MD, const ThunkInfo &Thunk,
101e5dd7070Spatrick raw_ostream &) override;
102e5dd7070Spatrick void mangleCXXDtorThunk(const CXXDestructorDecl *DD, CXXDtorType Type,
103e5dd7070Spatrick const ThisAdjustment &ThisAdjustment,
104e5dd7070Spatrick raw_ostream &) override;
105e5dd7070Spatrick void mangleReferenceTemporary(const VarDecl *D, unsigned ManglingNumber,
106e5dd7070Spatrick raw_ostream &) override;
107e5dd7070Spatrick void mangleCXXVTable(const CXXRecordDecl *RD, raw_ostream &) override;
108e5dd7070Spatrick void mangleCXXVTT(const CXXRecordDecl *RD, raw_ostream &) override;
109e5dd7070Spatrick void mangleCXXCtorVTable(const CXXRecordDecl *RD, int64_t Offset,
110e5dd7070Spatrick const CXXRecordDecl *Type, raw_ostream &) override;
111e5dd7070Spatrick void mangleCXXRTTI(QualType T, raw_ostream &) override;
112e5dd7070Spatrick void mangleCXXRTTIName(QualType T, raw_ostream &) override;
113e5dd7070Spatrick void mangleTypeName(QualType T, raw_ostream &) override;
114e5dd7070Spatrick
115e5dd7070Spatrick void mangleCXXCtorComdat(const CXXConstructorDecl *D, raw_ostream &) override;
116e5dd7070Spatrick void mangleCXXDtorComdat(const CXXDestructorDecl *D, raw_ostream &) override;
117e5dd7070Spatrick void mangleStaticGuardVariable(const VarDecl *D, raw_ostream &) override;
118e5dd7070Spatrick void mangleDynamicInitializer(const VarDecl *D, raw_ostream &Out) override;
119e5dd7070Spatrick void mangleDynamicAtExitDestructor(const VarDecl *D,
120e5dd7070Spatrick raw_ostream &Out) override;
121ec727ea7Spatrick void mangleDynamicStermFinalizer(const VarDecl *D, raw_ostream &Out) override;
122*12c85518Srobert void mangleSEHFilterExpression(GlobalDecl EnclosingDecl,
123e5dd7070Spatrick raw_ostream &Out) override;
124*12c85518Srobert void mangleSEHFinallyBlock(GlobalDecl EnclosingDecl,
125e5dd7070Spatrick raw_ostream &Out) override;
126e5dd7070Spatrick void mangleItaniumThreadLocalInit(const VarDecl *D, raw_ostream &) override;
127e5dd7070Spatrick void mangleItaniumThreadLocalWrapper(const VarDecl *D,
128e5dd7070Spatrick raw_ostream &) override;
129e5dd7070Spatrick
130e5dd7070Spatrick void mangleStringLiteral(const StringLiteral *, raw_ostream &) override;
131e5dd7070Spatrick
132e5dd7070Spatrick void mangleLambdaSig(const CXXRecordDecl *Lambda, raw_ostream &) override;
133e5dd7070Spatrick
134*12c85518Srobert void mangleModuleInitializer(const Module *Module, raw_ostream &) override;
135*12c85518Srobert
getNextDiscriminator(const NamedDecl * ND,unsigned & disc)136e5dd7070Spatrick bool getNextDiscriminator(const NamedDecl *ND, unsigned &disc) {
137e5dd7070Spatrick // Lambda closure types are already numbered.
138e5dd7070Spatrick if (isLambda(ND))
139e5dd7070Spatrick return false;
140e5dd7070Spatrick
141e5dd7070Spatrick // Anonymous tags are already numbered.
142e5dd7070Spatrick if (const TagDecl *Tag = dyn_cast<TagDecl>(ND)) {
143e5dd7070Spatrick if (Tag->getName().empty() && !Tag->getTypedefNameForAnonDecl())
144e5dd7070Spatrick return false;
145e5dd7070Spatrick }
146e5dd7070Spatrick
147e5dd7070Spatrick // Use the canonical number for externally visible decls.
148e5dd7070Spatrick if (ND->isExternallyVisible()) {
149*12c85518Srobert unsigned discriminator = getASTContext().getManglingNumber(ND, isAux());
150e5dd7070Spatrick if (discriminator == 1)
151e5dd7070Spatrick return false;
152e5dd7070Spatrick disc = discriminator - 2;
153e5dd7070Spatrick return true;
154e5dd7070Spatrick }
155e5dd7070Spatrick
156e5dd7070Spatrick // Make up a reasonable number for internal decls.
157e5dd7070Spatrick unsigned &discriminator = Uniquifier[ND];
158e5dd7070Spatrick if (!discriminator) {
159e5dd7070Spatrick const DeclContext *DC = getEffectiveDeclContext(ND);
160e5dd7070Spatrick discriminator = ++Discriminator[std::make_pair(DC, ND->getIdentifier())];
161e5dd7070Spatrick }
162e5dd7070Spatrick if (discriminator == 1)
163e5dd7070Spatrick return false;
164e5dd7070Spatrick disc = discriminator-2;
165e5dd7070Spatrick return true;
166e5dd7070Spatrick }
167a9ac8606Spatrick
getLambdaString(const CXXRecordDecl * Lambda)168a9ac8606Spatrick std::string getLambdaString(const CXXRecordDecl *Lambda) override {
169a9ac8606Spatrick // This function matches the one in MicrosoftMangle, which returns
170a9ac8606Spatrick // the string that is used in lambda mangled names.
171a9ac8606Spatrick assert(Lambda->isLambda() && "RD must be a lambda!");
172a9ac8606Spatrick std::string Name("<lambda");
173a9ac8606Spatrick Decl *LambdaContextDecl = Lambda->getLambdaContextDecl();
174a9ac8606Spatrick unsigned LambdaManglingNumber = Lambda->getLambdaManglingNumber();
175a9ac8606Spatrick unsigned LambdaId;
176a9ac8606Spatrick const ParmVarDecl *Parm = dyn_cast_or_null<ParmVarDecl>(LambdaContextDecl);
177a9ac8606Spatrick const FunctionDecl *Func =
178a9ac8606Spatrick Parm ? dyn_cast<FunctionDecl>(Parm->getDeclContext()) : nullptr;
179a9ac8606Spatrick
180a9ac8606Spatrick if (Func) {
181a9ac8606Spatrick unsigned DefaultArgNo =
182a9ac8606Spatrick Func->getNumParams() - Parm->getFunctionScopeIndex();
183a9ac8606Spatrick Name += llvm::utostr(DefaultArgNo);
184a9ac8606Spatrick Name += "_";
185a9ac8606Spatrick }
186a9ac8606Spatrick
187a9ac8606Spatrick if (LambdaManglingNumber)
188a9ac8606Spatrick LambdaId = LambdaManglingNumber;
189a9ac8606Spatrick else
190a9ac8606Spatrick LambdaId = getAnonymousStructIdForDebugInfo(Lambda);
191a9ac8606Spatrick
192a9ac8606Spatrick Name += llvm::utostr(LambdaId);
193a9ac8606Spatrick Name += '>';
194a9ac8606Spatrick return Name;
195a9ac8606Spatrick }
196a9ac8606Spatrick
getDiscriminatorOverride() const197a9ac8606Spatrick DiscriminatorOverrideTy getDiscriminatorOverride() const override {
198a9ac8606Spatrick return DiscriminatorOverride;
199a9ac8606Spatrick }
200a9ac8606Spatrick
201*12c85518Srobert NamespaceDecl *getStdNamespace();
202*12c85518Srobert
203*12c85518Srobert const DeclContext *getEffectiveDeclContext(const Decl *D);
getEffectiveParentContext(const DeclContext * DC)204*12c85518Srobert const DeclContext *getEffectiveParentContext(const DeclContext *DC) {
205*12c85518Srobert return getEffectiveDeclContext(cast<Decl>(DC));
206*12c85518Srobert }
207*12c85518Srobert
208*12c85518Srobert bool isInternalLinkageDecl(const NamedDecl *ND);
209*12c85518Srobert const DeclContext *IgnoreLinkageSpecDecls(const DeclContext *DC);
210*12c85518Srobert
211e5dd7070Spatrick /// @}
212e5dd7070Spatrick };
213e5dd7070Spatrick
214e5dd7070Spatrick /// Manage the mangling of a single name.
215e5dd7070Spatrick class CXXNameMangler {
216e5dd7070Spatrick ItaniumMangleContextImpl &Context;
217e5dd7070Spatrick raw_ostream &Out;
218e5dd7070Spatrick bool NullOut = false;
219e5dd7070Spatrick /// In the "DisableDerivedAbiTags" mode derived ABI tags are not calculated.
220e5dd7070Spatrick /// This mode is used when mangler creates another mangler recursively to
221e5dd7070Spatrick /// calculate ABI tags for the function return value or the variable type.
222e5dd7070Spatrick /// Also it is required to avoid infinite recursion in some cases.
223e5dd7070Spatrick bool DisableDerivedAbiTags = false;
224e5dd7070Spatrick
225e5dd7070Spatrick /// The "structor" is the top-level declaration being mangled, if
226e5dd7070Spatrick /// that's not a template specialization; otherwise it's the pattern
227e5dd7070Spatrick /// for that specialization.
228e5dd7070Spatrick const NamedDecl *Structor;
229*12c85518Srobert unsigned StructorType = 0;
230e5dd7070Spatrick
231e5dd7070Spatrick /// The next substitution sequence number.
232*12c85518Srobert unsigned SeqID = 0;
233e5dd7070Spatrick
234e5dd7070Spatrick class FunctionTypeDepthState {
235e5dd7070Spatrick unsigned Bits;
236e5dd7070Spatrick
237e5dd7070Spatrick enum { InResultTypeMask = 1 };
238e5dd7070Spatrick
239e5dd7070Spatrick public:
FunctionTypeDepthState()240e5dd7070Spatrick FunctionTypeDepthState() : Bits(0) {}
241e5dd7070Spatrick
242e5dd7070Spatrick /// The number of function types we're inside.
getDepth() const243e5dd7070Spatrick unsigned getDepth() const {
244e5dd7070Spatrick return Bits >> 1;
245e5dd7070Spatrick }
246e5dd7070Spatrick
247e5dd7070Spatrick /// True if we're in the return type of the innermost function type.
isInResultType() const248e5dd7070Spatrick bool isInResultType() const {
249e5dd7070Spatrick return Bits & InResultTypeMask;
250e5dd7070Spatrick }
251e5dd7070Spatrick
push()252e5dd7070Spatrick FunctionTypeDepthState push() {
253e5dd7070Spatrick FunctionTypeDepthState tmp = *this;
254e5dd7070Spatrick Bits = (Bits & ~InResultTypeMask) + 2;
255e5dd7070Spatrick return tmp;
256e5dd7070Spatrick }
257e5dd7070Spatrick
enterResultType()258e5dd7070Spatrick void enterResultType() {
259e5dd7070Spatrick Bits |= InResultTypeMask;
260e5dd7070Spatrick }
261e5dd7070Spatrick
leaveResultType()262e5dd7070Spatrick void leaveResultType() {
263e5dd7070Spatrick Bits &= ~InResultTypeMask;
264e5dd7070Spatrick }
265e5dd7070Spatrick
pop(FunctionTypeDepthState saved)266e5dd7070Spatrick void pop(FunctionTypeDepthState saved) {
267e5dd7070Spatrick assert(getDepth() == saved.getDepth() + 1);
268e5dd7070Spatrick Bits = saved.Bits;
269e5dd7070Spatrick }
270e5dd7070Spatrick
271e5dd7070Spatrick } FunctionTypeDepth;
272e5dd7070Spatrick
273e5dd7070Spatrick // abi_tag is a gcc attribute, taking one or more strings called "tags".
274e5dd7070Spatrick // The goal is to annotate against which version of a library an object was
275e5dd7070Spatrick // built and to be able to provide backwards compatibility ("dual abi").
276e5dd7070Spatrick // For more information see docs/ItaniumMangleAbiTags.rst.
277e5dd7070Spatrick typedef SmallVector<StringRef, 4> AbiTagList;
278e5dd7070Spatrick
279e5dd7070Spatrick // State to gather all implicit and explicit tags used in a mangled name.
280e5dd7070Spatrick // Must always have an instance of this while emitting any name to keep
281e5dd7070Spatrick // track.
282e5dd7070Spatrick class AbiTagState final {
283e5dd7070Spatrick public:
AbiTagState(AbiTagState * & Head)284e5dd7070Spatrick explicit AbiTagState(AbiTagState *&Head) : LinkHead(Head) {
285e5dd7070Spatrick Parent = LinkHead;
286e5dd7070Spatrick LinkHead = this;
287e5dd7070Spatrick }
288e5dd7070Spatrick
289e5dd7070Spatrick // No copy, no move.
290e5dd7070Spatrick AbiTagState(const AbiTagState &) = delete;
291e5dd7070Spatrick AbiTagState &operator=(const AbiTagState &) = delete;
292e5dd7070Spatrick
~AbiTagState()293e5dd7070Spatrick ~AbiTagState() { pop(); }
294e5dd7070Spatrick
write(raw_ostream & Out,const NamedDecl * ND,const AbiTagList * AdditionalAbiTags)295e5dd7070Spatrick void write(raw_ostream &Out, const NamedDecl *ND,
296e5dd7070Spatrick const AbiTagList *AdditionalAbiTags) {
297e5dd7070Spatrick ND = cast<NamedDecl>(ND->getCanonicalDecl());
298e5dd7070Spatrick if (!isa<FunctionDecl>(ND) && !isa<VarDecl>(ND)) {
299e5dd7070Spatrick assert(
300e5dd7070Spatrick !AdditionalAbiTags &&
301e5dd7070Spatrick "only function and variables need a list of additional abi tags");
302e5dd7070Spatrick if (const auto *NS = dyn_cast<NamespaceDecl>(ND)) {
303e5dd7070Spatrick if (const auto *AbiTag = NS->getAttr<AbiTagAttr>()) {
304e5dd7070Spatrick UsedAbiTags.insert(UsedAbiTags.end(), AbiTag->tags().begin(),
305e5dd7070Spatrick AbiTag->tags().end());
306e5dd7070Spatrick }
307e5dd7070Spatrick // Don't emit abi tags for namespaces.
308e5dd7070Spatrick return;
309e5dd7070Spatrick }
310e5dd7070Spatrick }
311e5dd7070Spatrick
312e5dd7070Spatrick AbiTagList TagList;
313e5dd7070Spatrick if (const auto *AbiTag = ND->getAttr<AbiTagAttr>()) {
314e5dd7070Spatrick UsedAbiTags.insert(UsedAbiTags.end(), AbiTag->tags().begin(),
315e5dd7070Spatrick AbiTag->tags().end());
316e5dd7070Spatrick TagList.insert(TagList.end(), AbiTag->tags().begin(),
317e5dd7070Spatrick AbiTag->tags().end());
318e5dd7070Spatrick }
319e5dd7070Spatrick
320e5dd7070Spatrick if (AdditionalAbiTags) {
321e5dd7070Spatrick UsedAbiTags.insert(UsedAbiTags.end(), AdditionalAbiTags->begin(),
322e5dd7070Spatrick AdditionalAbiTags->end());
323e5dd7070Spatrick TagList.insert(TagList.end(), AdditionalAbiTags->begin(),
324e5dd7070Spatrick AdditionalAbiTags->end());
325e5dd7070Spatrick }
326e5dd7070Spatrick
327e5dd7070Spatrick llvm::sort(TagList);
328e5dd7070Spatrick TagList.erase(std::unique(TagList.begin(), TagList.end()), TagList.end());
329e5dd7070Spatrick
330e5dd7070Spatrick writeSortedUniqueAbiTags(Out, TagList);
331e5dd7070Spatrick }
332e5dd7070Spatrick
getUsedAbiTags() const333e5dd7070Spatrick const AbiTagList &getUsedAbiTags() const { return UsedAbiTags; }
setUsedAbiTags(const AbiTagList & AbiTags)334e5dd7070Spatrick void setUsedAbiTags(const AbiTagList &AbiTags) {
335e5dd7070Spatrick UsedAbiTags = AbiTags;
336e5dd7070Spatrick }
337e5dd7070Spatrick
getEmittedAbiTags() const338e5dd7070Spatrick const AbiTagList &getEmittedAbiTags() const {
339e5dd7070Spatrick return EmittedAbiTags;
340e5dd7070Spatrick }
341e5dd7070Spatrick
getSortedUniqueUsedAbiTags()342e5dd7070Spatrick const AbiTagList &getSortedUniqueUsedAbiTags() {
343e5dd7070Spatrick llvm::sort(UsedAbiTags);
344e5dd7070Spatrick UsedAbiTags.erase(std::unique(UsedAbiTags.begin(), UsedAbiTags.end()),
345e5dd7070Spatrick UsedAbiTags.end());
346e5dd7070Spatrick return UsedAbiTags;
347e5dd7070Spatrick }
348e5dd7070Spatrick
349e5dd7070Spatrick private:
350e5dd7070Spatrick //! All abi tags used implicitly or explicitly.
351e5dd7070Spatrick AbiTagList UsedAbiTags;
352e5dd7070Spatrick //! All explicit abi tags (i.e. not from namespace).
353e5dd7070Spatrick AbiTagList EmittedAbiTags;
354e5dd7070Spatrick
355e5dd7070Spatrick AbiTagState *&LinkHead;
356e5dd7070Spatrick AbiTagState *Parent = nullptr;
357e5dd7070Spatrick
pop()358e5dd7070Spatrick void pop() {
359e5dd7070Spatrick assert(LinkHead == this &&
360e5dd7070Spatrick "abi tag link head must point to us on destruction");
361e5dd7070Spatrick if (Parent) {
362e5dd7070Spatrick Parent->UsedAbiTags.insert(Parent->UsedAbiTags.end(),
363e5dd7070Spatrick UsedAbiTags.begin(), UsedAbiTags.end());
364e5dd7070Spatrick Parent->EmittedAbiTags.insert(Parent->EmittedAbiTags.end(),
365e5dd7070Spatrick EmittedAbiTags.begin(),
366e5dd7070Spatrick EmittedAbiTags.end());
367e5dd7070Spatrick }
368e5dd7070Spatrick LinkHead = Parent;
369e5dd7070Spatrick }
370e5dd7070Spatrick
writeSortedUniqueAbiTags(raw_ostream & Out,const AbiTagList & AbiTags)371e5dd7070Spatrick void writeSortedUniqueAbiTags(raw_ostream &Out, const AbiTagList &AbiTags) {
372e5dd7070Spatrick for (const auto &Tag : AbiTags) {
373e5dd7070Spatrick EmittedAbiTags.push_back(Tag);
374e5dd7070Spatrick Out << "B";
375e5dd7070Spatrick Out << Tag.size();
376e5dd7070Spatrick Out << Tag;
377e5dd7070Spatrick }
378e5dd7070Spatrick }
379e5dd7070Spatrick };
380e5dd7070Spatrick
381e5dd7070Spatrick AbiTagState *AbiTags = nullptr;
382e5dd7070Spatrick AbiTagState AbiTagsRoot;
383e5dd7070Spatrick
384e5dd7070Spatrick llvm::DenseMap<uintptr_t, unsigned> Substitutions;
385e5dd7070Spatrick llvm::DenseMap<StringRef, unsigned> ModuleSubstitutions;
386e5dd7070Spatrick
getASTContext() const387e5dd7070Spatrick ASTContext &getASTContext() const { return Context.getASTContext(); }
388e5dd7070Spatrick
389*12c85518Srobert bool isStd(const NamespaceDecl *NS);
390*12c85518Srobert bool isStdNamespace(const DeclContext *DC);
391*12c85518Srobert
392*12c85518Srobert const RecordDecl *GetLocalClassDecl(const Decl *D);
393*12c85518Srobert const DeclContext *IgnoreLinkageSpecDecls(const DeclContext *DC);
394*12c85518Srobert bool isSpecializedAs(QualType S, llvm::StringRef Name, QualType A);
395*12c85518Srobert bool isStdCharSpecialization(const ClassTemplateSpecializationDecl *SD,
396*12c85518Srobert llvm::StringRef Name, bool HasAllocator);
397*12c85518Srobert
398e5dd7070Spatrick public:
CXXNameMangler(ItaniumMangleContextImpl & C,raw_ostream & Out_,const NamedDecl * D=nullptr,bool NullOut_=false)399e5dd7070Spatrick CXXNameMangler(ItaniumMangleContextImpl &C, raw_ostream &Out_,
400e5dd7070Spatrick const NamedDecl *D = nullptr, bool NullOut_ = false)
401e5dd7070Spatrick : Context(C), Out(Out_), NullOut(NullOut_), Structor(getStructor(D)),
402*12c85518Srobert AbiTagsRoot(AbiTags) {
403e5dd7070Spatrick // These can't be mangled without a ctor type or dtor type.
404e5dd7070Spatrick assert(!D || (!isa<CXXDestructorDecl>(D) &&
405e5dd7070Spatrick !isa<CXXConstructorDecl>(D)));
406e5dd7070Spatrick }
CXXNameMangler(ItaniumMangleContextImpl & C,raw_ostream & Out_,const CXXConstructorDecl * D,CXXCtorType Type)407e5dd7070Spatrick CXXNameMangler(ItaniumMangleContextImpl &C, raw_ostream &Out_,
408e5dd7070Spatrick const CXXConstructorDecl *D, CXXCtorType Type)
409e5dd7070Spatrick : Context(C), Out(Out_), Structor(getStructor(D)), StructorType(Type),
410*12c85518Srobert AbiTagsRoot(AbiTags) {}
CXXNameMangler(ItaniumMangleContextImpl & C,raw_ostream & Out_,const CXXDestructorDecl * D,CXXDtorType Type)411e5dd7070Spatrick CXXNameMangler(ItaniumMangleContextImpl &C, raw_ostream &Out_,
412e5dd7070Spatrick const CXXDestructorDecl *D, CXXDtorType Type)
413e5dd7070Spatrick : Context(C), Out(Out_), Structor(getStructor(D)), StructorType(Type),
414*12c85518Srobert AbiTagsRoot(AbiTags) {}
415e5dd7070Spatrick
CXXNameMangler(CXXNameMangler & Outer,raw_ostream & Out_)416e5dd7070Spatrick CXXNameMangler(CXXNameMangler &Outer, raw_ostream &Out_)
417*12c85518Srobert : Context(Outer.Context), Out(Out_), Structor(Outer.Structor),
418*12c85518Srobert StructorType(Outer.StructorType), SeqID(Outer.SeqID),
419*12c85518Srobert FunctionTypeDepth(Outer.FunctionTypeDepth), AbiTagsRoot(AbiTags),
420*12c85518Srobert Substitutions(Outer.Substitutions),
421*12c85518Srobert ModuleSubstitutions(Outer.ModuleSubstitutions) {}
422e5dd7070Spatrick
CXXNameMangler(CXXNameMangler & Outer,llvm::raw_null_ostream & Out_)423e5dd7070Spatrick CXXNameMangler(CXXNameMangler &Outer, llvm::raw_null_ostream &Out_)
424*12c85518Srobert : CXXNameMangler(Outer, (raw_ostream &)Out_) {
425*12c85518Srobert NullOut = true;
426*12c85518Srobert }
427e5dd7070Spatrick
getStream()428e5dd7070Spatrick raw_ostream &getStream() { return Out; }
429e5dd7070Spatrick
disableDerivedAbiTags()430e5dd7070Spatrick void disableDerivedAbiTags() { DisableDerivedAbiTags = true; }
431e5dd7070Spatrick static bool shouldHaveAbiTags(ItaniumMangleContextImpl &C, const VarDecl *VD);
432e5dd7070Spatrick
433ec727ea7Spatrick void mangle(GlobalDecl GD);
434e5dd7070Spatrick void mangleCallOffset(int64_t NonVirtual, int64_t Virtual);
435e5dd7070Spatrick void mangleNumber(const llvm::APSInt &I);
436e5dd7070Spatrick void mangleNumber(int64_t Number);
437e5dd7070Spatrick void mangleFloat(const llvm::APFloat &F);
438ec727ea7Spatrick void mangleFunctionEncoding(GlobalDecl GD);
439e5dd7070Spatrick void mangleSeqID(unsigned SeqID);
440ec727ea7Spatrick void mangleName(GlobalDecl GD);
441e5dd7070Spatrick void mangleType(QualType T);
442e5dd7070Spatrick void mangleNameOrStandardSubstitution(const NamedDecl *ND);
443e5dd7070Spatrick void mangleLambdaSig(const CXXRecordDecl *Lambda);
444*12c85518Srobert void mangleModuleNamePrefix(StringRef Name, bool IsPartition = false);
445e5dd7070Spatrick
446e5dd7070Spatrick private:
447e5dd7070Spatrick
448e5dd7070Spatrick bool mangleSubstitution(const NamedDecl *ND);
449*12c85518Srobert bool mangleSubstitution(NestedNameSpecifier *NNS);
450e5dd7070Spatrick bool mangleSubstitution(QualType T);
451e5dd7070Spatrick bool mangleSubstitution(TemplateName Template);
452e5dd7070Spatrick bool mangleSubstitution(uintptr_t Ptr);
453e5dd7070Spatrick
454e5dd7070Spatrick void mangleExistingSubstitution(TemplateName name);
455e5dd7070Spatrick
456e5dd7070Spatrick bool mangleStandardSubstitution(const NamedDecl *ND);
457e5dd7070Spatrick
addSubstitution(const NamedDecl * ND)458e5dd7070Spatrick void addSubstitution(const NamedDecl *ND) {
459e5dd7070Spatrick ND = cast<NamedDecl>(ND->getCanonicalDecl());
460e5dd7070Spatrick
461e5dd7070Spatrick addSubstitution(reinterpret_cast<uintptr_t>(ND));
462e5dd7070Spatrick }
addSubstitution(NestedNameSpecifier * NNS)463*12c85518Srobert void addSubstitution(NestedNameSpecifier *NNS) {
464*12c85518Srobert NNS = Context.getASTContext().getCanonicalNestedNameSpecifier(NNS);
465*12c85518Srobert
466*12c85518Srobert addSubstitution(reinterpret_cast<uintptr_t>(NNS));
467*12c85518Srobert }
468e5dd7070Spatrick void addSubstitution(QualType T);
469e5dd7070Spatrick void addSubstitution(TemplateName Template);
470e5dd7070Spatrick void addSubstitution(uintptr_t Ptr);
471e5dd7070Spatrick // Destructive copy substitutions from other mangler.
472e5dd7070Spatrick void extendSubstitutions(CXXNameMangler* Other);
473e5dd7070Spatrick
474e5dd7070Spatrick void mangleUnresolvedPrefix(NestedNameSpecifier *qualifier,
475e5dd7070Spatrick bool recursive = false);
476e5dd7070Spatrick void mangleUnresolvedName(NestedNameSpecifier *qualifier,
477e5dd7070Spatrick DeclarationName name,
478e5dd7070Spatrick const TemplateArgumentLoc *TemplateArgs,
479e5dd7070Spatrick unsigned NumTemplateArgs,
480e5dd7070Spatrick unsigned KnownArity = UnknownArity);
481e5dd7070Spatrick
482e5dd7070Spatrick void mangleFunctionEncodingBareType(const FunctionDecl *FD);
483e5dd7070Spatrick
484ec727ea7Spatrick void mangleNameWithAbiTags(GlobalDecl GD,
485e5dd7070Spatrick const AbiTagList *AdditionalAbiTags);
486*12c85518Srobert void mangleModuleName(const NamedDecl *ND);
487e5dd7070Spatrick void mangleTemplateName(const TemplateDecl *TD,
488*12c85518Srobert ArrayRef<TemplateArgument> Args);
mangleUnqualifiedName(GlobalDecl GD,const DeclContext * DC,const AbiTagList * AdditionalAbiTags)489*12c85518Srobert void mangleUnqualifiedName(GlobalDecl GD, const DeclContext *DC,
490e5dd7070Spatrick const AbiTagList *AdditionalAbiTags) {
491*12c85518Srobert mangleUnqualifiedName(GD, cast<NamedDecl>(GD.getDecl())->getDeclName(), DC,
492*12c85518Srobert UnknownArity, AdditionalAbiTags);
493e5dd7070Spatrick }
494ec727ea7Spatrick void mangleUnqualifiedName(GlobalDecl GD, DeclarationName Name,
495*12c85518Srobert const DeclContext *DC, unsigned KnownArity,
496e5dd7070Spatrick const AbiTagList *AdditionalAbiTags);
497*12c85518Srobert void mangleUnscopedName(GlobalDecl GD, const DeclContext *DC,
498e5dd7070Spatrick const AbiTagList *AdditionalAbiTags);
499*12c85518Srobert void mangleUnscopedTemplateName(GlobalDecl GD, const DeclContext *DC,
500e5dd7070Spatrick const AbiTagList *AdditionalAbiTags);
501e5dd7070Spatrick void mangleSourceName(const IdentifierInfo *II);
502e5dd7070Spatrick void mangleRegCallName(const IdentifierInfo *II);
503ec727ea7Spatrick void mangleDeviceStubName(const IdentifierInfo *II);
504e5dd7070Spatrick void mangleSourceNameWithAbiTags(
505e5dd7070Spatrick const NamedDecl *ND, const AbiTagList *AdditionalAbiTags = nullptr);
506ec727ea7Spatrick void mangleLocalName(GlobalDecl GD,
507e5dd7070Spatrick const AbiTagList *AdditionalAbiTags);
508e5dd7070Spatrick void mangleBlockForPrefix(const BlockDecl *Block);
509e5dd7070Spatrick void mangleUnqualifiedBlock(const BlockDecl *Block);
510e5dd7070Spatrick void mangleTemplateParamDecl(const NamedDecl *Decl);
511e5dd7070Spatrick void mangleLambda(const CXXRecordDecl *Lambda);
512ec727ea7Spatrick void mangleNestedName(GlobalDecl GD, const DeclContext *DC,
513e5dd7070Spatrick const AbiTagList *AdditionalAbiTags,
514e5dd7070Spatrick bool NoFunction=false);
515e5dd7070Spatrick void mangleNestedName(const TemplateDecl *TD,
516*12c85518Srobert ArrayRef<TemplateArgument> Args);
517a9ac8606Spatrick void mangleNestedNameWithClosurePrefix(GlobalDecl GD,
518a9ac8606Spatrick const NamedDecl *PrefixND,
519a9ac8606Spatrick const AbiTagList *AdditionalAbiTags);
520e5dd7070Spatrick void manglePrefix(NestedNameSpecifier *qualifier);
521e5dd7070Spatrick void manglePrefix(const DeclContext *DC, bool NoFunction=false);
522e5dd7070Spatrick void manglePrefix(QualType type);
523ec727ea7Spatrick void mangleTemplatePrefix(GlobalDecl GD, bool NoFunction=false);
524e5dd7070Spatrick void mangleTemplatePrefix(TemplateName Template);
525a9ac8606Spatrick const NamedDecl *getClosurePrefix(const Decl *ND);
526a9ac8606Spatrick void mangleClosurePrefix(const NamedDecl *ND, bool NoFunction = false);
527e5dd7070Spatrick bool mangleUnresolvedTypeOrSimpleId(QualType DestroyedType,
528e5dd7070Spatrick StringRef Prefix = "");
529e5dd7070Spatrick void mangleOperatorName(DeclarationName Name, unsigned Arity);
530e5dd7070Spatrick void mangleOperatorName(OverloadedOperatorKind OO, unsigned Arity);
531e5dd7070Spatrick void mangleVendorQualifier(StringRef qualifier);
532e5dd7070Spatrick void mangleQualifiers(Qualifiers Quals, const DependentAddressSpaceType *DAST = nullptr);
533e5dd7070Spatrick void mangleRefQualifier(RefQualifierKind RefQualifier);
534e5dd7070Spatrick
535e5dd7070Spatrick void mangleObjCMethodName(const ObjCMethodDecl *MD);
536e5dd7070Spatrick
537e5dd7070Spatrick // Declare manglers for every type class.
538e5dd7070Spatrick #define ABSTRACT_TYPE(CLASS, PARENT)
539e5dd7070Spatrick #define NON_CANONICAL_TYPE(CLASS, PARENT)
540e5dd7070Spatrick #define TYPE(CLASS, PARENT) void mangleType(const CLASS##Type *T);
541e5dd7070Spatrick #include "clang/AST/TypeNodes.inc"
542e5dd7070Spatrick
543e5dd7070Spatrick void mangleType(const TagType*);
544e5dd7070Spatrick void mangleType(TemplateName);
545e5dd7070Spatrick static StringRef getCallingConvQualifierName(CallingConv CC);
546e5dd7070Spatrick void mangleExtParameterInfo(FunctionProtoType::ExtParameterInfo info);
547e5dd7070Spatrick void mangleExtFunctionInfo(const FunctionType *T);
548e5dd7070Spatrick void mangleBareFunctionType(const FunctionProtoType *T, bool MangleReturnType,
549e5dd7070Spatrick const FunctionDecl *FD = nullptr);
550e5dd7070Spatrick void mangleNeonVectorType(const VectorType *T);
551e5dd7070Spatrick void mangleNeonVectorType(const DependentVectorType *T);
552e5dd7070Spatrick void mangleAArch64NeonVectorType(const VectorType *T);
553e5dd7070Spatrick void mangleAArch64NeonVectorType(const DependentVectorType *T);
554a9ac8606Spatrick void mangleAArch64FixedSveVectorType(const VectorType *T);
555a9ac8606Spatrick void mangleAArch64FixedSveVectorType(const DependentVectorType *T);
556e5dd7070Spatrick
557e5dd7070Spatrick void mangleIntegerLiteral(QualType T, const llvm::APSInt &Value);
558a9ac8606Spatrick void mangleFloatLiteral(QualType T, const llvm::APFloat &V);
559a9ac8606Spatrick void mangleFixedPointLiteral();
560a9ac8606Spatrick void mangleNullPointer(QualType T);
561a9ac8606Spatrick
562e5dd7070Spatrick void mangleMemberExprBase(const Expr *base, bool isArrow);
563e5dd7070Spatrick void mangleMemberExpr(const Expr *base, bool isArrow,
564e5dd7070Spatrick NestedNameSpecifier *qualifier,
565e5dd7070Spatrick NamedDecl *firstQualifierLookup,
566e5dd7070Spatrick DeclarationName name,
567e5dd7070Spatrick const TemplateArgumentLoc *TemplateArgs,
568e5dd7070Spatrick unsigned NumTemplateArgs,
569e5dd7070Spatrick unsigned knownArity);
570e5dd7070Spatrick void mangleCastExpression(const Expr *E, StringRef CastEncoding);
571e5dd7070Spatrick void mangleInitListElements(const InitListExpr *InitList);
572a9ac8606Spatrick void mangleExpression(const Expr *E, unsigned Arity = UnknownArity,
573a9ac8606Spatrick bool AsTemplateArg = false);
574e5dd7070Spatrick void mangleCXXCtorType(CXXCtorType T, const CXXRecordDecl *InheritedFrom);
575e5dd7070Spatrick void mangleCXXDtorType(CXXDtorType T);
576e5dd7070Spatrick
577a9ac8606Spatrick void mangleTemplateArgs(TemplateName TN,
578a9ac8606Spatrick const TemplateArgumentLoc *TemplateArgs,
579e5dd7070Spatrick unsigned NumTemplateArgs);
580*12c85518Srobert void mangleTemplateArgs(TemplateName TN, ArrayRef<TemplateArgument> Args);
581a9ac8606Spatrick void mangleTemplateArgs(TemplateName TN, const TemplateArgumentList &AL);
582a9ac8606Spatrick void mangleTemplateArg(TemplateArgument A, bool NeedExactType);
583a9ac8606Spatrick void mangleTemplateArgExpr(const Expr *E);
584a9ac8606Spatrick void mangleValueInTemplateArg(QualType T, const APValue &V, bool TopLevel,
585a9ac8606Spatrick bool NeedExactType = false);
586e5dd7070Spatrick
587e5dd7070Spatrick void mangleTemplateParameter(unsigned Depth, unsigned Index);
588e5dd7070Spatrick
589e5dd7070Spatrick void mangleFunctionParam(const ParmVarDecl *parm);
590e5dd7070Spatrick
591e5dd7070Spatrick void writeAbiTags(const NamedDecl *ND,
592e5dd7070Spatrick const AbiTagList *AdditionalAbiTags);
593e5dd7070Spatrick
594e5dd7070Spatrick // Returns sorted unique list of ABI tags.
595e5dd7070Spatrick AbiTagList makeFunctionReturnTypeTags(const FunctionDecl *FD);
596e5dd7070Spatrick // Returns sorted unique list of ABI tags.
597e5dd7070Spatrick AbiTagList makeVariableTypeTags(const VarDecl *VD);
598e5dd7070Spatrick };
599e5dd7070Spatrick
600e5dd7070Spatrick }
601e5dd7070Spatrick
getStdNamespace()602*12c85518Srobert NamespaceDecl *ItaniumMangleContextImpl::getStdNamespace() {
603*12c85518Srobert if (!StdNamespace) {
604*12c85518Srobert StdNamespace = NamespaceDecl::Create(
605*12c85518Srobert getASTContext(), getASTContext().getTranslationUnitDecl(),
606*12c85518Srobert /*Inline=*/false, SourceLocation(), SourceLocation(),
607*12c85518Srobert &getASTContext().Idents.get("std"),
608*12c85518Srobert /*PrevDecl=*/nullptr, /*Nested=*/false);
609*12c85518Srobert StdNamespace->setImplicit();
610*12c85518Srobert }
611*12c85518Srobert return StdNamespace;
612*12c85518Srobert }
613*12c85518Srobert
614*12c85518Srobert /// Retrieve the declaration context that should be used when mangling the given
615*12c85518Srobert /// declaration.
616*12c85518Srobert const DeclContext *
getEffectiveDeclContext(const Decl * D)617*12c85518Srobert ItaniumMangleContextImpl::getEffectiveDeclContext(const Decl *D) {
618*12c85518Srobert // The ABI assumes that lambda closure types that occur within
619*12c85518Srobert // default arguments live in the context of the function. However, due to
620*12c85518Srobert // the way in which Clang parses and creates function declarations, this is
621*12c85518Srobert // not the case: the lambda closure type ends up living in the context
622*12c85518Srobert // where the function itself resides, because the function declaration itself
623*12c85518Srobert // had not yet been created. Fix the context here.
624*12c85518Srobert if (const CXXRecordDecl *RD = dyn_cast<CXXRecordDecl>(D)) {
625*12c85518Srobert if (RD->isLambda())
626*12c85518Srobert if (ParmVarDecl *ContextParam =
627*12c85518Srobert dyn_cast_or_null<ParmVarDecl>(RD->getLambdaContextDecl()))
628*12c85518Srobert return ContextParam->getDeclContext();
629*12c85518Srobert }
630*12c85518Srobert
631*12c85518Srobert // Perform the same check for block literals.
632*12c85518Srobert if (const BlockDecl *BD = dyn_cast<BlockDecl>(D)) {
633*12c85518Srobert if (ParmVarDecl *ContextParam =
634*12c85518Srobert dyn_cast_or_null<ParmVarDecl>(BD->getBlockManglingContextDecl()))
635*12c85518Srobert return ContextParam->getDeclContext();
636*12c85518Srobert }
637*12c85518Srobert
638*12c85518Srobert // On ARM and AArch64, the va_list tag is always mangled as if in the std
639*12c85518Srobert // namespace. We do not represent va_list as actually being in the std
640*12c85518Srobert // namespace in C because this would result in incorrect debug info in C,
641*12c85518Srobert // among other things. It is important for both languages to have the same
642*12c85518Srobert // mangling in order for -fsanitize=cfi-icall to work.
643*12c85518Srobert if (D == getASTContext().getVaListTagDecl()) {
644*12c85518Srobert const llvm::Triple &T = getASTContext().getTargetInfo().getTriple();
645*12c85518Srobert if (T.isARM() || T.isThumb() || T.isAArch64())
646*12c85518Srobert return getStdNamespace();
647*12c85518Srobert }
648*12c85518Srobert
649*12c85518Srobert const DeclContext *DC = D->getDeclContext();
650*12c85518Srobert if (isa<CapturedDecl>(DC) || isa<OMPDeclareReductionDecl>(DC) ||
651*12c85518Srobert isa<OMPDeclareMapperDecl>(DC)) {
652*12c85518Srobert return getEffectiveDeclContext(cast<Decl>(DC));
653*12c85518Srobert }
654*12c85518Srobert
655*12c85518Srobert if (const auto *VD = dyn_cast<VarDecl>(D))
656*12c85518Srobert if (VD->isExternC())
657*12c85518Srobert return getASTContext().getTranslationUnitDecl();
658*12c85518Srobert
659*12c85518Srobert if (const auto *FD = dyn_cast<FunctionDecl>(D))
660*12c85518Srobert if (FD->isExternC())
661*12c85518Srobert return getASTContext().getTranslationUnitDecl();
662*12c85518Srobert
663*12c85518Srobert return DC->getRedeclContext();
664*12c85518Srobert }
665*12c85518Srobert
isInternalLinkageDecl(const NamedDecl * ND)666*12c85518Srobert bool ItaniumMangleContextImpl::isInternalLinkageDecl(const NamedDecl *ND) {
667a9ac8606Spatrick if (ND && ND->getFormalLinkage() == InternalLinkage &&
668a9ac8606Spatrick !ND->isExternallyVisible() &&
669a9ac8606Spatrick getEffectiveDeclContext(ND)->isFileContext() &&
670a9ac8606Spatrick !ND->isInAnonymousNamespace())
671a9ac8606Spatrick return true;
672a9ac8606Spatrick return false;
673a9ac8606Spatrick }
674a9ac8606Spatrick
675a9ac8606Spatrick // Check if this Function Decl needs a unique internal linkage name.
isUniqueInternalLinkageDecl(const NamedDecl * ND)676a9ac8606Spatrick bool ItaniumMangleContextImpl::isUniqueInternalLinkageDecl(
677a9ac8606Spatrick const NamedDecl *ND) {
678a9ac8606Spatrick if (!NeedsUniqueInternalLinkageNames || !ND)
679a9ac8606Spatrick return false;
680a9ac8606Spatrick
681a9ac8606Spatrick const auto *FD = dyn_cast<FunctionDecl>(ND);
682a9ac8606Spatrick if (!FD)
683a9ac8606Spatrick return false;
684a9ac8606Spatrick
685a9ac8606Spatrick // For C functions without prototypes, return false as their
686a9ac8606Spatrick // names should not be mangled.
687a9ac8606Spatrick if (!FD->getType()->getAs<FunctionProtoType>())
688a9ac8606Spatrick return false;
689a9ac8606Spatrick
690a9ac8606Spatrick if (isInternalLinkageDecl(ND))
691a9ac8606Spatrick return true;
692a9ac8606Spatrick
693a9ac8606Spatrick return false;
694a9ac8606Spatrick }
695a9ac8606Spatrick
shouldMangleCXXName(const NamedDecl * D)696e5dd7070Spatrick bool ItaniumMangleContextImpl::shouldMangleCXXName(const NamedDecl *D) {
697*12c85518Srobert if (const auto *FD = dyn_cast<FunctionDecl>(D)) {
698e5dd7070Spatrick LanguageLinkage L = FD->getLanguageLinkage();
699e5dd7070Spatrick // Overloadable functions need mangling.
700e5dd7070Spatrick if (FD->hasAttr<OverloadableAttr>())
701e5dd7070Spatrick return true;
702e5dd7070Spatrick
703e5dd7070Spatrick // "main" is not mangled.
704e5dd7070Spatrick if (FD->isMain())
705e5dd7070Spatrick return false;
706e5dd7070Spatrick
707e5dd7070Spatrick // The Windows ABI expects that we would never mangle "typical"
708e5dd7070Spatrick // user-defined entry points regardless of visibility or freestanding-ness.
709e5dd7070Spatrick //
710e5dd7070Spatrick // N.B. This is distinct from asking about "main". "main" has a lot of
711e5dd7070Spatrick // special rules associated with it in the standard while these
712e5dd7070Spatrick // user-defined entry points are outside of the purview of the standard.
713e5dd7070Spatrick // For example, there can be only one definition for "main" in a standards
714e5dd7070Spatrick // compliant program; however nothing forbids the existence of wmain and
715e5dd7070Spatrick // WinMain in the same translation unit.
716e5dd7070Spatrick if (FD->isMSVCRTEntryPoint())
717e5dd7070Spatrick return false;
718e5dd7070Spatrick
719e5dd7070Spatrick // C++ functions and those whose names are not a simple identifier need
720e5dd7070Spatrick // mangling.
721e5dd7070Spatrick if (!FD->getDeclName().isIdentifier() || L == CXXLanguageLinkage)
722e5dd7070Spatrick return true;
723e5dd7070Spatrick
724e5dd7070Spatrick // C functions are not mangled.
725e5dd7070Spatrick if (L == CLanguageLinkage)
726e5dd7070Spatrick return false;
727e5dd7070Spatrick }
728e5dd7070Spatrick
729e5dd7070Spatrick // Otherwise, no mangling is done outside C++ mode.
730e5dd7070Spatrick if (!getASTContext().getLangOpts().CPlusPlus)
731e5dd7070Spatrick return false;
732e5dd7070Spatrick
733*12c85518Srobert if (const auto *VD = dyn_cast<VarDecl>(D)) {
734*12c85518Srobert // Decompositions are mangled.
735*12c85518Srobert if (isa<DecompositionDecl>(VD))
736*12c85518Srobert return true;
737*12c85518Srobert
738e5dd7070Spatrick // C variables are not mangled.
739e5dd7070Spatrick if (VD->isExternC())
740e5dd7070Spatrick return false;
741e5dd7070Spatrick
742*12c85518Srobert // Variables at global scope are not mangled unless they have internal
743*12c85518Srobert // linkage or are specializations or are attached to a named module.
744e5dd7070Spatrick const DeclContext *DC = getEffectiveDeclContext(D);
745e5dd7070Spatrick // Check for extern variable declared locally.
746e5dd7070Spatrick if (DC->isFunctionOrMethod() && D->hasLinkage())
747*12c85518Srobert while (!DC->isFileContext())
748e5dd7070Spatrick DC = getEffectiveParentContext(DC);
749e5dd7070Spatrick if (DC->isTranslationUnit() && D->getFormalLinkage() != InternalLinkage &&
750e5dd7070Spatrick !CXXNameMangler::shouldHaveAbiTags(*this, VD) &&
751*12c85518Srobert !isa<VarTemplateSpecializationDecl>(VD) &&
752*12c85518Srobert !VD->getOwningModuleForLinkage())
753e5dd7070Spatrick return false;
754e5dd7070Spatrick }
755e5dd7070Spatrick
756e5dd7070Spatrick return true;
757e5dd7070Spatrick }
758e5dd7070Spatrick
writeAbiTags(const NamedDecl * ND,const AbiTagList * AdditionalAbiTags)759e5dd7070Spatrick void CXXNameMangler::writeAbiTags(const NamedDecl *ND,
760e5dd7070Spatrick const AbiTagList *AdditionalAbiTags) {
761e5dd7070Spatrick assert(AbiTags && "require AbiTagState");
762e5dd7070Spatrick AbiTags->write(Out, ND, DisableDerivedAbiTags ? nullptr : AdditionalAbiTags);
763e5dd7070Spatrick }
764e5dd7070Spatrick
mangleSourceNameWithAbiTags(const NamedDecl * ND,const AbiTagList * AdditionalAbiTags)765e5dd7070Spatrick void CXXNameMangler::mangleSourceNameWithAbiTags(
766e5dd7070Spatrick const NamedDecl *ND, const AbiTagList *AdditionalAbiTags) {
767e5dd7070Spatrick mangleSourceName(ND->getIdentifier());
768e5dd7070Spatrick writeAbiTags(ND, AdditionalAbiTags);
769e5dd7070Spatrick }
770e5dd7070Spatrick
mangle(GlobalDecl GD)771ec727ea7Spatrick void CXXNameMangler::mangle(GlobalDecl GD) {
772e5dd7070Spatrick // <mangled-name> ::= _Z <encoding>
773e5dd7070Spatrick // ::= <data name>
774e5dd7070Spatrick // ::= <special-name>
775e5dd7070Spatrick Out << "_Z";
776ec727ea7Spatrick if (isa<FunctionDecl>(GD.getDecl()))
777ec727ea7Spatrick mangleFunctionEncoding(GD);
778a9ac8606Spatrick else if (isa<VarDecl, FieldDecl, MSGuidDecl, TemplateParamObjectDecl,
779a9ac8606Spatrick BindingDecl>(GD.getDecl()))
780a9ac8606Spatrick mangleName(GD);
781ec727ea7Spatrick else if (const IndirectFieldDecl *IFD =
782ec727ea7Spatrick dyn_cast<IndirectFieldDecl>(GD.getDecl()))
783e5dd7070Spatrick mangleName(IFD->getAnonField());
784e5dd7070Spatrick else
785ec727ea7Spatrick llvm_unreachable("unexpected kind of global decl");
786e5dd7070Spatrick }
787e5dd7070Spatrick
mangleFunctionEncoding(GlobalDecl GD)788ec727ea7Spatrick void CXXNameMangler::mangleFunctionEncoding(GlobalDecl GD) {
789ec727ea7Spatrick const FunctionDecl *FD = cast<FunctionDecl>(GD.getDecl());
790e5dd7070Spatrick // <encoding> ::= <function name> <bare-function-type>
791e5dd7070Spatrick
792e5dd7070Spatrick // Don't mangle in the type if this isn't a decl we should typically mangle.
793e5dd7070Spatrick if (!Context.shouldMangleDeclName(FD)) {
794ec727ea7Spatrick mangleName(GD);
795e5dd7070Spatrick return;
796e5dd7070Spatrick }
797e5dd7070Spatrick
798e5dd7070Spatrick AbiTagList ReturnTypeAbiTags = makeFunctionReturnTypeTags(FD);
799e5dd7070Spatrick if (ReturnTypeAbiTags.empty()) {
800e5dd7070Spatrick // There are no tags for return type, the simplest case.
801ec727ea7Spatrick mangleName(GD);
802e5dd7070Spatrick mangleFunctionEncodingBareType(FD);
803e5dd7070Spatrick return;
804e5dd7070Spatrick }
805e5dd7070Spatrick
806e5dd7070Spatrick // Mangle function name and encoding to temporary buffer.
807e5dd7070Spatrick // We have to output name and encoding to the same mangler to get the same
808e5dd7070Spatrick // substitution as it will be in final mangling.
809e5dd7070Spatrick SmallString<256> FunctionEncodingBuf;
810e5dd7070Spatrick llvm::raw_svector_ostream FunctionEncodingStream(FunctionEncodingBuf);
811e5dd7070Spatrick CXXNameMangler FunctionEncodingMangler(*this, FunctionEncodingStream);
812e5dd7070Spatrick // Output name of the function.
813e5dd7070Spatrick FunctionEncodingMangler.disableDerivedAbiTags();
814e5dd7070Spatrick FunctionEncodingMangler.mangleNameWithAbiTags(FD, nullptr);
815e5dd7070Spatrick
816e5dd7070Spatrick // Remember length of the function name in the buffer.
817e5dd7070Spatrick size_t EncodingPositionStart = FunctionEncodingStream.str().size();
818e5dd7070Spatrick FunctionEncodingMangler.mangleFunctionEncodingBareType(FD);
819e5dd7070Spatrick
820e5dd7070Spatrick // Get tags from return type that are not present in function name or
821e5dd7070Spatrick // encoding.
822e5dd7070Spatrick const AbiTagList &UsedAbiTags =
823e5dd7070Spatrick FunctionEncodingMangler.AbiTagsRoot.getSortedUniqueUsedAbiTags();
824e5dd7070Spatrick AbiTagList AdditionalAbiTags(ReturnTypeAbiTags.size());
825e5dd7070Spatrick AdditionalAbiTags.erase(
826e5dd7070Spatrick std::set_difference(ReturnTypeAbiTags.begin(), ReturnTypeAbiTags.end(),
827e5dd7070Spatrick UsedAbiTags.begin(), UsedAbiTags.end(),
828e5dd7070Spatrick AdditionalAbiTags.begin()),
829e5dd7070Spatrick AdditionalAbiTags.end());
830e5dd7070Spatrick
831e5dd7070Spatrick // Output name with implicit tags and function encoding from temporary buffer.
832e5dd7070Spatrick mangleNameWithAbiTags(FD, &AdditionalAbiTags);
833e5dd7070Spatrick Out << FunctionEncodingStream.str().substr(EncodingPositionStart);
834e5dd7070Spatrick
835e5dd7070Spatrick // Function encoding could create new substitutions so we have to add
836e5dd7070Spatrick // temp mangled substitutions to main mangler.
837e5dd7070Spatrick extendSubstitutions(&FunctionEncodingMangler);
838e5dd7070Spatrick }
839e5dd7070Spatrick
mangleFunctionEncodingBareType(const FunctionDecl * FD)840e5dd7070Spatrick void CXXNameMangler::mangleFunctionEncodingBareType(const FunctionDecl *FD) {
841e5dd7070Spatrick if (FD->hasAttr<EnableIfAttr>()) {
842e5dd7070Spatrick FunctionTypeDepthState Saved = FunctionTypeDepth.push();
843e5dd7070Spatrick Out << "Ua9enable_ifI";
844e5dd7070Spatrick for (AttrVec::const_iterator I = FD->getAttrs().begin(),
845e5dd7070Spatrick E = FD->getAttrs().end();
846e5dd7070Spatrick I != E; ++I) {
847e5dd7070Spatrick EnableIfAttr *EIA = dyn_cast<EnableIfAttr>(*I);
848e5dd7070Spatrick if (!EIA)
849e5dd7070Spatrick continue;
850a9ac8606Spatrick if (Context.getASTContext().getLangOpts().getClangABICompat() >
851a9ac8606Spatrick LangOptions::ClangABI::Ver11) {
852a9ac8606Spatrick mangleTemplateArgExpr(EIA->getCond());
853a9ac8606Spatrick } else {
854a9ac8606Spatrick // Prior to Clang 12, we hardcoded the X/E around enable-if's argument,
855a9ac8606Spatrick // even though <template-arg> should not include an X/E around
856a9ac8606Spatrick // <expr-primary>.
857e5dd7070Spatrick Out << 'X';
858e5dd7070Spatrick mangleExpression(EIA->getCond());
859e5dd7070Spatrick Out << 'E';
860e5dd7070Spatrick }
861a9ac8606Spatrick }
862e5dd7070Spatrick Out << 'E';
863e5dd7070Spatrick FunctionTypeDepth.pop(Saved);
864e5dd7070Spatrick }
865e5dd7070Spatrick
866e5dd7070Spatrick // When mangling an inheriting constructor, the bare function type used is
867e5dd7070Spatrick // that of the inherited constructor.
868e5dd7070Spatrick if (auto *CD = dyn_cast<CXXConstructorDecl>(FD))
869e5dd7070Spatrick if (auto Inherited = CD->getInheritedConstructor())
870e5dd7070Spatrick FD = Inherited.getConstructor();
871e5dd7070Spatrick
872e5dd7070Spatrick // Whether the mangling of a function type includes the return type depends on
873e5dd7070Spatrick // the context and the nature of the function. The rules for deciding whether
874e5dd7070Spatrick // the return type is included are:
875e5dd7070Spatrick //
876e5dd7070Spatrick // 1. Template functions (names or types) have return types encoded, with
877e5dd7070Spatrick // the exceptions listed below.
878e5dd7070Spatrick // 2. Function types not appearing as part of a function name mangling,
879e5dd7070Spatrick // e.g. parameters, pointer types, etc., have return type encoded, with the
880e5dd7070Spatrick // exceptions listed below.
881e5dd7070Spatrick // 3. Non-template function names do not have return types encoded.
882e5dd7070Spatrick //
883e5dd7070Spatrick // The exceptions mentioned in (1) and (2) above, for which the return type is
884e5dd7070Spatrick // never included, are
885e5dd7070Spatrick // 1. Constructors.
886e5dd7070Spatrick // 2. Destructors.
887e5dd7070Spatrick // 3. Conversion operator functions, e.g. operator int.
888e5dd7070Spatrick bool MangleReturnType = false;
889e5dd7070Spatrick if (FunctionTemplateDecl *PrimaryTemplate = FD->getPrimaryTemplate()) {
890e5dd7070Spatrick if (!(isa<CXXConstructorDecl>(FD) || isa<CXXDestructorDecl>(FD) ||
891e5dd7070Spatrick isa<CXXConversionDecl>(FD)))
892e5dd7070Spatrick MangleReturnType = true;
893e5dd7070Spatrick
894e5dd7070Spatrick // Mangle the type of the primary template.
895e5dd7070Spatrick FD = PrimaryTemplate->getTemplatedDecl();
896e5dd7070Spatrick }
897e5dd7070Spatrick
898e5dd7070Spatrick mangleBareFunctionType(FD->getType()->castAs<FunctionProtoType>(),
899e5dd7070Spatrick MangleReturnType, FD);
900e5dd7070Spatrick }
901e5dd7070Spatrick
902e5dd7070Spatrick /// Return whether a given namespace is the 'std' namespace.
isStd(const NamespaceDecl * NS)903*12c85518Srobert bool CXXNameMangler::isStd(const NamespaceDecl *NS) {
904*12c85518Srobert if (!Context.getEffectiveParentContext(NS)->isTranslationUnit())
905e5dd7070Spatrick return false;
906e5dd7070Spatrick
907e5dd7070Spatrick const IdentifierInfo *II = NS->getOriginalNamespace()->getIdentifier();
908e5dd7070Spatrick return II && II->isStr("std");
909e5dd7070Spatrick }
910e5dd7070Spatrick
911e5dd7070Spatrick // isStdNamespace - Return whether a given decl context is a toplevel 'std'
912e5dd7070Spatrick // namespace.
isStdNamespace(const DeclContext * DC)913*12c85518Srobert bool CXXNameMangler::isStdNamespace(const DeclContext *DC) {
914e5dd7070Spatrick if (!DC->isNamespace())
915e5dd7070Spatrick return false;
916e5dd7070Spatrick
917e5dd7070Spatrick return isStd(cast<NamespaceDecl>(DC));
918e5dd7070Spatrick }
919e5dd7070Spatrick
920ec727ea7Spatrick static const GlobalDecl
isTemplate(GlobalDecl GD,const TemplateArgumentList * & TemplateArgs)921ec727ea7Spatrick isTemplate(GlobalDecl GD, const TemplateArgumentList *&TemplateArgs) {
922ec727ea7Spatrick const NamedDecl *ND = cast<NamedDecl>(GD.getDecl());
923e5dd7070Spatrick // Check if we have a function template.
924e5dd7070Spatrick if (const FunctionDecl *FD = dyn_cast<FunctionDecl>(ND)) {
925e5dd7070Spatrick if (const TemplateDecl *TD = FD->getPrimaryTemplate()) {
926e5dd7070Spatrick TemplateArgs = FD->getTemplateSpecializationArgs();
927ec727ea7Spatrick return GD.getWithDecl(TD);
928e5dd7070Spatrick }
929e5dd7070Spatrick }
930e5dd7070Spatrick
931e5dd7070Spatrick // Check if we have a class template.
932e5dd7070Spatrick if (const ClassTemplateSpecializationDecl *Spec =
933e5dd7070Spatrick dyn_cast<ClassTemplateSpecializationDecl>(ND)) {
934e5dd7070Spatrick TemplateArgs = &Spec->getTemplateArgs();
935ec727ea7Spatrick return GD.getWithDecl(Spec->getSpecializedTemplate());
936e5dd7070Spatrick }
937e5dd7070Spatrick
938e5dd7070Spatrick // Check if we have a variable template.
939e5dd7070Spatrick if (const VarTemplateSpecializationDecl *Spec =
940e5dd7070Spatrick dyn_cast<VarTemplateSpecializationDecl>(ND)) {
941e5dd7070Spatrick TemplateArgs = &Spec->getTemplateArgs();
942ec727ea7Spatrick return GD.getWithDecl(Spec->getSpecializedTemplate());
943e5dd7070Spatrick }
944e5dd7070Spatrick
945ec727ea7Spatrick return GlobalDecl();
946e5dd7070Spatrick }
947e5dd7070Spatrick
asTemplateName(GlobalDecl GD)948a9ac8606Spatrick static TemplateName asTemplateName(GlobalDecl GD) {
949a9ac8606Spatrick const TemplateDecl *TD = dyn_cast_or_null<TemplateDecl>(GD.getDecl());
950a9ac8606Spatrick return TemplateName(const_cast<TemplateDecl*>(TD));
951a9ac8606Spatrick }
952a9ac8606Spatrick
mangleName(GlobalDecl GD)953ec727ea7Spatrick void CXXNameMangler::mangleName(GlobalDecl GD) {
954ec727ea7Spatrick const NamedDecl *ND = cast<NamedDecl>(GD.getDecl());
955e5dd7070Spatrick if (const VarDecl *VD = dyn_cast<VarDecl>(ND)) {
956e5dd7070Spatrick // Variables should have implicit tags from its type.
957e5dd7070Spatrick AbiTagList VariableTypeAbiTags = makeVariableTypeTags(VD);
958e5dd7070Spatrick if (VariableTypeAbiTags.empty()) {
959e5dd7070Spatrick // Simple case no variable type tags.
960e5dd7070Spatrick mangleNameWithAbiTags(VD, nullptr);
961e5dd7070Spatrick return;
962e5dd7070Spatrick }
963e5dd7070Spatrick
964e5dd7070Spatrick // Mangle variable name to null stream to collect tags.
965e5dd7070Spatrick llvm::raw_null_ostream NullOutStream;
966e5dd7070Spatrick CXXNameMangler VariableNameMangler(*this, NullOutStream);
967e5dd7070Spatrick VariableNameMangler.disableDerivedAbiTags();
968e5dd7070Spatrick VariableNameMangler.mangleNameWithAbiTags(VD, nullptr);
969e5dd7070Spatrick
970e5dd7070Spatrick // Get tags from variable type that are not present in its name.
971e5dd7070Spatrick const AbiTagList &UsedAbiTags =
972e5dd7070Spatrick VariableNameMangler.AbiTagsRoot.getSortedUniqueUsedAbiTags();
973e5dd7070Spatrick AbiTagList AdditionalAbiTags(VariableTypeAbiTags.size());
974e5dd7070Spatrick AdditionalAbiTags.erase(
975e5dd7070Spatrick std::set_difference(VariableTypeAbiTags.begin(),
976e5dd7070Spatrick VariableTypeAbiTags.end(), UsedAbiTags.begin(),
977e5dd7070Spatrick UsedAbiTags.end(), AdditionalAbiTags.begin()),
978e5dd7070Spatrick AdditionalAbiTags.end());
979e5dd7070Spatrick
980e5dd7070Spatrick // Output name with implicit tags.
981e5dd7070Spatrick mangleNameWithAbiTags(VD, &AdditionalAbiTags);
982e5dd7070Spatrick } else {
983ec727ea7Spatrick mangleNameWithAbiTags(GD, nullptr);
984e5dd7070Spatrick }
985e5dd7070Spatrick }
986e5dd7070Spatrick
GetLocalClassDecl(const Decl * D)987*12c85518Srobert const RecordDecl *CXXNameMangler::GetLocalClassDecl(const Decl *D) {
988*12c85518Srobert const DeclContext *DC = Context.getEffectiveDeclContext(D);
989*12c85518Srobert while (!DC->isNamespace() && !DC->isTranslationUnit()) {
990*12c85518Srobert if (isLocalContainerContext(DC))
991*12c85518Srobert return dyn_cast<RecordDecl>(D);
992*12c85518Srobert D = cast<Decl>(DC);
993*12c85518Srobert DC = Context.getEffectiveDeclContext(D);
994*12c85518Srobert }
995*12c85518Srobert return nullptr;
996*12c85518Srobert }
997*12c85518Srobert
mangleNameWithAbiTags(GlobalDecl GD,const AbiTagList * AdditionalAbiTags)998ec727ea7Spatrick void CXXNameMangler::mangleNameWithAbiTags(GlobalDecl GD,
999e5dd7070Spatrick const AbiTagList *AdditionalAbiTags) {
1000ec727ea7Spatrick const NamedDecl *ND = cast<NamedDecl>(GD.getDecl());
1001e5dd7070Spatrick // <name> ::= [<module-name>] <nested-name>
1002e5dd7070Spatrick // ::= [<module-name>] <unscoped-name>
1003e5dd7070Spatrick // ::= [<module-name>] <unscoped-template-name> <template-args>
1004e5dd7070Spatrick // ::= <local-name>
1005e5dd7070Spatrick //
1006*12c85518Srobert const DeclContext *DC = Context.getEffectiveDeclContext(ND);
1007e5dd7070Spatrick
1008e5dd7070Spatrick // If this is an extern variable declared locally, the relevant DeclContext
1009e5dd7070Spatrick // is that of the containing namespace, or the translation unit.
1010e5dd7070Spatrick // FIXME: This is a hack; extern variables declared locally should have
1011e5dd7070Spatrick // a proper semantic declaration context!
1012e5dd7070Spatrick if (isLocalContainerContext(DC) && ND->hasLinkage() && !isLambda(ND))
1013e5dd7070Spatrick while (!DC->isNamespace() && !DC->isTranslationUnit())
1014*12c85518Srobert DC = Context.getEffectiveParentContext(DC);
1015e5dd7070Spatrick else if (GetLocalClassDecl(ND)) {
1016ec727ea7Spatrick mangleLocalName(GD, AdditionalAbiTags);
1017e5dd7070Spatrick return;
1018e5dd7070Spatrick }
1019e5dd7070Spatrick
1020*12c85518Srobert assert(!isa<LinkageSpecDecl>(DC) && "context cannot be LinkageSpecDecl");
1021e5dd7070Spatrick
1022e5dd7070Spatrick if (isLocalContainerContext(DC)) {
1023ec727ea7Spatrick mangleLocalName(GD, AdditionalAbiTags);
1024e5dd7070Spatrick return;
1025e5dd7070Spatrick }
1026e5dd7070Spatrick
1027a9ac8606Spatrick // Closures can require a nested-name mangling even if they're semantically
1028a9ac8606Spatrick // in the global namespace.
1029a9ac8606Spatrick if (const NamedDecl *PrefixND = getClosurePrefix(ND)) {
1030a9ac8606Spatrick mangleNestedNameWithClosurePrefix(GD, PrefixND, AdditionalAbiTags);
1031a9ac8606Spatrick return;
1032a9ac8606Spatrick }
1033a9ac8606Spatrick
1034e5dd7070Spatrick if (DC->isTranslationUnit() || isStdNamespace(DC)) {
1035e5dd7070Spatrick // Check if we have a template.
1036e5dd7070Spatrick const TemplateArgumentList *TemplateArgs = nullptr;
1037ec727ea7Spatrick if (GlobalDecl TD = isTemplate(GD, TemplateArgs)) {
1038*12c85518Srobert mangleUnscopedTemplateName(TD, DC, AdditionalAbiTags);
1039a9ac8606Spatrick mangleTemplateArgs(asTemplateName(TD), *TemplateArgs);
1040e5dd7070Spatrick return;
1041e5dd7070Spatrick }
1042e5dd7070Spatrick
1043*12c85518Srobert mangleUnscopedName(GD, DC, AdditionalAbiTags);
1044e5dd7070Spatrick return;
1045e5dd7070Spatrick }
1046e5dd7070Spatrick
1047ec727ea7Spatrick mangleNestedName(GD, DC, AdditionalAbiTags);
1048e5dd7070Spatrick }
1049e5dd7070Spatrick
mangleModuleName(const NamedDecl * ND)1050*12c85518Srobert void CXXNameMangler::mangleModuleName(const NamedDecl *ND) {
1051*12c85518Srobert if (ND->isExternallyVisible())
1052*12c85518Srobert if (Module *M = ND->getOwningModuleForLinkage())
1053*12c85518Srobert mangleModuleNamePrefix(M->getPrimaryModuleInterfaceName());
1054e5dd7070Spatrick }
1055e5dd7070Spatrick
1056*12c85518Srobert // <module-name> ::= <module-subname>
1057*12c85518Srobert // ::= <module-name> <module-subname>
1058*12c85518Srobert // ::= <substitution>
1059*12c85518Srobert // <module-subname> ::= W <source-name>
1060*12c85518Srobert // ::= W P <source-name>
mangleModuleNamePrefix(StringRef Name,bool IsPartition)1061*12c85518Srobert void CXXNameMangler::mangleModuleNamePrefix(StringRef Name, bool IsPartition) {
1062*12c85518Srobert // <substitution> ::= S <seq-id> _
1063e5dd7070Spatrick auto It = ModuleSubstitutions.find(Name);
1064e5dd7070Spatrick if (It != ModuleSubstitutions.end()) {
1065*12c85518Srobert Out << 'S';
1066*12c85518Srobert mangleSeqID(It->second);
1067e5dd7070Spatrick return;
1068e5dd7070Spatrick }
1069e5dd7070Spatrick
1070e5dd7070Spatrick // FIXME: Preserve hierarchy in module names rather than flattening
1071e5dd7070Spatrick // them to strings; use Module*s as substitution keys.
1072e5dd7070Spatrick auto Parts = Name.rsplit('.');
1073e5dd7070Spatrick if (Parts.second.empty())
1074e5dd7070Spatrick Parts.second = Parts.first;
1075*12c85518Srobert else {
1076*12c85518Srobert mangleModuleNamePrefix(Parts.first, IsPartition);
1077*12c85518Srobert IsPartition = false;
1078*12c85518Srobert }
1079e5dd7070Spatrick
1080*12c85518Srobert Out << 'W';
1081*12c85518Srobert if (IsPartition)
1082*12c85518Srobert Out << 'P';
1083e5dd7070Spatrick Out << Parts.second.size() << Parts.second;
1084*12c85518Srobert ModuleSubstitutions.insert({Name, SeqID++});
1085e5dd7070Spatrick }
1086e5dd7070Spatrick
mangleTemplateName(const TemplateDecl * TD,ArrayRef<TemplateArgument> Args)1087e5dd7070Spatrick void CXXNameMangler::mangleTemplateName(const TemplateDecl *TD,
1088*12c85518Srobert ArrayRef<TemplateArgument> Args) {
1089*12c85518Srobert const DeclContext *DC = Context.getEffectiveDeclContext(TD);
1090e5dd7070Spatrick
1091e5dd7070Spatrick if (DC->isTranslationUnit() || isStdNamespace(DC)) {
1092*12c85518Srobert mangleUnscopedTemplateName(TD, DC, nullptr);
1093*12c85518Srobert mangleTemplateArgs(asTemplateName(TD), Args);
1094e5dd7070Spatrick } else {
1095*12c85518Srobert mangleNestedName(TD, Args);
1096e5dd7070Spatrick }
1097e5dd7070Spatrick }
1098e5dd7070Spatrick
mangleUnscopedName(GlobalDecl GD,const DeclContext * DC,const AbiTagList * AdditionalAbiTags)1099*12c85518Srobert void CXXNameMangler::mangleUnscopedName(GlobalDecl GD, const DeclContext *DC,
1100e5dd7070Spatrick const AbiTagList *AdditionalAbiTags) {
1101e5dd7070Spatrick // <unscoped-name> ::= <unqualified-name>
1102e5dd7070Spatrick // ::= St <unqualified-name> # ::std::
1103e5dd7070Spatrick
1104*12c85518Srobert assert(!isa<LinkageSpecDecl>(DC) && "unskipped LinkageSpecDecl");
1105*12c85518Srobert if (isStdNamespace(DC))
1106e5dd7070Spatrick Out << "St";
1107e5dd7070Spatrick
1108*12c85518Srobert mangleUnqualifiedName(GD, DC, AdditionalAbiTags);
1109e5dd7070Spatrick }
1110e5dd7070Spatrick
mangleUnscopedTemplateName(GlobalDecl GD,const DeclContext * DC,const AbiTagList * AdditionalAbiTags)1111e5dd7070Spatrick void CXXNameMangler::mangleUnscopedTemplateName(
1112*12c85518Srobert GlobalDecl GD, const DeclContext *DC, const AbiTagList *AdditionalAbiTags) {
1113ec727ea7Spatrick const TemplateDecl *ND = cast<TemplateDecl>(GD.getDecl());
1114e5dd7070Spatrick // <unscoped-template-name> ::= <unscoped-name>
1115e5dd7070Spatrick // ::= <substitution>
1116e5dd7070Spatrick if (mangleSubstitution(ND))
1117e5dd7070Spatrick return;
1118e5dd7070Spatrick
1119e5dd7070Spatrick // <template-template-param> ::= <template-param>
1120e5dd7070Spatrick if (const auto *TTP = dyn_cast<TemplateTemplateParmDecl>(ND)) {
1121e5dd7070Spatrick assert(!AdditionalAbiTags &&
1122e5dd7070Spatrick "template template param cannot have abi tags");
1123e5dd7070Spatrick mangleTemplateParameter(TTP->getDepth(), TTP->getIndex());
1124e5dd7070Spatrick } else if (isa<BuiltinTemplateDecl>(ND) || isa<ConceptDecl>(ND)) {
1125*12c85518Srobert mangleUnscopedName(GD, DC, AdditionalAbiTags);
1126e5dd7070Spatrick } else {
1127*12c85518Srobert mangleUnscopedName(GD.getWithDecl(ND->getTemplatedDecl()), DC,
1128*12c85518Srobert AdditionalAbiTags);
1129e5dd7070Spatrick }
1130e5dd7070Spatrick
1131e5dd7070Spatrick addSubstitution(ND);
1132e5dd7070Spatrick }
1133e5dd7070Spatrick
mangleFloat(const llvm::APFloat & f)1134e5dd7070Spatrick void CXXNameMangler::mangleFloat(const llvm::APFloat &f) {
1135e5dd7070Spatrick // ABI:
1136e5dd7070Spatrick // Floating-point literals are encoded using a fixed-length
1137e5dd7070Spatrick // lowercase hexadecimal string corresponding to the internal
1138e5dd7070Spatrick // representation (IEEE on Itanium), high-order bytes first,
1139e5dd7070Spatrick // without leading zeroes. For example: "Lf bf800000 E" is -1.0f
1140e5dd7070Spatrick // on Itanium.
1141e5dd7070Spatrick // The 'without leading zeroes' thing seems to be an editorial
1142e5dd7070Spatrick // mistake; see the discussion on cxx-abi-dev beginning on
1143e5dd7070Spatrick // 2012-01-16.
1144e5dd7070Spatrick
1145e5dd7070Spatrick // Our requirements here are just barely weird enough to justify
1146e5dd7070Spatrick // using a custom algorithm instead of post-processing APInt::toString().
1147e5dd7070Spatrick
1148e5dd7070Spatrick llvm::APInt valueBits = f.bitcastToAPInt();
1149e5dd7070Spatrick unsigned numCharacters = (valueBits.getBitWidth() + 3) / 4;
1150e5dd7070Spatrick assert(numCharacters != 0);
1151e5dd7070Spatrick
1152e5dd7070Spatrick // Allocate a buffer of the right number of characters.
1153e5dd7070Spatrick SmallVector<char, 20> buffer(numCharacters);
1154e5dd7070Spatrick
1155e5dd7070Spatrick // Fill the buffer left-to-right.
1156e5dd7070Spatrick for (unsigned stringIndex = 0; stringIndex != numCharacters; ++stringIndex) {
1157e5dd7070Spatrick // The bit-index of the next hex digit.
1158e5dd7070Spatrick unsigned digitBitIndex = 4 * (numCharacters - stringIndex - 1);
1159e5dd7070Spatrick
1160e5dd7070Spatrick // Project out 4 bits starting at 'digitIndex'.
1161e5dd7070Spatrick uint64_t hexDigit = valueBits.getRawData()[digitBitIndex / 64];
1162e5dd7070Spatrick hexDigit >>= (digitBitIndex % 64);
1163e5dd7070Spatrick hexDigit &= 0xF;
1164e5dd7070Spatrick
1165e5dd7070Spatrick // Map that over to a lowercase hex digit.
1166e5dd7070Spatrick static const char charForHex[16] = {
1167e5dd7070Spatrick '0', '1', '2', '3', '4', '5', '6', '7',
1168e5dd7070Spatrick '8', '9', 'a', 'b', 'c', 'd', 'e', 'f'
1169e5dd7070Spatrick };
1170e5dd7070Spatrick buffer[stringIndex] = charForHex[hexDigit];
1171e5dd7070Spatrick }
1172e5dd7070Spatrick
1173e5dd7070Spatrick Out.write(buffer.data(), numCharacters);
1174e5dd7070Spatrick }
1175e5dd7070Spatrick
mangleFloatLiteral(QualType T,const llvm::APFloat & V)1176a9ac8606Spatrick void CXXNameMangler::mangleFloatLiteral(QualType T, const llvm::APFloat &V) {
1177a9ac8606Spatrick Out << 'L';
1178a9ac8606Spatrick mangleType(T);
1179a9ac8606Spatrick mangleFloat(V);
1180a9ac8606Spatrick Out << 'E';
1181a9ac8606Spatrick }
1182a9ac8606Spatrick
mangleFixedPointLiteral()1183a9ac8606Spatrick void CXXNameMangler::mangleFixedPointLiteral() {
1184a9ac8606Spatrick DiagnosticsEngine &Diags = Context.getDiags();
1185a9ac8606Spatrick unsigned DiagID = Diags.getCustomDiagID(
1186a9ac8606Spatrick DiagnosticsEngine::Error, "cannot mangle fixed point literals yet");
1187a9ac8606Spatrick Diags.Report(DiagID);
1188a9ac8606Spatrick }
1189a9ac8606Spatrick
mangleNullPointer(QualType T)1190a9ac8606Spatrick void CXXNameMangler::mangleNullPointer(QualType T) {
1191a9ac8606Spatrick // <expr-primary> ::= L <type> 0 E
1192a9ac8606Spatrick Out << 'L';
1193a9ac8606Spatrick mangleType(T);
1194a9ac8606Spatrick Out << "0E";
1195a9ac8606Spatrick }
1196a9ac8606Spatrick
mangleNumber(const llvm::APSInt & Value)1197e5dd7070Spatrick void CXXNameMangler::mangleNumber(const llvm::APSInt &Value) {
1198e5dd7070Spatrick if (Value.isSigned() && Value.isNegative()) {
1199e5dd7070Spatrick Out << 'n';
1200e5dd7070Spatrick Value.abs().print(Out, /*signed*/ false);
1201e5dd7070Spatrick } else {
1202e5dd7070Spatrick Value.print(Out, /*signed*/ false);
1203e5dd7070Spatrick }
1204e5dd7070Spatrick }
1205e5dd7070Spatrick
mangleNumber(int64_t Number)1206e5dd7070Spatrick void CXXNameMangler::mangleNumber(int64_t Number) {
1207e5dd7070Spatrick // <number> ::= [n] <non-negative decimal integer>
1208e5dd7070Spatrick if (Number < 0) {
1209e5dd7070Spatrick Out << 'n';
1210e5dd7070Spatrick Number = -Number;
1211e5dd7070Spatrick }
1212e5dd7070Spatrick
1213e5dd7070Spatrick Out << Number;
1214e5dd7070Spatrick }
1215e5dd7070Spatrick
mangleCallOffset(int64_t NonVirtual,int64_t Virtual)1216e5dd7070Spatrick void CXXNameMangler::mangleCallOffset(int64_t NonVirtual, int64_t Virtual) {
1217e5dd7070Spatrick // <call-offset> ::= h <nv-offset> _
1218e5dd7070Spatrick // ::= v <v-offset> _
1219e5dd7070Spatrick // <nv-offset> ::= <offset number> # non-virtual base override
1220e5dd7070Spatrick // <v-offset> ::= <offset number> _ <virtual offset number>
1221e5dd7070Spatrick // # virtual base override, with vcall offset
1222e5dd7070Spatrick if (!Virtual) {
1223e5dd7070Spatrick Out << 'h';
1224e5dd7070Spatrick mangleNumber(NonVirtual);
1225e5dd7070Spatrick Out << '_';
1226e5dd7070Spatrick return;
1227e5dd7070Spatrick }
1228e5dd7070Spatrick
1229e5dd7070Spatrick Out << 'v';
1230e5dd7070Spatrick mangleNumber(NonVirtual);
1231e5dd7070Spatrick Out << '_';
1232e5dd7070Spatrick mangleNumber(Virtual);
1233e5dd7070Spatrick Out << '_';
1234e5dd7070Spatrick }
1235e5dd7070Spatrick
manglePrefix(QualType type)1236e5dd7070Spatrick void CXXNameMangler::manglePrefix(QualType type) {
1237e5dd7070Spatrick if (const auto *TST = type->getAs<TemplateSpecializationType>()) {
1238e5dd7070Spatrick if (!mangleSubstitution(QualType(TST, 0))) {
1239e5dd7070Spatrick mangleTemplatePrefix(TST->getTemplateName());
1240e5dd7070Spatrick
1241e5dd7070Spatrick // FIXME: GCC does not appear to mangle the template arguments when
1242e5dd7070Spatrick // the template in question is a dependent template name. Should we
1243e5dd7070Spatrick // emulate that badness?
1244*12c85518Srobert mangleTemplateArgs(TST->getTemplateName(), TST->template_arguments());
1245e5dd7070Spatrick addSubstitution(QualType(TST, 0));
1246e5dd7070Spatrick }
1247e5dd7070Spatrick } else if (const auto *DTST =
1248e5dd7070Spatrick type->getAs<DependentTemplateSpecializationType>()) {
1249e5dd7070Spatrick if (!mangleSubstitution(QualType(DTST, 0))) {
1250e5dd7070Spatrick TemplateName Template = getASTContext().getDependentTemplateName(
1251e5dd7070Spatrick DTST->getQualifier(), DTST->getIdentifier());
1252e5dd7070Spatrick mangleTemplatePrefix(Template);
1253e5dd7070Spatrick
1254e5dd7070Spatrick // FIXME: GCC does not appear to mangle the template arguments when
1255e5dd7070Spatrick // the template in question is a dependent template name. Should we
1256e5dd7070Spatrick // emulate that badness?
1257*12c85518Srobert mangleTemplateArgs(Template, DTST->template_arguments());
1258e5dd7070Spatrick addSubstitution(QualType(DTST, 0));
1259e5dd7070Spatrick }
1260e5dd7070Spatrick } else {
1261e5dd7070Spatrick // We use the QualType mangle type variant here because it handles
1262e5dd7070Spatrick // substitutions.
1263e5dd7070Spatrick mangleType(type);
1264e5dd7070Spatrick }
1265e5dd7070Spatrick }
1266e5dd7070Spatrick
1267e5dd7070Spatrick /// Mangle everything prior to the base-unresolved-name in an unresolved-name.
1268e5dd7070Spatrick ///
1269e5dd7070Spatrick /// \param recursive - true if this is being called recursively,
1270e5dd7070Spatrick /// i.e. if there is more prefix "to the right".
mangleUnresolvedPrefix(NestedNameSpecifier * qualifier,bool recursive)1271e5dd7070Spatrick void CXXNameMangler::mangleUnresolvedPrefix(NestedNameSpecifier *qualifier,
1272e5dd7070Spatrick bool recursive) {
1273e5dd7070Spatrick
1274e5dd7070Spatrick // x, ::x
1275e5dd7070Spatrick // <unresolved-name> ::= [gs] <base-unresolved-name>
1276e5dd7070Spatrick
1277e5dd7070Spatrick // T::x / decltype(p)::x
1278e5dd7070Spatrick // <unresolved-name> ::= sr <unresolved-type> <base-unresolved-name>
1279e5dd7070Spatrick
1280e5dd7070Spatrick // T::N::x /decltype(p)::N::x
1281e5dd7070Spatrick // <unresolved-name> ::= srN <unresolved-type> <unresolved-qualifier-level>+ E
1282e5dd7070Spatrick // <base-unresolved-name>
1283e5dd7070Spatrick
1284e5dd7070Spatrick // A::x, N::y, A<T>::z; "gs" means leading "::"
1285e5dd7070Spatrick // <unresolved-name> ::= [gs] sr <unresolved-qualifier-level>+ E
1286e5dd7070Spatrick // <base-unresolved-name>
1287e5dd7070Spatrick
1288e5dd7070Spatrick switch (qualifier->getKind()) {
1289e5dd7070Spatrick case NestedNameSpecifier::Global:
1290e5dd7070Spatrick Out << "gs";
1291e5dd7070Spatrick
1292e5dd7070Spatrick // We want an 'sr' unless this is the entire NNS.
1293e5dd7070Spatrick if (recursive)
1294e5dd7070Spatrick Out << "sr";
1295e5dd7070Spatrick
1296e5dd7070Spatrick // We never want an 'E' here.
1297e5dd7070Spatrick return;
1298e5dd7070Spatrick
1299e5dd7070Spatrick case NestedNameSpecifier::Super:
1300e5dd7070Spatrick llvm_unreachable("Can't mangle __super specifier");
1301e5dd7070Spatrick
1302e5dd7070Spatrick case NestedNameSpecifier::Namespace:
1303e5dd7070Spatrick if (qualifier->getPrefix())
1304e5dd7070Spatrick mangleUnresolvedPrefix(qualifier->getPrefix(),
1305e5dd7070Spatrick /*recursive*/ true);
1306e5dd7070Spatrick else
1307e5dd7070Spatrick Out << "sr";
1308e5dd7070Spatrick mangleSourceNameWithAbiTags(qualifier->getAsNamespace());
1309e5dd7070Spatrick break;
1310e5dd7070Spatrick case NestedNameSpecifier::NamespaceAlias:
1311e5dd7070Spatrick if (qualifier->getPrefix())
1312e5dd7070Spatrick mangleUnresolvedPrefix(qualifier->getPrefix(),
1313e5dd7070Spatrick /*recursive*/ true);
1314e5dd7070Spatrick else
1315e5dd7070Spatrick Out << "sr";
1316e5dd7070Spatrick mangleSourceNameWithAbiTags(qualifier->getAsNamespaceAlias());
1317e5dd7070Spatrick break;
1318e5dd7070Spatrick
1319e5dd7070Spatrick case NestedNameSpecifier::TypeSpec:
1320e5dd7070Spatrick case NestedNameSpecifier::TypeSpecWithTemplate: {
1321e5dd7070Spatrick const Type *type = qualifier->getAsType();
1322e5dd7070Spatrick
1323e5dd7070Spatrick // We only want to use an unresolved-type encoding if this is one of:
1324e5dd7070Spatrick // - a decltype
1325e5dd7070Spatrick // - a template type parameter
1326e5dd7070Spatrick // - a template template parameter with arguments
1327e5dd7070Spatrick // In all of these cases, we should have no prefix.
1328e5dd7070Spatrick if (qualifier->getPrefix()) {
1329e5dd7070Spatrick mangleUnresolvedPrefix(qualifier->getPrefix(),
1330e5dd7070Spatrick /*recursive*/ true);
1331e5dd7070Spatrick } else {
1332e5dd7070Spatrick // Otherwise, all the cases want this.
1333e5dd7070Spatrick Out << "sr";
1334e5dd7070Spatrick }
1335e5dd7070Spatrick
1336e5dd7070Spatrick if (mangleUnresolvedTypeOrSimpleId(QualType(type, 0), recursive ? "N" : ""))
1337e5dd7070Spatrick return;
1338e5dd7070Spatrick
1339e5dd7070Spatrick break;
1340e5dd7070Spatrick }
1341e5dd7070Spatrick
1342e5dd7070Spatrick case NestedNameSpecifier::Identifier:
1343e5dd7070Spatrick // Member expressions can have these without prefixes.
1344e5dd7070Spatrick if (qualifier->getPrefix())
1345e5dd7070Spatrick mangleUnresolvedPrefix(qualifier->getPrefix(),
1346e5dd7070Spatrick /*recursive*/ true);
1347e5dd7070Spatrick else
1348e5dd7070Spatrick Out << "sr";
1349e5dd7070Spatrick
1350e5dd7070Spatrick mangleSourceName(qualifier->getAsIdentifier());
1351e5dd7070Spatrick // An Identifier has no type information, so we can't emit abi tags for it.
1352e5dd7070Spatrick break;
1353e5dd7070Spatrick }
1354e5dd7070Spatrick
1355e5dd7070Spatrick // If this was the innermost part of the NNS, and we fell out to
1356e5dd7070Spatrick // here, append an 'E'.
1357e5dd7070Spatrick if (!recursive)
1358e5dd7070Spatrick Out << 'E';
1359e5dd7070Spatrick }
1360e5dd7070Spatrick
1361e5dd7070Spatrick /// Mangle an unresolved-name, which is generally used for names which
1362e5dd7070Spatrick /// weren't resolved to specific entities.
mangleUnresolvedName(NestedNameSpecifier * qualifier,DeclarationName name,const TemplateArgumentLoc * TemplateArgs,unsigned NumTemplateArgs,unsigned knownArity)1363e5dd7070Spatrick void CXXNameMangler::mangleUnresolvedName(
1364e5dd7070Spatrick NestedNameSpecifier *qualifier, DeclarationName name,
1365e5dd7070Spatrick const TemplateArgumentLoc *TemplateArgs, unsigned NumTemplateArgs,
1366e5dd7070Spatrick unsigned knownArity) {
1367e5dd7070Spatrick if (qualifier) mangleUnresolvedPrefix(qualifier);
1368e5dd7070Spatrick switch (name.getNameKind()) {
1369e5dd7070Spatrick // <base-unresolved-name> ::= <simple-id>
1370e5dd7070Spatrick case DeclarationName::Identifier:
1371e5dd7070Spatrick mangleSourceName(name.getAsIdentifierInfo());
1372e5dd7070Spatrick break;
1373e5dd7070Spatrick // <base-unresolved-name> ::= dn <destructor-name>
1374e5dd7070Spatrick case DeclarationName::CXXDestructorName:
1375e5dd7070Spatrick Out << "dn";
1376e5dd7070Spatrick mangleUnresolvedTypeOrSimpleId(name.getCXXNameType());
1377e5dd7070Spatrick break;
1378e5dd7070Spatrick // <base-unresolved-name> ::= on <operator-name>
1379e5dd7070Spatrick case DeclarationName::CXXConversionFunctionName:
1380e5dd7070Spatrick case DeclarationName::CXXLiteralOperatorName:
1381e5dd7070Spatrick case DeclarationName::CXXOperatorName:
1382e5dd7070Spatrick Out << "on";
1383e5dd7070Spatrick mangleOperatorName(name, knownArity);
1384e5dd7070Spatrick break;
1385e5dd7070Spatrick case DeclarationName::CXXConstructorName:
1386e5dd7070Spatrick llvm_unreachable("Can't mangle a constructor name!");
1387e5dd7070Spatrick case DeclarationName::CXXUsingDirective:
1388e5dd7070Spatrick llvm_unreachable("Can't mangle a using directive name!");
1389e5dd7070Spatrick case DeclarationName::CXXDeductionGuideName:
1390e5dd7070Spatrick llvm_unreachable("Can't mangle a deduction guide name!");
1391e5dd7070Spatrick case DeclarationName::ObjCMultiArgSelector:
1392e5dd7070Spatrick case DeclarationName::ObjCOneArgSelector:
1393e5dd7070Spatrick case DeclarationName::ObjCZeroArgSelector:
1394e5dd7070Spatrick llvm_unreachable("Can't mangle Objective-C selector names here!");
1395e5dd7070Spatrick }
1396e5dd7070Spatrick
1397e5dd7070Spatrick // The <simple-id> and on <operator-name> productions end in an optional
1398e5dd7070Spatrick // <template-args>.
1399e5dd7070Spatrick if (TemplateArgs)
1400a9ac8606Spatrick mangleTemplateArgs(TemplateName(), TemplateArgs, NumTemplateArgs);
1401e5dd7070Spatrick }
1402e5dd7070Spatrick
mangleUnqualifiedName(GlobalDecl GD,DeclarationName Name,const DeclContext * DC,unsigned KnownArity,const AbiTagList * AdditionalAbiTags)1403*12c85518Srobert void CXXNameMangler::mangleUnqualifiedName(
1404*12c85518Srobert GlobalDecl GD, DeclarationName Name, const DeclContext *DC,
1405*12c85518Srobert unsigned KnownArity, const AbiTagList *AdditionalAbiTags) {
1406ec727ea7Spatrick const NamedDecl *ND = cast_or_null<NamedDecl>(GD.getDecl());
1407*12c85518Srobert // <unqualified-name> ::= [<module-name>] <operator-name>
1408e5dd7070Spatrick // ::= <ctor-dtor-name>
1409*12c85518Srobert // ::= [<module-name>] <source-name>
1410*12c85518Srobert // ::= [<module-name>] DC <source-name>* E
1411*12c85518Srobert
1412*12c85518Srobert if (ND && DC && DC->isFileContext())
1413*12c85518Srobert mangleModuleName(ND);
1414*12c85518Srobert
1415*12c85518Srobert unsigned Arity = KnownArity;
1416e5dd7070Spatrick switch (Name.getNameKind()) {
1417e5dd7070Spatrick case DeclarationName::Identifier: {
1418e5dd7070Spatrick const IdentifierInfo *II = Name.getAsIdentifierInfo();
1419e5dd7070Spatrick
1420e5dd7070Spatrick // We mangle decomposition declarations as the names of their bindings.
1421e5dd7070Spatrick if (auto *DD = dyn_cast<DecompositionDecl>(ND)) {
1422e5dd7070Spatrick // FIXME: Non-standard mangling for decomposition declarations:
1423e5dd7070Spatrick //
1424e5dd7070Spatrick // <unqualified-name> ::= DC <source-name>* E
1425e5dd7070Spatrick //
1426e5dd7070Spatrick // Proposed on cxx-abi-dev on 2016-08-12
1427e5dd7070Spatrick Out << "DC";
1428e5dd7070Spatrick for (auto *BD : DD->bindings())
1429e5dd7070Spatrick mangleSourceName(BD->getDeclName().getAsIdentifierInfo());
1430e5dd7070Spatrick Out << 'E';
1431e5dd7070Spatrick writeAbiTags(ND, AdditionalAbiTags);
1432e5dd7070Spatrick break;
1433e5dd7070Spatrick }
1434e5dd7070Spatrick
1435ec727ea7Spatrick if (auto *GD = dyn_cast<MSGuidDecl>(ND)) {
1436ec727ea7Spatrick // We follow MSVC in mangling GUID declarations as if they were variables
1437ec727ea7Spatrick // with a particular reserved name. Continue the pretense here.
1438ec727ea7Spatrick SmallString<sizeof("_GUID_12345678_1234_1234_1234_1234567890ab")> GUID;
1439ec727ea7Spatrick llvm::raw_svector_ostream GUIDOS(GUID);
1440ec727ea7Spatrick Context.mangleMSGuidDecl(GD, GUIDOS);
1441ec727ea7Spatrick Out << GUID.size() << GUID;
1442ec727ea7Spatrick break;
1443ec727ea7Spatrick }
1444ec727ea7Spatrick
1445a9ac8606Spatrick if (auto *TPO = dyn_cast<TemplateParamObjectDecl>(ND)) {
1446a9ac8606Spatrick // Proposed in https://github.com/itanium-cxx-abi/cxx-abi/issues/63.
1447a9ac8606Spatrick Out << "TA";
1448a9ac8606Spatrick mangleValueInTemplateArg(TPO->getType().getUnqualifiedType(),
1449a9ac8606Spatrick TPO->getValue(), /*TopLevel=*/true);
1450a9ac8606Spatrick break;
1451a9ac8606Spatrick }
1452a9ac8606Spatrick
1453e5dd7070Spatrick if (II) {
1454e5dd7070Spatrick // Match GCC's naming convention for internal linkage symbols, for
1455e5dd7070Spatrick // symbols that are not actually visible outside of this TU. GCC
1456e5dd7070Spatrick // distinguishes between internal and external linkage symbols in
1457e5dd7070Spatrick // its mangling, to support cases like this that were valid C++ prior
1458e5dd7070Spatrick // to DR426:
1459e5dd7070Spatrick //
1460e5dd7070Spatrick // void test() { extern void foo(); }
1461e5dd7070Spatrick // static void foo();
1462e5dd7070Spatrick //
1463e5dd7070Spatrick // Don't bother with the L marker for names in anonymous namespaces; the
1464e5dd7070Spatrick // 12_GLOBAL__N_1 mangling is quite sufficient there, and this better
1465e5dd7070Spatrick // matches GCC anyway, because GCC does not treat anonymous namespaces as
1466e5dd7070Spatrick // implying internal linkage.
1467*12c85518Srobert if (Context.isInternalLinkageDecl(ND))
1468e5dd7070Spatrick Out << 'L';
1469e5dd7070Spatrick
1470e5dd7070Spatrick auto *FD = dyn_cast<FunctionDecl>(ND);
1471e5dd7070Spatrick bool IsRegCall = FD &&
1472e5dd7070Spatrick FD->getType()->castAs<FunctionType>()->getCallConv() ==
1473e5dd7070Spatrick clang::CC_X86RegCall;
1474ec727ea7Spatrick bool IsDeviceStub =
1475ec727ea7Spatrick FD && FD->hasAttr<CUDAGlobalAttr>() &&
1476ec727ea7Spatrick GD.getKernelReferenceKind() == KernelReferenceKind::Stub;
1477ec727ea7Spatrick if (IsDeviceStub)
1478ec727ea7Spatrick mangleDeviceStubName(II);
1479ec727ea7Spatrick else if (IsRegCall)
1480e5dd7070Spatrick mangleRegCallName(II);
1481e5dd7070Spatrick else
1482e5dd7070Spatrick mangleSourceName(II);
1483e5dd7070Spatrick
1484e5dd7070Spatrick writeAbiTags(ND, AdditionalAbiTags);
1485e5dd7070Spatrick break;
1486e5dd7070Spatrick }
1487e5dd7070Spatrick
1488e5dd7070Spatrick // Otherwise, an anonymous entity. We must have a declaration.
1489e5dd7070Spatrick assert(ND && "mangling empty name without declaration");
1490e5dd7070Spatrick
1491e5dd7070Spatrick if (const NamespaceDecl *NS = dyn_cast<NamespaceDecl>(ND)) {
1492e5dd7070Spatrick if (NS->isAnonymousNamespace()) {
1493e5dd7070Spatrick // This is how gcc mangles these names.
1494e5dd7070Spatrick Out << "12_GLOBAL__N_1";
1495e5dd7070Spatrick break;
1496e5dd7070Spatrick }
1497e5dd7070Spatrick }
1498e5dd7070Spatrick
1499e5dd7070Spatrick if (const VarDecl *VD = dyn_cast<VarDecl>(ND)) {
1500e5dd7070Spatrick // We must have an anonymous union or struct declaration.
1501e5dd7070Spatrick const RecordDecl *RD = VD->getType()->castAs<RecordType>()->getDecl();
1502e5dd7070Spatrick
1503e5dd7070Spatrick // Itanium C++ ABI 5.1.2:
1504e5dd7070Spatrick //
1505e5dd7070Spatrick // For the purposes of mangling, the name of an anonymous union is
1506e5dd7070Spatrick // considered to be the name of the first named data member found by a
1507e5dd7070Spatrick // pre-order, depth-first, declaration-order walk of the data members of
1508e5dd7070Spatrick // the anonymous union. If there is no such data member (i.e., if all of
1509e5dd7070Spatrick // the data members in the union are unnamed), then there is no way for
1510e5dd7070Spatrick // a program to refer to the anonymous union, and there is therefore no
1511e5dd7070Spatrick // need to mangle its name.
1512e5dd7070Spatrick assert(RD->isAnonymousStructOrUnion()
1513e5dd7070Spatrick && "Expected anonymous struct or union!");
1514e5dd7070Spatrick const FieldDecl *FD = RD->findFirstNamedDataMember();
1515e5dd7070Spatrick
1516e5dd7070Spatrick // It's actually possible for various reasons for us to get here
1517e5dd7070Spatrick // with an empty anonymous struct / union. Fortunately, it
1518e5dd7070Spatrick // doesn't really matter what name we generate.
1519e5dd7070Spatrick if (!FD) break;
1520e5dd7070Spatrick assert(FD->getIdentifier() && "Data member name isn't an identifier!");
1521e5dd7070Spatrick
1522e5dd7070Spatrick mangleSourceName(FD->getIdentifier());
1523e5dd7070Spatrick // Not emitting abi tags: internal name anyway.
1524e5dd7070Spatrick break;
1525e5dd7070Spatrick }
1526e5dd7070Spatrick
1527e5dd7070Spatrick // Class extensions have no name as a category, and it's possible
1528e5dd7070Spatrick // for them to be the semantic parent of certain declarations
1529e5dd7070Spatrick // (primarily, tag decls defined within declarations). Such
1530e5dd7070Spatrick // declarations will always have internal linkage, so the name
1531e5dd7070Spatrick // doesn't really matter, but we shouldn't crash on them. For
1532e5dd7070Spatrick // safety, just handle all ObjC containers here.
1533e5dd7070Spatrick if (isa<ObjCContainerDecl>(ND))
1534e5dd7070Spatrick break;
1535e5dd7070Spatrick
1536e5dd7070Spatrick // We must have an anonymous struct.
1537e5dd7070Spatrick const TagDecl *TD = cast<TagDecl>(ND);
1538e5dd7070Spatrick if (const TypedefNameDecl *D = TD->getTypedefNameForAnonDecl()) {
1539e5dd7070Spatrick assert(TD->getDeclContext() == D->getDeclContext() &&
1540e5dd7070Spatrick "Typedef should not be in another decl context!");
1541e5dd7070Spatrick assert(D->getDeclName().getAsIdentifierInfo() &&
1542e5dd7070Spatrick "Typedef was not named!");
1543e5dd7070Spatrick mangleSourceName(D->getDeclName().getAsIdentifierInfo());
1544e5dd7070Spatrick assert(!AdditionalAbiTags && "Type cannot have additional abi tags");
1545e5dd7070Spatrick // Explicit abi tags are still possible; take from underlying type, not
1546e5dd7070Spatrick // from typedef.
1547e5dd7070Spatrick writeAbiTags(TD, nullptr);
1548e5dd7070Spatrick break;
1549e5dd7070Spatrick }
1550e5dd7070Spatrick
1551e5dd7070Spatrick // <unnamed-type-name> ::= <closure-type-name>
1552e5dd7070Spatrick //
1553e5dd7070Spatrick // <closure-type-name> ::= Ul <lambda-sig> E [ <nonnegative number> ] _
1554e5dd7070Spatrick // <lambda-sig> ::= <template-param-decl>* <parameter-type>+
1555e5dd7070Spatrick // # Parameter types or 'v' for 'void'.
1556e5dd7070Spatrick if (const CXXRecordDecl *Record = dyn_cast<CXXRecordDecl>(TD)) {
1557*12c85518Srobert std::optional<unsigned> DeviceNumber =
1558*12c85518Srobert Context.getDiscriminatorOverride()(Context.getASTContext(), Record);
1559*12c85518Srobert
1560*12c85518Srobert // If we have a device-number via the discriminator, use that to mangle
1561*12c85518Srobert // the lambda, otherwise use the typical lambda-mangling-number. In either
1562*12c85518Srobert // case, a '0' should be mangled as a normal unnamed class instead of as a
1563*12c85518Srobert // lambda.
1564*12c85518Srobert if (Record->isLambda() &&
1565*12c85518Srobert ((DeviceNumber && *DeviceNumber > 0) ||
1566*12c85518Srobert (!DeviceNumber && Record->getLambdaManglingNumber() > 0))) {
1567e5dd7070Spatrick assert(!AdditionalAbiTags &&
1568e5dd7070Spatrick "Lambda type cannot have additional abi tags");
1569e5dd7070Spatrick mangleLambda(Record);
1570e5dd7070Spatrick break;
1571e5dd7070Spatrick }
1572e5dd7070Spatrick }
1573e5dd7070Spatrick
1574e5dd7070Spatrick if (TD->isExternallyVisible()) {
1575*12c85518Srobert unsigned UnnamedMangle =
1576*12c85518Srobert getASTContext().getManglingNumber(TD, Context.isAux());
1577e5dd7070Spatrick Out << "Ut";
1578e5dd7070Spatrick if (UnnamedMangle > 1)
1579e5dd7070Spatrick Out << UnnamedMangle - 2;
1580e5dd7070Spatrick Out << '_';
1581e5dd7070Spatrick writeAbiTags(TD, AdditionalAbiTags);
1582e5dd7070Spatrick break;
1583e5dd7070Spatrick }
1584e5dd7070Spatrick
1585e5dd7070Spatrick // Get a unique id for the anonymous struct. If it is not a real output
1586e5dd7070Spatrick // ID doesn't matter so use fake one.
1587*12c85518Srobert unsigned AnonStructId =
1588*12c85518Srobert NullOut ? 0
1589*12c85518Srobert : Context.getAnonymousStructId(TD, dyn_cast<FunctionDecl>(DC));
1590e5dd7070Spatrick
1591e5dd7070Spatrick // Mangle it as a source name in the form
1592e5dd7070Spatrick // [n] $_<id>
1593e5dd7070Spatrick // where n is the length of the string.
1594e5dd7070Spatrick SmallString<8> Str;
1595e5dd7070Spatrick Str += "$_";
1596e5dd7070Spatrick Str += llvm::utostr(AnonStructId);
1597e5dd7070Spatrick
1598e5dd7070Spatrick Out << Str.size();
1599e5dd7070Spatrick Out << Str;
1600e5dd7070Spatrick break;
1601e5dd7070Spatrick }
1602e5dd7070Spatrick
1603e5dd7070Spatrick case DeclarationName::ObjCZeroArgSelector:
1604e5dd7070Spatrick case DeclarationName::ObjCOneArgSelector:
1605e5dd7070Spatrick case DeclarationName::ObjCMultiArgSelector:
1606e5dd7070Spatrick llvm_unreachable("Can't mangle Objective-C selector names here!");
1607e5dd7070Spatrick
1608e5dd7070Spatrick case DeclarationName::CXXConstructorName: {
1609e5dd7070Spatrick const CXXRecordDecl *InheritedFrom = nullptr;
1610a9ac8606Spatrick TemplateName InheritedTemplateName;
1611e5dd7070Spatrick const TemplateArgumentList *InheritedTemplateArgs = nullptr;
1612e5dd7070Spatrick if (auto Inherited =
1613e5dd7070Spatrick cast<CXXConstructorDecl>(ND)->getInheritedConstructor()) {
1614e5dd7070Spatrick InheritedFrom = Inherited.getConstructor()->getParent();
1615a9ac8606Spatrick InheritedTemplateName =
1616a9ac8606Spatrick TemplateName(Inherited.getConstructor()->getPrimaryTemplate());
1617e5dd7070Spatrick InheritedTemplateArgs =
1618e5dd7070Spatrick Inherited.getConstructor()->getTemplateSpecializationArgs();
1619e5dd7070Spatrick }
1620e5dd7070Spatrick
1621e5dd7070Spatrick if (ND == Structor)
1622e5dd7070Spatrick // If the named decl is the C++ constructor we're mangling, use the type
1623e5dd7070Spatrick // we were given.
1624e5dd7070Spatrick mangleCXXCtorType(static_cast<CXXCtorType>(StructorType), InheritedFrom);
1625e5dd7070Spatrick else
1626e5dd7070Spatrick // Otherwise, use the complete constructor name. This is relevant if a
1627e5dd7070Spatrick // class with a constructor is declared within a constructor.
1628e5dd7070Spatrick mangleCXXCtorType(Ctor_Complete, InheritedFrom);
1629e5dd7070Spatrick
1630e5dd7070Spatrick // FIXME: The template arguments are part of the enclosing prefix or
1631e5dd7070Spatrick // nested-name, but it's more convenient to mangle them here.
1632e5dd7070Spatrick if (InheritedTemplateArgs)
1633a9ac8606Spatrick mangleTemplateArgs(InheritedTemplateName, *InheritedTemplateArgs);
1634e5dd7070Spatrick
1635e5dd7070Spatrick writeAbiTags(ND, AdditionalAbiTags);
1636e5dd7070Spatrick break;
1637e5dd7070Spatrick }
1638e5dd7070Spatrick
1639e5dd7070Spatrick case DeclarationName::CXXDestructorName:
1640e5dd7070Spatrick if (ND == Structor)
1641e5dd7070Spatrick // If the named decl is the C++ destructor we're mangling, use the type we
1642e5dd7070Spatrick // were given.
1643e5dd7070Spatrick mangleCXXDtorType(static_cast<CXXDtorType>(StructorType));
1644e5dd7070Spatrick else
1645e5dd7070Spatrick // Otherwise, use the complete destructor name. This is relevant if a
1646e5dd7070Spatrick // class with a destructor is declared within a destructor.
1647e5dd7070Spatrick mangleCXXDtorType(Dtor_Complete);
1648e5dd7070Spatrick writeAbiTags(ND, AdditionalAbiTags);
1649e5dd7070Spatrick break;
1650e5dd7070Spatrick
1651e5dd7070Spatrick case DeclarationName::CXXOperatorName:
1652e5dd7070Spatrick if (ND && Arity == UnknownArity) {
1653e5dd7070Spatrick Arity = cast<FunctionDecl>(ND)->getNumParams();
1654e5dd7070Spatrick
1655e5dd7070Spatrick // If we have a member function, we need to include the 'this' pointer.
1656e5dd7070Spatrick if (const auto *MD = dyn_cast<CXXMethodDecl>(ND))
1657e5dd7070Spatrick if (!MD->isStatic())
1658e5dd7070Spatrick Arity++;
1659e5dd7070Spatrick }
1660*12c85518Srobert [[fallthrough]];
1661e5dd7070Spatrick case DeclarationName::CXXConversionFunctionName:
1662e5dd7070Spatrick case DeclarationName::CXXLiteralOperatorName:
1663e5dd7070Spatrick mangleOperatorName(Name, Arity);
1664e5dd7070Spatrick writeAbiTags(ND, AdditionalAbiTags);
1665e5dd7070Spatrick break;
1666e5dd7070Spatrick
1667e5dd7070Spatrick case DeclarationName::CXXDeductionGuideName:
1668e5dd7070Spatrick llvm_unreachable("Can't mangle a deduction guide name!");
1669e5dd7070Spatrick
1670e5dd7070Spatrick case DeclarationName::CXXUsingDirective:
1671e5dd7070Spatrick llvm_unreachable("Can't mangle a using directive name!");
1672e5dd7070Spatrick }
1673e5dd7070Spatrick }
1674e5dd7070Spatrick
mangleRegCallName(const IdentifierInfo * II)1675e5dd7070Spatrick void CXXNameMangler::mangleRegCallName(const IdentifierInfo *II) {
1676e5dd7070Spatrick // <source-name> ::= <positive length number> __regcall3__ <identifier>
1677e5dd7070Spatrick // <number> ::= [n] <non-negative decimal integer>
1678e5dd7070Spatrick // <identifier> ::= <unqualified source code identifier>
1679e5dd7070Spatrick Out << II->getLength() + sizeof("__regcall3__") - 1 << "__regcall3__"
1680e5dd7070Spatrick << II->getName();
1681e5dd7070Spatrick }
1682e5dd7070Spatrick
mangleDeviceStubName(const IdentifierInfo * II)1683ec727ea7Spatrick void CXXNameMangler::mangleDeviceStubName(const IdentifierInfo *II) {
1684ec727ea7Spatrick // <source-name> ::= <positive length number> __device_stub__ <identifier>
1685ec727ea7Spatrick // <number> ::= [n] <non-negative decimal integer>
1686ec727ea7Spatrick // <identifier> ::= <unqualified source code identifier>
1687ec727ea7Spatrick Out << II->getLength() + sizeof("__device_stub__") - 1 << "__device_stub__"
1688ec727ea7Spatrick << II->getName();
1689ec727ea7Spatrick }
1690ec727ea7Spatrick
mangleSourceName(const IdentifierInfo * II)1691e5dd7070Spatrick void CXXNameMangler::mangleSourceName(const IdentifierInfo *II) {
1692e5dd7070Spatrick // <source-name> ::= <positive length number> <identifier>
1693e5dd7070Spatrick // <number> ::= [n] <non-negative decimal integer>
1694e5dd7070Spatrick // <identifier> ::= <unqualified source code identifier>
1695e5dd7070Spatrick Out << II->getLength() << II->getName();
1696e5dd7070Spatrick }
1697e5dd7070Spatrick
mangleNestedName(GlobalDecl GD,const DeclContext * DC,const AbiTagList * AdditionalAbiTags,bool NoFunction)1698ec727ea7Spatrick void CXXNameMangler::mangleNestedName(GlobalDecl GD,
1699e5dd7070Spatrick const DeclContext *DC,
1700e5dd7070Spatrick const AbiTagList *AdditionalAbiTags,
1701e5dd7070Spatrick bool NoFunction) {
1702ec727ea7Spatrick const NamedDecl *ND = cast<NamedDecl>(GD.getDecl());
1703e5dd7070Spatrick // <nested-name>
1704e5dd7070Spatrick // ::= N [<CV-qualifiers>] [<ref-qualifier>] <prefix> <unqualified-name> E
1705e5dd7070Spatrick // ::= N [<CV-qualifiers>] [<ref-qualifier>] <template-prefix>
1706e5dd7070Spatrick // <template-args> E
1707e5dd7070Spatrick
1708e5dd7070Spatrick Out << 'N';
1709e5dd7070Spatrick if (const CXXMethodDecl *Method = dyn_cast<CXXMethodDecl>(ND)) {
1710e5dd7070Spatrick Qualifiers MethodQuals = Method->getMethodQualifiers();
1711e5dd7070Spatrick // We do not consider restrict a distinguishing attribute for overloading
1712e5dd7070Spatrick // purposes so we must not mangle it.
1713e5dd7070Spatrick MethodQuals.removeRestrict();
1714e5dd7070Spatrick mangleQualifiers(MethodQuals);
1715e5dd7070Spatrick mangleRefQualifier(Method->getRefQualifier());
1716e5dd7070Spatrick }
1717e5dd7070Spatrick
1718e5dd7070Spatrick // Check if we have a template.
1719e5dd7070Spatrick const TemplateArgumentList *TemplateArgs = nullptr;
1720ec727ea7Spatrick if (GlobalDecl TD = isTemplate(GD, TemplateArgs)) {
1721e5dd7070Spatrick mangleTemplatePrefix(TD, NoFunction);
1722a9ac8606Spatrick mangleTemplateArgs(asTemplateName(TD), *TemplateArgs);
1723a9ac8606Spatrick } else {
1724e5dd7070Spatrick manglePrefix(DC, NoFunction);
1725*12c85518Srobert mangleUnqualifiedName(GD, DC, AdditionalAbiTags);
1726e5dd7070Spatrick }
1727e5dd7070Spatrick
1728e5dd7070Spatrick Out << 'E';
1729e5dd7070Spatrick }
mangleNestedName(const TemplateDecl * TD,ArrayRef<TemplateArgument> Args)1730e5dd7070Spatrick void CXXNameMangler::mangleNestedName(const TemplateDecl *TD,
1731*12c85518Srobert ArrayRef<TemplateArgument> Args) {
1732e5dd7070Spatrick // <nested-name> ::= N [<CV-qualifiers>] <template-prefix> <template-args> E
1733e5dd7070Spatrick
1734e5dd7070Spatrick Out << 'N';
1735e5dd7070Spatrick
1736e5dd7070Spatrick mangleTemplatePrefix(TD);
1737*12c85518Srobert mangleTemplateArgs(asTemplateName(TD), Args);
1738a9ac8606Spatrick
1739a9ac8606Spatrick Out << 'E';
1740a9ac8606Spatrick }
1741a9ac8606Spatrick
mangleNestedNameWithClosurePrefix(GlobalDecl GD,const NamedDecl * PrefixND,const AbiTagList * AdditionalAbiTags)1742a9ac8606Spatrick void CXXNameMangler::mangleNestedNameWithClosurePrefix(
1743a9ac8606Spatrick GlobalDecl GD, const NamedDecl *PrefixND,
1744a9ac8606Spatrick const AbiTagList *AdditionalAbiTags) {
1745a9ac8606Spatrick // A <closure-prefix> represents a variable or field, not a regular
1746a9ac8606Spatrick // DeclContext, so needs special handling. In this case we're mangling a
1747a9ac8606Spatrick // limited form of <nested-name>:
1748a9ac8606Spatrick //
1749a9ac8606Spatrick // <nested-name> ::= N <closure-prefix> <closure-type-name> E
1750a9ac8606Spatrick
1751a9ac8606Spatrick Out << 'N';
1752a9ac8606Spatrick
1753a9ac8606Spatrick mangleClosurePrefix(PrefixND);
1754*12c85518Srobert mangleUnqualifiedName(GD, nullptr, AdditionalAbiTags);
1755e5dd7070Spatrick
1756e5dd7070Spatrick Out << 'E';
1757e5dd7070Spatrick }
1758e5dd7070Spatrick
getParentOfLocalEntity(const DeclContext * DC)1759ec727ea7Spatrick static GlobalDecl getParentOfLocalEntity(const DeclContext *DC) {
1760ec727ea7Spatrick GlobalDecl GD;
1761ec727ea7Spatrick // The Itanium spec says:
1762ec727ea7Spatrick // For entities in constructors and destructors, the mangling of the
1763ec727ea7Spatrick // complete object constructor or destructor is used as the base function
1764ec727ea7Spatrick // name, i.e. the C1 or D1 version.
1765ec727ea7Spatrick if (auto *CD = dyn_cast<CXXConstructorDecl>(DC))
1766ec727ea7Spatrick GD = GlobalDecl(CD, Ctor_Complete);
1767ec727ea7Spatrick else if (auto *DD = dyn_cast<CXXDestructorDecl>(DC))
1768ec727ea7Spatrick GD = GlobalDecl(DD, Dtor_Complete);
1769ec727ea7Spatrick else
1770ec727ea7Spatrick GD = GlobalDecl(cast<FunctionDecl>(DC));
1771ec727ea7Spatrick return GD;
1772ec727ea7Spatrick }
1773ec727ea7Spatrick
mangleLocalName(GlobalDecl GD,const AbiTagList * AdditionalAbiTags)1774ec727ea7Spatrick void CXXNameMangler::mangleLocalName(GlobalDecl GD,
1775e5dd7070Spatrick const AbiTagList *AdditionalAbiTags) {
1776ec727ea7Spatrick const Decl *D = GD.getDecl();
1777e5dd7070Spatrick // <local-name> := Z <function encoding> E <entity name> [<discriminator>]
1778e5dd7070Spatrick // := Z <function encoding> E s [<discriminator>]
1779e5dd7070Spatrick // <local-name> := Z <function encoding> E d [ <parameter number> ]
1780e5dd7070Spatrick // _ <entity name>
1781e5dd7070Spatrick // <discriminator> := _ <non-negative number>
1782e5dd7070Spatrick assert(isa<NamedDecl>(D) || isa<BlockDecl>(D));
1783e5dd7070Spatrick const RecordDecl *RD = GetLocalClassDecl(D);
1784*12c85518Srobert const DeclContext *DC = Context.getEffectiveDeclContext(RD ? RD : D);
1785e5dd7070Spatrick
1786e5dd7070Spatrick Out << 'Z';
1787e5dd7070Spatrick
1788e5dd7070Spatrick {
1789e5dd7070Spatrick AbiTagState LocalAbiTags(AbiTags);
1790e5dd7070Spatrick
1791e5dd7070Spatrick if (const ObjCMethodDecl *MD = dyn_cast<ObjCMethodDecl>(DC))
1792e5dd7070Spatrick mangleObjCMethodName(MD);
1793e5dd7070Spatrick else if (const BlockDecl *BD = dyn_cast<BlockDecl>(DC))
1794e5dd7070Spatrick mangleBlockForPrefix(BD);
1795e5dd7070Spatrick else
1796ec727ea7Spatrick mangleFunctionEncoding(getParentOfLocalEntity(DC));
1797e5dd7070Spatrick
1798e5dd7070Spatrick // Implicit ABI tags (from namespace) are not available in the following
1799e5dd7070Spatrick // entity; reset to actually emitted tags, which are available.
1800e5dd7070Spatrick LocalAbiTags.setUsedAbiTags(LocalAbiTags.getEmittedAbiTags());
1801e5dd7070Spatrick }
1802e5dd7070Spatrick
1803e5dd7070Spatrick Out << 'E';
1804e5dd7070Spatrick
1805e5dd7070Spatrick // GCC 5.3.0 doesn't emit derived ABI tags for local names but that seems to
1806e5dd7070Spatrick // be a bug that is fixed in trunk.
1807e5dd7070Spatrick
1808e5dd7070Spatrick if (RD) {
1809e5dd7070Spatrick // The parameter number is omitted for the last parameter, 0 for the
1810e5dd7070Spatrick // second-to-last parameter, 1 for the third-to-last parameter, etc. The
1811e5dd7070Spatrick // <entity name> will of course contain a <closure-type-name>: Its
1812e5dd7070Spatrick // numbering will be local to the particular argument in which it appears
1813e5dd7070Spatrick // -- other default arguments do not affect its encoding.
1814e5dd7070Spatrick const CXXRecordDecl *CXXRD = dyn_cast<CXXRecordDecl>(RD);
1815e5dd7070Spatrick if (CXXRD && CXXRD->isLambda()) {
1816e5dd7070Spatrick if (const ParmVarDecl *Parm
1817e5dd7070Spatrick = dyn_cast_or_null<ParmVarDecl>(CXXRD->getLambdaContextDecl())) {
1818e5dd7070Spatrick if (const FunctionDecl *Func
1819e5dd7070Spatrick = dyn_cast<FunctionDecl>(Parm->getDeclContext())) {
1820e5dd7070Spatrick Out << 'd';
1821e5dd7070Spatrick unsigned Num = Func->getNumParams() - Parm->getFunctionScopeIndex();
1822e5dd7070Spatrick if (Num > 1)
1823e5dd7070Spatrick mangleNumber(Num - 2);
1824e5dd7070Spatrick Out << '_';
1825e5dd7070Spatrick }
1826e5dd7070Spatrick }
1827e5dd7070Spatrick }
1828e5dd7070Spatrick
1829e5dd7070Spatrick // Mangle the name relative to the closest enclosing function.
1830e5dd7070Spatrick // equality ok because RD derived from ND above
1831e5dd7070Spatrick if (D == RD) {
1832*12c85518Srobert mangleUnqualifiedName(RD, DC, AdditionalAbiTags);
1833e5dd7070Spatrick } else if (const BlockDecl *BD = dyn_cast<BlockDecl>(D)) {
1834a9ac8606Spatrick if (const NamedDecl *PrefixND = getClosurePrefix(BD))
1835a9ac8606Spatrick mangleClosurePrefix(PrefixND, true /*NoFunction*/);
1836a9ac8606Spatrick else
1837*12c85518Srobert manglePrefix(Context.getEffectiveDeclContext(BD), true /*NoFunction*/);
1838e5dd7070Spatrick assert(!AdditionalAbiTags && "Block cannot have additional abi tags");
1839e5dd7070Spatrick mangleUnqualifiedBlock(BD);
1840e5dd7070Spatrick } else {
1841e5dd7070Spatrick const NamedDecl *ND = cast<NamedDecl>(D);
1842*12c85518Srobert mangleNestedName(GD, Context.getEffectiveDeclContext(ND),
1843*12c85518Srobert AdditionalAbiTags, true /*NoFunction*/);
1844e5dd7070Spatrick }
1845e5dd7070Spatrick } else if (const BlockDecl *BD = dyn_cast<BlockDecl>(D)) {
1846e5dd7070Spatrick // Mangle a block in a default parameter; see above explanation for
1847e5dd7070Spatrick // lambdas.
1848e5dd7070Spatrick if (const ParmVarDecl *Parm
1849e5dd7070Spatrick = dyn_cast_or_null<ParmVarDecl>(BD->getBlockManglingContextDecl())) {
1850e5dd7070Spatrick if (const FunctionDecl *Func
1851e5dd7070Spatrick = dyn_cast<FunctionDecl>(Parm->getDeclContext())) {
1852e5dd7070Spatrick Out << 'd';
1853e5dd7070Spatrick unsigned Num = Func->getNumParams() - Parm->getFunctionScopeIndex();
1854e5dd7070Spatrick if (Num > 1)
1855e5dd7070Spatrick mangleNumber(Num - 2);
1856e5dd7070Spatrick Out << '_';
1857e5dd7070Spatrick }
1858e5dd7070Spatrick }
1859e5dd7070Spatrick
1860e5dd7070Spatrick assert(!AdditionalAbiTags && "Block cannot have additional abi tags");
1861e5dd7070Spatrick mangleUnqualifiedBlock(BD);
1862e5dd7070Spatrick } else {
1863*12c85518Srobert mangleUnqualifiedName(GD, DC, AdditionalAbiTags);
1864e5dd7070Spatrick }
1865e5dd7070Spatrick
1866e5dd7070Spatrick if (const NamedDecl *ND = dyn_cast<NamedDecl>(RD ? RD : D)) {
1867e5dd7070Spatrick unsigned disc;
1868e5dd7070Spatrick if (Context.getNextDiscriminator(ND, disc)) {
1869e5dd7070Spatrick if (disc < 10)
1870e5dd7070Spatrick Out << '_' << disc;
1871e5dd7070Spatrick else
1872e5dd7070Spatrick Out << "__" << disc << '_';
1873e5dd7070Spatrick }
1874e5dd7070Spatrick }
1875e5dd7070Spatrick }
1876e5dd7070Spatrick
mangleBlockForPrefix(const BlockDecl * Block)1877e5dd7070Spatrick void CXXNameMangler::mangleBlockForPrefix(const BlockDecl *Block) {
1878e5dd7070Spatrick if (GetLocalClassDecl(Block)) {
1879e5dd7070Spatrick mangleLocalName(Block, /* AdditionalAbiTags */ nullptr);
1880e5dd7070Spatrick return;
1881e5dd7070Spatrick }
1882*12c85518Srobert const DeclContext *DC = Context.getEffectiveDeclContext(Block);
1883e5dd7070Spatrick if (isLocalContainerContext(DC)) {
1884e5dd7070Spatrick mangleLocalName(Block, /* AdditionalAbiTags */ nullptr);
1885e5dd7070Spatrick return;
1886e5dd7070Spatrick }
1887a9ac8606Spatrick if (const NamedDecl *PrefixND = getClosurePrefix(Block))
1888a9ac8606Spatrick mangleClosurePrefix(PrefixND);
1889a9ac8606Spatrick else
1890a9ac8606Spatrick manglePrefix(DC);
1891e5dd7070Spatrick mangleUnqualifiedBlock(Block);
1892e5dd7070Spatrick }
1893e5dd7070Spatrick
mangleUnqualifiedBlock(const BlockDecl * Block)1894e5dd7070Spatrick void CXXNameMangler::mangleUnqualifiedBlock(const BlockDecl *Block) {
1895a9ac8606Spatrick // When trying to be ABI-compatibility with clang 12 and before, mangle a
1896a9ac8606Spatrick // <data-member-prefix> now, with no substitutions and no <template-args>.
1897e5dd7070Spatrick if (Decl *Context = Block->getBlockManglingContextDecl()) {
1898a9ac8606Spatrick if (getASTContext().getLangOpts().getClangABICompat() <=
1899a9ac8606Spatrick LangOptions::ClangABI::Ver12 &&
1900a9ac8606Spatrick (isa<VarDecl>(Context) || isa<FieldDecl>(Context)) &&
1901e5dd7070Spatrick Context->getDeclContext()->isRecord()) {
1902e5dd7070Spatrick const auto *ND = cast<NamedDecl>(Context);
1903e5dd7070Spatrick if (ND->getIdentifier()) {
1904e5dd7070Spatrick mangleSourceNameWithAbiTags(ND);
1905e5dd7070Spatrick Out << 'M';
1906e5dd7070Spatrick }
1907e5dd7070Spatrick }
1908e5dd7070Spatrick }
1909e5dd7070Spatrick
1910e5dd7070Spatrick // If we have a block mangling number, use it.
1911e5dd7070Spatrick unsigned Number = Block->getBlockManglingNumber();
1912e5dd7070Spatrick // Otherwise, just make up a number. It doesn't matter what it is because
1913e5dd7070Spatrick // the symbol in question isn't externally visible.
1914e5dd7070Spatrick if (!Number)
1915e5dd7070Spatrick Number = Context.getBlockId(Block, false);
1916e5dd7070Spatrick else {
1917e5dd7070Spatrick // Stored mangling numbers are 1-based.
1918e5dd7070Spatrick --Number;
1919e5dd7070Spatrick }
1920e5dd7070Spatrick Out << "Ub";
1921e5dd7070Spatrick if (Number > 0)
1922e5dd7070Spatrick Out << Number - 1;
1923e5dd7070Spatrick Out << '_';
1924e5dd7070Spatrick }
1925e5dd7070Spatrick
1926e5dd7070Spatrick // <template-param-decl>
1927e5dd7070Spatrick // ::= Ty # template type parameter
1928e5dd7070Spatrick // ::= Tn <type> # template non-type parameter
1929e5dd7070Spatrick // ::= Tt <template-param-decl>* E # template template parameter
1930e5dd7070Spatrick // ::= Tp <template-param-decl> # template parameter pack
mangleTemplateParamDecl(const NamedDecl * Decl)1931e5dd7070Spatrick void CXXNameMangler::mangleTemplateParamDecl(const NamedDecl *Decl) {
1932e5dd7070Spatrick if (auto *Ty = dyn_cast<TemplateTypeParmDecl>(Decl)) {
1933e5dd7070Spatrick if (Ty->isParameterPack())
1934e5dd7070Spatrick Out << "Tp";
1935e5dd7070Spatrick Out << "Ty";
1936e5dd7070Spatrick } else if (auto *Tn = dyn_cast<NonTypeTemplateParmDecl>(Decl)) {
1937e5dd7070Spatrick if (Tn->isExpandedParameterPack()) {
1938e5dd7070Spatrick for (unsigned I = 0, N = Tn->getNumExpansionTypes(); I != N; ++I) {
1939e5dd7070Spatrick Out << "Tn";
1940e5dd7070Spatrick mangleType(Tn->getExpansionType(I));
1941e5dd7070Spatrick }
1942e5dd7070Spatrick } else {
1943e5dd7070Spatrick QualType T = Tn->getType();
1944e5dd7070Spatrick if (Tn->isParameterPack()) {
1945e5dd7070Spatrick Out << "Tp";
1946e5dd7070Spatrick if (auto *PackExpansion = T->getAs<PackExpansionType>())
1947e5dd7070Spatrick T = PackExpansion->getPattern();
1948e5dd7070Spatrick }
1949e5dd7070Spatrick Out << "Tn";
1950e5dd7070Spatrick mangleType(T);
1951e5dd7070Spatrick }
1952e5dd7070Spatrick } else if (auto *Tt = dyn_cast<TemplateTemplateParmDecl>(Decl)) {
1953e5dd7070Spatrick if (Tt->isExpandedParameterPack()) {
1954e5dd7070Spatrick for (unsigned I = 0, N = Tt->getNumExpansionTemplateParameters(); I != N;
1955e5dd7070Spatrick ++I) {
1956e5dd7070Spatrick Out << "Tt";
1957e5dd7070Spatrick for (auto *Param : *Tt->getExpansionTemplateParameters(I))
1958e5dd7070Spatrick mangleTemplateParamDecl(Param);
1959e5dd7070Spatrick Out << "E";
1960e5dd7070Spatrick }
1961e5dd7070Spatrick } else {
1962e5dd7070Spatrick if (Tt->isParameterPack())
1963e5dd7070Spatrick Out << "Tp";
1964e5dd7070Spatrick Out << "Tt";
1965e5dd7070Spatrick for (auto *Param : *Tt->getTemplateParameters())
1966e5dd7070Spatrick mangleTemplateParamDecl(Param);
1967e5dd7070Spatrick Out << "E";
1968e5dd7070Spatrick }
1969e5dd7070Spatrick }
1970e5dd7070Spatrick }
1971e5dd7070Spatrick
mangleLambda(const CXXRecordDecl * Lambda)1972e5dd7070Spatrick void CXXNameMangler::mangleLambda(const CXXRecordDecl *Lambda) {
1973a9ac8606Spatrick // When trying to be ABI-compatibility with clang 12 and before, mangle a
1974a9ac8606Spatrick // <data-member-prefix> now, with no substitutions.
1975e5dd7070Spatrick if (Decl *Context = Lambda->getLambdaContextDecl()) {
1976a9ac8606Spatrick if (getASTContext().getLangOpts().getClangABICompat() <=
1977a9ac8606Spatrick LangOptions::ClangABI::Ver12 &&
1978a9ac8606Spatrick (isa<VarDecl>(Context) || isa<FieldDecl>(Context)) &&
1979e5dd7070Spatrick !isa<ParmVarDecl>(Context)) {
1980e5dd7070Spatrick if (const IdentifierInfo *Name
1981e5dd7070Spatrick = cast<NamedDecl>(Context)->getIdentifier()) {
1982e5dd7070Spatrick mangleSourceName(Name);
1983e5dd7070Spatrick const TemplateArgumentList *TemplateArgs = nullptr;
1984a9ac8606Spatrick if (GlobalDecl TD = isTemplate(cast<NamedDecl>(Context), TemplateArgs))
1985a9ac8606Spatrick mangleTemplateArgs(asTemplateName(TD), *TemplateArgs);
1986e5dd7070Spatrick Out << 'M';
1987e5dd7070Spatrick }
1988e5dd7070Spatrick }
1989e5dd7070Spatrick }
1990e5dd7070Spatrick
1991e5dd7070Spatrick Out << "Ul";
1992e5dd7070Spatrick mangleLambdaSig(Lambda);
1993e5dd7070Spatrick Out << "E";
1994e5dd7070Spatrick
1995e5dd7070Spatrick // The number is omitted for the first closure type with a given
1996e5dd7070Spatrick // <lambda-sig> in a given context; it is n-2 for the nth closure type
1997e5dd7070Spatrick // (in lexical order) with that same <lambda-sig> and context.
1998e5dd7070Spatrick //
1999e5dd7070Spatrick // The AST keeps track of the number for us.
2000a9ac8606Spatrick //
2001a9ac8606Spatrick // In CUDA/HIP, to ensure the consistent lamba numbering between the device-
2002a9ac8606Spatrick // and host-side compilations, an extra device mangle context may be created
2003a9ac8606Spatrick // if the host-side CXX ABI has different numbering for lambda. In such case,
2004a9ac8606Spatrick // if the mangle context is that device-side one, use the device-side lambda
2005a9ac8606Spatrick // mangling number for this lambda.
2006*12c85518Srobert std::optional<unsigned> DeviceNumber =
2007a9ac8606Spatrick Context.getDiscriminatorOverride()(Context.getASTContext(), Lambda);
2008*12c85518Srobert unsigned Number =
2009*12c85518Srobert DeviceNumber ? *DeviceNumber : Lambda->getLambdaManglingNumber();
2010a9ac8606Spatrick
2011e5dd7070Spatrick assert(Number > 0 && "Lambda should be mangled as an unnamed class");
2012e5dd7070Spatrick if (Number > 1)
2013e5dd7070Spatrick mangleNumber(Number - 2);
2014e5dd7070Spatrick Out << '_';
2015e5dd7070Spatrick }
2016e5dd7070Spatrick
mangleLambdaSig(const CXXRecordDecl * Lambda)2017e5dd7070Spatrick void CXXNameMangler::mangleLambdaSig(const CXXRecordDecl *Lambda) {
2018e5dd7070Spatrick for (auto *D : Lambda->getLambdaExplicitTemplateParameters())
2019e5dd7070Spatrick mangleTemplateParamDecl(D);
2020ec727ea7Spatrick auto *Proto =
2021ec727ea7Spatrick Lambda->getLambdaTypeInfo()->getType()->castAs<FunctionProtoType>();
2022e5dd7070Spatrick mangleBareFunctionType(Proto, /*MangleReturnType=*/false,
2023e5dd7070Spatrick Lambda->getLambdaStaticInvoker());
2024e5dd7070Spatrick }
2025e5dd7070Spatrick
manglePrefix(NestedNameSpecifier * qualifier)2026e5dd7070Spatrick void CXXNameMangler::manglePrefix(NestedNameSpecifier *qualifier) {
2027e5dd7070Spatrick switch (qualifier->getKind()) {
2028e5dd7070Spatrick case NestedNameSpecifier::Global:
2029e5dd7070Spatrick // nothing
2030e5dd7070Spatrick return;
2031e5dd7070Spatrick
2032e5dd7070Spatrick case NestedNameSpecifier::Super:
2033e5dd7070Spatrick llvm_unreachable("Can't mangle __super specifier");
2034e5dd7070Spatrick
2035e5dd7070Spatrick case NestedNameSpecifier::Namespace:
2036e5dd7070Spatrick mangleName(qualifier->getAsNamespace());
2037e5dd7070Spatrick return;
2038e5dd7070Spatrick
2039e5dd7070Spatrick case NestedNameSpecifier::NamespaceAlias:
2040e5dd7070Spatrick mangleName(qualifier->getAsNamespaceAlias()->getNamespace());
2041e5dd7070Spatrick return;
2042e5dd7070Spatrick
2043e5dd7070Spatrick case NestedNameSpecifier::TypeSpec:
2044e5dd7070Spatrick case NestedNameSpecifier::TypeSpecWithTemplate:
2045e5dd7070Spatrick manglePrefix(QualType(qualifier->getAsType(), 0));
2046e5dd7070Spatrick return;
2047e5dd7070Spatrick
2048e5dd7070Spatrick case NestedNameSpecifier::Identifier:
2049*12c85518Srobert // Clang 14 and before did not consider this substitutable.
2050*12c85518Srobert bool Clang14Compat = getASTContext().getLangOpts().getClangABICompat() <=
2051*12c85518Srobert LangOptions::ClangABI::Ver14;
2052*12c85518Srobert if (!Clang14Compat && mangleSubstitution(qualifier))
2053*12c85518Srobert return;
2054*12c85518Srobert
2055e5dd7070Spatrick // Member expressions can have these without prefixes, but that
2056e5dd7070Spatrick // should end up in mangleUnresolvedPrefix instead.
2057e5dd7070Spatrick assert(qualifier->getPrefix());
2058e5dd7070Spatrick manglePrefix(qualifier->getPrefix());
2059e5dd7070Spatrick
2060e5dd7070Spatrick mangleSourceName(qualifier->getAsIdentifier());
2061*12c85518Srobert
2062*12c85518Srobert if (!Clang14Compat)
2063*12c85518Srobert addSubstitution(qualifier);
2064e5dd7070Spatrick return;
2065e5dd7070Spatrick }
2066e5dd7070Spatrick
2067e5dd7070Spatrick llvm_unreachable("unexpected nested name specifier");
2068e5dd7070Spatrick }
2069e5dd7070Spatrick
manglePrefix(const DeclContext * DC,bool NoFunction)2070e5dd7070Spatrick void CXXNameMangler::manglePrefix(const DeclContext *DC, bool NoFunction) {
2071e5dd7070Spatrick // <prefix> ::= <prefix> <unqualified-name>
2072e5dd7070Spatrick // ::= <template-prefix> <template-args>
2073a9ac8606Spatrick // ::= <closure-prefix>
2074e5dd7070Spatrick // ::= <template-param>
2075e5dd7070Spatrick // ::= # empty
2076e5dd7070Spatrick // ::= <substitution>
2077e5dd7070Spatrick
2078*12c85518Srobert assert(!isa<LinkageSpecDecl>(DC) && "prefix cannot be LinkageSpecDecl");
2079e5dd7070Spatrick
2080e5dd7070Spatrick if (DC->isTranslationUnit())
2081e5dd7070Spatrick return;
2082e5dd7070Spatrick
2083e5dd7070Spatrick if (NoFunction && isLocalContainerContext(DC))
2084e5dd7070Spatrick return;
2085e5dd7070Spatrick
2086e5dd7070Spatrick assert(!isLocalContainerContext(DC));
2087e5dd7070Spatrick
2088e5dd7070Spatrick const NamedDecl *ND = cast<NamedDecl>(DC);
2089e5dd7070Spatrick if (mangleSubstitution(ND))
2090e5dd7070Spatrick return;
2091e5dd7070Spatrick
2092a9ac8606Spatrick // Check if we have a template-prefix or a closure-prefix.
2093e5dd7070Spatrick const TemplateArgumentList *TemplateArgs = nullptr;
2094ec727ea7Spatrick if (GlobalDecl TD = isTemplate(ND, TemplateArgs)) {
2095e5dd7070Spatrick mangleTemplatePrefix(TD);
2096a9ac8606Spatrick mangleTemplateArgs(asTemplateName(TD), *TemplateArgs);
2097a9ac8606Spatrick } else if (const NamedDecl *PrefixND = getClosurePrefix(ND)) {
2098a9ac8606Spatrick mangleClosurePrefix(PrefixND, NoFunction);
2099*12c85518Srobert mangleUnqualifiedName(ND, nullptr, nullptr);
2100e5dd7070Spatrick } else {
2101*12c85518Srobert const DeclContext *DC = Context.getEffectiveDeclContext(ND);
2102*12c85518Srobert manglePrefix(DC, NoFunction);
2103*12c85518Srobert mangleUnqualifiedName(ND, DC, nullptr);
2104e5dd7070Spatrick }
2105e5dd7070Spatrick
2106e5dd7070Spatrick addSubstitution(ND);
2107e5dd7070Spatrick }
2108e5dd7070Spatrick
mangleTemplatePrefix(TemplateName Template)2109e5dd7070Spatrick void CXXNameMangler::mangleTemplatePrefix(TemplateName Template) {
2110e5dd7070Spatrick // <template-prefix> ::= <prefix> <template unqualified-name>
2111e5dd7070Spatrick // ::= <template-param>
2112e5dd7070Spatrick // ::= <substitution>
2113e5dd7070Spatrick if (TemplateDecl *TD = Template.getAsTemplateDecl())
2114e5dd7070Spatrick return mangleTemplatePrefix(TD);
2115e5dd7070Spatrick
2116e5dd7070Spatrick DependentTemplateName *Dependent = Template.getAsDependentTemplateName();
2117a9ac8606Spatrick assert(Dependent && "unexpected template name kind");
2118a9ac8606Spatrick
2119a9ac8606Spatrick // Clang 11 and before mangled the substitution for a dependent template name
2120a9ac8606Spatrick // after already having emitted (a substitution for) the prefix.
2121a9ac8606Spatrick bool Clang11Compat = getASTContext().getLangOpts().getClangABICompat() <=
2122a9ac8606Spatrick LangOptions::ClangABI::Ver11;
2123a9ac8606Spatrick if (!Clang11Compat && mangleSubstitution(Template))
2124a9ac8606Spatrick return;
2125a9ac8606Spatrick
2126e5dd7070Spatrick if (NestedNameSpecifier *Qualifier = Dependent->getQualifier())
2127e5dd7070Spatrick manglePrefix(Qualifier);
2128a9ac8606Spatrick
2129a9ac8606Spatrick if (Clang11Compat && mangleSubstitution(Template))
2130a9ac8606Spatrick return;
2131a9ac8606Spatrick
2132a9ac8606Spatrick if (const IdentifierInfo *Id = Dependent->getIdentifier())
2133a9ac8606Spatrick mangleSourceName(Id);
2134a9ac8606Spatrick else
2135a9ac8606Spatrick mangleOperatorName(Dependent->getOperator(), UnknownArity);
2136a9ac8606Spatrick
2137a9ac8606Spatrick addSubstitution(Template);
2138e5dd7070Spatrick }
2139e5dd7070Spatrick
mangleTemplatePrefix(GlobalDecl GD,bool NoFunction)2140ec727ea7Spatrick void CXXNameMangler::mangleTemplatePrefix(GlobalDecl GD,
2141e5dd7070Spatrick bool NoFunction) {
2142ec727ea7Spatrick const TemplateDecl *ND = cast<TemplateDecl>(GD.getDecl());
2143e5dd7070Spatrick // <template-prefix> ::= <prefix> <template unqualified-name>
2144e5dd7070Spatrick // ::= <template-param>
2145e5dd7070Spatrick // ::= <substitution>
2146e5dd7070Spatrick // <template-template-param> ::= <template-param>
2147e5dd7070Spatrick // <substitution>
2148e5dd7070Spatrick
2149e5dd7070Spatrick if (mangleSubstitution(ND))
2150e5dd7070Spatrick return;
2151e5dd7070Spatrick
2152e5dd7070Spatrick // <template-template-param> ::= <template-param>
2153e5dd7070Spatrick if (const auto *TTP = dyn_cast<TemplateTemplateParmDecl>(ND)) {
2154e5dd7070Spatrick mangleTemplateParameter(TTP->getDepth(), TTP->getIndex());
2155e5dd7070Spatrick } else {
2156*12c85518Srobert const DeclContext *DC = Context.getEffectiveDeclContext(ND);
2157*12c85518Srobert manglePrefix(DC, NoFunction);
2158e5dd7070Spatrick if (isa<BuiltinTemplateDecl>(ND) || isa<ConceptDecl>(ND))
2159*12c85518Srobert mangleUnqualifiedName(GD, DC, nullptr);
2160e5dd7070Spatrick else
2161*12c85518Srobert mangleUnqualifiedName(GD.getWithDecl(ND->getTemplatedDecl()), DC,
2162*12c85518Srobert nullptr);
2163e5dd7070Spatrick }
2164e5dd7070Spatrick
2165e5dd7070Spatrick addSubstitution(ND);
2166e5dd7070Spatrick }
2167e5dd7070Spatrick
getClosurePrefix(const Decl * ND)2168a9ac8606Spatrick const NamedDecl *CXXNameMangler::getClosurePrefix(const Decl *ND) {
2169a9ac8606Spatrick if (getASTContext().getLangOpts().getClangABICompat() <=
2170a9ac8606Spatrick LangOptions::ClangABI::Ver12)
2171a9ac8606Spatrick return nullptr;
2172a9ac8606Spatrick
2173a9ac8606Spatrick const NamedDecl *Context = nullptr;
2174a9ac8606Spatrick if (auto *Block = dyn_cast<BlockDecl>(ND)) {
2175a9ac8606Spatrick Context = dyn_cast_or_null<NamedDecl>(Block->getBlockManglingContextDecl());
2176a9ac8606Spatrick } else if (auto *RD = dyn_cast<CXXRecordDecl>(ND)) {
2177a9ac8606Spatrick if (RD->isLambda())
2178a9ac8606Spatrick Context = dyn_cast_or_null<NamedDecl>(RD->getLambdaContextDecl());
2179a9ac8606Spatrick }
2180a9ac8606Spatrick if (!Context)
2181a9ac8606Spatrick return nullptr;
2182a9ac8606Spatrick
2183a9ac8606Spatrick // Only lambdas within the initializer of a non-local variable or non-static
2184a9ac8606Spatrick // data member get a <closure-prefix>.
2185a9ac8606Spatrick if ((isa<VarDecl>(Context) && cast<VarDecl>(Context)->hasGlobalStorage()) ||
2186a9ac8606Spatrick isa<FieldDecl>(Context))
2187a9ac8606Spatrick return Context;
2188a9ac8606Spatrick
2189a9ac8606Spatrick return nullptr;
2190a9ac8606Spatrick }
2191a9ac8606Spatrick
mangleClosurePrefix(const NamedDecl * ND,bool NoFunction)2192a9ac8606Spatrick void CXXNameMangler::mangleClosurePrefix(const NamedDecl *ND, bool NoFunction) {
2193a9ac8606Spatrick // <closure-prefix> ::= [ <prefix> ] <unqualified-name> M
2194a9ac8606Spatrick // ::= <template-prefix> <template-args> M
2195a9ac8606Spatrick if (mangleSubstitution(ND))
2196a9ac8606Spatrick return;
2197a9ac8606Spatrick
2198a9ac8606Spatrick const TemplateArgumentList *TemplateArgs = nullptr;
2199a9ac8606Spatrick if (GlobalDecl TD = isTemplate(ND, TemplateArgs)) {
2200a9ac8606Spatrick mangleTemplatePrefix(TD, NoFunction);
2201a9ac8606Spatrick mangleTemplateArgs(asTemplateName(TD), *TemplateArgs);
2202a9ac8606Spatrick } else {
2203*12c85518Srobert const auto *DC = Context.getEffectiveDeclContext(ND);
2204*12c85518Srobert manglePrefix(DC, NoFunction);
2205*12c85518Srobert mangleUnqualifiedName(ND, DC, nullptr);
2206a9ac8606Spatrick }
2207a9ac8606Spatrick
2208a9ac8606Spatrick Out << 'M';
2209a9ac8606Spatrick
2210a9ac8606Spatrick addSubstitution(ND);
2211a9ac8606Spatrick }
2212a9ac8606Spatrick
2213e5dd7070Spatrick /// Mangles a template name under the production <type>. Required for
2214e5dd7070Spatrick /// template template arguments.
2215e5dd7070Spatrick /// <type> ::= <class-enum-type>
2216e5dd7070Spatrick /// ::= <template-param>
2217e5dd7070Spatrick /// ::= <substitution>
mangleType(TemplateName TN)2218e5dd7070Spatrick void CXXNameMangler::mangleType(TemplateName TN) {
2219e5dd7070Spatrick if (mangleSubstitution(TN))
2220e5dd7070Spatrick return;
2221e5dd7070Spatrick
2222e5dd7070Spatrick TemplateDecl *TD = nullptr;
2223e5dd7070Spatrick
2224e5dd7070Spatrick switch (TN.getKind()) {
2225e5dd7070Spatrick case TemplateName::QualifiedTemplate:
2226*12c85518Srobert case TemplateName::UsingTemplate:
2227e5dd7070Spatrick case TemplateName::Template:
2228e5dd7070Spatrick TD = TN.getAsTemplateDecl();
2229e5dd7070Spatrick goto HaveDecl;
2230e5dd7070Spatrick
2231e5dd7070Spatrick HaveDecl:
2232e5dd7070Spatrick if (auto *TTP = dyn_cast<TemplateTemplateParmDecl>(TD))
2233e5dd7070Spatrick mangleTemplateParameter(TTP->getDepth(), TTP->getIndex());
2234e5dd7070Spatrick else
2235e5dd7070Spatrick mangleName(TD);
2236e5dd7070Spatrick break;
2237e5dd7070Spatrick
2238e5dd7070Spatrick case TemplateName::OverloadedTemplate:
2239e5dd7070Spatrick case TemplateName::AssumedTemplate:
2240e5dd7070Spatrick llvm_unreachable("can't mangle an overloaded template name as a <type>");
2241e5dd7070Spatrick
2242e5dd7070Spatrick case TemplateName::DependentTemplate: {
2243e5dd7070Spatrick const DependentTemplateName *Dependent = TN.getAsDependentTemplateName();
2244e5dd7070Spatrick assert(Dependent->isIdentifier());
2245e5dd7070Spatrick
2246e5dd7070Spatrick // <class-enum-type> ::= <name>
2247e5dd7070Spatrick // <name> ::= <nested-name>
2248e5dd7070Spatrick mangleUnresolvedPrefix(Dependent->getQualifier());
2249e5dd7070Spatrick mangleSourceName(Dependent->getIdentifier());
2250e5dd7070Spatrick break;
2251e5dd7070Spatrick }
2252e5dd7070Spatrick
2253e5dd7070Spatrick case TemplateName::SubstTemplateTemplateParm: {
2254e5dd7070Spatrick // Substituted template parameters are mangled as the substituted
2255e5dd7070Spatrick // template. This will check for the substitution twice, which is
2256e5dd7070Spatrick // fine, but we have to return early so that we don't try to *add*
2257e5dd7070Spatrick // the substitution twice.
2258e5dd7070Spatrick SubstTemplateTemplateParmStorage *subst
2259e5dd7070Spatrick = TN.getAsSubstTemplateTemplateParm();
2260e5dd7070Spatrick mangleType(subst->getReplacement());
2261e5dd7070Spatrick return;
2262e5dd7070Spatrick }
2263e5dd7070Spatrick
2264e5dd7070Spatrick case TemplateName::SubstTemplateTemplateParmPack: {
2265e5dd7070Spatrick // FIXME: not clear how to mangle this!
2266e5dd7070Spatrick // template <template <class> class T...> class A {
2267e5dd7070Spatrick // template <template <class> class U...> void foo(B<T,U> x...);
2268e5dd7070Spatrick // };
2269e5dd7070Spatrick Out << "_SUBSTPACK_";
2270e5dd7070Spatrick break;
2271e5dd7070Spatrick }
2272e5dd7070Spatrick }
2273e5dd7070Spatrick
2274e5dd7070Spatrick addSubstitution(TN);
2275e5dd7070Spatrick }
2276e5dd7070Spatrick
mangleUnresolvedTypeOrSimpleId(QualType Ty,StringRef Prefix)2277e5dd7070Spatrick bool CXXNameMangler::mangleUnresolvedTypeOrSimpleId(QualType Ty,
2278e5dd7070Spatrick StringRef Prefix) {
2279e5dd7070Spatrick // Only certain other types are valid as prefixes; enumerate them.
2280e5dd7070Spatrick switch (Ty->getTypeClass()) {
2281e5dd7070Spatrick case Type::Builtin:
2282e5dd7070Spatrick case Type::Complex:
2283e5dd7070Spatrick case Type::Adjusted:
2284e5dd7070Spatrick case Type::Decayed:
2285e5dd7070Spatrick case Type::Pointer:
2286e5dd7070Spatrick case Type::BlockPointer:
2287e5dd7070Spatrick case Type::LValueReference:
2288e5dd7070Spatrick case Type::RValueReference:
2289e5dd7070Spatrick case Type::MemberPointer:
2290e5dd7070Spatrick case Type::ConstantArray:
2291e5dd7070Spatrick case Type::IncompleteArray:
2292e5dd7070Spatrick case Type::VariableArray:
2293e5dd7070Spatrick case Type::DependentSizedArray:
2294e5dd7070Spatrick case Type::DependentAddressSpace:
2295e5dd7070Spatrick case Type::DependentVector:
2296e5dd7070Spatrick case Type::DependentSizedExtVector:
2297e5dd7070Spatrick case Type::Vector:
2298e5dd7070Spatrick case Type::ExtVector:
2299ec727ea7Spatrick case Type::ConstantMatrix:
2300ec727ea7Spatrick case Type::DependentSizedMatrix:
2301e5dd7070Spatrick case Type::FunctionProto:
2302e5dd7070Spatrick case Type::FunctionNoProto:
2303e5dd7070Spatrick case Type::Paren:
2304e5dd7070Spatrick case Type::Attributed:
2305*12c85518Srobert case Type::BTFTagAttributed:
2306e5dd7070Spatrick case Type::Auto:
2307e5dd7070Spatrick case Type::DeducedTemplateSpecialization:
2308e5dd7070Spatrick case Type::PackExpansion:
2309e5dd7070Spatrick case Type::ObjCObject:
2310e5dd7070Spatrick case Type::ObjCInterface:
2311e5dd7070Spatrick case Type::ObjCObjectPointer:
2312e5dd7070Spatrick case Type::ObjCTypeParam:
2313e5dd7070Spatrick case Type::Atomic:
2314e5dd7070Spatrick case Type::Pipe:
2315e5dd7070Spatrick case Type::MacroQualified:
2316*12c85518Srobert case Type::BitInt:
2317*12c85518Srobert case Type::DependentBitInt:
2318e5dd7070Spatrick llvm_unreachable("type is illegal as a nested name specifier");
2319e5dd7070Spatrick
2320e5dd7070Spatrick case Type::SubstTemplateTypeParmPack:
2321e5dd7070Spatrick // FIXME: not clear how to mangle this!
2322e5dd7070Spatrick // template <class T...> class A {
2323e5dd7070Spatrick // template <class U...> void foo(decltype(T::foo(U())) x...);
2324e5dd7070Spatrick // };
2325e5dd7070Spatrick Out << "_SUBSTPACK_";
2326e5dd7070Spatrick break;
2327e5dd7070Spatrick
2328e5dd7070Spatrick // <unresolved-type> ::= <template-param>
2329e5dd7070Spatrick // ::= <decltype>
2330e5dd7070Spatrick // ::= <template-template-param> <template-args>
2331e5dd7070Spatrick // (this last is not official yet)
2332e5dd7070Spatrick case Type::TypeOfExpr:
2333e5dd7070Spatrick case Type::TypeOf:
2334e5dd7070Spatrick case Type::Decltype:
2335e5dd7070Spatrick case Type::TemplateTypeParm:
2336e5dd7070Spatrick case Type::UnaryTransform:
2337e5dd7070Spatrick case Type::SubstTemplateTypeParm:
2338e5dd7070Spatrick unresolvedType:
2339e5dd7070Spatrick // Some callers want a prefix before the mangled type.
2340e5dd7070Spatrick Out << Prefix;
2341e5dd7070Spatrick
2342e5dd7070Spatrick // This seems to do everything we want. It's not really
2343e5dd7070Spatrick // sanctioned for a substituted template parameter, though.
2344e5dd7070Spatrick mangleType(Ty);
2345e5dd7070Spatrick
2346e5dd7070Spatrick // We never want to print 'E' directly after an unresolved-type,
2347e5dd7070Spatrick // so we return directly.
2348e5dd7070Spatrick return true;
2349e5dd7070Spatrick
2350e5dd7070Spatrick case Type::Typedef:
2351e5dd7070Spatrick mangleSourceNameWithAbiTags(cast<TypedefType>(Ty)->getDecl());
2352e5dd7070Spatrick break;
2353e5dd7070Spatrick
2354e5dd7070Spatrick case Type::UnresolvedUsing:
2355e5dd7070Spatrick mangleSourceNameWithAbiTags(
2356e5dd7070Spatrick cast<UnresolvedUsingType>(Ty)->getDecl());
2357e5dd7070Spatrick break;
2358e5dd7070Spatrick
2359e5dd7070Spatrick case Type::Enum:
2360e5dd7070Spatrick case Type::Record:
2361e5dd7070Spatrick mangleSourceNameWithAbiTags(cast<TagType>(Ty)->getDecl());
2362e5dd7070Spatrick break;
2363e5dd7070Spatrick
2364e5dd7070Spatrick case Type::TemplateSpecialization: {
2365e5dd7070Spatrick const TemplateSpecializationType *TST =
2366e5dd7070Spatrick cast<TemplateSpecializationType>(Ty);
2367e5dd7070Spatrick TemplateName TN = TST->getTemplateName();
2368e5dd7070Spatrick switch (TN.getKind()) {
2369e5dd7070Spatrick case TemplateName::Template:
2370e5dd7070Spatrick case TemplateName::QualifiedTemplate: {
2371e5dd7070Spatrick TemplateDecl *TD = TN.getAsTemplateDecl();
2372e5dd7070Spatrick
2373e5dd7070Spatrick // If the base is a template template parameter, this is an
2374e5dd7070Spatrick // unresolved type.
2375e5dd7070Spatrick assert(TD && "no template for template specialization type");
2376e5dd7070Spatrick if (isa<TemplateTemplateParmDecl>(TD))
2377e5dd7070Spatrick goto unresolvedType;
2378e5dd7070Spatrick
2379e5dd7070Spatrick mangleSourceNameWithAbiTags(TD);
2380e5dd7070Spatrick break;
2381e5dd7070Spatrick }
2382e5dd7070Spatrick
2383e5dd7070Spatrick case TemplateName::OverloadedTemplate:
2384e5dd7070Spatrick case TemplateName::AssumedTemplate:
2385e5dd7070Spatrick case TemplateName::DependentTemplate:
2386e5dd7070Spatrick llvm_unreachable("invalid base for a template specialization type");
2387e5dd7070Spatrick
2388e5dd7070Spatrick case TemplateName::SubstTemplateTemplateParm: {
2389e5dd7070Spatrick SubstTemplateTemplateParmStorage *subst =
2390e5dd7070Spatrick TN.getAsSubstTemplateTemplateParm();
2391e5dd7070Spatrick mangleExistingSubstitution(subst->getReplacement());
2392e5dd7070Spatrick break;
2393e5dd7070Spatrick }
2394e5dd7070Spatrick
2395e5dd7070Spatrick case TemplateName::SubstTemplateTemplateParmPack: {
2396e5dd7070Spatrick // FIXME: not clear how to mangle this!
2397e5dd7070Spatrick // template <template <class U> class T...> class A {
2398e5dd7070Spatrick // template <class U...> void foo(decltype(T<U>::foo) x...);
2399e5dd7070Spatrick // };
2400e5dd7070Spatrick Out << "_SUBSTPACK_";
2401e5dd7070Spatrick break;
2402e5dd7070Spatrick }
2403*12c85518Srobert case TemplateName::UsingTemplate: {
2404*12c85518Srobert TemplateDecl *TD = TN.getAsTemplateDecl();
2405*12c85518Srobert assert(TD && !isa<TemplateTemplateParmDecl>(TD));
2406*12c85518Srobert mangleSourceNameWithAbiTags(TD);
2407*12c85518Srobert break;
2408*12c85518Srobert }
2409e5dd7070Spatrick }
2410e5dd7070Spatrick
2411a9ac8606Spatrick // Note: we don't pass in the template name here. We are mangling the
2412a9ac8606Spatrick // original source-level template arguments, so we shouldn't consider
2413a9ac8606Spatrick // conversions to the corresponding template parameter.
2414a9ac8606Spatrick // FIXME: Other compilers mangle partially-resolved template arguments in
2415a9ac8606Spatrick // unresolved-qualifier-levels.
2416*12c85518Srobert mangleTemplateArgs(TemplateName(), TST->template_arguments());
2417e5dd7070Spatrick break;
2418e5dd7070Spatrick }
2419e5dd7070Spatrick
2420e5dd7070Spatrick case Type::InjectedClassName:
2421e5dd7070Spatrick mangleSourceNameWithAbiTags(
2422e5dd7070Spatrick cast<InjectedClassNameType>(Ty)->getDecl());
2423e5dd7070Spatrick break;
2424e5dd7070Spatrick
2425e5dd7070Spatrick case Type::DependentName:
2426e5dd7070Spatrick mangleSourceName(cast<DependentNameType>(Ty)->getIdentifier());
2427e5dd7070Spatrick break;
2428e5dd7070Spatrick
2429e5dd7070Spatrick case Type::DependentTemplateSpecialization: {
2430e5dd7070Spatrick const DependentTemplateSpecializationType *DTST =
2431e5dd7070Spatrick cast<DependentTemplateSpecializationType>(Ty);
2432a9ac8606Spatrick TemplateName Template = getASTContext().getDependentTemplateName(
2433a9ac8606Spatrick DTST->getQualifier(), DTST->getIdentifier());
2434e5dd7070Spatrick mangleSourceName(DTST->getIdentifier());
2435*12c85518Srobert mangleTemplateArgs(Template, DTST->template_arguments());
2436e5dd7070Spatrick break;
2437e5dd7070Spatrick }
2438e5dd7070Spatrick
2439*12c85518Srobert case Type::Using:
2440*12c85518Srobert return mangleUnresolvedTypeOrSimpleId(cast<UsingType>(Ty)->desugar(),
2441*12c85518Srobert Prefix);
2442e5dd7070Spatrick case Type::Elaborated:
2443e5dd7070Spatrick return mangleUnresolvedTypeOrSimpleId(
2444e5dd7070Spatrick cast<ElaboratedType>(Ty)->getNamedType(), Prefix);
2445e5dd7070Spatrick }
2446e5dd7070Spatrick
2447e5dd7070Spatrick return false;
2448e5dd7070Spatrick }
2449e5dd7070Spatrick
mangleOperatorName(DeclarationName Name,unsigned Arity)2450e5dd7070Spatrick void CXXNameMangler::mangleOperatorName(DeclarationName Name, unsigned Arity) {
2451e5dd7070Spatrick switch (Name.getNameKind()) {
2452e5dd7070Spatrick case DeclarationName::CXXConstructorName:
2453e5dd7070Spatrick case DeclarationName::CXXDestructorName:
2454e5dd7070Spatrick case DeclarationName::CXXDeductionGuideName:
2455e5dd7070Spatrick case DeclarationName::CXXUsingDirective:
2456e5dd7070Spatrick case DeclarationName::Identifier:
2457e5dd7070Spatrick case DeclarationName::ObjCMultiArgSelector:
2458e5dd7070Spatrick case DeclarationName::ObjCOneArgSelector:
2459e5dd7070Spatrick case DeclarationName::ObjCZeroArgSelector:
2460e5dd7070Spatrick llvm_unreachable("Not an operator name");
2461e5dd7070Spatrick
2462e5dd7070Spatrick case DeclarationName::CXXConversionFunctionName:
2463e5dd7070Spatrick // <operator-name> ::= cv <type> # (cast)
2464e5dd7070Spatrick Out << "cv";
2465e5dd7070Spatrick mangleType(Name.getCXXNameType());
2466e5dd7070Spatrick break;
2467e5dd7070Spatrick
2468e5dd7070Spatrick case DeclarationName::CXXLiteralOperatorName:
2469e5dd7070Spatrick Out << "li";
2470e5dd7070Spatrick mangleSourceName(Name.getCXXLiteralIdentifier());
2471e5dd7070Spatrick return;
2472e5dd7070Spatrick
2473e5dd7070Spatrick case DeclarationName::CXXOperatorName:
2474e5dd7070Spatrick mangleOperatorName(Name.getCXXOverloadedOperator(), Arity);
2475e5dd7070Spatrick break;
2476e5dd7070Spatrick }
2477e5dd7070Spatrick }
2478e5dd7070Spatrick
2479e5dd7070Spatrick void
mangleOperatorName(OverloadedOperatorKind OO,unsigned Arity)2480e5dd7070Spatrick CXXNameMangler::mangleOperatorName(OverloadedOperatorKind OO, unsigned Arity) {
2481e5dd7070Spatrick switch (OO) {
2482e5dd7070Spatrick // <operator-name> ::= nw # new
2483e5dd7070Spatrick case OO_New: Out << "nw"; break;
2484e5dd7070Spatrick // ::= na # new[]
2485e5dd7070Spatrick case OO_Array_New: Out << "na"; break;
2486e5dd7070Spatrick // ::= dl # delete
2487e5dd7070Spatrick case OO_Delete: Out << "dl"; break;
2488e5dd7070Spatrick // ::= da # delete[]
2489e5dd7070Spatrick case OO_Array_Delete: Out << "da"; break;
2490e5dd7070Spatrick // ::= ps # + (unary)
2491e5dd7070Spatrick // ::= pl # + (binary or unknown)
2492e5dd7070Spatrick case OO_Plus:
2493e5dd7070Spatrick Out << (Arity == 1? "ps" : "pl"); break;
2494e5dd7070Spatrick // ::= ng # - (unary)
2495e5dd7070Spatrick // ::= mi # - (binary or unknown)
2496e5dd7070Spatrick case OO_Minus:
2497e5dd7070Spatrick Out << (Arity == 1? "ng" : "mi"); break;
2498e5dd7070Spatrick // ::= ad # & (unary)
2499e5dd7070Spatrick // ::= an # & (binary or unknown)
2500e5dd7070Spatrick case OO_Amp:
2501e5dd7070Spatrick Out << (Arity == 1? "ad" : "an"); break;
2502e5dd7070Spatrick // ::= de # * (unary)
2503e5dd7070Spatrick // ::= ml # * (binary or unknown)
2504e5dd7070Spatrick case OO_Star:
2505e5dd7070Spatrick // Use binary when unknown.
2506e5dd7070Spatrick Out << (Arity == 1? "de" : "ml"); break;
2507e5dd7070Spatrick // ::= co # ~
2508e5dd7070Spatrick case OO_Tilde: Out << "co"; break;
2509e5dd7070Spatrick // ::= dv # /
2510e5dd7070Spatrick case OO_Slash: Out << "dv"; break;
2511e5dd7070Spatrick // ::= rm # %
2512e5dd7070Spatrick case OO_Percent: Out << "rm"; break;
2513e5dd7070Spatrick // ::= or # |
2514e5dd7070Spatrick case OO_Pipe: Out << "or"; break;
2515e5dd7070Spatrick // ::= eo # ^
2516e5dd7070Spatrick case OO_Caret: Out << "eo"; break;
2517e5dd7070Spatrick // ::= aS # =
2518e5dd7070Spatrick case OO_Equal: Out << "aS"; break;
2519e5dd7070Spatrick // ::= pL # +=
2520e5dd7070Spatrick case OO_PlusEqual: Out << "pL"; break;
2521e5dd7070Spatrick // ::= mI # -=
2522e5dd7070Spatrick case OO_MinusEqual: Out << "mI"; break;
2523e5dd7070Spatrick // ::= mL # *=
2524e5dd7070Spatrick case OO_StarEqual: Out << "mL"; break;
2525e5dd7070Spatrick // ::= dV # /=
2526e5dd7070Spatrick case OO_SlashEqual: Out << "dV"; break;
2527e5dd7070Spatrick // ::= rM # %=
2528e5dd7070Spatrick case OO_PercentEqual: Out << "rM"; break;
2529e5dd7070Spatrick // ::= aN # &=
2530e5dd7070Spatrick case OO_AmpEqual: Out << "aN"; break;
2531e5dd7070Spatrick // ::= oR # |=
2532e5dd7070Spatrick case OO_PipeEqual: Out << "oR"; break;
2533e5dd7070Spatrick // ::= eO # ^=
2534e5dd7070Spatrick case OO_CaretEqual: Out << "eO"; break;
2535e5dd7070Spatrick // ::= ls # <<
2536e5dd7070Spatrick case OO_LessLess: Out << "ls"; break;
2537e5dd7070Spatrick // ::= rs # >>
2538e5dd7070Spatrick case OO_GreaterGreater: Out << "rs"; break;
2539e5dd7070Spatrick // ::= lS # <<=
2540e5dd7070Spatrick case OO_LessLessEqual: Out << "lS"; break;
2541e5dd7070Spatrick // ::= rS # >>=
2542e5dd7070Spatrick case OO_GreaterGreaterEqual: Out << "rS"; break;
2543e5dd7070Spatrick // ::= eq # ==
2544e5dd7070Spatrick case OO_EqualEqual: Out << "eq"; break;
2545e5dd7070Spatrick // ::= ne # !=
2546e5dd7070Spatrick case OO_ExclaimEqual: Out << "ne"; break;
2547e5dd7070Spatrick // ::= lt # <
2548e5dd7070Spatrick case OO_Less: Out << "lt"; break;
2549e5dd7070Spatrick // ::= gt # >
2550e5dd7070Spatrick case OO_Greater: Out << "gt"; break;
2551e5dd7070Spatrick // ::= le # <=
2552e5dd7070Spatrick case OO_LessEqual: Out << "le"; break;
2553e5dd7070Spatrick // ::= ge # >=
2554e5dd7070Spatrick case OO_GreaterEqual: Out << "ge"; break;
2555e5dd7070Spatrick // ::= nt # !
2556e5dd7070Spatrick case OO_Exclaim: Out << "nt"; break;
2557e5dd7070Spatrick // ::= aa # &&
2558e5dd7070Spatrick case OO_AmpAmp: Out << "aa"; break;
2559e5dd7070Spatrick // ::= oo # ||
2560e5dd7070Spatrick case OO_PipePipe: Out << "oo"; break;
2561e5dd7070Spatrick // ::= pp # ++
2562e5dd7070Spatrick case OO_PlusPlus: Out << "pp"; break;
2563e5dd7070Spatrick // ::= mm # --
2564e5dd7070Spatrick case OO_MinusMinus: Out << "mm"; break;
2565e5dd7070Spatrick // ::= cm # ,
2566e5dd7070Spatrick case OO_Comma: Out << "cm"; break;
2567e5dd7070Spatrick // ::= pm # ->*
2568e5dd7070Spatrick case OO_ArrowStar: Out << "pm"; break;
2569e5dd7070Spatrick // ::= pt # ->
2570e5dd7070Spatrick case OO_Arrow: Out << "pt"; break;
2571e5dd7070Spatrick // ::= cl # ()
2572e5dd7070Spatrick case OO_Call: Out << "cl"; break;
2573e5dd7070Spatrick // ::= ix # []
2574e5dd7070Spatrick case OO_Subscript: Out << "ix"; break;
2575e5dd7070Spatrick
2576e5dd7070Spatrick // ::= qu # ?
2577e5dd7070Spatrick // The conditional operator can't be overloaded, but we still handle it when
2578e5dd7070Spatrick // mangling expressions.
2579e5dd7070Spatrick case OO_Conditional: Out << "qu"; break;
2580e5dd7070Spatrick // Proposal on cxx-abi-dev, 2015-10-21.
2581e5dd7070Spatrick // ::= aw # co_await
2582e5dd7070Spatrick case OO_Coawait: Out << "aw"; break;
2583e5dd7070Spatrick // Proposed in cxx-abi github issue 43.
2584e5dd7070Spatrick // ::= ss # <=>
2585e5dd7070Spatrick case OO_Spaceship: Out << "ss"; break;
2586e5dd7070Spatrick
2587e5dd7070Spatrick case OO_None:
2588e5dd7070Spatrick case NUM_OVERLOADED_OPERATORS:
2589e5dd7070Spatrick llvm_unreachable("Not an overloaded operator");
2590e5dd7070Spatrick }
2591e5dd7070Spatrick }
2592e5dd7070Spatrick
mangleQualifiers(Qualifiers Quals,const DependentAddressSpaceType * DAST)2593e5dd7070Spatrick void CXXNameMangler::mangleQualifiers(Qualifiers Quals, const DependentAddressSpaceType *DAST) {
2594e5dd7070Spatrick // Vendor qualifiers come first and if they are order-insensitive they must
2595e5dd7070Spatrick // be emitted in reversed alphabetical order, see Itanium ABI 5.1.5.
2596e5dd7070Spatrick
2597e5dd7070Spatrick // <type> ::= U <addrspace-expr>
2598e5dd7070Spatrick if (DAST) {
2599e5dd7070Spatrick Out << "U2ASI";
2600e5dd7070Spatrick mangleExpression(DAST->getAddrSpaceExpr());
2601e5dd7070Spatrick Out << "E";
2602e5dd7070Spatrick }
2603e5dd7070Spatrick
2604e5dd7070Spatrick // Address space qualifiers start with an ordinary letter.
2605e5dd7070Spatrick if (Quals.hasAddressSpace()) {
2606e5dd7070Spatrick // Address space extension:
2607e5dd7070Spatrick //
2608e5dd7070Spatrick // <type> ::= U <target-addrspace>
2609e5dd7070Spatrick // <type> ::= U <OpenCL-addrspace>
2610e5dd7070Spatrick // <type> ::= U <CUDA-addrspace>
2611e5dd7070Spatrick
2612e5dd7070Spatrick SmallString<64> ASString;
2613e5dd7070Spatrick LangAS AS = Quals.getAddressSpace();
2614e5dd7070Spatrick
2615e5dd7070Spatrick if (Context.getASTContext().addressSpaceMapManglingFor(AS)) {
2616e5dd7070Spatrick // <target-addrspace> ::= "AS" <address-space-number>
2617e5dd7070Spatrick unsigned TargetAS = Context.getASTContext().getTargetAddressSpace(AS);
2618a9ac8606Spatrick if (TargetAS != 0 ||
2619a9ac8606Spatrick Context.getASTContext().getTargetAddressSpace(LangAS::Default) != 0)
2620e5dd7070Spatrick ASString = "AS" + llvm::utostr(TargetAS);
2621e5dd7070Spatrick } else {
2622e5dd7070Spatrick switch (AS) {
2623e5dd7070Spatrick default: llvm_unreachable("Not a language specific address space");
2624e5dd7070Spatrick // <OpenCL-addrspace> ::= "CL" [ "global" | "local" | "constant" |
2625a9ac8606Spatrick // "private"| "generic" | "device" |
2626a9ac8606Spatrick // "host" ]
2627a9ac8606Spatrick case LangAS::opencl_global:
2628a9ac8606Spatrick ASString = "CLglobal";
2629a9ac8606Spatrick break;
2630a9ac8606Spatrick case LangAS::opencl_global_device:
2631a9ac8606Spatrick ASString = "CLdevice";
2632a9ac8606Spatrick break;
2633a9ac8606Spatrick case LangAS::opencl_global_host:
2634a9ac8606Spatrick ASString = "CLhost";
2635a9ac8606Spatrick break;
2636a9ac8606Spatrick case LangAS::opencl_local:
2637a9ac8606Spatrick ASString = "CLlocal";
2638a9ac8606Spatrick break;
2639a9ac8606Spatrick case LangAS::opencl_constant:
2640a9ac8606Spatrick ASString = "CLconstant";
2641a9ac8606Spatrick break;
2642a9ac8606Spatrick case LangAS::opencl_private:
2643a9ac8606Spatrick ASString = "CLprivate";
2644a9ac8606Spatrick break;
2645a9ac8606Spatrick case LangAS::opencl_generic:
2646a9ac8606Spatrick ASString = "CLgeneric";
2647a9ac8606Spatrick break;
2648a9ac8606Spatrick // <SYCL-addrspace> ::= "SY" [ "global" | "local" | "private" |
2649a9ac8606Spatrick // "device" | "host" ]
2650a9ac8606Spatrick case LangAS::sycl_global:
2651a9ac8606Spatrick ASString = "SYglobal";
2652a9ac8606Spatrick break;
2653a9ac8606Spatrick case LangAS::sycl_global_device:
2654a9ac8606Spatrick ASString = "SYdevice";
2655a9ac8606Spatrick break;
2656a9ac8606Spatrick case LangAS::sycl_global_host:
2657a9ac8606Spatrick ASString = "SYhost";
2658a9ac8606Spatrick break;
2659a9ac8606Spatrick case LangAS::sycl_local:
2660a9ac8606Spatrick ASString = "SYlocal";
2661a9ac8606Spatrick break;
2662a9ac8606Spatrick case LangAS::sycl_private:
2663a9ac8606Spatrick ASString = "SYprivate";
2664a9ac8606Spatrick break;
2665e5dd7070Spatrick // <CUDA-addrspace> ::= "CU" [ "device" | "constant" | "shared" ]
2666a9ac8606Spatrick case LangAS::cuda_device:
2667a9ac8606Spatrick ASString = "CUdevice";
2668a9ac8606Spatrick break;
2669a9ac8606Spatrick case LangAS::cuda_constant:
2670a9ac8606Spatrick ASString = "CUconstant";
2671a9ac8606Spatrick break;
2672a9ac8606Spatrick case LangAS::cuda_shared:
2673a9ac8606Spatrick ASString = "CUshared";
2674a9ac8606Spatrick break;
2675e5dd7070Spatrick // <ptrsize-addrspace> ::= [ "ptr32_sptr" | "ptr32_uptr" | "ptr64" ]
2676e5dd7070Spatrick case LangAS::ptr32_sptr:
2677e5dd7070Spatrick ASString = "ptr32_sptr";
2678e5dd7070Spatrick break;
2679e5dd7070Spatrick case LangAS::ptr32_uptr:
2680e5dd7070Spatrick ASString = "ptr32_uptr";
2681e5dd7070Spatrick break;
2682e5dd7070Spatrick case LangAS::ptr64:
2683e5dd7070Spatrick ASString = "ptr64";
2684e5dd7070Spatrick break;
2685e5dd7070Spatrick }
2686e5dd7070Spatrick }
2687e5dd7070Spatrick if (!ASString.empty())
2688e5dd7070Spatrick mangleVendorQualifier(ASString);
2689e5dd7070Spatrick }
2690e5dd7070Spatrick
2691e5dd7070Spatrick // The ARC ownership qualifiers start with underscores.
2692e5dd7070Spatrick // Objective-C ARC Extension:
2693e5dd7070Spatrick //
2694e5dd7070Spatrick // <type> ::= U "__strong"
2695e5dd7070Spatrick // <type> ::= U "__weak"
2696e5dd7070Spatrick // <type> ::= U "__autoreleasing"
2697e5dd7070Spatrick //
2698e5dd7070Spatrick // Note: we emit __weak first to preserve the order as
2699e5dd7070Spatrick // required by the Itanium ABI.
2700e5dd7070Spatrick if (Quals.getObjCLifetime() == Qualifiers::OCL_Weak)
2701e5dd7070Spatrick mangleVendorQualifier("__weak");
2702e5dd7070Spatrick
2703e5dd7070Spatrick // __unaligned (from -fms-extensions)
2704e5dd7070Spatrick if (Quals.hasUnaligned())
2705e5dd7070Spatrick mangleVendorQualifier("__unaligned");
2706e5dd7070Spatrick
2707e5dd7070Spatrick // Remaining ARC ownership qualifiers.
2708e5dd7070Spatrick switch (Quals.getObjCLifetime()) {
2709e5dd7070Spatrick case Qualifiers::OCL_None:
2710e5dd7070Spatrick break;
2711e5dd7070Spatrick
2712e5dd7070Spatrick case Qualifiers::OCL_Weak:
2713e5dd7070Spatrick // Do nothing as we already handled this case above.
2714e5dd7070Spatrick break;
2715e5dd7070Spatrick
2716e5dd7070Spatrick case Qualifiers::OCL_Strong:
2717e5dd7070Spatrick mangleVendorQualifier("__strong");
2718e5dd7070Spatrick break;
2719e5dd7070Spatrick
2720e5dd7070Spatrick case Qualifiers::OCL_Autoreleasing:
2721e5dd7070Spatrick mangleVendorQualifier("__autoreleasing");
2722e5dd7070Spatrick break;
2723e5dd7070Spatrick
2724e5dd7070Spatrick case Qualifiers::OCL_ExplicitNone:
2725e5dd7070Spatrick // The __unsafe_unretained qualifier is *not* mangled, so that
2726e5dd7070Spatrick // __unsafe_unretained types in ARC produce the same manglings as the
2727e5dd7070Spatrick // equivalent (but, naturally, unqualified) types in non-ARC, providing
2728e5dd7070Spatrick // better ABI compatibility.
2729e5dd7070Spatrick //
2730e5dd7070Spatrick // It's safe to do this because unqualified 'id' won't show up
2731e5dd7070Spatrick // in any type signatures that need to be mangled.
2732e5dd7070Spatrick break;
2733e5dd7070Spatrick }
2734e5dd7070Spatrick
2735e5dd7070Spatrick // <CV-qualifiers> ::= [r] [V] [K] # restrict (C99), volatile, const
2736e5dd7070Spatrick if (Quals.hasRestrict())
2737e5dd7070Spatrick Out << 'r';
2738e5dd7070Spatrick if (Quals.hasVolatile())
2739e5dd7070Spatrick Out << 'V';
2740e5dd7070Spatrick if (Quals.hasConst())
2741e5dd7070Spatrick Out << 'K';
2742e5dd7070Spatrick }
2743e5dd7070Spatrick
mangleVendorQualifier(StringRef name)2744e5dd7070Spatrick void CXXNameMangler::mangleVendorQualifier(StringRef name) {
2745e5dd7070Spatrick Out << 'U' << name.size() << name;
2746e5dd7070Spatrick }
2747e5dd7070Spatrick
mangleRefQualifier(RefQualifierKind RefQualifier)2748e5dd7070Spatrick void CXXNameMangler::mangleRefQualifier(RefQualifierKind RefQualifier) {
2749e5dd7070Spatrick // <ref-qualifier> ::= R # lvalue reference
2750e5dd7070Spatrick // ::= O # rvalue-reference
2751e5dd7070Spatrick switch (RefQualifier) {
2752e5dd7070Spatrick case RQ_None:
2753e5dd7070Spatrick break;
2754e5dd7070Spatrick
2755e5dd7070Spatrick case RQ_LValue:
2756e5dd7070Spatrick Out << 'R';
2757e5dd7070Spatrick break;
2758e5dd7070Spatrick
2759e5dd7070Spatrick case RQ_RValue:
2760e5dd7070Spatrick Out << 'O';
2761e5dd7070Spatrick break;
2762e5dd7070Spatrick }
2763e5dd7070Spatrick }
2764e5dd7070Spatrick
mangleObjCMethodName(const ObjCMethodDecl * MD)2765e5dd7070Spatrick void CXXNameMangler::mangleObjCMethodName(const ObjCMethodDecl *MD) {
2766a9ac8606Spatrick Context.mangleObjCMethodNameAsSourceName(MD, Out);
2767e5dd7070Spatrick }
2768e5dd7070Spatrick
isTypeSubstitutable(Qualifiers Quals,const Type * Ty,ASTContext & Ctx)2769e5dd7070Spatrick static bool isTypeSubstitutable(Qualifiers Quals, const Type *Ty,
2770e5dd7070Spatrick ASTContext &Ctx) {
2771e5dd7070Spatrick if (Quals)
2772e5dd7070Spatrick return true;
2773e5dd7070Spatrick if (Ty->isSpecificBuiltinType(BuiltinType::ObjCSel))
2774e5dd7070Spatrick return true;
2775e5dd7070Spatrick if (Ty->isOpenCLSpecificType())
2776e5dd7070Spatrick return true;
2777e5dd7070Spatrick if (Ty->isBuiltinType())
2778e5dd7070Spatrick return false;
2779e5dd7070Spatrick // Through to Clang 6.0, we accidentally treated undeduced auto types as
2780e5dd7070Spatrick // substitution candidates.
2781e5dd7070Spatrick if (Ctx.getLangOpts().getClangABICompat() > LangOptions::ClangABI::Ver6 &&
2782e5dd7070Spatrick isa<AutoType>(Ty))
2783e5dd7070Spatrick return false;
2784a9ac8606Spatrick // A placeholder type for class template deduction is substitutable with
2785a9ac8606Spatrick // its corresponding template name; this is handled specially when mangling
2786a9ac8606Spatrick // the type.
2787a9ac8606Spatrick if (auto *DeducedTST = Ty->getAs<DeducedTemplateSpecializationType>())
2788a9ac8606Spatrick if (DeducedTST->getDeducedType().isNull())
2789a9ac8606Spatrick return false;
2790e5dd7070Spatrick return true;
2791e5dd7070Spatrick }
2792e5dd7070Spatrick
mangleType(QualType T)2793e5dd7070Spatrick void CXXNameMangler::mangleType(QualType T) {
2794e5dd7070Spatrick // If our type is instantiation-dependent but not dependent, we mangle
2795e5dd7070Spatrick // it as it was written in the source, removing any top-level sugar.
2796e5dd7070Spatrick // Otherwise, use the canonical type.
2797e5dd7070Spatrick //
2798e5dd7070Spatrick // FIXME: This is an approximation of the instantiation-dependent name
2799e5dd7070Spatrick // mangling rules, since we should really be using the type as written and
2800e5dd7070Spatrick // augmented via semantic analysis (i.e., with implicit conversions and
2801e5dd7070Spatrick // default template arguments) for any instantiation-dependent type.
2802e5dd7070Spatrick // Unfortunately, that requires several changes to our AST:
2803e5dd7070Spatrick // - Instantiation-dependent TemplateSpecializationTypes will need to be
2804e5dd7070Spatrick // uniqued, so that we can handle substitutions properly
2805e5dd7070Spatrick // - Default template arguments will need to be represented in the
2806e5dd7070Spatrick // TemplateSpecializationType, since they need to be mangled even though
2807e5dd7070Spatrick // they aren't written.
2808e5dd7070Spatrick // - Conversions on non-type template arguments need to be expressed, since
2809e5dd7070Spatrick // they can affect the mangling of sizeof/alignof.
2810e5dd7070Spatrick //
2811e5dd7070Spatrick // FIXME: This is wrong when mapping to the canonical type for a dependent
2812e5dd7070Spatrick // type discards instantiation-dependent portions of the type, such as for:
2813e5dd7070Spatrick //
2814e5dd7070Spatrick // template<typename T, int N> void f(T (&)[sizeof(N)]);
2815e5dd7070Spatrick // template<typename T> void f(T() throw(typename T::type)); (pre-C++17)
2816e5dd7070Spatrick //
2817e5dd7070Spatrick // It's also wrong in the opposite direction when instantiation-dependent,
2818e5dd7070Spatrick // canonically-equivalent types differ in some irrelevant portion of inner
2819e5dd7070Spatrick // type sugar. In such cases, we fail to form correct substitutions, eg:
2820e5dd7070Spatrick //
2821e5dd7070Spatrick // template<int N> void f(A<sizeof(N)> *, A<sizeof(N)> (*));
2822e5dd7070Spatrick //
2823e5dd7070Spatrick // We should instead canonicalize the non-instantiation-dependent parts,
2824e5dd7070Spatrick // regardless of whether the type as a whole is dependent or instantiation
2825e5dd7070Spatrick // dependent.
2826e5dd7070Spatrick if (!T->isInstantiationDependentType() || T->isDependentType())
2827e5dd7070Spatrick T = T.getCanonicalType();
2828e5dd7070Spatrick else {
2829e5dd7070Spatrick // Desugar any types that are purely sugar.
2830e5dd7070Spatrick do {
2831e5dd7070Spatrick // Don't desugar through template specialization types that aren't
2832e5dd7070Spatrick // type aliases. We need to mangle the template arguments as written.
2833e5dd7070Spatrick if (const TemplateSpecializationType *TST
2834e5dd7070Spatrick = dyn_cast<TemplateSpecializationType>(T))
2835e5dd7070Spatrick if (!TST->isTypeAlias())
2836e5dd7070Spatrick break;
2837e5dd7070Spatrick
2838a9ac8606Spatrick // FIXME: We presumably shouldn't strip off ElaboratedTypes with
2839a9ac8606Spatrick // instantation-dependent qualifiers. See
2840a9ac8606Spatrick // https://github.com/itanium-cxx-abi/cxx-abi/issues/114.
2841a9ac8606Spatrick
2842e5dd7070Spatrick QualType Desugared
2843e5dd7070Spatrick = T.getSingleStepDesugaredType(Context.getASTContext());
2844e5dd7070Spatrick if (Desugared == T)
2845e5dd7070Spatrick break;
2846e5dd7070Spatrick
2847e5dd7070Spatrick T = Desugared;
2848e5dd7070Spatrick } while (true);
2849e5dd7070Spatrick }
2850e5dd7070Spatrick SplitQualType split = T.split();
2851e5dd7070Spatrick Qualifiers quals = split.Quals;
2852e5dd7070Spatrick const Type *ty = split.Ty;
2853e5dd7070Spatrick
2854e5dd7070Spatrick bool isSubstitutable =
2855e5dd7070Spatrick isTypeSubstitutable(quals, ty, Context.getASTContext());
2856e5dd7070Spatrick if (isSubstitutable && mangleSubstitution(T))
2857e5dd7070Spatrick return;
2858e5dd7070Spatrick
2859e5dd7070Spatrick // If we're mangling a qualified array type, push the qualifiers to
2860e5dd7070Spatrick // the element type.
2861e5dd7070Spatrick if (quals && isa<ArrayType>(T)) {
2862e5dd7070Spatrick ty = Context.getASTContext().getAsArrayType(T);
2863e5dd7070Spatrick quals = Qualifiers();
2864e5dd7070Spatrick
2865e5dd7070Spatrick // Note that we don't update T: we want to add the
2866e5dd7070Spatrick // substitution at the original type.
2867e5dd7070Spatrick }
2868e5dd7070Spatrick
2869e5dd7070Spatrick if (quals || ty->isDependentAddressSpaceType()) {
2870e5dd7070Spatrick if (const DependentAddressSpaceType *DAST =
2871e5dd7070Spatrick dyn_cast<DependentAddressSpaceType>(ty)) {
2872e5dd7070Spatrick SplitQualType splitDAST = DAST->getPointeeType().split();
2873e5dd7070Spatrick mangleQualifiers(splitDAST.Quals, DAST);
2874e5dd7070Spatrick mangleType(QualType(splitDAST.Ty, 0));
2875e5dd7070Spatrick } else {
2876e5dd7070Spatrick mangleQualifiers(quals);
2877e5dd7070Spatrick
2878e5dd7070Spatrick // Recurse: even if the qualified type isn't yet substitutable,
2879e5dd7070Spatrick // the unqualified type might be.
2880e5dd7070Spatrick mangleType(QualType(ty, 0));
2881e5dd7070Spatrick }
2882e5dd7070Spatrick } else {
2883e5dd7070Spatrick switch (ty->getTypeClass()) {
2884e5dd7070Spatrick #define ABSTRACT_TYPE(CLASS, PARENT)
2885e5dd7070Spatrick #define NON_CANONICAL_TYPE(CLASS, PARENT) \
2886e5dd7070Spatrick case Type::CLASS: \
2887e5dd7070Spatrick llvm_unreachable("can't mangle non-canonical type " #CLASS "Type"); \
2888e5dd7070Spatrick return;
2889e5dd7070Spatrick #define TYPE(CLASS, PARENT) \
2890e5dd7070Spatrick case Type::CLASS: \
2891e5dd7070Spatrick mangleType(static_cast<const CLASS##Type*>(ty)); \
2892e5dd7070Spatrick break;
2893e5dd7070Spatrick #include "clang/AST/TypeNodes.inc"
2894e5dd7070Spatrick }
2895e5dd7070Spatrick }
2896e5dd7070Spatrick
2897e5dd7070Spatrick // Add the substitution.
2898e5dd7070Spatrick if (isSubstitutable)
2899e5dd7070Spatrick addSubstitution(T);
2900e5dd7070Spatrick }
2901e5dd7070Spatrick
mangleNameOrStandardSubstitution(const NamedDecl * ND)2902e5dd7070Spatrick void CXXNameMangler::mangleNameOrStandardSubstitution(const NamedDecl *ND) {
2903e5dd7070Spatrick if (!mangleStandardSubstitution(ND))
2904e5dd7070Spatrick mangleName(ND);
2905e5dd7070Spatrick }
2906e5dd7070Spatrick
mangleType(const BuiltinType * T)2907e5dd7070Spatrick void CXXNameMangler::mangleType(const BuiltinType *T) {
2908e5dd7070Spatrick // <type> ::= <builtin-type>
2909e5dd7070Spatrick // <builtin-type> ::= v # void
2910e5dd7070Spatrick // ::= w # wchar_t
2911e5dd7070Spatrick // ::= b # bool
2912e5dd7070Spatrick // ::= c # char
2913e5dd7070Spatrick // ::= a # signed char
2914e5dd7070Spatrick // ::= h # unsigned char
2915e5dd7070Spatrick // ::= s # short
2916e5dd7070Spatrick // ::= t # unsigned short
2917e5dd7070Spatrick // ::= i # int
2918e5dd7070Spatrick // ::= j # unsigned int
2919e5dd7070Spatrick // ::= l # long
2920e5dd7070Spatrick // ::= m # unsigned long
2921e5dd7070Spatrick // ::= x # long long, __int64
2922e5dd7070Spatrick // ::= y # unsigned long long, __int64
2923e5dd7070Spatrick // ::= n # __int128
2924e5dd7070Spatrick // ::= o # unsigned __int128
2925e5dd7070Spatrick // ::= f # float
2926e5dd7070Spatrick // ::= d # double
2927e5dd7070Spatrick // ::= e # long double, __float80
2928e5dd7070Spatrick // ::= g # __float128
2929*12c85518Srobert // ::= g # __ibm128
2930e5dd7070Spatrick // UNSUPPORTED: ::= Dd # IEEE 754r decimal floating point (64 bits)
2931e5dd7070Spatrick // UNSUPPORTED: ::= De # IEEE 754r decimal floating point (128 bits)
2932e5dd7070Spatrick // UNSUPPORTED: ::= Df # IEEE 754r decimal floating point (32 bits)
2933e5dd7070Spatrick // ::= Dh # IEEE 754r half-precision floating point (16 bits)
2934e5dd7070Spatrick // ::= DF <number> _ # ISO/IEC TS 18661 binary floating point type _FloatN (N bits);
2935e5dd7070Spatrick // ::= Di # char32_t
2936e5dd7070Spatrick // ::= Ds # char16_t
2937e5dd7070Spatrick // ::= Dn # std::nullptr_t (i.e., decltype(nullptr))
2938e5dd7070Spatrick // ::= u <source-name> # vendor extended type
2939e5dd7070Spatrick std::string type_name;
2940e5dd7070Spatrick switch (T->getKind()) {
2941e5dd7070Spatrick case BuiltinType::Void:
2942e5dd7070Spatrick Out << 'v';
2943e5dd7070Spatrick break;
2944e5dd7070Spatrick case BuiltinType::Bool:
2945e5dd7070Spatrick Out << 'b';
2946e5dd7070Spatrick break;
2947e5dd7070Spatrick case BuiltinType::Char_U:
2948e5dd7070Spatrick case BuiltinType::Char_S:
2949e5dd7070Spatrick Out << 'c';
2950e5dd7070Spatrick break;
2951e5dd7070Spatrick case BuiltinType::UChar:
2952e5dd7070Spatrick Out << 'h';
2953e5dd7070Spatrick break;
2954e5dd7070Spatrick case BuiltinType::UShort:
2955e5dd7070Spatrick Out << 't';
2956e5dd7070Spatrick break;
2957e5dd7070Spatrick case BuiltinType::UInt:
2958e5dd7070Spatrick Out << 'j';
2959e5dd7070Spatrick break;
2960e5dd7070Spatrick case BuiltinType::ULong:
2961e5dd7070Spatrick Out << 'm';
2962e5dd7070Spatrick break;
2963e5dd7070Spatrick case BuiltinType::ULongLong:
2964e5dd7070Spatrick Out << 'y';
2965e5dd7070Spatrick break;
2966e5dd7070Spatrick case BuiltinType::UInt128:
2967e5dd7070Spatrick Out << 'o';
2968e5dd7070Spatrick break;
2969e5dd7070Spatrick case BuiltinType::SChar:
2970e5dd7070Spatrick Out << 'a';
2971e5dd7070Spatrick break;
2972e5dd7070Spatrick case BuiltinType::WChar_S:
2973e5dd7070Spatrick case BuiltinType::WChar_U:
2974e5dd7070Spatrick Out << 'w';
2975e5dd7070Spatrick break;
2976e5dd7070Spatrick case BuiltinType::Char8:
2977e5dd7070Spatrick Out << "Du";
2978e5dd7070Spatrick break;
2979e5dd7070Spatrick case BuiltinType::Char16:
2980e5dd7070Spatrick Out << "Ds";
2981e5dd7070Spatrick break;
2982e5dd7070Spatrick case BuiltinType::Char32:
2983e5dd7070Spatrick Out << "Di";
2984e5dd7070Spatrick break;
2985e5dd7070Spatrick case BuiltinType::Short:
2986e5dd7070Spatrick Out << 's';
2987e5dd7070Spatrick break;
2988e5dd7070Spatrick case BuiltinType::Int:
2989e5dd7070Spatrick Out << 'i';
2990e5dd7070Spatrick break;
2991e5dd7070Spatrick case BuiltinType::Long:
2992e5dd7070Spatrick Out << 'l';
2993e5dd7070Spatrick break;
2994e5dd7070Spatrick case BuiltinType::LongLong:
2995e5dd7070Spatrick Out << 'x';
2996e5dd7070Spatrick break;
2997e5dd7070Spatrick case BuiltinType::Int128:
2998e5dd7070Spatrick Out << 'n';
2999e5dd7070Spatrick break;
3000e5dd7070Spatrick case BuiltinType::Float16:
3001e5dd7070Spatrick Out << "DF16_";
3002e5dd7070Spatrick break;
3003e5dd7070Spatrick case BuiltinType::ShortAccum:
3004e5dd7070Spatrick case BuiltinType::Accum:
3005e5dd7070Spatrick case BuiltinType::LongAccum:
3006e5dd7070Spatrick case BuiltinType::UShortAccum:
3007e5dd7070Spatrick case BuiltinType::UAccum:
3008e5dd7070Spatrick case BuiltinType::ULongAccum:
3009e5dd7070Spatrick case BuiltinType::ShortFract:
3010e5dd7070Spatrick case BuiltinType::Fract:
3011e5dd7070Spatrick case BuiltinType::LongFract:
3012e5dd7070Spatrick case BuiltinType::UShortFract:
3013e5dd7070Spatrick case BuiltinType::UFract:
3014e5dd7070Spatrick case BuiltinType::ULongFract:
3015e5dd7070Spatrick case BuiltinType::SatShortAccum:
3016e5dd7070Spatrick case BuiltinType::SatAccum:
3017e5dd7070Spatrick case BuiltinType::SatLongAccum:
3018e5dd7070Spatrick case BuiltinType::SatUShortAccum:
3019e5dd7070Spatrick case BuiltinType::SatUAccum:
3020e5dd7070Spatrick case BuiltinType::SatULongAccum:
3021e5dd7070Spatrick case BuiltinType::SatShortFract:
3022e5dd7070Spatrick case BuiltinType::SatFract:
3023e5dd7070Spatrick case BuiltinType::SatLongFract:
3024e5dd7070Spatrick case BuiltinType::SatUShortFract:
3025e5dd7070Spatrick case BuiltinType::SatUFract:
3026e5dd7070Spatrick case BuiltinType::SatULongFract:
3027e5dd7070Spatrick llvm_unreachable("Fixed point types are disabled for c++");
3028e5dd7070Spatrick case BuiltinType::Half:
3029e5dd7070Spatrick Out << "Dh";
3030e5dd7070Spatrick break;
3031e5dd7070Spatrick case BuiltinType::Float:
3032e5dd7070Spatrick Out << 'f';
3033e5dd7070Spatrick break;
3034e5dd7070Spatrick case BuiltinType::Double:
3035e5dd7070Spatrick Out << 'd';
3036e5dd7070Spatrick break;
3037e5dd7070Spatrick case BuiltinType::LongDouble: {
3038e5dd7070Spatrick const TargetInfo *TI = getASTContext().getLangOpts().OpenMP &&
3039e5dd7070Spatrick getASTContext().getLangOpts().OpenMPIsDevice
3040e5dd7070Spatrick ? getASTContext().getAuxTargetInfo()
3041e5dd7070Spatrick : &getASTContext().getTargetInfo();
3042e5dd7070Spatrick Out << TI->getLongDoubleMangling();
3043e5dd7070Spatrick break;
3044e5dd7070Spatrick }
3045e5dd7070Spatrick case BuiltinType::Float128: {
3046e5dd7070Spatrick const TargetInfo *TI = getASTContext().getLangOpts().OpenMP &&
3047e5dd7070Spatrick getASTContext().getLangOpts().OpenMPIsDevice
3048e5dd7070Spatrick ? getASTContext().getAuxTargetInfo()
3049e5dd7070Spatrick : &getASTContext().getTargetInfo();
3050e5dd7070Spatrick Out << TI->getFloat128Mangling();
3051e5dd7070Spatrick break;
3052e5dd7070Spatrick }
3053ec727ea7Spatrick case BuiltinType::BFloat16: {
3054ec727ea7Spatrick const TargetInfo *TI = &getASTContext().getTargetInfo();
3055ec727ea7Spatrick Out << TI->getBFloat16Mangling();
3056ec727ea7Spatrick break;
3057ec727ea7Spatrick }
3058*12c85518Srobert case BuiltinType::Ibm128: {
3059*12c85518Srobert const TargetInfo *TI = &getASTContext().getTargetInfo();
3060*12c85518Srobert Out << TI->getIbm128Mangling();
3061*12c85518Srobert break;
3062*12c85518Srobert }
3063e5dd7070Spatrick case BuiltinType::NullPtr:
3064e5dd7070Spatrick Out << "Dn";
3065e5dd7070Spatrick break;
3066e5dd7070Spatrick
3067e5dd7070Spatrick #define BUILTIN_TYPE(Id, SingletonId)
3068e5dd7070Spatrick #define PLACEHOLDER_TYPE(Id, SingletonId) \
3069e5dd7070Spatrick case BuiltinType::Id:
3070e5dd7070Spatrick #include "clang/AST/BuiltinTypes.def"
3071e5dd7070Spatrick case BuiltinType::Dependent:
3072e5dd7070Spatrick if (!NullOut)
3073e5dd7070Spatrick llvm_unreachable("mangling a placeholder type");
3074e5dd7070Spatrick break;
3075e5dd7070Spatrick case BuiltinType::ObjCId:
3076e5dd7070Spatrick Out << "11objc_object";
3077e5dd7070Spatrick break;
3078e5dd7070Spatrick case BuiltinType::ObjCClass:
3079e5dd7070Spatrick Out << "10objc_class";
3080e5dd7070Spatrick break;
3081e5dd7070Spatrick case BuiltinType::ObjCSel:
3082e5dd7070Spatrick Out << "13objc_selector";
3083e5dd7070Spatrick break;
3084e5dd7070Spatrick #define IMAGE_TYPE(ImgType, Id, SingletonId, Access, Suffix) \
3085e5dd7070Spatrick case BuiltinType::Id: \
3086e5dd7070Spatrick type_name = "ocl_" #ImgType "_" #Suffix; \
3087e5dd7070Spatrick Out << type_name.size() << type_name; \
3088e5dd7070Spatrick break;
3089e5dd7070Spatrick #include "clang/Basic/OpenCLImageTypes.def"
3090e5dd7070Spatrick case BuiltinType::OCLSampler:
3091e5dd7070Spatrick Out << "11ocl_sampler";
3092e5dd7070Spatrick break;
3093e5dd7070Spatrick case BuiltinType::OCLEvent:
3094e5dd7070Spatrick Out << "9ocl_event";
3095e5dd7070Spatrick break;
3096e5dd7070Spatrick case BuiltinType::OCLClkEvent:
3097e5dd7070Spatrick Out << "12ocl_clkevent";
3098e5dd7070Spatrick break;
3099e5dd7070Spatrick case BuiltinType::OCLQueue:
3100e5dd7070Spatrick Out << "9ocl_queue";
3101e5dd7070Spatrick break;
3102e5dd7070Spatrick case BuiltinType::OCLReserveID:
3103e5dd7070Spatrick Out << "13ocl_reserveid";
3104e5dd7070Spatrick break;
3105e5dd7070Spatrick #define EXT_OPAQUE_TYPE(ExtType, Id, Ext) \
3106e5dd7070Spatrick case BuiltinType::Id: \
3107e5dd7070Spatrick type_name = "ocl_" #ExtType; \
3108e5dd7070Spatrick Out << type_name.size() << type_name; \
3109e5dd7070Spatrick break;
3110e5dd7070Spatrick #include "clang/Basic/OpenCLExtensionTypes.def"
3111e5dd7070Spatrick // The SVE types are effectively target-specific. The mangling scheme
3112e5dd7070Spatrick // is defined in the appendices to the Procedure Call Standard for the
3113e5dd7070Spatrick // Arm Architecture.
3114ec727ea7Spatrick #define SVE_VECTOR_TYPE(InternalName, MangledName, Id, SingletonId, NumEls, \
3115ec727ea7Spatrick ElBits, IsSigned, IsFP, IsBF) \
3116e5dd7070Spatrick case BuiltinType::Id: \
3117ec727ea7Spatrick type_name = MangledName; \
3118ec727ea7Spatrick Out << (type_name == InternalName ? "u" : "") << type_name.size() \
3119ec727ea7Spatrick << type_name; \
3120ec727ea7Spatrick break;
3121ec727ea7Spatrick #define SVE_PREDICATE_TYPE(InternalName, MangledName, Id, SingletonId, NumEls) \
3122ec727ea7Spatrick case BuiltinType::Id: \
3123ec727ea7Spatrick type_name = MangledName; \
3124ec727ea7Spatrick Out << (type_name == InternalName ? "u" : "") << type_name.size() \
3125ec727ea7Spatrick << type_name; \
3126e5dd7070Spatrick break;
3127e5dd7070Spatrick #include "clang/Basic/AArch64SVEACLETypes.def"
3128a9ac8606Spatrick #define PPC_VECTOR_TYPE(Name, Id, Size) \
3129a9ac8606Spatrick case BuiltinType::Id: \
3130a9ac8606Spatrick type_name = #Name; \
3131a9ac8606Spatrick Out << 'u' << type_name.size() << type_name; \
3132a9ac8606Spatrick break;
3133a9ac8606Spatrick #include "clang/Basic/PPCTypes.def"
3134a9ac8606Spatrick // TODO: Check the mangling scheme for RISC-V V.
3135a9ac8606Spatrick #define RVV_TYPE(Name, Id, SingletonId) \
3136a9ac8606Spatrick case BuiltinType::Id: \
3137a9ac8606Spatrick type_name = Name; \
3138a9ac8606Spatrick Out << 'u' << type_name.size() << type_name; \
3139a9ac8606Spatrick break;
3140a9ac8606Spatrick #include "clang/Basic/RISCVVTypes.def"
3141e5dd7070Spatrick }
3142e5dd7070Spatrick }
3143e5dd7070Spatrick
getCallingConvQualifierName(CallingConv CC)3144e5dd7070Spatrick StringRef CXXNameMangler::getCallingConvQualifierName(CallingConv CC) {
3145e5dd7070Spatrick switch (CC) {
3146e5dd7070Spatrick case CC_C:
3147e5dd7070Spatrick return "";
3148e5dd7070Spatrick
3149e5dd7070Spatrick case CC_X86VectorCall:
3150e5dd7070Spatrick case CC_X86Pascal:
3151e5dd7070Spatrick case CC_X86RegCall:
3152e5dd7070Spatrick case CC_AAPCS:
3153e5dd7070Spatrick case CC_AAPCS_VFP:
3154e5dd7070Spatrick case CC_AArch64VectorCall:
3155*12c85518Srobert case CC_AArch64SVEPCS:
3156*12c85518Srobert case CC_AMDGPUKernelCall:
3157e5dd7070Spatrick case CC_IntelOclBicc:
3158e5dd7070Spatrick case CC_SpirFunction:
3159e5dd7070Spatrick case CC_OpenCLKernel:
3160e5dd7070Spatrick case CC_PreserveMost:
3161e5dd7070Spatrick case CC_PreserveAll:
3162e5dd7070Spatrick // FIXME: we should be mangling all of the above.
3163e5dd7070Spatrick return "";
3164e5dd7070Spatrick
3165e5dd7070Spatrick case CC_X86ThisCall:
3166e5dd7070Spatrick // FIXME: To match mingw GCC, thiscall should only be mangled in when it is
3167e5dd7070Spatrick // used explicitly. At this point, we don't have that much information in
3168e5dd7070Spatrick // the AST, since clang tends to bake the convention into the canonical
3169e5dd7070Spatrick // function type. thiscall only rarely used explicitly, so don't mangle it
3170e5dd7070Spatrick // for now.
3171e5dd7070Spatrick return "";
3172e5dd7070Spatrick
3173e5dd7070Spatrick case CC_X86StdCall:
3174e5dd7070Spatrick return "stdcall";
3175e5dd7070Spatrick case CC_X86FastCall:
3176e5dd7070Spatrick return "fastcall";
3177e5dd7070Spatrick case CC_X86_64SysV:
3178e5dd7070Spatrick return "sysv_abi";
3179e5dd7070Spatrick case CC_Win64:
3180e5dd7070Spatrick return "ms_abi";
3181e5dd7070Spatrick case CC_Swift:
3182e5dd7070Spatrick return "swiftcall";
3183a9ac8606Spatrick case CC_SwiftAsync:
3184a9ac8606Spatrick return "swiftasynccall";
3185e5dd7070Spatrick }
3186e5dd7070Spatrick llvm_unreachable("bad calling convention");
3187e5dd7070Spatrick }
3188e5dd7070Spatrick
mangleExtFunctionInfo(const FunctionType * T)3189e5dd7070Spatrick void CXXNameMangler::mangleExtFunctionInfo(const FunctionType *T) {
3190e5dd7070Spatrick // Fast path.
3191e5dd7070Spatrick if (T->getExtInfo() == FunctionType::ExtInfo())
3192e5dd7070Spatrick return;
3193e5dd7070Spatrick
3194e5dd7070Spatrick // Vendor-specific qualifiers are emitted in reverse alphabetical order.
3195e5dd7070Spatrick // This will get more complicated in the future if we mangle other
3196e5dd7070Spatrick // things here; but for now, since we mangle ns_returns_retained as
3197e5dd7070Spatrick // a qualifier on the result type, we can get away with this:
3198e5dd7070Spatrick StringRef CCQualifier = getCallingConvQualifierName(T->getExtInfo().getCC());
3199e5dd7070Spatrick if (!CCQualifier.empty())
3200e5dd7070Spatrick mangleVendorQualifier(CCQualifier);
3201e5dd7070Spatrick
3202e5dd7070Spatrick // FIXME: regparm
3203e5dd7070Spatrick // FIXME: noreturn
3204e5dd7070Spatrick }
3205e5dd7070Spatrick
3206e5dd7070Spatrick void
mangleExtParameterInfo(FunctionProtoType::ExtParameterInfo PI)3207e5dd7070Spatrick CXXNameMangler::mangleExtParameterInfo(FunctionProtoType::ExtParameterInfo PI) {
3208e5dd7070Spatrick // Vendor-specific qualifiers are emitted in reverse alphabetical order.
3209e5dd7070Spatrick
3210e5dd7070Spatrick // Note that these are *not* substitution candidates. Demanglers might
3211e5dd7070Spatrick // have trouble with this if the parameter type is fully substituted.
3212e5dd7070Spatrick
3213e5dd7070Spatrick switch (PI.getABI()) {
3214e5dd7070Spatrick case ParameterABI::Ordinary:
3215e5dd7070Spatrick break;
3216e5dd7070Spatrick
3217e5dd7070Spatrick // All of these start with "swift", so they come before "ns_consumed".
3218e5dd7070Spatrick case ParameterABI::SwiftContext:
3219a9ac8606Spatrick case ParameterABI::SwiftAsyncContext:
3220e5dd7070Spatrick case ParameterABI::SwiftErrorResult:
3221e5dd7070Spatrick case ParameterABI::SwiftIndirectResult:
3222e5dd7070Spatrick mangleVendorQualifier(getParameterABISpelling(PI.getABI()));
3223e5dd7070Spatrick break;
3224e5dd7070Spatrick }
3225e5dd7070Spatrick
3226e5dd7070Spatrick if (PI.isConsumed())
3227e5dd7070Spatrick mangleVendorQualifier("ns_consumed");
3228e5dd7070Spatrick
3229e5dd7070Spatrick if (PI.isNoEscape())
3230e5dd7070Spatrick mangleVendorQualifier("noescape");
3231e5dd7070Spatrick }
3232e5dd7070Spatrick
3233e5dd7070Spatrick // <type> ::= <function-type>
3234e5dd7070Spatrick // <function-type> ::= [<CV-qualifiers>] F [Y]
3235e5dd7070Spatrick // <bare-function-type> [<ref-qualifier>] E
mangleType(const FunctionProtoType * T)3236e5dd7070Spatrick void CXXNameMangler::mangleType(const FunctionProtoType *T) {
3237e5dd7070Spatrick mangleExtFunctionInfo(T);
3238e5dd7070Spatrick
3239e5dd7070Spatrick // Mangle CV-qualifiers, if present. These are 'this' qualifiers,
3240e5dd7070Spatrick // e.g. "const" in "int (A::*)() const".
3241e5dd7070Spatrick mangleQualifiers(T->getMethodQuals());
3242e5dd7070Spatrick
3243e5dd7070Spatrick // Mangle instantiation-dependent exception-specification, if present,
3244e5dd7070Spatrick // per cxx-abi-dev proposal on 2016-10-11.
3245e5dd7070Spatrick if (T->hasInstantiationDependentExceptionSpec()) {
3246e5dd7070Spatrick if (isComputedNoexcept(T->getExceptionSpecType())) {
3247e5dd7070Spatrick Out << "DO";
3248e5dd7070Spatrick mangleExpression(T->getNoexceptExpr());
3249e5dd7070Spatrick Out << "E";
3250e5dd7070Spatrick } else {
3251e5dd7070Spatrick assert(T->getExceptionSpecType() == EST_Dynamic);
3252e5dd7070Spatrick Out << "Dw";
3253e5dd7070Spatrick for (auto ExceptTy : T->exceptions())
3254e5dd7070Spatrick mangleType(ExceptTy);
3255e5dd7070Spatrick Out << "E";
3256e5dd7070Spatrick }
3257e5dd7070Spatrick } else if (T->isNothrow()) {
3258e5dd7070Spatrick Out << "Do";
3259e5dd7070Spatrick }
3260e5dd7070Spatrick
3261e5dd7070Spatrick Out << 'F';
3262e5dd7070Spatrick
3263e5dd7070Spatrick // FIXME: We don't have enough information in the AST to produce the 'Y'
3264e5dd7070Spatrick // encoding for extern "C" function types.
3265e5dd7070Spatrick mangleBareFunctionType(T, /*MangleReturnType=*/true);
3266e5dd7070Spatrick
3267e5dd7070Spatrick // Mangle the ref-qualifier, if present.
3268e5dd7070Spatrick mangleRefQualifier(T->getRefQualifier());
3269e5dd7070Spatrick
3270e5dd7070Spatrick Out << 'E';
3271e5dd7070Spatrick }
3272e5dd7070Spatrick
mangleType(const FunctionNoProtoType * T)3273e5dd7070Spatrick void CXXNameMangler::mangleType(const FunctionNoProtoType *T) {
3274e5dd7070Spatrick // Function types without prototypes can arise when mangling a function type
3275e5dd7070Spatrick // within an overloadable function in C. We mangle these as the absence of any
3276e5dd7070Spatrick // parameter types (not even an empty parameter list).
3277e5dd7070Spatrick Out << 'F';
3278e5dd7070Spatrick
3279e5dd7070Spatrick FunctionTypeDepthState saved = FunctionTypeDepth.push();
3280e5dd7070Spatrick
3281e5dd7070Spatrick FunctionTypeDepth.enterResultType();
3282e5dd7070Spatrick mangleType(T->getReturnType());
3283e5dd7070Spatrick FunctionTypeDepth.leaveResultType();
3284e5dd7070Spatrick
3285e5dd7070Spatrick FunctionTypeDepth.pop(saved);
3286e5dd7070Spatrick Out << 'E';
3287e5dd7070Spatrick }
3288e5dd7070Spatrick
mangleBareFunctionType(const FunctionProtoType * Proto,bool MangleReturnType,const FunctionDecl * FD)3289e5dd7070Spatrick void CXXNameMangler::mangleBareFunctionType(const FunctionProtoType *Proto,
3290e5dd7070Spatrick bool MangleReturnType,
3291e5dd7070Spatrick const FunctionDecl *FD) {
3292e5dd7070Spatrick // Record that we're in a function type. See mangleFunctionParam
3293e5dd7070Spatrick // for details on what we're trying to achieve here.
3294e5dd7070Spatrick FunctionTypeDepthState saved = FunctionTypeDepth.push();
3295e5dd7070Spatrick
3296e5dd7070Spatrick // <bare-function-type> ::= <signature type>+
3297e5dd7070Spatrick if (MangleReturnType) {
3298e5dd7070Spatrick FunctionTypeDepth.enterResultType();
3299e5dd7070Spatrick
3300e5dd7070Spatrick // Mangle ns_returns_retained as an order-sensitive qualifier here.
3301e5dd7070Spatrick if (Proto->getExtInfo().getProducesResult() && FD == nullptr)
3302e5dd7070Spatrick mangleVendorQualifier("ns_returns_retained");
3303e5dd7070Spatrick
3304e5dd7070Spatrick // Mangle the return type without any direct ARC ownership qualifiers.
3305e5dd7070Spatrick QualType ReturnTy = Proto->getReturnType();
3306e5dd7070Spatrick if (ReturnTy.getObjCLifetime()) {
3307e5dd7070Spatrick auto SplitReturnTy = ReturnTy.split();
3308e5dd7070Spatrick SplitReturnTy.Quals.removeObjCLifetime();
3309e5dd7070Spatrick ReturnTy = getASTContext().getQualifiedType(SplitReturnTy);
3310e5dd7070Spatrick }
3311e5dd7070Spatrick mangleType(ReturnTy);
3312e5dd7070Spatrick
3313e5dd7070Spatrick FunctionTypeDepth.leaveResultType();
3314e5dd7070Spatrick }
3315e5dd7070Spatrick
3316e5dd7070Spatrick if (Proto->getNumParams() == 0 && !Proto->isVariadic()) {
3317e5dd7070Spatrick // <builtin-type> ::= v # void
3318e5dd7070Spatrick Out << 'v';
3319e5dd7070Spatrick
3320e5dd7070Spatrick FunctionTypeDepth.pop(saved);
3321e5dd7070Spatrick return;
3322e5dd7070Spatrick }
3323e5dd7070Spatrick
3324e5dd7070Spatrick assert(!FD || FD->getNumParams() == Proto->getNumParams());
3325e5dd7070Spatrick for (unsigned I = 0, E = Proto->getNumParams(); I != E; ++I) {
3326e5dd7070Spatrick // Mangle extended parameter info as order-sensitive qualifiers here.
3327e5dd7070Spatrick if (Proto->hasExtParameterInfos() && FD == nullptr) {
3328e5dd7070Spatrick mangleExtParameterInfo(Proto->getExtParameterInfo(I));
3329e5dd7070Spatrick }
3330e5dd7070Spatrick
3331e5dd7070Spatrick // Mangle the type.
3332e5dd7070Spatrick QualType ParamTy = Proto->getParamType(I);
3333e5dd7070Spatrick mangleType(Context.getASTContext().getSignatureParameterType(ParamTy));
3334e5dd7070Spatrick
3335e5dd7070Spatrick if (FD) {
3336e5dd7070Spatrick if (auto *Attr = FD->getParamDecl(I)->getAttr<PassObjectSizeAttr>()) {
3337e5dd7070Spatrick // Attr can only take 1 character, so we can hardcode the length below.
3338e5dd7070Spatrick assert(Attr->getType() <= 9 && Attr->getType() >= 0);
3339e5dd7070Spatrick if (Attr->isDynamic())
3340e5dd7070Spatrick Out << "U25pass_dynamic_object_size" << Attr->getType();
3341e5dd7070Spatrick else
3342e5dd7070Spatrick Out << "U17pass_object_size" << Attr->getType();
3343e5dd7070Spatrick }
3344e5dd7070Spatrick }
3345e5dd7070Spatrick }
3346e5dd7070Spatrick
3347e5dd7070Spatrick FunctionTypeDepth.pop(saved);
3348e5dd7070Spatrick
3349e5dd7070Spatrick // <builtin-type> ::= z # ellipsis
3350e5dd7070Spatrick if (Proto->isVariadic())
3351e5dd7070Spatrick Out << 'z';
3352e5dd7070Spatrick }
3353e5dd7070Spatrick
3354e5dd7070Spatrick // <type> ::= <class-enum-type>
3355e5dd7070Spatrick // <class-enum-type> ::= <name>
mangleType(const UnresolvedUsingType * T)3356e5dd7070Spatrick void CXXNameMangler::mangleType(const UnresolvedUsingType *T) {
3357e5dd7070Spatrick mangleName(T->getDecl());
3358e5dd7070Spatrick }
3359e5dd7070Spatrick
3360e5dd7070Spatrick // <type> ::= <class-enum-type>
3361e5dd7070Spatrick // <class-enum-type> ::= <name>
mangleType(const EnumType * T)3362e5dd7070Spatrick void CXXNameMangler::mangleType(const EnumType *T) {
3363e5dd7070Spatrick mangleType(static_cast<const TagType*>(T));
3364e5dd7070Spatrick }
mangleType(const RecordType * T)3365e5dd7070Spatrick void CXXNameMangler::mangleType(const RecordType *T) {
3366e5dd7070Spatrick mangleType(static_cast<const TagType*>(T));
3367e5dd7070Spatrick }
mangleType(const TagType * T)3368e5dd7070Spatrick void CXXNameMangler::mangleType(const TagType *T) {
3369e5dd7070Spatrick mangleName(T->getDecl());
3370e5dd7070Spatrick }
3371e5dd7070Spatrick
3372e5dd7070Spatrick // <type> ::= <array-type>
3373e5dd7070Spatrick // <array-type> ::= A <positive dimension number> _ <element type>
3374e5dd7070Spatrick // ::= A [<dimension expression>] _ <element type>
mangleType(const ConstantArrayType * T)3375e5dd7070Spatrick void CXXNameMangler::mangleType(const ConstantArrayType *T) {
3376e5dd7070Spatrick Out << 'A' << T->getSize() << '_';
3377e5dd7070Spatrick mangleType(T->getElementType());
3378e5dd7070Spatrick }
mangleType(const VariableArrayType * T)3379e5dd7070Spatrick void CXXNameMangler::mangleType(const VariableArrayType *T) {
3380e5dd7070Spatrick Out << 'A';
3381e5dd7070Spatrick // decayed vla types (size 0) will just be skipped.
3382e5dd7070Spatrick if (T->getSizeExpr())
3383e5dd7070Spatrick mangleExpression(T->getSizeExpr());
3384e5dd7070Spatrick Out << '_';
3385e5dd7070Spatrick mangleType(T->getElementType());
3386e5dd7070Spatrick }
mangleType(const DependentSizedArrayType * T)3387e5dd7070Spatrick void CXXNameMangler::mangleType(const DependentSizedArrayType *T) {
3388e5dd7070Spatrick Out << 'A';
3389a9ac8606Spatrick // A DependentSizedArrayType might not have size expression as below
3390a9ac8606Spatrick //
3391a9ac8606Spatrick // template<int ...N> int arr[] = {N...};
3392a9ac8606Spatrick if (T->getSizeExpr())
3393e5dd7070Spatrick mangleExpression(T->getSizeExpr());
3394e5dd7070Spatrick Out << '_';
3395e5dd7070Spatrick mangleType(T->getElementType());
3396e5dd7070Spatrick }
mangleType(const IncompleteArrayType * T)3397e5dd7070Spatrick void CXXNameMangler::mangleType(const IncompleteArrayType *T) {
3398e5dd7070Spatrick Out << "A_";
3399e5dd7070Spatrick mangleType(T->getElementType());
3400e5dd7070Spatrick }
3401e5dd7070Spatrick
3402e5dd7070Spatrick // <type> ::= <pointer-to-member-type>
3403e5dd7070Spatrick // <pointer-to-member-type> ::= M <class type> <member type>
mangleType(const MemberPointerType * T)3404e5dd7070Spatrick void CXXNameMangler::mangleType(const MemberPointerType *T) {
3405e5dd7070Spatrick Out << 'M';
3406e5dd7070Spatrick mangleType(QualType(T->getClass(), 0));
3407e5dd7070Spatrick QualType PointeeType = T->getPointeeType();
3408e5dd7070Spatrick if (const FunctionProtoType *FPT = dyn_cast<FunctionProtoType>(PointeeType)) {
3409e5dd7070Spatrick mangleType(FPT);
3410e5dd7070Spatrick
3411e5dd7070Spatrick // Itanium C++ ABI 5.1.8:
3412e5dd7070Spatrick //
3413e5dd7070Spatrick // The type of a non-static member function is considered to be different,
3414e5dd7070Spatrick // for the purposes of substitution, from the type of a namespace-scope or
3415e5dd7070Spatrick // static member function whose type appears similar. The types of two
3416e5dd7070Spatrick // non-static member functions are considered to be different, for the
3417e5dd7070Spatrick // purposes of substitution, if the functions are members of different
3418e5dd7070Spatrick // classes. In other words, for the purposes of substitution, the class of
3419e5dd7070Spatrick // which the function is a member is considered part of the type of
3420e5dd7070Spatrick // function.
3421e5dd7070Spatrick
3422e5dd7070Spatrick // Given that we already substitute member function pointers as a
3423e5dd7070Spatrick // whole, the net effect of this rule is just to unconditionally
3424e5dd7070Spatrick // suppress substitution on the function type in a member pointer.
3425e5dd7070Spatrick // We increment the SeqID here to emulate adding an entry to the
3426e5dd7070Spatrick // substitution table.
3427e5dd7070Spatrick ++SeqID;
3428e5dd7070Spatrick } else
3429e5dd7070Spatrick mangleType(PointeeType);
3430e5dd7070Spatrick }
3431e5dd7070Spatrick
3432e5dd7070Spatrick // <type> ::= <template-param>
mangleType(const TemplateTypeParmType * T)3433e5dd7070Spatrick void CXXNameMangler::mangleType(const TemplateTypeParmType *T) {
3434e5dd7070Spatrick mangleTemplateParameter(T->getDepth(), T->getIndex());
3435e5dd7070Spatrick }
3436e5dd7070Spatrick
3437e5dd7070Spatrick // <type> ::= <template-param>
mangleType(const SubstTemplateTypeParmPackType * T)3438e5dd7070Spatrick void CXXNameMangler::mangleType(const SubstTemplateTypeParmPackType *T) {
3439e5dd7070Spatrick // FIXME: not clear how to mangle this!
3440e5dd7070Spatrick // template <class T...> class A {
3441e5dd7070Spatrick // template <class U...> void foo(T(*)(U) x...);
3442e5dd7070Spatrick // };
3443e5dd7070Spatrick Out << "_SUBSTPACK_";
3444e5dd7070Spatrick }
3445e5dd7070Spatrick
3446e5dd7070Spatrick // <type> ::= P <type> # pointer-to
mangleType(const PointerType * T)3447e5dd7070Spatrick void CXXNameMangler::mangleType(const PointerType *T) {
3448e5dd7070Spatrick Out << 'P';
3449e5dd7070Spatrick mangleType(T->getPointeeType());
3450e5dd7070Spatrick }
mangleType(const ObjCObjectPointerType * T)3451e5dd7070Spatrick void CXXNameMangler::mangleType(const ObjCObjectPointerType *T) {
3452e5dd7070Spatrick Out << 'P';
3453e5dd7070Spatrick mangleType(T->getPointeeType());
3454e5dd7070Spatrick }
3455e5dd7070Spatrick
3456e5dd7070Spatrick // <type> ::= R <type> # reference-to
mangleType(const LValueReferenceType * T)3457e5dd7070Spatrick void CXXNameMangler::mangleType(const LValueReferenceType *T) {
3458e5dd7070Spatrick Out << 'R';
3459e5dd7070Spatrick mangleType(T->getPointeeType());
3460e5dd7070Spatrick }
3461e5dd7070Spatrick
3462e5dd7070Spatrick // <type> ::= O <type> # rvalue reference-to (C++0x)
mangleType(const RValueReferenceType * T)3463e5dd7070Spatrick void CXXNameMangler::mangleType(const RValueReferenceType *T) {
3464e5dd7070Spatrick Out << 'O';
3465e5dd7070Spatrick mangleType(T->getPointeeType());
3466e5dd7070Spatrick }
3467e5dd7070Spatrick
3468e5dd7070Spatrick // <type> ::= C <type> # complex pair (C 2000)
mangleType(const ComplexType * T)3469e5dd7070Spatrick void CXXNameMangler::mangleType(const ComplexType *T) {
3470e5dd7070Spatrick Out << 'C';
3471e5dd7070Spatrick mangleType(T->getElementType());
3472e5dd7070Spatrick }
3473e5dd7070Spatrick
3474e5dd7070Spatrick // ARM's ABI for Neon vector types specifies that they should be mangled as
3475e5dd7070Spatrick // if they are structs (to match ARM's initial implementation). The
3476e5dd7070Spatrick // vector type must be one of the special types predefined by ARM.
mangleNeonVectorType(const VectorType * T)3477e5dd7070Spatrick void CXXNameMangler::mangleNeonVectorType(const VectorType *T) {
3478e5dd7070Spatrick QualType EltType = T->getElementType();
3479e5dd7070Spatrick assert(EltType->isBuiltinType() && "Neon vector element not a BuiltinType");
3480e5dd7070Spatrick const char *EltName = nullptr;
3481e5dd7070Spatrick if (T->getVectorKind() == VectorType::NeonPolyVector) {
3482e5dd7070Spatrick switch (cast<BuiltinType>(EltType)->getKind()) {
3483e5dd7070Spatrick case BuiltinType::SChar:
3484e5dd7070Spatrick case BuiltinType::UChar:
3485e5dd7070Spatrick EltName = "poly8_t";
3486e5dd7070Spatrick break;
3487e5dd7070Spatrick case BuiltinType::Short:
3488e5dd7070Spatrick case BuiltinType::UShort:
3489e5dd7070Spatrick EltName = "poly16_t";
3490e5dd7070Spatrick break;
3491ec727ea7Spatrick case BuiltinType::LongLong:
3492e5dd7070Spatrick case BuiltinType::ULongLong:
3493e5dd7070Spatrick EltName = "poly64_t";
3494e5dd7070Spatrick break;
3495e5dd7070Spatrick default: llvm_unreachable("unexpected Neon polynomial vector element type");
3496e5dd7070Spatrick }
3497e5dd7070Spatrick } else {
3498e5dd7070Spatrick switch (cast<BuiltinType>(EltType)->getKind()) {
3499e5dd7070Spatrick case BuiltinType::SChar: EltName = "int8_t"; break;
3500e5dd7070Spatrick case BuiltinType::UChar: EltName = "uint8_t"; break;
3501e5dd7070Spatrick case BuiltinType::Short: EltName = "int16_t"; break;
3502e5dd7070Spatrick case BuiltinType::UShort: EltName = "uint16_t"; break;
3503e5dd7070Spatrick case BuiltinType::Int: EltName = "int32_t"; break;
3504e5dd7070Spatrick case BuiltinType::UInt: EltName = "uint32_t"; break;
3505e5dd7070Spatrick case BuiltinType::LongLong: EltName = "int64_t"; break;
3506e5dd7070Spatrick case BuiltinType::ULongLong: EltName = "uint64_t"; break;
3507e5dd7070Spatrick case BuiltinType::Double: EltName = "float64_t"; break;
3508e5dd7070Spatrick case BuiltinType::Float: EltName = "float32_t"; break;
3509e5dd7070Spatrick case BuiltinType::Half: EltName = "float16_t"; break;
3510ec727ea7Spatrick case BuiltinType::BFloat16: EltName = "bfloat16_t"; break;
3511e5dd7070Spatrick default:
3512e5dd7070Spatrick llvm_unreachable("unexpected Neon vector element type");
3513e5dd7070Spatrick }
3514e5dd7070Spatrick }
3515e5dd7070Spatrick const char *BaseName = nullptr;
3516e5dd7070Spatrick unsigned BitSize = (T->getNumElements() *
3517e5dd7070Spatrick getASTContext().getTypeSize(EltType));
3518e5dd7070Spatrick if (BitSize == 64)
3519e5dd7070Spatrick BaseName = "__simd64_";
3520e5dd7070Spatrick else {
3521e5dd7070Spatrick assert(BitSize == 128 && "Neon vector type not 64 or 128 bits");
3522e5dd7070Spatrick BaseName = "__simd128_";
3523e5dd7070Spatrick }
3524e5dd7070Spatrick Out << strlen(BaseName) + strlen(EltName);
3525e5dd7070Spatrick Out << BaseName << EltName;
3526e5dd7070Spatrick }
3527e5dd7070Spatrick
mangleNeonVectorType(const DependentVectorType * T)3528e5dd7070Spatrick void CXXNameMangler::mangleNeonVectorType(const DependentVectorType *T) {
3529e5dd7070Spatrick DiagnosticsEngine &Diags = Context.getDiags();
3530e5dd7070Spatrick unsigned DiagID = Diags.getCustomDiagID(
3531e5dd7070Spatrick DiagnosticsEngine::Error,
3532e5dd7070Spatrick "cannot mangle this dependent neon vector type yet");
3533e5dd7070Spatrick Diags.Report(T->getAttributeLoc(), DiagID);
3534e5dd7070Spatrick }
3535e5dd7070Spatrick
mangleAArch64VectorBase(const BuiltinType * EltType)3536e5dd7070Spatrick static StringRef mangleAArch64VectorBase(const BuiltinType *EltType) {
3537e5dd7070Spatrick switch (EltType->getKind()) {
3538e5dd7070Spatrick case BuiltinType::SChar:
3539e5dd7070Spatrick return "Int8";
3540e5dd7070Spatrick case BuiltinType::Short:
3541e5dd7070Spatrick return "Int16";
3542e5dd7070Spatrick case BuiltinType::Int:
3543e5dd7070Spatrick return "Int32";
3544e5dd7070Spatrick case BuiltinType::Long:
3545e5dd7070Spatrick case BuiltinType::LongLong:
3546e5dd7070Spatrick return "Int64";
3547e5dd7070Spatrick case BuiltinType::UChar:
3548e5dd7070Spatrick return "Uint8";
3549e5dd7070Spatrick case BuiltinType::UShort:
3550e5dd7070Spatrick return "Uint16";
3551e5dd7070Spatrick case BuiltinType::UInt:
3552e5dd7070Spatrick return "Uint32";
3553e5dd7070Spatrick case BuiltinType::ULong:
3554e5dd7070Spatrick case BuiltinType::ULongLong:
3555e5dd7070Spatrick return "Uint64";
3556e5dd7070Spatrick case BuiltinType::Half:
3557e5dd7070Spatrick return "Float16";
3558e5dd7070Spatrick case BuiltinType::Float:
3559e5dd7070Spatrick return "Float32";
3560e5dd7070Spatrick case BuiltinType::Double:
3561e5dd7070Spatrick return "Float64";
3562ec727ea7Spatrick case BuiltinType::BFloat16:
3563ec727ea7Spatrick return "Bfloat16";
3564e5dd7070Spatrick default:
3565e5dd7070Spatrick llvm_unreachable("Unexpected vector element base type");
3566e5dd7070Spatrick }
3567e5dd7070Spatrick }
3568e5dd7070Spatrick
3569e5dd7070Spatrick // AArch64's ABI for Neon vector types specifies that they should be mangled as
3570e5dd7070Spatrick // the equivalent internal name. The vector type must be one of the special
3571e5dd7070Spatrick // types predefined by ARM.
mangleAArch64NeonVectorType(const VectorType * T)3572e5dd7070Spatrick void CXXNameMangler::mangleAArch64NeonVectorType(const VectorType *T) {
3573e5dd7070Spatrick QualType EltType = T->getElementType();
3574e5dd7070Spatrick assert(EltType->isBuiltinType() && "Neon vector element not a BuiltinType");
3575e5dd7070Spatrick unsigned BitSize =
3576e5dd7070Spatrick (T->getNumElements() * getASTContext().getTypeSize(EltType));
3577e5dd7070Spatrick (void)BitSize; // Silence warning.
3578e5dd7070Spatrick
3579e5dd7070Spatrick assert((BitSize == 64 || BitSize == 128) &&
3580e5dd7070Spatrick "Neon vector type not 64 or 128 bits");
3581e5dd7070Spatrick
3582e5dd7070Spatrick StringRef EltName;
3583e5dd7070Spatrick if (T->getVectorKind() == VectorType::NeonPolyVector) {
3584e5dd7070Spatrick switch (cast<BuiltinType>(EltType)->getKind()) {
3585e5dd7070Spatrick case BuiltinType::UChar:
3586e5dd7070Spatrick EltName = "Poly8";
3587e5dd7070Spatrick break;
3588e5dd7070Spatrick case BuiltinType::UShort:
3589e5dd7070Spatrick EltName = "Poly16";
3590e5dd7070Spatrick break;
3591e5dd7070Spatrick case BuiltinType::ULong:
3592e5dd7070Spatrick case BuiltinType::ULongLong:
3593e5dd7070Spatrick EltName = "Poly64";
3594e5dd7070Spatrick break;
3595e5dd7070Spatrick default:
3596e5dd7070Spatrick llvm_unreachable("unexpected Neon polynomial vector element type");
3597e5dd7070Spatrick }
3598e5dd7070Spatrick } else
3599e5dd7070Spatrick EltName = mangleAArch64VectorBase(cast<BuiltinType>(EltType));
3600e5dd7070Spatrick
3601e5dd7070Spatrick std::string TypeName =
3602e5dd7070Spatrick ("__" + EltName + "x" + Twine(T->getNumElements()) + "_t").str();
3603e5dd7070Spatrick Out << TypeName.length() << TypeName;
3604e5dd7070Spatrick }
mangleAArch64NeonVectorType(const DependentVectorType * T)3605e5dd7070Spatrick void CXXNameMangler::mangleAArch64NeonVectorType(const DependentVectorType *T) {
3606e5dd7070Spatrick DiagnosticsEngine &Diags = Context.getDiags();
3607e5dd7070Spatrick unsigned DiagID = Diags.getCustomDiagID(
3608e5dd7070Spatrick DiagnosticsEngine::Error,
3609e5dd7070Spatrick "cannot mangle this dependent neon vector type yet");
3610e5dd7070Spatrick Diags.Report(T->getAttributeLoc(), DiagID);
3611e5dd7070Spatrick }
3612e5dd7070Spatrick
3613a9ac8606Spatrick // The AArch64 ACLE specifies that fixed-length SVE vector and predicate types
3614a9ac8606Spatrick // defined with the 'arm_sve_vector_bits' attribute map to the same AAPCS64
3615a9ac8606Spatrick // type as the sizeless variants.
3616a9ac8606Spatrick //
3617a9ac8606Spatrick // The mangling scheme for VLS types is implemented as a "pseudo" template:
3618a9ac8606Spatrick //
3619a9ac8606Spatrick // '__SVE_VLS<<type>, <vector length>>'
3620a9ac8606Spatrick //
3621a9ac8606Spatrick // Combining the existing SVE type and a specific vector length (in bits).
3622a9ac8606Spatrick // For example:
3623a9ac8606Spatrick //
3624a9ac8606Spatrick // typedef __SVInt32_t foo __attribute__((arm_sve_vector_bits(512)));
3625a9ac8606Spatrick //
3626a9ac8606Spatrick // is described as '__SVE_VLS<__SVInt32_t, 512u>' and mangled as:
3627a9ac8606Spatrick //
3628a9ac8606Spatrick // "9__SVE_VLSI" + base type mangling + "Lj" + __ARM_FEATURE_SVE_BITS + "EE"
3629a9ac8606Spatrick //
3630a9ac8606Spatrick // i.e. 9__SVE_VLSIu11__SVInt32_tLj512EE
3631a9ac8606Spatrick //
3632a9ac8606Spatrick // The latest ACLE specification (00bet5) does not contain details of this
3633a9ac8606Spatrick // mangling scheme, it will be specified in the next revision. The mangling
3634a9ac8606Spatrick // scheme is otherwise defined in the appendices to the Procedure Call Standard
3635a9ac8606Spatrick // for the Arm Architecture, see
3636*12c85518Srobert // https://github.com/ARM-software/abi-aa/blob/main/aapcs64/aapcs64.rst#appendix-c-mangling
mangleAArch64FixedSveVectorType(const VectorType * T)3637a9ac8606Spatrick void CXXNameMangler::mangleAArch64FixedSveVectorType(const VectorType *T) {
3638a9ac8606Spatrick assert((T->getVectorKind() == VectorType::SveFixedLengthDataVector ||
3639a9ac8606Spatrick T->getVectorKind() == VectorType::SveFixedLengthPredicateVector) &&
3640a9ac8606Spatrick "expected fixed-length SVE vector!");
3641a9ac8606Spatrick
3642a9ac8606Spatrick QualType EltType = T->getElementType();
3643a9ac8606Spatrick assert(EltType->isBuiltinType() &&
3644a9ac8606Spatrick "expected builtin type for fixed-length SVE vector!");
3645a9ac8606Spatrick
3646a9ac8606Spatrick StringRef TypeName;
3647a9ac8606Spatrick switch (cast<BuiltinType>(EltType)->getKind()) {
3648a9ac8606Spatrick case BuiltinType::SChar:
3649a9ac8606Spatrick TypeName = "__SVInt8_t";
3650a9ac8606Spatrick break;
3651a9ac8606Spatrick case BuiltinType::UChar: {
3652a9ac8606Spatrick if (T->getVectorKind() == VectorType::SveFixedLengthDataVector)
3653a9ac8606Spatrick TypeName = "__SVUint8_t";
3654a9ac8606Spatrick else
3655a9ac8606Spatrick TypeName = "__SVBool_t";
3656a9ac8606Spatrick break;
3657a9ac8606Spatrick }
3658a9ac8606Spatrick case BuiltinType::Short:
3659a9ac8606Spatrick TypeName = "__SVInt16_t";
3660a9ac8606Spatrick break;
3661a9ac8606Spatrick case BuiltinType::UShort:
3662a9ac8606Spatrick TypeName = "__SVUint16_t";
3663a9ac8606Spatrick break;
3664a9ac8606Spatrick case BuiltinType::Int:
3665a9ac8606Spatrick TypeName = "__SVInt32_t";
3666a9ac8606Spatrick break;
3667a9ac8606Spatrick case BuiltinType::UInt:
3668a9ac8606Spatrick TypeName = "__SVUint32_t";
3669a9ac8606Spatrick break;
3670a9ac8606Spatrick case BuiltinType::Long:
3671a9ac8606Spatrick TypeName = "__SVInt64_t";
3672a9ac8606Spatrick break;
3673a9ac8606Spatrick case BuiltinType::ULong:
3674a9ac8606Spatrick TypeName = "__SVUint64_t";
3675a9ac8606Spatrick break;
3676a9ac8606Spatrick case BuiltinType::Half:
3677a9ac8606Spatrick TypeName = "__SVFloat16_t";
3678a9ac8606Spatrick break;
3679a9ac8606Spatrick case BuiltinType::Float:
3680a9ac8606Spatrick TypeName = "__SVFloat32_t";
3681a9ac8606Spatrick break;
3682a9ac8606Spatrick case BuiltinType::Double:
3683a9ac8606Spatrick TypeName = "__SVFloat64_t";
3684a9ac8606Spatrick break;
3685a9ac8606Spatrick case BuiltinType::BFloat16:
3686a9ac8606Spatrick TypeName = "__SVBfloat16_t";
3687a9ac8606Spatrick break;
3688a9ac8606Spatrick default:
3689a9ac8606Spatrick llvm_unreachable("unexpected element type for fixed-length SVE vector!");
3690a9ac8606Spatrick }
3691a9ac8606Spatrick
3692a9ac8606Spatrick unsigned VecSizeInBits = getASTContext().getTypeInfo(T).Width;
3693a9ac8606Spatrick
3694a9ac8606Spatrick if (T->getVectorKind() == VectorType::SveFixedLengthPredicateVector)
3695a9ac8606Spatrick VecSizeInBits *= 8;
3696a9ac8606Spatrick
3697a9ac8606Spatrick Out << "9__SVE_VLSI" << 'u' << TypeName.size() << TypeName << "Lj"
3698a9ac8606Spatrick << VecSizeInBits << "EE";
3699a9ac8606Spatrick }
3700a9ac8606Spatrick
mangleAArch64FixedSveVectorType(const DependentVectorType * T)3701a9ac8606Spatrick void CXXNameMangler::mangleAArch64FixedSveVectorType(
3702a9ac8606Spatrick const DependentVectorType *T) {
3703a9ac8606Spatrick DiagnosticsEngine &Diags = Context.getDiags();
3704a9ac8606Spatrick unsigned DiagID = Diags.getCustomDiagID(
3705a9ac8606Spatrick DiagnosticsEngine::Error,
3706a9ac8606Spatrick "cannot mangle this dependent fixed-length SVE vector type yet");
3707a9ac8606Spatrick Diags.Report(T->getAttributeLoc(), DiagID);
3708a9ac8606Spatrick }
3709a9ac8606Spatrick
3710e5dd7070Spatrick // GNU extension: vector types
3711e5dd7070Spatrick // <type> ::= <vector-type>
3712e5dd7070Spatrick // <vector-type> ::= Dv <positive dimension number> _
3713e5dd7070Spatrick // <extended element type>
3714e5dd7070Spatrick // ::= Dv [<dimension expression>] _ <element type>
3715e5dd7070Spatrick // <extended element type> ::= <element type>
3716e5dd7070Spatrick // ::= p # AltiVec vector pixel
3717e5dd7070Spatrick // ::= b # Altivec vector bool
mangleType(const VectorType * T)3718e5dd7070Spatrick void CXXNameMangler::mangleType(const VectorType *T) {
3719e5dd7070Spatrick if ((T->getVectorKind() == VectorType::NeonVector ||
3720e5dd7070Spatrick T->getVectorKind() == VectorType::NeonPolyVector)) {
3721e5dd7070Spatrick llvm::Triple Target = getASTContext().getTargetInfo().getTriple();
3722e5dd7070Spatrick llvm::Triple::ArchType Arch =
3723e5dd7070Spatrick getASTContext().getTargetInfo().getTriple().getArch();
3724e5dd7070Spatrick if ((Arch == llvm::Triple::aarch64 ||
3725e5dd7070Spatrick Arch == llvm::Triple::aarch64_be) && !Target.isOSDarwin())
3726e5dd7070Spatrick mangleAArch64NeonVectorType(T);
3727e5dd7070Spatrick else
3728e5dd7070Spatrick mangleNeonVectorType(T);
3729e5dd7070Spatrick return;
3730a9ac8606Spatrick } else if (T->getVectorKind() == VectorType::SveFixedLengthDataVector ||
3731a9ac8606Spatrick T->getVectorKind() == VectorType::SveFixedLengthPredicateVector) {
3732a9ac8606Spatrick mangleAArch64FixedSveVectorType(T);
3733a9ac8606Spatrick return;
3734e5dd7070Spatrick }
3735e5dd7070Spatrick Out << "Dv" << T->getNumElements() << '_';
3736e5dd7070Spatrick if (T->getVectorKind() == VectorType::AltiVecPixel)
3737e5dd7070Spatrick Out << 'p';
3738e5dd7070Spatrick else if (T->getVectorKind() == VectorType::AltiVecBool)
3739e5dd7070Spatrick Out << 'b';
3740e5dd7070Spatrick else
3741e5dd7070Spatrick mangleType(T->getElementType());
3742e5dd7070Spatrick }
3743e5dd7070Spatrick
mangleType(const DependentVectorType * T)3744e5dd7070Spatrick void CXXNameMangler::mangleType(const DependentVectorType *T) {
3745e5dd7070Spatrick if ((T->getVectorKind() == VectorType::NeonVector ||
3746e5dd7070Spatrick T->getVectorKind() == VectorType::NeonPolyVector)) {
3747e5dd7070Spatrick llvm::Triple Target = getASTContext().getTargetInfo().getTriple();
3748e5dd7070Spatrick llvm::Triple::ArchType Arch =
3749e5dd7070Spatrick getASTContext().getTargetInfo().getTriple().getArch();
3750e5dd7070Spatrick if ((Arch == llvm::Triple::aarch64 || Arch == llvm::Triple::aarch64_be) &&
3751e5dd7070Spatrick !Target.isOSDarwin())
3752e5dd7070Spatrick mangleAArch64NeonVectorType(T);
3753e5dd7070Spatrick else
3754e5dd7070Spatrick mangleNeonVectorType(T);
3755e5dd7070Spatrick return;
3756a9ac8606Spatrick } else if (T->getVectorKind() == VectorType::SveFixedLengthDataVector ||
3757a9ac8606Spatrick T->getVectorKind() == VectorType::SveFixedLengthPredicateVector) {
3758a9ac8606Spatrick mangleAArch64FixedSveVectorType(T);
3759a9ac8606Spatrick return;
3760e5dd7070Spatrick }
3761e5dd7070Spatrick
3762e5dd7070Spatrick Out << "Dv";
3763e5dd7070Spatrick mangleExpression(T->getSizeExpr());
3764e5dd7070Spatrick Out << '_';
3765e5dd7070Spatrick if (T->getVectorKind() == VectorType::AltiVecPixel)
3766e5dd7070Spatrick Out << 'p';
3767e5dd7070Spatrick else if (T->getVectorKind() == VectorType::AltiVecBool)
3768e5dd7070Spatrick Out << 'b';
3769e5dd7070Spatrick else
3770e5dd7070Spatrick mangleType(T->getElementType());
3771e5dd7070Spatrick }
3772e5dd7070Spatrick
mangleType(const ExtVectorType * T)3773e5dd7070Spatrick void CXXNameMangler::mangleType(const ExtVectorType *T) {
3774e5dd7070Spatrick mangleType(static_cast<const VectorType*>(T));
3775e5dd7070Spatrick }
mangleType(const DependentSizedExtVectorType * T)3776e5dd7070Spatrick void CXXNameMangler::mangleType(const DependentSizedExtVectorType *T) {
3777e5dd7070Spatrick Out << "Dv";
3778e5dd7070Spatrick mangleExpression(T->getSizeExpr());
3779e5dd7070Spatrick Out << '_';
3780e5dd7070Spatrick mangleType(T->getElementType());
3781e5dd7070Spatrick }
3782e5dd7070Spatrick
mangleType(const ConstantMatrixType * T)3783ec727ea7Spatrick void CXXNameMangler::mangleType(const ConstantMatrixType *T) {
3784a9ac8606Spatrick // Mangle matrix types as a vendor extended type:
3785a9ac8606Spatrick // u<Len>matrix_typeI<Rows><Columns><element type>E
3786a9ac8606Spatrick
3787ec727ea7Spatrick StringRef VendorQualifier = "matrix_type";
3788a9ac8606Spatrick Out << "u" << VendorQualifier.size() << VendorQualifier;
3789a9ac8606Spatrick
3790a9ac8606Spatrick Out << "I";
3791ec727ea7Spatrick auto &ASTCtx = getASTContext();
3792ec727ea7Spatrick unsigned BitWidth = ASTCtx.getTypeSize(ASTCtx.getSizeType());
3793ec727ea7Spatrick llvm::APSInt Rows(BitWidth);
3794ec727ea7Spatrick Rows = T->getNumRows();
3795ec727ea7Spatrick mangleIntegerLiteral(ASTCtx.getSizeType(), Rows);
3796ec727ea7Spatrick llvm::APSInt Columns(BitWidth);
3797ec727ea7Spatrick Columns = T->getNumColumns();
3798ec727ea7Spatrick mangleIntegerLiteral(ASTCtx.getSizeType(), Columns);
3799ec727ea7Spatrick mangleType(T->getElementType());
3800a9ac8606Spatrick Out << "E";
3801ec727ea7Spatrick }
3802ec727ea7Spatrick
mangleType(const DependentSizedMatrixType * T)3803ec727ea7Spatrick void CXXNameMangler::mangleType(const DependentSizedMatrixType *T) {
3804a9ac8606Spatrick // Mangle matrix types as a vendor extended type:
3805a9ac8606Spatrick // u<Len>matrix_typeI<row expr><column expr><element type>E
3806ec727ea7Spatrick StringRef VendorQualifier = "matrix_type";
3807a9ac8606Spatrick Out << "u" << VendorQualifier.size() << VendorQualifier;
3808a9ac8606Spatrick
3809a9ac8606Spatrick Out << "I";
3810a9ac8606Spatrick mangleTemplateArgExpr(T->getRowExpr());
3811a9ac8606Spatrick mangleTemplateArgExpr(T->getColumnExpr());
3812ec727ea7Spatrick mangleType(T->getElementType());
3813a9ac8606Spatrick Out << "E";
3814ec727ea7Spatrick }
3815ec727ea7Spatrick
mangleType(const DependentAddressSpaceType * T)3816e5dd7070Spatrick void CXXNameMangler::mangleType(const DependentAddressSpaceType *T) {
3817e5dd7070Spatrick SplitQualType split = T->getPointeeType().split();
3818e5dd7070Spatrick mangleQualifiers(split.Quals, T);
3819e5dd7070Spatrick mangleType(QualType(split.Ty, 0));
3820e5dd7070Spatrick }
3821e5dd7070Spatrick
mangleType(const PackExpansionType * T)3822e5dd7070Spatrick void CXXNameMangler::mangleType(const PackExpansionType *T) {
3823e5dd7070Spatrick // <type> ::= Dp <type> # pack expansion (C++0x)
3824e5dd7070Spatrick Out << "Dp";
3825e5dd7070Spatrick mangleType(T->getPattern());
3826e5dd7070Spatrick }
3827e5dd7070Spatrick
mangleType(const ObjCInterfaceType * T)3828e5dd7070Spatrick void CXXNameMangler::mangleType(const ObjCInterfaceType *T) {
3829e5dd7070Spatrick mangleSourceName(T->getDecl()->getIdentifier());
3830e5dd7070Spatrick }
3831e5dd7070Spatrick
mangleType(const ObjCObjectType * T)3832e5dd7070Spatrick void CXXNameMangler::mangleType(const ObjCObjectType *T) {
3833e5dd7070Spatrick // Treat __kindof as a vendor extended type qualifier.
3834e5dd7070Spatrick if (T->isKindOfType())
3835e5dd7070Spatrick Out << "U8__kindof";
3836e5dd7070Spatrick
3837e5dd7070Spatrick if (!T->qual_empty()) {
3838e5dd7070Spatrick // Mangle protocol qualifiers.
3839e5dd7070Spatrick SmallString<64> QualStr;
3840e5dd7070Spatrick llvm::raw_svector_ostream QualOS(QualStr);
3841e5dd7070Spatrick QualOS << "objcproto";
3842e5dd7070Spatrick for (const auto *I : T->quals()) {
3843e5dd7070Spatrick StringRef name = I->getName();
3844e5dd7070Spatrick QualOS << name.size() << name;
3845e5dd7070Spatrick }
3846e5dd7070Spatrick Out << 'U' << QualStr.size() << QualStr;
3847e5dd7070Spatrick }
3848e5dd7070Spatrick
3849e5dd7070Spatrick mangleType(T->getBaseType());
3850e5dd7070Spatrick
3851e5dd7070Spatrick if (T->isSpecialized()) {
3852e5dd7070Spatrick // Mangle type arguments as I <type>+ E
3853e5dd7070Spatrick Out << 'I';
3854e5dd7070Spatrick for (auto typeArg : T->getTypeArgs())
3855e5dd7070Spatrick mangleType(typeArg);
3856e5dd7070Spatrick Out << 'E';
3857e5dd7070Spatrick }
3858e5dd7070Spatrick }
3859e5dd7070Spatrick
mangleType(const BlockPointerType * T)3860e5dd7070Spatrick void CXXNameMangler::mangleType(const BlockPointerType *T) {
3861e5dd7070Spatrick Out << "U13block_pointer";
3862e5dd7070Spatrick mangleType(T->getPointeeType());
3863e5dd7070Spatrick }
3864e5dd7070Spatrick
mangleType(const InjectedClassNameType * T)3865e5dd7070Spatrick void CXXNameMangler::mangleType(const InjectedClassNameType *T) {
3866e5dd7070Spatrick // Mangle injected class name types as if the user had written the
3867e5dd7070Spatrick // specialization out fully. It may not actually be possible to see
3868e5dd7070Spatrick // this mangling, though.
3869e5dd7070Spatrick mangleType(T->getInjectedSpecializationType());
3870e5dd7070Spatrick }
3871e5dd7070Spatrick
mangleType(const TemplateSpecializationType * T)3872e5dd7070Spatrick void CXXNameMangler::mangleType(const TemplateSpecializationType *T) {
3873e5dd7070Spatrick if (TemplateDecl *TD = T->getTemplateName().getAsTemplateDecl()) {
3874*12c85518Srobert mangleTemplateName(TD, T->template_arguments());
3875e5dd7070Spatrick } else {
3876e5dd7070Spatrick if (mangleSubstitution(QualType(T, 0)))
3877e5dd7070Spatrick return;
3878e5dd7070Spatrick
3879e5dd7070Spatrick mangleTemplatePrefix(T->getTemplateName());
3880e5dd7070Spatrick
3881e5dd7070Spatrick // FIXME: GCC does not appear to mangle the template arguments when
3882e5dd7070Spatrick // the template in question is a dependent template name. Should we
3883e5dd7070Spatrick // emulate that badness?
3884*12c85518Srobert mangleTemplateArgs(T->getTemplateName(), T->template_arguments());
3885e5dd7070Spatrick addSubstitution(QualType(T, 0));
3886e5dd7070Spatrick }
3887e5dd7070Spatrick }
3888e5dd7070Spatrick
mangleType(const DependentNameType * T)3889e5dd7070Spatrick void CXXNameMangler::mangleType(const DependentNameType *T) {
3890e5dd7070Spatrick // Proposal by cxx-abi-dev, 2014-03-26
3891e5dd7070Spatrick // <class-enum-type> ::= <name> # non-dependent or dependent type name or
3892e5dd7070Spatrick // # dependent elaborated type specifier using
3893e5dd7070Spatrick // # 'typename'
3894e5dd7070Spatrick // ::= Ts <name> # dependent elaborated type specifier using
3895e5dd7070Spatrick // # 'struct' or 'class'
3896e5dd7070Spatrick // ::= Tu <name> # dependent elaborated type specifier using
3897e5dd7070Spatrick // # 'union'
3898e5dd7070Spatrick // ::= Te <name> # dependent elaborated type specifier using
3899e5dd7070Spatrick // # 'enum'
3900e5dd7070Spatrick switch (T->getKeyword()) {
3901e5dd7070Spatrick case ETK_None:
3902e5dd7070Spatrick case ETK_Typename:
3903e5dd7070Spatrick break;
3904e5dd7070Spatrick case ETK_Struct:
3905e5dd7070Spatrick case ETK_Class:
3906e5dd7070Spatrick case ETK_Interface:
3907e5dd7070Spatrick Out << "Ts";
3908e5dd7070Spatrick break;
3909e5dd7070Spatrick case ETK_Union:
3910e5dd7070Spatrick Out << "Tu";
3911e5dd7070Spatrick break;
3912e5dd7070Spatrick case ETK_Enum:
3913e5dd7070Spatrick Out << "Te";
3914e5dd7070Spatrick break;
3915e5dd7070Spatrick }
3916e5dd7070Spatrick // Typename types are always nested
3917e5dd7070Spatrick Out << 'N';
3918e5dd7070Spatrick manglePrefix(T->getQualifier());
3919e5dd7070Spatrick mangleSourceName(T->getIdentifier());
3920e5dd7070Spatrick Out << 'E';
3921e5dd7070Spatrick }
3922e5dd7070Spatrick
mangleType(const DependentTemplateSpecializationType * T)3923e5dd7070Spatrick void CXXNameMangler::mangleType(const DependentTemplateSpecializationType *T) {
3924e5dd7070Spatrick // Dependently-scoped template types are nested if they have a prefix.
3925e5dd7070Spatrick Out << 'N';
3926e5dd7070Spatrick
3927e5dd7070Spatrick // TODO: avoid making this TemplateName.
3928e5dd7070Spatrick TemplateName Prefix =
3929e5dd7070Spatrick getASTContext().getDependentTemplateName(T->getQualifier(),
3930e5dd7070Spatrick T->getIdentifier());
3931e5dd7070Spatrick mangleTemplatePrefix(Prefix);
3932e5dd7070Spatrick
3933e5dd7070Spatrick // FIXME: GCC does not appear to mangle the template arguments when
3934e5dd7070Spatrick // the template in question is a dependent template name. Should we
3935e5dd7070Spatrick // emulate that badness?
3936*12c85518Srobert mangleTemplateArgs(Prefix, T->template_arguments());
3937e5dd7070Spatrick Out << 'E';
3938e5dd7070Spatrick }
3939e5dd7070Spatrick
mangleType(const TypeOfType * T)3940e5dd7070Spatrick void CXXNameMangler::mangleType(const TypeOfType *T) {
3941e5dd7070Spatrick // FIXME: this is pretty unsatisfactory, but there isn't an obvious
3942e5dd7070Spatrick // "extension with parameters" mangling.
3943e5dd7070Spatrick Out << "u6typeof";
3944e5dd7070Spatrick }
3945e5dd7070Spatrick
mangleType(const TypeOfExprType * T)3946e5dd7070Spatrick void CXXNameMangler::mangleType(const TypeOfExprType *T) {
3947e5dd7070Spatrick // FIXME: this is pretty unsatisfactory, but there isn't an obvious
3948e5dd7070Spatrick // "extension with parameters" mangling.
3949e5dd7070Spatrick Out << "u6typeof";
3950e5dd7070Spatrick }
3951e5dd7070Spatrick
mangleType(const DecltypeType * T)3952e5dd7070Spatrick void CXXNameMangler::mangleType(const DecltypeType *T) {
3953e5dd7070Spatrick Expr *E = T->getUnderlyingExpr();
3954e5dd7070Spatrick
3955e5dd7070Spatrick // type ::= Dt <expression> E # decltype of an id-expression
3956e5dd7070Spatrick // # or class member access
3957e5dd7070Spatrick // ::= DT <expression> E # decltype of an expression
3958e5dd7070Spatrick
3959e5dd7070Spatrick // This purports to be an exhaustive list of id-expressions and
3960e5dd7070Spatrick // class member accesses. Note that we do not ignore parentheses;
3961e5dd7070Spatrick // parentheses change the semantics of decltype for these
3962e5dd7070Spatrick // expressions (and cause the mangler to use the other form).
3963e5dd7070Spatrick if (isa<DeclRefExpr>(E) ||
3964e5dd7070Spatrick isa<MemberExpr>(E) ||
3965e5dd7070Spatrick isa<UnresolvedLookupExpr>(E) ||
3966e5dd7070Spatrick isa<DependentScopeDeclRefExpr>(E) ||
3967e5dd7070Spatrick isa<CXXDependentScopeMemberExpr>(E) ||
3968e5dd7070Spatrick isa<UnresolvedMemberExpr>(E))
3969e5dd7070Spatrick Out << "Dt";
3970e5dd7070Spatrick else
3971e5dd7070Spatrick Out << "DT";
3972e5dd7070Spatrick mangleExpression(E);
3973e5dd7070Spatrick Out << 'E';
3974e5dd7070Spatrick }
3975e5dd7070Spatrick
mangleType(const UnaryTransformType * T)3976e5dd7070Spatrick void CXXNameMangler::mangleType(const UnaryTransformType *T) {
3977e5dd7070Spatrick // If this is dependent, we need to record that. If not, we simply
3978e5dd7070Spatrick // mangle it as the underlying type since they are equivalent.
3979e5dd7070Spatrick if (T->isDependentType()) {
3980*12c85518Srobert Out << "u";
3981e5dd7070Spatrick
3982*12c85518Srobert StringRef BuiltinName;
3983e5dd7070Spatrick switch (T->getUTTKind()) {
3984*12c85518Srobert #define TRANSFORM_TYPE_TRAIT_DEF(Enum, Trait) \
3985*12c85518Srobert case UnaryTransformType::Enum: \
3986*12c85518Srobert BuiltinName = "__" #Trait; \
3987e5dd7070Spatrick break;
3988*12c85518Srobert #include "clang/Basic/TransformTypeTraits.def"
3989e5dd7070Spatrick }
3990*12c85518Srobert Out << BuiltinName.size() << BuiltinName;
3991e5dd7070Spatrick }
3992e5dd7070Spatrick
3993*12c85518Srobert Out << "I";
3994e5dd7070Spatrick mangleType(T->getBaseType());
3995*12c85518Srobert Out << "E";
3996e5dd7070Spatrick }
3997e5dd7070Spatrick
mangleType(const AutoType * T)3998e5dd7070Spatrick void CXXNameMangler::mangleType(const AutoType *T) {
3999e5dd7070Spatrick assert(T->getDeducedType().isNull() &&
4000e5dd7070Spatrick "Deduced AutoType shouldn't be handled here!");
4001e5dd7070Spatrick assert(T->getKeyword() != AutoTypeKeyword::GNUAutoType &&
4002e5dd7070Spatrick "shouldn't need to mangle __auto_type!");
4003e5dd7070Spatrick // <builtin-type> ::= Da # auto
4004e5dd7070Spatrick // ::= Dc # decltype(auto)
4005e5dd7070Spatrick Out << (T->isDecltypeAuto() ? "Dc" : "Da");
4006e5dd7070Spatrick }
4007e5dd7070Spatrick
mangleType(const DeducedTemplateSpecializationType * T)4008e5dd7070Spatrick void CXXNameMangler::mangleType(const DeducedTemplateSpecializationType *T) {
4009a9ac8606Spatrick QualType Deduced = T->getDeducedType();
4010a9ac8606Spatrick if (!Deduced.isNull())
4011a9ac8606Spatrick return mangleType(Deduced);
4012a9ac8606Spatrick
4013a9ac8606Spatrick TemplateDecl *TD = T->getTemplateName().getAsTemplateDecl();
4014a9ac8606Spatrick assert(TD && "shouldn't form deduced TST unless we know we have a template");
4015a9ac8606Spatrick
4016a9ac8606Spatrick if (mangleSubstitution(TD))
4017a9ac8606Spatrick return;
4018a9ac8606Spatrick
4019a9ac8606Spatrick mangleName(GlobalDecl(TD));
4020a9ac8606Spatrick addSubstitution(TD);
4021e5dd7070Spatrick }
4022e5dd7070Spatrick
mangleType(const AtomicType * T)4023e5dd7070Spatrick void CXXNameMangler::mangleType(const AtomicType *T) {
4024e5dd7070Spatrick // <type> ::= U <source-name> <type> # vendor extended type qualifier
4025e5dd7070Spatrick // (Until there's a standardized mangling...)
4026e5dd7070Spatrick Out << "U7_Atomic";
4027e5dd7070Spatrick mangleType(T->getValueType());
4028e5dd7070Spatrick }
4029e5dd7070Spatrick
mangleType(const PipeType * T)4030e5dd7070Spatrick void CXXNameMangler::mangleType(const PipeType *T) {
4031e5dd7070Spatrick // Pipe type mangling rules are described in SPIR 2.0 specification
4032e5dd7070Spatrick // A.1 Data types and A.3 Summary of changes
4033e5dd7070Spatrick // <type> ::= 8ocl_pipe
4034e5dd7070Spatrick Out << "8ocl_pipe";
4035e5dd7070Spatrick }
4036e5dd7070Spatrick
mangleType(const BitIntType * T)4037*12c85518Srobert void CXXNameMangler::mangleType(const BitIntType *T) {
4038*12c85518Srobert // 5.1.5.2 Builtin types
4039*12c85518Srobert // <type> ::= DB <number | instantiation-dependent expression> _
4040*12c85518Srobert // ::= DU <number | instantiation-dependent expression> _
4041*12c85518Srobert Out << "D" << (T->isUnsigned() ? "U" : "B") << T->getNumBits() << "_";
4042ec727ea7Spatrick }
4043ec727ea7Spatrick
mangleType(const DependentBitIntType * T)4044*12c85518Srobert void CXXNameMangler::mangleType(const DependentBitIntType *T) {
4045*12c85518Srobert // 5.1.5.2 Builtin types
4046*12c85518Srobert // <type> ::= DB <number | instantiation-dependent expression> _
4047*12c85518Srobert // ::= DU <number | instantiation-dependent expression> _
4048*12c85518Srobert Out << "D" << (T->isUnsigned() ? "U" : "B");
4049*12c85518Srobert mangleExpression(T->getNumBitsExpr());
4050*12c85518Srobert Out << "_";
4051ec727ea7Spatrick }
4052ec727ea7Spatrick
mangleIntegerLiteral(QualType T,const llvm::APSInt & Value)4053e5dd7070Spatrick void CXXNameMangler::mangleIntegerLiteral(QualType T,
4054e5dd7070Spatrick const llvm::APSInt &Value) {
4055e5dd7070Spatrick // <expr-primary> ::= L <type> <value number> E # integer literal
4056e5dd7070Spatrick Out << 'L';
4057e5dd7070Spatrick
4058e5dd7070Spatrick mangleType(T);
4059e5dd7070Spatrick if (T->isBooleanType()) {
4060e5dd7070Spatrick // Boolean values are encoded as 0/1.
4061e5dd7070Spatrick Out << (Value.getBoolValue() ? '1' : '0');
4062e5dd7070Spatrick } else {
4063e5dd7070Spatrick mangleNumber(Value);
4064e5dd7070Spatrick }
4065e5dd7070Spatrick Out << 'E';
4066e5dd7070Spatrick
4067e5dd7070Spatrick }
4068e5dd7070Spatrick
mangleMemberExprBase(const Expr * Base,bool IsArrow)4069e5dd7070Spatrick void CXXNameMangler::mangleMemberExprBase(const Expr *Base, bool IsArrow) {
4070e5dd7070Spatrick // Ignore member expressions involving anonymous unions.
4071e5dd7070Spatrick while (const auto *RT = Base->getType()->getAs<RecordType>()) {
4072e5dd7070Spatrick if (!RT->getDecl()->isAnonymousStructOrUnion())
4073e5dd7070Spatrick break;
4074e5dd7070Spatrick const auto *ME = dyn_cast<MemberExpr>(Base);
4075e5dd7070Spatrick if (!ME)
4076e5dd7070Spatrick break;
4077e5dd7070Spatrick Base = ME->getBase();
4078e5dd7070Spatrick IsArrow = ME->isArrow();
4079e5dd7070Spatrick }
4080e5dd7070Spatrick
4081e5dd7070Spatrick if (Base->isImplicitCXXThis()) {
4082e5dd7070Spatrick // Note: GCC mangles member expressions to the implicit 'this' as
4083e5dd7070Spatrick // *this., whereas we represent them as this->. The Itanium C++ ABI
4084e5dd7070Spatrick // does not specify anything here, so we follow GCC.
4085e5dd7070Spatrick Out << "dtdefpT";
4086e5dd7070Spatrick } else {
4087e5dd7070Spatrick Out << (IsArrow ? "pt" : "dt");
4088e5dd7070Spatrick mangleExpression(Base);
4089e5dd7070Spatrick }
4090e5dd7070Spatrick }
4091e5dd7070Spatrick
4092e5dd7070Spatrick /// Mangles a member expression.
mangleMemberExpr(const Expr * base,bool isArrow,NestedNameSpecifier * qualifier,NamedDecl * firstQualifierLookup,DeclarationName member,const TemplateArgumentLoc * TemplateArgs,unsigned NumTemplateArgs,unsigned arity)4093e5dd7070Spatrick void CXXNameMangler::mangleMemberExpr(const Expr *base,
4094e5dd7070Spatrick bool isArrow,
4095e5dd7070Spatrick NestedNameSpecifier *qualifier,
4096e5dd7070Spatrick NamedDecl *firstQualifierLookup,
4097e5dd7070Spatrick DeclarationName member,
4098e5dd7070Spatrick const TemplateArgumentLoc *TemplateArgs,
4099e5dd7070Spatrick unsigned NumTemplateArgs,
4100e5dd7070Spatrick unsigned arity) {
4101e5dd7070Spatrick // <expression> ::= dt <expression> <unresolved-name>
4102e5dd7070Spatrick // ::= pt <expression> <unresolved-name>
4103e5dd7070Spatrick if (base)
4104e5dd7070Spatrick mangleMemberExprBase(base, isArrow);
4105e5dd7070Spatrick mangleUnresolvedName(qualifier, member, TemplateArgs, NumTemplateArgs, arity);
4106e5dd7070Spatrick }
4107e5dd7070Spatrick
4108e5dd7070Spatrick /// Look at the callee of the given call expression and determine if
4109e5dd7070Spatrick /// it's a parenthesized id-expression which would have triggered ADL
4110e5dd7070Spatrick /// otherwise.
isParenthesizedADLCallee(const CallExpr * call)4111e5dd7070Spatrick static bool isParenthesizedADLCallee(const CallExpr *call) {
4112e5dd7070Spatrick const Expr *callee = call->getCallee();
4113e5dd7070Spatrick const Expr *fn = callee->IgnoreParens();
4114e5dd7070Spatrick
4115e5dd7070Spatrick // Must be parenthesized. IgnoreParens() skips __extension__ nodes,
4116e5dd7070Spatrick // too, but for those to appear in the callee, it would have to be
4117e5dd7070Spatrick // parenthesized.
4118e5dd7070Spatrick if (callee == fn) return false;
4119e5dd7070Spatrick
4120e5dd7070Spatrick // Must be an unresolved lookup.
4121e5dd7070Spatrick const UnresolvedLookupExpr *lookup = dyn_cast<UnresolvedLookupExpr>(fn);
4122e5dd7070Spatrick if (!lookup) return false;
4123e5dd7070Spatrick
4124e5dd7070Spatrick assert(!lookup->requiresADL());
4125e5dd7070Spatrick
4126e5dd7070Spatrick // Must be an unqualified lookup.
4127e5dd7070Spatrick if (lookup->getQualifier()) return false;
4128e5dd7070Spatrick
4129e5dd7070Spatrick // Must not have found a class member. Note that if one is a class
4130e5dd7070Spatrick // member, they're all class members.
4131e5dd7070Spatrick if (lookup->getNumDecls() > 0 &&
4132e5dd7070Spatrick (*lookup->decls_begin())->isCXXClassMember())
4133e5dd7070Spatrick return false;
4134e5dd7070Spatrick
4135e5dd7070Spatrick // Otherwise, ADL would have been triggered.
4136e5dd7070Spatrick return true;
4137e5dd7070Spatrick }
4138e5dd7070Spatrick
mangleCastExpression(const Expr * E,StringRef CastEncoding)4139e5dd7070Spatrick void CXXNameMangler::mangleCastExpression(const Expr *E, StringRef CastEncoding) {
4140e5dd7070Spatrick const ExplicitCastExpr *ECE = cast<ExplicitCastExpr>(E);
4141e5dd7070Spatrick Out << CastEncoding;
4142e5dd7070Spatrick mangleType(ECE->getType());
4143e5dd7070Spatrick mangleExpression(ECE->getSubExpr());
4144e5dd7070Spatrick }
4145e5dd7070Spatrick
mangleInitListElements(const InitListExpr * InitList)4146e5dd7070Spatrick void CXXNameMangler::mangleInitListElements(const InitListExpr *InitList) {
4147e5dd7070Spatrick if (auto *Syntactic = InitList->getSyntacticForm())
4148e5dd7070Spatrick InitList = Syntactic;
4149e5dd7070Spatrick for (unsigned i = 0, e = InitList->getNumInits(); i != e; ++i)
4150e5dd7070Spatrick mangleExpression(InitList->getInit(i));
4151e5dd7070Spatrick }
4152e5dd7070Spatrick
mangleExpression(const Expr * E,unsigned Arity,bool AsTemplateArg)4153a9ac8606Spatrick void CXXNameMangler::mangleExpression(const Expr *E, unsigned Arity,
4154a9ac8606Spatrick bool AsTemplateArg) {
4155e5dd7070Spatrick // <expression> ::= <unary operator-name> <expression>
4156e5dd7070Spatrick // ::= <binary operator-name> <expression> <expression>
4157e5dd7070Spatrick // ::= <trinary operator-name> <expression> <expression> <expression>
4158e5dd7070Spatrick // ::= cv <type> expression # conversion with one argument
4159e5dd7070Spatrick // ::= cv <type> _ <expression>* E # conversion with a different number of arguments
4160e5dd7070Spatrick // ::= dc <type> <expression> # dynamic_cast<type> (expression)
4161e5dd7070Spatrick // ::= sc <type> <expression> # static_cast<type> (expression)
4162e5dd7070Spatrick // ::= cc <type> <expression> # const_cast<type> (expression)
4163e5dd7070Spatrick // ::= rc <type> <expression> # reinterpret_cast<type> (expression)
4164e5dd7070Spatrick // ::= st <type> # sizeof (a type)
4165e5dd7070Spatrick // ::= at <type> # alignof (a type)
4166e5dd7070Spatrick // ::= <template-param>
4167e5dd7070Spatrick // ::= <function-param>
4168a9ac8606Spatrick // ::= fpT # 'this' expression (part of <function-param>)
4169e5dd7070Spatrick // ::= sr <type> <unqualified-name> # dependent name
4170e5dd7070Spatrick // ::= sr <type> <unqualified-name> <template-args> # dependent template-id
4171e5dd7070Spatrick // ::= ds <expression> <expression> # expr.*expr
4172e5dd7070Spatrick // ::= sZ <template-param> # size of a parameter pack
4173e5dd7070Spatrick // ::= sZ <function-param> # size of a function parameter pack
4174a9ac8606Spatrick // ::= u <source-name> <template-arg>* E # vendor extended expression
4175e5dd7070Spatrick // ::= <expr-primary>
4176e5dd7070Spatrick // <expr-primary> ::= L <type> <value number> E # integer literal
4177a9ac8606Spatrick // ::= L <type> <value float> E # floating literal
4178a9ac8606Spatrick // ::= L <type> <string type> E # string literal
4179a9ac8606Spatrick // ::= L <nullptr type> E # nullptr literal "LDnE"
4180a9ac8606Spatrick // ::= L <pointer type> 0 E # null pointer template argument
4181a9ac8606Spatrick // ::= L <type> <real-part float> _ <imag-part float> E # complex floating point literal (C99); not used by clang
4182e5dd7070Spatrick // ::= L <mangled-name> E # external name
4183e5dd7070Spatrick QualType ImplicitlyConvertedToType;
4184e5dd7070Spatrick
4185a9ac8606Spatrick // A top-level expression that's not <expr-primary> needs to be wrapped in
4186a9ac8606Spatrick // X...E in a template arg.
4187a9ac8606Spatrick bool IsPrimaryExpr = true;
4188a9ac8606Spatrick auto NotPrimaryExpr = [&] {
4189a9ac8606Spatrick if (AsTemplateArg && IsPrimaryExpr)
4190a9ac8606Spatrick Out << 'X';
4191a9ac8606Spatrick IsPrimaryExpr = false;
4192a9ac8606Spatrick };
4193a9ac8606Spatrick
4194a9ac8606Spatrick auto MangleDeclRefExpr = [&](const NamedDecl *D) {
4195a9ac8606Spatrick switch (D->getKind()) {
4196a9ac8606Spatrick default:
4197a9ac8606Spatrick // <expr-primary> ::= L <mangled-name> E # external name
4198a9ac8606Spatrick Out << 'L';
4199a9ac8606Spatrick mangle(D);
4200a9ac8606Spatrick Out << 'E';
4201a9ac8606Spatrick break;
4202a9ac8606Spatrick
4203a9ac8606Spatrick case Decl::ParmVar:
4204a9ac8606Spatrick NotPrimaryExpr();
4205a9ac8606Spatrick mangleFunctionParam(cast<ParmVarDecl>(D));
4206a9ac8606Spatrick break;
4207a9ac8606Spatrick
4208a9ac8606Spatrick case Decl::EnumConstant: {
4209a9ac8606Spatrick // <expr-primary>
4210a9ac8606Spatrick const EnumConstantDecl *ED = cast<EnumConstantDecl>(D);
4211a9ac8606Spatrick mangleIntegerLiteral(ED->getType(), ED->getInitVal());
4212a9ac8606Spatrick break;
4213a9ac8606Spatrick }
4214a9ac8606Spatrick
4215a9ac8606Spatrick case Decl::NonTypeTemplateParm:
4216a9ac8606Spatrick NotPrimaryExpr();
4217a9ac8606Spatrick const NonTypeTemplateParmDecl *PD = cast<NonTypeTemplateParmDecl>(D);
4218a9ac8606Spatrick mangleTemplateParameter(PD->getDepth(), PD->getIndex());
4219a9ac8606Spatrick break;
4220a9ac8606Spatrick }
4221a9ac8606Spatrick };
4222a9ac8606Spatrick
4223a9ac8606Spatrick // 'goto recurse' is used when handling a simple "unwrapping" node which
4224a9ac8606Spatrick // produces no output, where ImplicitlyConvertedToType and AsTemplateArg need
4225a9ac8606Spatrick // to be preserved.
4226e5dd7070Spatrick recurse:
4227e5dd7070Spatrick switch (E->getStmtClass()) {
4228e5dd7070Spatrick case Expr::NoStmtClass:
4229e5dd7070Spatrick #define ABSTRACT_STMT(Type)
4230e5dd7070Spatrick #define EXPR(Type, Base)
4231e5dd7070Spatrick #define STMT(Type, Base) \
4232e5dd7070Spatrick case Expr::Type##Class:
4233e5dd7070Spatrick #include "clang/AST/StmtNodes.inc"
4234e5dd7070Spatrick // fallthrough
4235e5dd7070Spatrick
4236e5dd7070Spatrick // These all can only appear in local or variable-initialization
4237e5dd7070Spatrick // contexts and so should never appear in a mangling.
4238e5dd7070Spatrick case Expr::AddrLabelExprClass:
4239e5dd7070Spatrick case Expr::DesignatedInitUpdateExprClass:
4240e5dd7070Spatrick case Expr::ImplicitValueInitExprClass:
4241e5dd7070Spatrick case Expr::ArrayInitLoopExprClass:
4242e5dd7070Spatrick case Expr::ArrayInitIndexExprClass:
4243e5dd7070Spatrick case Expr::NoInitExprClass:
4244e5dd7070Spatrick case Expr::ParenListExprClass:
4245e5dd7070Spatrick case Expr::MSPropertyRefExprClass:
4246e5dd7070Spatrick case Expr::MSPropertySubscriptExprClass:
4247e5dd7070Spatrick case Expr::TypoExprClass: // This should no longer exist in the AST by now.
4248ec727ea7Spatrick case Expr::RecoveryExprClass:
4249e5dd7070Spatrick case Expr::OMPArraySectionExprClass:
4250ec727ea7Spatrick case Expr::OMPArrayShapingExprClass:
4251ec727ea7Spatrick case Expr::OMPIteratorExprClass:
4252e5dd7070Spatrick case Expr::CXXInheritedCtorInitExprClass:
4253*12c85518Srobert case Expr::CXXParenListInitExprClass:
4254e5dd7070Spatrick llvm_unreachable("unexpected statement kind");
4255e5dd7070Spatrick
4256e5dd7070Spatrick case Expr::ConstantExprClass:
4257e5dd7070Spatrick E = cast<ConstantExpr>(E)->getSubExpr();
4258e5dd7070Spatrick goto recurse;
4259e5dd7070Spatrick
4260e5dd7070Spatrick // FIXME: invent manglings for all these.
4261e5dd7070Spatrick case Expr::BlockExprClass:
4262e5dd7070Spatrick case Expr::ChooseExprClass:
4263e5dd7070Spatrick case Expr::CompoundLiteralExprClass:
4264e5dd7070Spatrick case Expr::ExtVectorElementExprClass:
4265e5dd7070Spatrick case Expr::GenericSelectionExprClass:
4266e5dd7070Spatrick case Expr::ObjCEncodeExprClass:
4267e5dd7070Spatrick case Expr::ObjCIsaExprClass:
4268e5dd7070Spatrick case Expr::ObjCIvarRefExprClass:
4269e5dd7070Spatrick case Expr::ObjCMessageExprClass:
4270e5dd7070Spatrick case Expr::ObjCPropertyRefExprClass:
4271e5dd7070Spatrick case Expr::ObjCProtocolExprClass:
4272e5dd7070Spatrick case Expr::ObjCSelectorExprClass:
4273e5dd7070Spatrick case Expr::ObjCStringLiteralClass:
4274e5dd7070Spatrick case Expr::ObjCBoxedExprClass:
4275e5dd7070Spatrick case Expr::ObjCArrayLiteralClass:
4276e5dd7070Spatrick case Expr::ObjCDictionaryLiteralClass:
4277e5dd7070Spatrick case Expr::ObjCSubscriptRefExprClass:
4278e5dd7070Spatrick case Expr::ObjCIndirectCopyRestoreExprClass:
4279e5dd7070Spatrick case Expr::ObjCAvailabilityCheckExprClass:
4280e5dd7070Spatrick case Expr::OffsetOfExprClass:
4281e5dd7070Spatrick case Expr::PredefinedExprClass:
4282e5dd7070Spatrick case Expr::ShuffleVectorExprClass:
4283e5dd7070Spatrick case Expr::ConvertVectorExprClass:
4284e5dd7070Spatrick case Expr::StmtExprClass:
4285e5dd7070Spatrick case Expr::TypeTraitExprClass:
4286e5dd7070Spatrick case Expr::RequiresExprClass:
4287e5dd7070Spatrick case Expr::ArrayTypeTraitExprClass:
4288e5dd7070Spatrick case Expr::ExpressionTraitExprClass:
4289e5dd7070Spatrick case Expr::VAArgExprClass:
4290e5dd7070Spatrick case Expr::CUDAKernelCallExprClass:
4291e5dd7070Spatrick case Expr::AsTypeExprClass:
4292e5dd7070Spatrick case Expr::PseudoObjectExprClass:
4293e5dd7070Spatrick case Expr::AtomicExprClass:
4294e5dd7070Spatrick case Expr::SourceLocExprClass:
4295e5dd7070Spatrick case Expr::BuiltinBitCastExprClass:
4296e5dd7070Spatrick {
4297a9ac8606Spatrick NotPrimaryExpr();
4298e5dd7070Spatrick if (!NullOut) {
4299e5dd7070Spatrick // As bad as this diagnostic is, it's better than crashing.
4300e5dd7070Spatrick DiagnosticsEngine &Diags = Context.getDiags();
4301e5dd7070Spatrick unsigned DiagID = Diags.getCustomDiagID(DiagnosticsEngine::Error,
4302e5dd7070Spatrick "cannot yet mangle expression type %0");
4303e5dd7070Spatrick Diags.Report(E->getExprLoc(), DiagID)
4304e5dd7070Spatrick << E->getStmtClassName() << E->getSourceRange();
4305a9ac8606Spatrick return;
4306e5dd7070Spatrick }
4307e5dd7070Spatrick break;
4308e5dd7070Spatrick }
4309e5dd7070Spatrick
4310e5dd7070Spatrick case Expr::CXXUuidofExprClass: {
4311a9ac8606Spatrick NotPrimaryExpr();
4312e5dd7070Spatrick const CXXUuidofExpr *UE = cast<CXXUuidofExpr>(E);
4313a9ac8606Spatrick // As of clang 12, uuidof uses the vendor extended expression
4314a9ac8606Spatrick // mangling. Previously, it used a special-cased nonstandard extension.
4315a9ac8606Spatrick if (Context.getASTContext().getLangOpts().getClangABICompat() >
4316a9ac8606Spatrick LangOptions::ClangABI::Ver11) {
4317a9ac8606Spatrick Out << "u8__uuidof";
4318a9ac8606Spatrick if (UE->isTypeOperand())
4319a9ac8606Spatrick mangleType(UE->getTypeOperand(Context.getASTContext()));
4320a9ac8606Spatrick else
4321a9ac8606Spatrick mangleTemplateArgExpr(UE->getExprOperand());
4322a9ac8606Spatrick Out << 'E';
4323a9ac8606Spatrick } else {
4324e5dd7070Spatrick if (UE->isTypeOperand()) {
4325e5dd7070Spatrick QualType UuidT = UE->getTypeOperand(Context.getASTContext());
4326e5dd7070Spatrick Out << "u8__uuidoft";
4327e5dd7070Spatrick mangleType(UuidT);
4328e5dd7070Spatrick } else {
4329e5dd7070Spatrick Expr *UuidExp = UE->getExprOperand();
4330e5dd7070Spatrick Out << "u8__uuidofz";
4331a9ac8606Spatrick mangleExpression(UuidExp);
4332a9ac8606Spatrick }
4333e5dd7070Spatrick }
4334e5dd7070Spatrick break;
4335e5dd7070Spatrick }
4336e5dd7070Spatrick
4337e5dd7070Spatrick // Even gcc-4.5 doesn't mangle this.
4338e5dd7070Spatrick case Expr::BinaryConditionalOperatorClass: {
4339a9ac8606Spatrick NotPrimaryExpr();
4340e5dd7070Spatrick DiagnosticsEngine &Diags = Context.getDiags();
4341e5dd7070Spatrick unsigned DiagID =
4342e5dd7070Spatrick Diags.getCustomDiagID(DiagnosticsEngine::Error,
4343e5dd7070Spatrick "?: operator with omitted middle operand cannot be mangled");
4344e5dd7070Spatrick Diags.Report(E->getExprLoc(), DiagID)
4345e5dd7070Spatrick << E->getStmtClassName() << E->getSourceRange();
4346a9ac8606Spatrick return;
4347e5dd7070Spatrick }
4348e5dd7070Spatrick
4349e5dd7070Spatrick // These are used for internal purposes and cannot be meaningfully mangled.
4350e5dd7070Spatrick case Expr::OpaqueValueExprClass:
4351e5dd7070Spatrick llvm_unreachable("cannot mangle opaque value; mangling wrong thing?");
4352e5dd7070Spatrick
4353e5dd7070Spatrick case Expr::InitListExprClass: {
4354a9ac8606Spatrick NotPrimaryExpr();
4355e5dd7070Spatrick Out << "il";
4356e5dd7070Spatrick mangleInitListElements(cast<InitListExpr>(E));
4357e5dd7070Spatrick Out << "E";
4358e5dd7070Spatrick break;
4359e5dd7070Spatrick }
4360e5dd7070Spatrick
4361e5dd7070Spatrick case Expr::DesignatedInitExprClass: {
4362a9ac8606Spatrick NotPrimaryExpr();
4363e5dd7070Spatrick auto *DIE = cast<DesignatedInitExpr>(E);
4364e5dd7070Spatrick for (const auto &Designator : DIE->designators()) {
4365e5dd7070Spatrick if (Designator.isFieldDesignator()) {
4366e5dd7070Spatrick Out << "di";
4367e5dd7070Spatrick mangleSourceName(Designator.getFieldName());
4368e5dd7070Spatrick } else if (Designator.isArrayDesignator()) {
4369e5dd7070Spatrick Out << "dx";
4370e5dd7070Spatrick mangleExpression(DIE->getArrayIndex(Designator));
4371e5dd7070Spatrick } else {
4372e5dd7070Spatrick assert(Designator.isArrayRangeDesignator() &&
4373e5dd7070Spatrick "unknown designator kind");
4374e5dd7070Spatrick Out << "dX";
4375e5dd7070Spatrick mangleExpression(DIE->getArrayRangeStart(Designator));
4376e5dd7070Spatrick mangleExpression(DIE->getArrayRangeEnd(Designator));
4377e5dd7070Spatrick }
4378e5dd7070Spatrick }
4379e5dd7070Spatrick mangleExpression(DIE->getInit());
4380e5dd7070Spatrick break;
4381e5dd7070Spatrick }
4382e5dd7070Spatrick
4383e5dd7070Spatrick case Expr::CXXDefaultArgExprClass:
4384a9ac8606Spatrick E = cast<CXXDefaultArgExpr>(E)->getExpr();
4385a9ac8606Spatrick goto recurse;
4386e5dd7070Spatrick
4387e5dd7070Spatrick case Expr::CXXDefaultInitExprClass:
4388a9ac8606Spatrick E = cast<CXXDefaultInitExpr>(E)->getExpr();
4389a9ac8606Spatrick goto recurse;
4390e5dd7070Spatrick
4391e5dd7070Spatrick case Expr::CXXStdInitializerListExprClass:
4392a9ac8606Spatrick E = cast<CXXStdInitializerListExpr>(E)->getSubExpr();
4393a9ac8606Spatrick goto recurse;
4394e5dd7070Spatrick
4395e5dd7070Spatrick case Expr::SubstNonTypeTemplateParmExprClass:
4396a9ac8606Spatrick E = cast<SubstNonTypeTemplateParmExpr>(E)->getReplacement();
4397a9ac8606Spatrick goto recurse;
4398e5dd7070Spatrick
4399e5dd7070Spatrick case Expr::UserDefinedLiteralClass:
4400e5dd7070Spatrick // We follow g++'s approach of mangling a UDL as a call to the literal
4401e5dd7070Spatrick // operator.
4402e5dd7070Spatrick case Expr::CXXMemberCallExprClass: // fallthrough
4403e5dd7070Spatrick case Expr::CallExprClass: {
4404a9ac8606Spatrick NotPrimaryExpr();
4405e5dd7070Spatrick const CallExpr *CE = cast<CallExpr>(E);
4406e5dd7070Spatrick
4407e5dd7070Spatrick // <expression> ::= cp <simple-id> <expression>* E
4408e5dd7070Spatrick // We use this mangling only when the call would use ADL except
4409e5dd7070Spatrick // for being parenthesized. Per discussion with David
4410e5dd7070Spatrick // Vandervoorde, 2011.04.25.
4411e5dd7070Spatrick if (isParenthesizedADLCallee(CE)) {
4412e5dd7070Spatrick Out << "cp";
4413e5dd7070Spatrick // The callee here is a parenthesized UnresolvedLookupExpr with
4414e5dd7070Spatrick // no qualifier and should always get mangled as a <simple-id>
4415e5dd7070Spatrick // anyway.
4416e5dd7070Spatrick
4417e5dd7070Spatrick // <expression> ::= cl <expression>* E
4418e5dd7070Spatrick } else {
4419e5dd7070Spatrick Out << "cl";
4420e5dd7070Spatrick }
4421e5dd7070Spatrick
4422e5dd7070Spatrick unsigned CallArity = CE->getNumArgs();
4423e5dd7070Spatrick for (const Expr *Arg : CE->arguments())
4424e5dd7070Spatrick if (isa<PackExpansionExpr>(Arg))
4425e5dd7070Spatrick CallArity = UnknownArity;
4426e5dd7070Spatrick
4427e5dd7070Spatrick mangleExpression(CE->getCallee(), CallArity);
4428e5dd7070Spatrick for (const Expr *Arg : CE->arguments())
4429e5dd7070Spatrick mangleExpression(Arg);
4430e5dd7070Spatrick Out << 'E';
4431e5dd7070Spatrick break;
4432e5dd7070Spatrick }
4433e5dd7070Spatrick
4434e5dd7070Spatrick case Expr::CXXNewExprClass: {
4435a9ac8606Spatrick NotPrimaryExpr();
4436e5dd7070Spatrick const CXXNewExpr *New = cast<CXXNewExpr>(E);
4437e5dd7070Spatrick if (New->isGlobalNew()) Out << "gs";
4438e5dd7070Spatrick Out << (New->isArray() ? "na" : "nw");
4439e5dd7070Spatrick for (CXXNewExpr::const_arg_iterator I = New->placement_arg_begin(),
4440e5dd7070Spatrick E = New->placement_arg_end(); I != E; ++I)
4441e5dd7070Spatrick mangleExpression(*I);
4442e5dd7070Spatrick Out << '_';
4443e5dd7070Spatrick mangleType(New->getAllocatedType());
4444e5dd7070Spatrick if (New->hasInitializer()) {
4445e5dd7070Spatrick if (New->getInitializationStyle() == CXXNewExpr::ListInit)
4446e5dd7070Spatrick Out << "il";
4447e5dd7070Spatrick else
4448e5dd7070Spatrick Out << "pi";
4449e5dd7070Spatrick const Expr *Init = New->getInitializer();
4450e5dd7070Spatrick if (const CXXConstructExpr *CCE = dyn_cast<CXXConstructExpr>(Init)) {
4451e5dd7070Spatrick // Directly inline the initializers.
4452e5dd7070Spatrick for (CXXConstructExpr::const_arg_iterator I = CCE->arg_begin(),
4453e5dd7070Spatrick E = CCE->arg_end();
4454e5dd7070Spatrick I != E; ++I)
4455e5dd7070Spatrick mangleExpression(*I);
4456e5dd7070Spatrick } else if (const ParenListExpr *PLE = dyn_cast<ParenListExpr>(Init)) {
4457e5dd7070Spatrick for (unsigned i = 0, e = PLE->getNumExprs(); i != e; ++i)
4458e5dd7070Spatrick mangleExpression(PLE->getExpr(i));
4459e5dd7070Spatrick } else if (New->getInitializationStyle() == CXXNewExpr::ListInit &&
4460e5dd7070Spatrick isa<InitListExpr>(Init)) {
4461e5dd7070Spatrick // Only take InitListExprs apart for list-initialization.
4462e5dd7070Spatrick mangleInitListElements(cast<InitListExpr>(Init));
4463e5dd7070Spatrick } else
4464e5dd7070Spatrick mangleExpression(Init);
4465e5dd7070Spatrick }
4466e5dd7070Spatrick Out << 'E';
4467e5dd7070Spatrick break;
4468e5dd7070Spatrick }
4469e5dd7070Spatrick
4470e5dd7070Spatrick case Expr::CXXPseudoDestructorExprClass: {
4471a9ac8606Spatrick NotPrimaryExpr();
4472e5dd7070Spatrick const auto *PDE = cast<CXXPseudoDestructorExpr>(E);
4473e5dd7070Spatrick if (const Expr *Base = PDE->getBase())
4474e5dd7070Spatrick mangleMemberExprBase(Base, PDE->isArrow());
4475e5dd7070Spatrick NestedNameSpecifier *Qualifier = PDE->getQualifier();
4476e5dd7070Spatrick if (TypeSourceInfo *ScopeInfo = PDE->getScopeTypeInfo()) {
4477e5dd7070Spatrick if (Qualifier) {
4478e5dd7070Spatrick mangleUnresolvedPrefix(Qualifier,
4479e5dd7070Spatrick /*recursive=*/true);
4480e5dd7070Spatrick mangleUnresolvedTypeOrSimpleId(ScopeInfo->getType());
4481e5dd7070Spatrick Out << 'E';
4482e5dd7070Spatrick } else {
4483e5dd7070Spatrick Out << "sr";
4484e5dd7070Spatrick if (!mangleUnresolvedTypeOrSimpleId(ScopeInfo->getType()))
4485e5dd7070Spatrick Out << 'E';
4486e5dd7070Spatrick }
4487e5dd7070Spatrick } else if (Qualifier) {
4488e5dd7070Spatrick mangleUnresolvedPrefix(Qualifier);
4489e5dd7070Spatrick }
4490e5dd7070Spatrick // <base-unresolved-name> ::= dn <destructor-name>
4491e5dd7070Spatrick Out << "dn";
4492e5dd7070Spatrick QualType DestroyedType = PDE->getDestroyedType();
4493e5dd7070Spatrick mangleUnresolvedTypeOrSimpleId(DestroyedType);
4494e5dd7070Spatrick break;
4495e5dd7070Spatrick }
4496e5dd7070Spatrick
4497e5dd7070Spatrick case Expr::MemberExprClass: {
4498a9ac8606Spatrick NotPrimaryExpr();
4499e5dd7070Spatrick const MemberExpr *ME = cast<MemberExpr>(E);
4500e5dd7070Spatrick mangleMemberExpr(ME->getBase(), ME->isArrow(),
4501e5dd7070Spatrick ME->getQualifier(), nullptr,
4502e5dd7070Spatrick ME->getMemberDecl()->getDeclName(),
4503e5dd7070Spatrick ME->getTemplateArgs(), ME->getNumTemplateArgs(),
4504e5dd7070Spatrick Arity);
4505e5dd7070Spatrick break;
4506e5dd7070Spatrick }
4507e5dd7070Spatrick
4508e5dd7070Spatrick case Expr::UnresolvedMemberExprClass: {
4509a9ac8606Spatrick NotPrimaryExpr();
4510e5dd7070Spatrick const UnresolvedMemberExpr *ME = cast<UnresolvedMemberExpr>(E);
4511e5dd7070Spatrick mangleMemberExpr(ME->isImplicitAccess() ? nullptr : ME->getBase(),
4512e5dd7070Spatrick ME->isArrow(), ME->getQualifier(), nullptr,
4513e5dd7070Spatrick ME->getMemberName(),
4514e5dd7070Spatrick ME->getTemplateArgs(), ME->getNumTemplateArgs(),
4515e5dd7070Spatrick Arity);
4516e5dd7070Spatrick break;
4517e5dd7070Spatrick }
4518e5dd7070Spatrick
4519e5dd7070Spatrick case Expr::CXXDependentScopeMemberExprClass: {
4520a9ac8606Spatrick NotPrimaryExpr();
4521e5dd7070Spatrick const CXXDependentScopeMemberExpr *ME
4522e5dd7070Spatrick = cast<CXXDependentScopeMemberExpr>(E);
4523e5dd7070Spatrick mangleMemberExpr(ME->isImplicitAccess() ? nullptr : ME->getBase(),
4524e5dd7070Spatrick ME->isArrow(), ME->getQualifier(),
4525e5dd7070Spatrick ME->getFirstQualifierFoundInScope(),
4526e5dd7070Spatrick ME->getMember(),
4527e5dd7070Spatrick ME->getTemplateArgs(), ME->getNumTemplateArgs(),
4528e5dd7070Spatrick Arity);
4529e5dd7070Spatrick break;
4530e5dd7070Spatrick }
4531e5dd7070Spatrick
4532e5dd7070Spatrick case Expr::UnresolvedLookupExprClass: {
4533a9ac8606Spatrick NotPrimaryExpr();
4534e5dd7070Spatrick const UnresolvedLookupExpr *ULE = cast<UnresolvedLookupExpr>(E);
4535e5dd7070Spatrick mangleUnresolvedName(ULE->getQualifier(), ULE->getName(),
4536e5dd7070Spatrick ULE->getTemplateArgs(), ULE->getNumTemplateArgs(),
4537e5dd7070Spatrick Arity);
4538e5dd7070Spatrick break;
4539e5dd7070Spatrick }
4540e5dd7070Spatrick
4541e5dd7070Spatrick case Expr::CXXUnresolvedConstructExprClass: {
4542a9ac8606Spatrick NotPrimaryExpr();
4543e5dd7070Spatrick const CXXUnresolvedConstructExpr *CE = cast<CXXUnresolvedConstructExpr>(E);
4544a9ac8606Spatrick unsigned N = CE->getNumArgs();
4545e5dd7070Spatrick
4546e5dd7070Spatrick if (CE->isListInitialization()) {
4547e5dd7070Spatrick assert(N == 1 && "unexpected form for list initialization");
4548e5dd7070Spatrick auto *IL = cast<InitListExpr>(CE->getArg(0));
4549e5dd7070Spatrick Out << "tl";
4550e5dd7070Spatrick mangleType(CE->getType());
4551e5dd7070Spatrick mangleInitListElements(IL);
4552e5dd7070Spatrick Out << "E";
4553a9ac8606Spatrick break;
4554e5dd7070Spatrick }
4555e5dd7070Spatrick
4556e5dd7070Spatrick Out << "cv";
4557e5dd7070Spatrick mangleType(CE->getType());
4558e5dd7070Spatrick if (N != 1) Out << '_';
4559e5dd7070Spatrick for (unsigned I = 0; I != N; ++I) mangleExpression(CE->getArg(I));
4560e5dd7070Spatrick if (N != 1) Out << 'E';
4561e5dd7070Spatrick break;
4562e5dd7070Spatrick }
4563e5dd7070Spatrick
4564e5dd7070Spatrick case Expr::CXXConstructExprClass: {
4565a9ac8606Spatrick // An implicit cast is silent, thus may contain <expr-primary>.
4566e5dd7070Spatrick const auto *CE = cast<CXXConstructExpr>(E);
4567e5dd7070Spatrick if (!CE->isListInitialization() || CE->isStdInitListInitialization()) {
4568e5dd7070Spatrick assert(
4569e5dd7070Spatrick CE->getNumArgs() >= 1 &&
4570e5dd7070Spatrick (CE->getNumArgs() == 1 || isa<CXXDefaultArgExpr>(CE->getArg(1))) &&
4571e5dd7070Spatrick "implicit CXXConstructExpr must have one argument");
4572a9ac8606Spatrick E = cast<CXXConstructExpr>(E)->getArg(0);
4573a9ac8606Spatrick goto recurse;
4574e5dd7070Spatrick }
4575a9ac8606Spatrick NotPrimaryExpr();
4576e5dd7070Spatrick Out << "il";
4577e5dd7070Spatrick for (auto *E : CE->arguments())
4578e5dd7070Spatrick mangleExpression(E);
4579e5dd7070Spatrick Out << "E";
4580e5dd7070Spatrick break;
4581e5dd7070Spatrick }
4582e5dd7070Spatrick
4583e5dd7070Spatrick case Expr::CXXTemporaryObjectExprClass: {
4584a9ac8606Spatrick NotPrimaryExpr();
4585e5dd7070Spatrick const auto *CE = cast<CXXTemporaryObjectExpr>(E);
4586e5dd7070Spatrick unsigned N = CE->getNumArgs();
4587e5dd7070Spatrick bool List = CE->isListInitialization();
4588e5dd7070Spatrick
4589e5dd7070Spatrick if (List)
4590e5dd7070Spatrick Out << "tl";
4591e5dd7070Spatrick else
4592e5dd7070Spatrick Out << "cv";
4593e5dd7070Spatrick mangleType(CE->getType());
4594e5dd7070Spatrick if (!List && N != 1)
4595e5dd7070Spatrick Out << '_';
4596e5dd7070Spatrick if (CE->isStdInitListInitialization()) {
4597e5dd7070Spatrick // We implicitly created a std::initializer_list<T> for the first argument
4598e5dd7070Spatrick // of a constructor of type U in an expression of the form U{a, b, c}.
4599e5dd7070Spatrick // Strip all the semantic gunk off the initializer list.
4600e5dd7070Spatrick auto *SILE =
4601e5dd7070Spatrick cast<CXXStdInitializerListExpr>(CE->getArg(0)->IgnoreImplicit());
4602e5dd7070Spatrick auto *ILE = cast<InitListExpr>(SILE->getSubExpr()->IgnoreImplicit());
4603e5dd7070Spatrick mangleInitListElements(ILE);
4604e5dd7070Spatrick } else {
4605e5dd7070Spatrick for (auto *E : CE->arguments())
4606e5dd7070Spatrick mangleExpression(E);
4607e5dd7070Spatrick }
4608e5dd7070Spatrick if (List || N != 1)
4609e5dd7070Spatrick Out << 'E';
4610e5dd7070Spatrick break;
4611e5dd7070Spatrick }
4612e5dd7070Spatrick
4613e5dd7070Spatrick case Expr::CXXScalarValueInitExprClass:
4614a9ac8606Spatrick NotPrimaryExpr();
4615e5dd7070Spatrick Out << "cv";
4616e5dd7070Spatrick mangleType(E->getType());
4617e5dd7070Spatrick Out << "_E";
4618e5dd7070Spatrick break;
4619e5dd7070Spatrick
4620e5dd7070Spatrick case Expr::CXXNoexceptExprClass:
4621a9ac8606Spatrick NotPrimaryExpr();
4622e5dd7070Spatrick Out << "nx";
4623e5dd7070Spatrick mangleExpression(cast<CXXNoexceptExpr>(E)->getOperand());
4624e5dd7070Spatrick break;
4625e5dd7070Spatrick
4626e5dd7070Spatrick case Expr::UnaryExprOrTypeTraitExprClass: {
4627a9ac8606Spatrick // Non-instantiation-dependent traits are an <expr-primary> integer literal.
4628e5dd7070Spatrick const UnaryExprOrTypeTraitExpr *SAE = cast<UnaryExprOrTypeTraitExpr>(E);
4629e5dd7070Spatrick
4630e5dd7070Spatrick if (!SAE->isInstantiationDependent()) {
4631e5dd7070Spatrick // Itanium C++ ABI:
4632e5dd7070Spatrick // If the operand of a sizeof or alignof operator is not
4633e5dd7070Spatrick // instantiation-dependent it is encoded as an integer literal
4634e5dd7070Spatrick // reflecting the result of the operator.
4635e5dd7070Spatrick //
4636e5dd7070Spatrick // If the result of the operator is implicitly converted to a known
4637e5dd7070Spatrick // integer type, that type is used for the literal; otherwise, the type
4638e5dd7070Spatrick // of std::size_t or std::ptrdiff_t is used.
4639e5dd7070Spatrick QualType T = (ImplicitlyConvertedToType.isNull() ||
4640e5dd7070Spatrick !ImplicitlyConvertedToType->isIntegerType())? SAE->getType()
4641e5dd7070Spatrick : ImplicitlyConvertedToType;
4642e5dd7070Spatrick llvm::APSInt V = SAE->EvaluateKnownConstInt(Context.getASTContext());
4643e5dd7070Spatrick mangleIntegerLiteral(T, V);
4644e5dd7070Spatrick break;
4645e5dd7070Spatrick }
4646e5dd7070Spatrick
4647a9ac8606Spatrick NotPrimaryExpr(); // But otherwise, they are not.
4648a9ac8606Spatrick
4649a9ac8606Spatrick auto MangleAlignofSizeofArg = [&] {
4650a9ac8606Spatrick if (SAE->isArgumentType()) {
4651a9ac8606Spatrick Out << 't';
4652a9ac8606Spatrick mangleType(SAE->getArgumentType());
4653a9ac8606Spatrick } else {
4654a9ac8606Spatrick Out << 'z';
4655a9ac8606Spatrick mangleExpression(SAE->getArgumentExpr());
4656a9ac8606Spatrick }
4657a9ac8606Spatrick };
4658a9ac8606Spatrick
4659e5dd7070Spatrick switch(SAE->getKind()) {
4660e5dd7070Spatrick case UETT_SizeOf:
4661e5dd7070Spatrick Out << 's';
4662a9ac8606Spatrick MangleAlignofSizeofArg();
4663e5dd7070Spatrick break;
4664e5dd7070Spatrick case UETT_PreferredAlignOf:
4665a9ac8606Spatrick // As of clang 12, we mangle __alignof__ differently than alignof. (They
4666a9ac8606Spatrick // have acted differently since Clang 8, but were previously mangled the
4667a9ac8606Spatrick // same.)
4668a9ac8606Spatrick if (Context.getASTContext().getLangOpts().getClangABICompat() >
4669a9ac8606Spatrick LangOptions::ClangABI::Ver11) {
4670a9ac8606Spatrick Out << "u11__alignof__";
4671a9ac8606Spatrick if (SAE->isArgumentType())
4672a9ac8606Spatrick mangleType(SAE->getArgumentType());
4673a9ac8606Spatrick else
4674a9ac8606Spatrick mangleTemplateArgExpr(SAE->getArgumentExpr());
4675a9ac8606Spatrick Out << 'E';
4676a9ac8606Spatrick break;
4677a9ac8606Spatrick }
4678*12c85518Srobert [[fallthrough]];
4679e5dd7070Spatrick case UETT_AlignOf:
4680e5dd7070Spatrick Out << 'a';
4681a9ac8606Spatrick MangleAlignofSizeofArg();
4682e5dd7070Spatrick break;
4683e5dd7070Spatrick case UETT_VecStep: {
4684e5dd7070Spatrick DiagnosticsEngine &Diags = Context.getDiags();
4685e5dd7070Spatrick unsigned DiagID = Diags.getCustomDiagID(DiagnosticsEngine::Error,
4686e5dd7070Spatrick "cannot yet mangle vec_step expression");
4687e5dd7070Spatrick Diags.Report(DiagID);
4688e5dd7070Spatrick return;
4689e5dd7070Spatrick }
4690e5dd7070Spatrick case UETT_OpenMPRequiredSimdAlign: {
4691e5dd7070Spatrick DiagnosticsEngine &Diags = Context.getDiags();
4692e5dd7070Spatrick unsigned DiagID = Diags.getCustomDiagID(
4693e5dd7070Spatrick DiagnosticsEngine::Error,
4694e5dd7070Spatrick "cannot yet mangle __builtin_omp_required_simd_align expression");
4695e5dd7070Spatrick Diags.Report(DiagID);
4696e5dd7070Spatrick return;
4697e5dd7070Spatrick }
4698e5dd7070Spatrick }
4699e5dd7070Spatrick break;
4700e5dd7070Spatrick }
4701e5dd7070Spatrick
4702e5dd7070Spatrick case Expr::CXXThrowExprClass: {
4703a9ac8606Spatrick NotPrimaryExpr();
4704e5dd7070Spatrick const CXXThrowExpr *TE = cast<CXXThrowExpr>(E);
4705e5dd7070Spatrick // <expression> ::= tw <expression> # throw expression
4706e5dd7070Spatrick // ::= tr # rethrow
4707e5dd7070Spatrick if (TE->getSubExpr()) {
4708e5dd7070Spatrick Out << "tw";
4709e5dd7070Spatrick mangleExpression(TE->getSubExpr());
4710e5dd7070Spatrick } else {
4711e5dd7070Spatrick Out << "tr";
4712e5dd7070Spatrick }
4713e5dd7070Spatrick break;
4714e5dd7070Spatrick }
4715e5dd7070Spatrick
4716e5dd7070Spatrick case Expr::CXXTypeidExprClass: {
4717a9ac8606Spatrick NotPrimaryExpr();
4718e5dd7070Spatrick const CXXTypeidExpr *TIE = cast<CXXTypeidExpr>(E);
4719e5dd7070Spatrick // <expression> ::= ti <type> # typeid (type)
4720e5dd7070Spatrick // ::= te <expression> # typeid (expression)
4721e5dd7070Spatrick if (TIE->isTypeOperand()) {
4722e5dd7070Spatrick Out << "ti";
4723e5dd7070Spatrick mangleType(TIE->getTypeOperand(Context.getASTContext()));
4724e5dd7070Spatrick } else {
4725e5dd7070Spatrick Out << "te";
4726e5dd7070Spatrick mangleExpression(TIE->getExprOperand());
4727e5dd7070Spatrick }
4728e5dd7070Spatrick break;
4729e5dd7070Spatrick }
4730e5dd7070Spatrick
4731e5dd7070Spatrick case Expr::CXXDeleteExprClass: {
4732a9ac8606Spatrick NotPrimaryExpr();
4733e5dd7070Spatrick const CXXDeleteExpr *DE = cast<CXXDeleteExpr>(E);
4734e5dd7070Spatrick // <expression> ::= [gs] dl <expression> # [::] delete expr
4735e5dd7070Spatrick // ::= [gs] da <expression> # [::] delete [] expr
4736e5dd7070Spatrick if (DE->isGlobalDelete()) Out << "gs";
4737e5dd7070Spatrick Out << (DE->isArrayForm() ? "da" : "dl");
4738e5dd7070Spatrick mangleExpression(DE->getArgument());
4739e5dd7070Spatrick break;
4740e5dd7070Spatrick }
4741e5dd7070Spatrick
4742e5dd7070Spatrick case Expr::UnaryOperatorClass: {
4743a9ac8606Spatrick NotPrimaryExpr();
4744e5dd7070Spatrick const UnaryOperator *UO = cast<UnaryOperator>(E);
4745e5dd7070Spatrick mangleOperatorName(UnaryOperator::getOverloadedOperator(UO->getOpcode()),
4746e5dd7070Spatrick /*Arity=*/1);
4747e5dd7070Spatrick mangleExpression(UO->getSubExpr());
4748e5dd7070Spatrick break;
4749e5dd7070Spatrick }
4750e5dd7070Spatrick
4751e5dd7070Spatrick case Expr::ArraySubscriptExprClass: {
4752a9ac8606Spatrick NotPrimaryExpr();
4753e5dd7070Spatrick const ArraySubscriptExpr *AE = cast<ArraySubscriptExpr>(E);
4754e5dd7070Spatrick
4755e5dd7070Spatrick // Array subscript is treated as a syntactically weird form of
4756e5dd7070Spatrick // binary operator.
4757e5dd7070Spatrick Out << "ix";
4758e5dd7070Spatrick mangleExpression(AE->getLHS());
4759e5dd7070Spatrick mangleExpression(AE->getRHS());
4760e5dd7070Spatrick break;
4761e5dd7070Spatrick }
4762e5dd7070Spatrick
4763ec727ea7Spatrick case Expr::MatrixSubscriptExprClass: {
4764a9ac8606Spatrick NotPrimaryExpr();
4765ec727ea7Spatrick const MatrixSubscriptExpr *ME = cast<MatrixSubscriptExpr>(E);
4766ec727ea7Spatrick Out << "ixix";
4767ec727ea7Spatrick mangleExpression(ME->getBase());
4768ec727ea7Spatrick mangleExpression(ME->getRowIdx());
4769ec727ea7Spatrick mangleExpression(ME->getColumnIdx());
4770ec727ea7Spatrick break;
4771ec727ea7Spatrick }
4772ec727ea7Spatrick
4773e5dd7070Spatrick case Expr::CompoundAssignOperatorClass: // fallthrough
4774e5dd7070Spatrick case Expr::BinaryOperatorClass: {
4775a9ac8606Spatrick NotPrimaryExpr();
4776e5dd7070Spatrick const BinaryOperator *BO = cast<BinaryOperator>(E);
4777e5dd7070Spatrick if (BO->getOpcode() == BO_PtrMemD)
4778e5dd7070Spatrick Out << "ds";
4779e5dd7070Spatrick else
4780e5dd7070Spatrick mangleOperatorName(BinaryOperator::getOverloadedOperator(BO->getOpcode()),
4781e5dd7070Spatrick /*Arity=*/2);
4782e5dd7070Spatrick mangleExpression(BO->getLHS());
4783e5dd7070Spatrick mangleExpression(BO->getRHS());
4784e5dd7070Spatrick break;
4785e5dd7070Spatrick }
4786e5dd7070Spatrick
4787e5dd7070Spatrick case Expr::CXXRewrittenBinaryOperatorClass: {
4788a9ac8606Spatrick NotPrimaryExpr();
4789e5dd7070Spatrick // The mangled form represents the original syntax.
4790e5dd7070Spatrick CXXRewrittenBinaryOperator::DecomposedForm Decomposed =
4791e5dd7070Spatrick cast<CXXRewrittenBinaryOperator>(E)->getDecomposedForm();
4792e5dd7070Spatrick mangleOperatorName(BinaryOperator::getOverloadedOperator(Decomposed.Opcode),
4793e5dd7070Spatrick /*Arity=*/2);
4794e5dd7070Spatrick mangleExpression(Decomposed.LHS);
4795e5dd7070Spatrick mangleExpression(Decomposed.RHS);
4796e5dd7070Spatrick break;
4797e5dd7070Spatrick }
4798e5dd7070Spatrick
4799e5dd7070Spatrick case Expr::ConditionalOperatorClass: {
4800a9ac8606Spatrick NotPrimaryExpr();
4801e5dd7070Spatrick const ConditionalOperator *CO = cast<ConditionalOperator>(E);
4802e5dd7070Spatrick mangleOperatorName(OO_Conditional, /*Arity=*/3);
4803e5dd7070Spatrick mangleExpression(CO->getCond());
4804e5dd7070Spatrick mangleExpression(CO->getLHS(), Arity);
4805e5dd7070Spatrick mangleExpression(CO->getRHS(), Arity);
4806e5dd7070Spatrick break;
4807e5dd7070Spatrick }
4808e5dd7070Spatrick
4809e5dd7070Spatrick case Expr::ImplicitCastExprClass: {
4810e5dd7070Spatrick ImplicitlyConvertedToType = E->getType();
4811e5dd7070Spatrick E = cast<ImplicitCastExpr>(E)->getSubExpr();
4812e5dd7070Spatrick goto recurse;
4813e5dd7070Spatrick }
4814e5dd7070Spatrick
4815e5dd7070Spatrick case Expr::ObjCBridgedCastExprClass: {
4816a9ac8606Spatrick NotPrimaryExpr();
4817e5dd7070Spatrick // Mangle ownership casts as a vendor extended operator __bridge,
4818e5dd7070Spatrick // __bridge_transfer, or __bridge_retain.
4819e5dd7070Spatrick StringRef Kind = cast<ObjCBridgedCastExpr>(E)->getBridgeKindName();
4820e5dd7070Spatrick Out << "v1U" << Kind.size() << Kind;
4821a9ac8606Spatrick mangleCastExpression(E, "cv");
4822a9ac8606Spatrick break;
4823e5dd7070Spatrick }
4824e5dd7070Spatrick
4825e5dd7070Spatrick case Expr::CStyleCastExprClass:
4826a9ac8606Spatrick NotPrimaryExpr();
4827e5dd7070Spatrick mangleCastExpression(E, "cv");
4828e5dd7070Spatrick break;
4829e5dd7070Spatrick
4830e5dd7070Spatrick case Expr::CXXFunctionalCastExprClass: {
4831a9ac8606Spatrick NotPrimaryExpr();
4832e5dd7070Spatrick auto *Sub = cast<ExplicitCastExpr>(E)->getSubExpr()->IgnoreImplicit();
4833e5dd7070Spatrick // FIXME: Add isImplicit to CXXConstructExpr.
4834e5dd7070Spatrick if (auto *CCE = dyn_cast<CXXConstructExpr>(Sub))
4835e5dd7070Spatrick if (CCE->getParenOrBraceRange().isInvalid())
4836e5dd7070Spatrick Sub = CCE->getArg(0)->IgnoreImplicit();
4837e5dd7070Spatrick if (auto *StdInitList = dyn_cast<CXXStdInitializerListExpr>(Sub))
4838e5dd7070Spatrick Sub = StdInitList->getSubExpr()->IgnoreImplicit();
4839e5dd7070Spatrick if (auto *IL = dyn_cast<InitListExpr>(Sub)) {
4840e5dd7070Spatrick Out << "tl";
4841e5dd7070Spatrick mangleType(E->getType());
4842e5dd7070Spatrick mangleInitListElements(IL);
4843e5dd7070Spatrick Out << "E";
4844e5dd7070Spatrick } else {
4845e5dd7070Spatrick mangleCastExpression(E, "cv");
4846e5dd7070Spatrick }
4847e5dd7070Spatrick break;
4848e5dd7070Spatrick }
4849e5dd7070Spatrick
4850e5dd7070Spatrick case Expr::CXXStaticCastExprClass:
4851a9ac8606Spatrick NotPrimaryExpr();
4852e5dd7070Spatrick mangleCastExpression(E, "sc");
4853e5dd7070Spatrick break;
4854e5dd7070Spatrick case Expr::CXXDynamicCastExprClass:
4855a9ac8606Spatrick NotPrimaryExpr();
4856e5dd7070Spatrick mangleCastExpression(E, "dc");
4857e5dd7070Spatrick break;
4858e5dd7070Spatrick case Expr::CXXReinterpretCastExprClass:
4859a9ac8606Spatrick NotPrimaryExpr();
4860e5dd7070Spatrick mangleCastExpression(E, "rc");
4861e5dd7070Spatrick break;
4862e5dd7070Spatrick case Expr::CXXConstCastExprClass:
4863a9ac8606Spatrick NotPrimaryExpr();
4864e5dd7070Spatrick mangleCastExpression(E, "cc");
4865e5dd7070Spatrick break;
4866ec727ea7Spatrick case Expr::CXXAddrspaceCastExprClass:
4867a9ac8606Spatrick NotPrimaryExpr();
4868ec727ea7Spatrick mangleCastExpression(E, "ac");
4869ec727ea7Spatrick break;
4870e5dd7070Spatrick
4871e5dd7070Spatrick case Expr::CXXOperatorCallExprClass: {
4872a9ac8606Spatrick NotPrimaryExpr();
4873e5dd7070Spatrick const CXXOperatorCallExpr *CE = cast<CXXOperatorCallExpr>(E);
4874e5dd7070Spatrick unsigned NumArgs = CE->getNumArgs();
4875e5dd7070Spatrick // A CXXOperatorCallExpr for OO_Arrow models only semantics, not syntax
4876e5dd7070Spatrick // (the enclosing MemberExpr covers the syntactic portion).
4877e5dd7070Spatrick if (CE->getOperator() != OO_Arrow)
4878e5dd7070Spatrick mangleOperatorName(CE->getOperator(), /*Arity=*/NumArgs);
4879e5dd7070Spatrick // Mangle the arguments.
4880e5dd7070Spatrick for (unsigned i = 0; i != NumArgs; ++i)
4881e5dd7070Spatrick mangleExpression(CE->getArg(i));
4882e5dd7070Spatrick break;
4883e5dd7070Spatrick }
4884e5dd7070Spatrick
4885e5dd7070Spatrick case Expr::ParenExprClass:
4886a9ac8606Spatrick E = cast<ParenExpr>(E)->getSubExpr();
4887a9ac8606Spatrick goto recurse;
4888e5dd7070Spatrick
4889e5dd7070Spatrick case Expr::ConceptSpecializationExprClass: {
4890e5dd7070Spatrick // <expr-primary> ::= L <mangled-name> E # external name
4891e5dd7070Spatrick Out << "L_Z";
4892e5dd7070Spatrick auto *CSE = cast<ConceptSpecializationExpr>(E);
4893*12c85518Srobert mangleTemplateName(CSE->getNamedConcept(), CSE->getTemplateArguments());
4894e5dd7070Spatrick Out << 'E';
4895e5dd7070Spatrick break;
4896e5dd7070Spatrick }
4897e5dd7070Spatrick
4898e5dd7070Spatrick case Expr::DeclRefExprClass:
4899a9ac8606Spatrick // MangleDeclRefExpr helper handles primary-vs-nonprimary
4900a9ac8606Spatrick MangleDeclRefExpr(cast<DeclRefExpr>(E)->getDecl());
4901e5dd7070Spatrick break;
4902e5dd7070Spatrick
4903e5dd7070Spatrick case Expr::SubstNonTypeTemplateParmPackExprClass:
4904a9ac8606Spatrick NotPrimaryExpr();
4905e5dd7070Spatrick // FIXME: not clear how to mangle this!
4906e5dd7070Spatrick // template <unsigned N...> class A {
4907e5dd7070Spatrick // template <class U...> void foo(U (&x)[N]...);
4908e5dd7070Spatrick // };
4909e5dd7070Spatrick Out << "_SUBSTPACK_";
4910e5dd7070Spatrick break;
4911e5dd7070Spatrick
4912e5dd7070Spatrick case Expr::FunctionParmPackExprClass: {
4913a9ac8606Spatrick NotPrimaryExpr();
4914e5dd7070Spatrick // FIXME: not clear how to mangle this!
4915e5dd7070Spatrick const FunctionParmPackExpr *FPPE = cast<FunctionParmPackExpr>(E);
4916e5dd7070Spatrick Out << "v110_SUBSTPACK";
4917a9ac8606Spatrick MangleDeclRefExpr(FPPE->getParameterPack());
4918e5dd7070Spatrick break;
4919e5dd7070Spatrick }
4920e5dd7070Spatrick
4921e5dd7070Spatrick case Expr::DependentScopeDeclRefExprClass: {
4922a9ac8606Spatrick NotPrimaryExpr();
4923e5dd7070Spatrick const DependentScopeDeclRefExpr *DRE = cast<DependentScopeDeclRefExpr>(E);
4924e5dd7070Spatrick mangleUnresolvedName(DRE->getQualifier(), DRE->getDeclName(),
4925e5dd7070Spatrick DRE->getTemplateArgs(), DRE->getNumTemplateArgs(),
4926e5dd7070Spatrick Arity);
4927e5dd7070Spatrick break;
4928e5dd7070Spatrick }
4929e5dd7070Spatrick
4930e5dd7070Spatrick case Expr::CXXBindTemporaryExprClass:
4931a9ac8606Spatrick E = cast<CXXBindTemporaryExpr>(E)->getSubExpr();
4932a9ac8606Spatrick goto recurse;
4933e5dd7070Spatrick
4934e5dd7070Spatrick case Expr::ExprWithCleanupsClass:
4935a9ac8606Spatrick E = cast<ExprWithCleanups>(E)->getSubExpr();
4936a9ac8606Spatrick goto recurse;
4937e5dd7070Spatrick
4938e5dd7070Spatrick case Expr::FloatingLiteralClass: {
4939a9ac8606Spatrick // <expr-primary>
4940e5dd7070Spatrick const FloatingLiteral *FL = cast<FloatingLiteral>(E);
4941a9ac8606Spatrick mangleFloatLiteral(FL->getType(), FL->getValue());
4942e5dd7070Spatrick break;
4943e5dd7070Spatrick }
4944e5dd7070Spatrick
4945a9ac8606Spatrick case Expr::FixedPointLiteralClass:
4946a9ac8606Spatrick // Currently unimplemented -- might be <expr-primary> in future?
4947a9ac8606Spatrick mangleFixedPointLiteral();
4948a9ac8606Spatrick break;
4949a9ac8606Spatrick
4950e5dd7070Spatrick case Expr::CharacterLiteralClass:
4951a9ac8606Spatrick // <expr-primary>
4952e5dd7070Spatrick Out << 'L';
4953e5dd7070Spatrick mangleType(E->getType());
4954e5dd7070Spatrick Out << cast<CharacterLiteral>(E)->getValue();
4955e5dd7070Spatrick Out << 'E';
4956e5dd7070Spatrick break;
4957e5dd7070Spatrick
4958e5dd7070Spatrick // FIXME. __objc_yes/__objc_no are mangled same as true/false
4959e5dd7070Spatrick case Expr::ObjCBoolLiteralExprClass:
4960a9ac8606Spatrick // <expr-primary>
4961e5dd7070Spatrick Out << "Lb";
4962e5dd7070Spatrick Out << (cast<ObjCBoolLiteralExpr>(E)->getValue() ? '1' : '0');
4963e5dd7070Spatrick Out << 'E';
4964e5dd7070Spatrick break;
4965e5dd7070Spatrick
4966e5dd7070Spatrick case Expr::CXXBoolLiteralExprClass:
4967a9ac8606Spatrick // <expr-primary>
4968e5dd7070Spatrick Out << "Lb";
4969e5dd7070Spatrick Out << (cast<CXXBoolLiteralExpr>(E)->getValue() ? '1' : '0');
4970e5dd7070Spatrick Out << 'E';
4971e5dd7070Spatrick break;
4972e5dd7070Spatrick
4973e5dd7070Spatrick case Expr::IntegerLiteralClass: {
4974a9ac8606Spatrick // <expr-primary>
4975e5dd7070Spatrick llvm::APSInt Value(cast<IntegerLiteral>(E)->getValue());
4976e5dd7070Spatrick if (E->getType()->isSignedIntegerType())
4977e5dd7070Spatrick Value.setIsSigned(true);
4978e5dd7070Spatrick mangleIntegerLiteral(E->getType(), Value);
4979e5dd7070Spatrick break;
4980e5dd7070Spatrick }
4981e5dd7070Spatrick
4982e5dd7070Spatrick case Expr::ImaginaryLiteralClass: {
4983a9ac8606Spatrick // <expr-primary>
4984e5dd7070Spatrick const ImaginaryLiteral *IE = cast<ImaginaryLiteral>(E);
4985e5dd7070Spatrick // Mangle as if a complex literal.
4986e5dd7070Spatrick // Proposal from David Vandevoorde, 2010.06.30.
4987e5dd7070Spatrick Out << 'L';
4988e5dd7070Spatrick mangleType(E->getType());
4989e5dd7070Spatrick if (const FloatingLiteral *Imag =
4990e5dd7070Spatrick dyn_cast<FloatingLiteral>(IE->getSubExpr())) {
4991e5dd7070Spatrick // Mangle a floating-point zero of the appropriate type.
4992e5dd7070Spatrick mangleFloat(llvm::APFloat(Imag->getValue().getSemantics()));
4993e5dd7070Spatrick Out << '_';
4994e5dd7070Spatrick mangleFloat(Imag->getValue());
4995e5dd7070Spatrick } else {
4996e5dd7070Spatrick Out << "0_";
4997e5dd7070Spatrick llvm::APSInt Value(cast<IntegerLiteral>(IE->getSubExpr())->getValue());
4998e5dd7070Spatrick if (IE->getSubExpr()->getType()->isSignedIntegerType())
4999e5dd7070Spatrick Value.setIsSigned(true);
5000e5dd7070Spatrick mangleNumber(Value);
5001e5dd7070Spatrick }
5002e5dd7070Spatrick Out << 'E';
5003e5dd7070Spatrick break;
5004e5dd7070Spatrick }
5005e5dd7070Spatrick
5006e5dd7070Spatrick case Expr::StringLiteralClass: {
5007a9ac8606Spatrick // <expr-primary>
5008e5dd7070Spatrick // Revised proposal from David Vandervoorde, 2010.07.15.
5009e5dd7070Spatrick Out << 'L';
5010e5dd7070Spatrick assert(isa<ConstantArrayType>(E->getType()));
5011e5dd7070Spatrick mangleType(E->getType());
5012e5dd7070Spatrick Out << 'E';
5013e5dd7070Spatrick break;
5014e5dd7070Spatrick }
5015e5dd7070Spatrick
5016e5dd7070Spatrick case Expr::GNUNullExprClass:
5017a9ac8606Spatrick // <expr-primary>
5018e5dd7070Spatrick // Mangle as if an integer literal 0.
5019a9ac8606Spatrick mangleIntegerLiteral(E->getType(), llvm::APSInt(32));
5020e5dd7070Spatrick break;
5021e5dd7070Spatrick
5022e5dd7070Spatrick case Expr::CXXNullPtrLiteralExprClass: {
5023a9ac8606Spatrick // <expr-primary>
5024e5dd7070Spatrick Out << "LDnE";
5025e5dd7070Spatrick break;
5026e5dd7070Spatrick }
5027e5dd7070Spatrick
5028*12c85518Srobert case Expr::LambdaExprClass: {
5029*12c85518Srobert // A lambda-expression can't appear in the signature of an
5030*12c85518Srobert // externally-visible declaration, so there's no standard mangling for
5031*12c85518Srobert // this, but mangling as a literal of the closure type seems reasonable.
5032*12c85518Srobert Out << "L";
5033*12c85518Srobert mangleType(Context.getASTContext().getRecordType(cast<LambdaExpr>(E)->getLambdaClass()));
5034*12c85518Srobert Out << "E";
5035*12c85518Srobert break;
5036*12c85518Srobert }
5037*12c85518Srobert
5038e5dd7070Spatrick case Expr::PackExpansionExprClass:
5039a9ac8606Spatrick NotPrimaryExpr();
5040e5dd7070Spatrick Out << "sp";
5041e5dd7070Spatrick mangleExpression(cast<PackExpansionExpr>(E)->getPattern());
5042e5dd7070Spatrick break;
5043e5dd7070Spatrick
5044e5dd7070Spatrick case Expr::SizeOfPackExprClass: {
5045a9ac8606Spatrick NotPrimaryExpr();
5046e5dd7070Spatrick auto *SPE = cast<SizeOfPackExpr>(E);
5047e5dd7070Spatrick if (SPE->isPartiallySubstituted()) {
5048e5dd7070Spatrick Out << "sP";
5049e5dd7070Spatrick for (const auto &A : SPE->getPartialArguments())
5050a9ac8606Spatrick mangleTemplateArg(A, false);
5051e5dd7070Spatrick Out << "E";
5052e5dd7070Spatrick break;
5053e5dd7070Spatrick }
5054e5dd7070Spatrick
5055e5dd7070Spatrick Out << "sZ";
5056e5dd7070Spatrick const NamedDecl *Pack = SPE->getPack();
5057e5dd7070Spatrick if (const TemplateTypeParmDecl *TTP = dyn_cast<TemplateTypeParmDecl>(Pack))
5058e5dd7070Spatrick mangleTemplateParameter(TTP->getDepth(), TTP->getIndex());
5059e5dd7070Spatrick else if (const NonTypeTemplateParmDecl *NTTP
5060e5dd7070Spatrick = dyn_cast<NonTypeTemplateParmDecl>(Pack))
5061e5dd7070Spatrick mangleTemplateParameter(NTTP->getDepth(), NTTP->getIndex());
5062e5dd7070Spatrick else if (const TemplateTemplateParmDecl *TempTP
5063e5dd7070Spatrick = dyn_cast<TemplateTemplateParmDecl>(Pack))
5064e5dd7070Spatrick mangleTemplateParameter(TempTP->getDepth(), TempTP->getIndex());
5065e5dd7070Spatrick else
5066e5dd7070Spatrick mangleFunctionParam(cast<ParmVarDecl>(Pack));
5067e5dd7070Spatrick break;
5068e5dd7070Spatrick }
5069e5dd7070Spatrick
5070a9ac8606Spatrick case Expr::MaterializeTemporaryExprClass:
5071a9ac8606Spatrick E = cast<MaterializeTemporaryExpr>(E)->getSubExpr();
5072a9ac8606Spatrick goto recurse;
5073e5dd7070Spatrick
5074e5dd7070Spatrick case Expr::CXXFoldExprClass: {
5075a9ac8606Spatrick NotPrimaryExpr();
5076e5dd7070Spatrick auto *FE = cast<CXXFoldExpr>(E);
5077e5dd7070Spatrick if (FE->isLeftFold())
5078e5dd7070Spatrick Out << (FE->getInit() ? "fL" : "fl");
5079e5dd7070Spatrick else
5080e5dd7070Spatrick Out << (FE->getInit() ? "fR" : "fr");
5081e5dd7070Spatrick
5082e5dd7070Spatrick if (FE->getOperator() == BO_PtrMemD)
5083e5dd7070Spatrick Out << "ds";
5084e5dd7070Spatrick else
5085e5dd7070Spatrick mangleOperatorName(
5086e5dd7070Spatrick BinaryOperator::getOverloadedOperator(FE->getOperator()),
5087e5dd7070Spatrick /*Arity=*/2);
5088e5dd7070Spatrick
5089e5dd7070Spatrick if (FE->getLHS())
5090e5dd7070Spatrick mangleExpression(FE->getLHS());
5091e5dd7070Spatrick if (FE->getRHS())
5092e5dd7070Spatrick mangleExpression(FE->getRHS());
5093e5dd7070Spatrick break;
5094e5dd7070Spatrick }
5095e5dd7070Spatrick
5096e5dd7070Spatrick case Expr::CXXThisExprClass:
5097a9ac8606Spatrick NotPrimaryExpr();
5098e5dd7070Spatrick Out << "fpT";
5099e5dd7070Spatrick break;
5100e5dd7070Spatrick
5101e5dd7070Spatrick case Expr::CoawaitExprClass:
5102e5dd7070Spatrick // FIXME: Propose a non-vendor mangling.
5103a9ac8606Spatrick NotPrimaryExpr();
5104e5dd7070Spatrick Out << "v18co_await";
5105e5dd7070Spatrick mangleExpression(cast<CoawaitExpr>(E)->getOperand());
5106e5dd7070Spatrick break;
5107e5dd7070Spatrick
5108e5dd7070Spatrick case Expr::DependentCoawaitExprClass:
5109e5dd7070Spatrick // FIXME: Propose a non-vendor mangling.
5110a9ac8606Spatrick NotPrimaryExpr();
5111e5dd7070Spatrick Out << "v18co_await";
5112e5dd7070Spatrick mangleExpression(cast<DependentCoawaitExpr>(E)->getOperand());
5113e5dd7070Spatrick break;
5114e5dd7070Spatrick
5115e5dd7070Spatrick case Expr::CoyieldExprClass:
5116e5dd7070Spatrick // FIXME: Propose a non-vendor mangling.
5117a9ac8606Spatrick NotPrimaryExpr();
5118e5dd7070Spatrick Out << "v18co_yield";
5119e5dd7070Spatrick mangleExpression(cast<CoawaitExpr>(E)->getOperand());
5120e5dd7070Spatrick break;
5121a9ac8606Spatrick case Expr::SYCLUniqueStableNameExprClass: {
5122a9ac8606Spatrick const auto *USN = cast<SYCLUniqueStableNameExpr>(E);
5123a9ac8606Spatrick NotPrimaryExpr();
5124a9ac8606Spatrick
5125a9ac8606Spatrick Out << "u33__builtin_sycl_unique_stable_name";
5126a9ac8606Spatrick mangleType(USN->getTypeSourceInfo()->getType());
5127a9ac8606Spatrick
5128a9ac8606Spatrick Out << "E";
5129a9ac8606Spatrick break;
5130e5dd7070Spatrick }
5131e5dd7070Spatrick }
5132e5dd7070Spatrick
5133a9ac8606Spatrick if (AsTemplateArg && !IsPrimaryExpr)
5134a9ac8606Spatrick Out << 'E';
5135a9ac8606Spatrick }
5136a9ac8606Spatrick
5137e5dd7070Spatrick /// Mangle an expression which refers to a parameter variable.
5138e5dd7070Spatrick ///
5139e5dd7070Spatrick /// <expression> ::= <function-param>
5140e5dd7070Spatrick /// <function-param> ::= fp <top-level CV-qualifiers> _ # L == 0, I == 0
5141e5dd7070Spatrick /// <function-param> ::= fp <top-level CV-qualifiers>
5142e5dd7070Spatrick /// <parameter-2 non-negative number> _ # L == 0, I > 0
5143e5dd7070Spatrick /// <function-param> ::= fL <L-1 non-negative number>
5144e5dd7070Spatrick /// p <top-level CV-qualifiers> _ # L > 0, I == 0
5145e5dd7070Spatrick /// <function-param> ::= fL <L-1 non-negative number>
5146e5dd7070Spatrick /// p <top-level CV-qualifiers>
5147e5dd7070Spatrick /// <I-1 non-negative number> _ # L > 0, I > 0
5148e5dd7070Spatrick ///
5149e5dd7070Spatrick /// L is the nesting depth of the parameter, defined as 1 if the
5150e5dd7070Spatrick /// parameter comes from the innermost function prototype scope
5151e5dd7070Spatrick /// enclosing the current context, 2 if from the next enclosing
5152e5dd7070Spatrick /// function prototype scope, and so on, with one special case: if
5153e5dd7070Spatrick /// we've processed the full parameter clause for the innermost
5154e5dd7070Spatrick /// function type, then L is one less. This definition conveniently
5155e5dd7070Spatrick /// makes it irrelevant whether a function's result type was written
5156e5dd7070Spatrick /// trailing or leading, but is otherwise overly complicated; the
5157e5dd7070Spatrick /// numbering was first designed without considering references to
5158e5dd7070Spatrick /// parameter in locations other than return types, and then the
5159e5dd7070Spatrick /// mangling had to be generalized without changing the existing
5160e5dd7070Spatrick /// manglings.
5161e5dd7070Spatrick ///
5162e5dd7070Spatrick /// I is the zero-based index of the parameter within its parameter
5163e5dd7070Spatrick /// declaration clause. Note that the original ABI document describes
5164e5dd7070Spatrick /// this using 1-based ordinals.
mangleFunctionParam(const ParmVarDecl * parm)5165e5dd7070Spatrick void CXXNameMangler::mangleFunctionParam(const ParmVarDecl *parm) {
5166e5dd7070Spatrick unsigned parmDepth = parm->getFunctionScopeDepth();
5167e5dd7070Spatrick unsigned parmIndex = parm->getFunctionScopeIndex();
5168e5dd7070Spatrick
5169e5dd7070Spatrick // Compute 'L'.
5170e5dd7070Spatrick // parmDepth does not include the declaring function prototype.
5171e5dd7070Spatrick // FunctionTypeDepth does account for that.
5172e5dd7070Spatrick assert(parmDepth < FunctionTypeDepth.getDepth());
5173e5dd7070Spatrick unsigned nestingDepth = FunctionTypeDepth.getDepth() - parmDepth;
5174e5dd7070Spatrick if (FunctionTypeDepth.isInResultType())
5175e5dd7070Spatrick nestingDepth--;
5176e5dd7070Spatrick
5177e5dd7070Spatrick if (nestingDepth == 0) {
5178e5dd7070Spatrick Out << "fp";
5179e5dd7070Spatrick } else {
5180e5dd7070Spatrick Out << "fL" << (nestingDepth - 1) << 'p';
5181e5dd7070Spatrick }
5182e5dd7070Spatrick
5183e5dd7070Spatrick // Top-level qualifiers. We don't have to worry about arrays here,
5184e5dd7070Spatrick // because parameters declared as arrays should already have been
5185e5dd7070Spatrick // transformed to have pointer type. FIXME: apparently these don't
5186e5dd7070Spatrick // get mangled if used as an rvalue of a known non-class type?
5187e5dd7070Spatrick assert(!parm->getType()->isArrayType()
5188e5dd7070Spatrick && "parameter's type is still an array type?");
5189e5dd7070Spatrick
5190e5dd7070Spatrick if (const DependentAddressSpaceType *DAST =
5191e5dd7070Spatrick dyn_cast<DependentAddressSpaceType>(parm->getType())) {
5192e5dd7070Spatrick mangleQualifiers(DAST->getPointeeType().getQualifiers(), DAST);
5193e5dd7070Spatrick } else {
5194e5dd7070Spatrick mangleQualifiers(parm->getType().getQualifiers());
5195e5dd7070Spatrick }
5196e5dd7070Spatrick
5197e5dd7070Spatrick // Parameter index.
5198e5dd7070Spatrick if (parmIndex != 0) {
5199e5dd7070Spatrick Out << (parmIndex - 1);
5200e5dd7070Spatrick }
5201e5dd7070Spatrick Out << '_';
5202e5dd7070Spatrick }
5203e5dd7070Spatrick
mangleCXXCtorType(CXXCtorType T,const CXXRecordDecl * InheritedFrom)5204e5dd7070Spatrick void CXXNameMangler::mangleCXXCtorType(CXXCtorType T,
5205e5dd7070Spatrick const CXXRecordDecl *InheritedFrom) {
5206e5dd7070Spatrick // <ctor-dtor-name> ::= C1 # complete object constructor
5207e5dd7070Spatrick // ::= C2 # base object constructor
5208e5dd7070Spatrick // ::= CI1 <type> # complete inheriting constructor
5209e5dd7070Spatrick // ::= CI2 <type> # base inheriting constructor
5210e5dd7070Spatrick //
5211e5dd7070Spatrick // In addition, C5 is a comdat name with C1 and C2 in it.
5212e5dd7070Spatrick Out << 'C';
5213e5dd7070Spatrick if (InheritedFrom)
5214e5dd7070Spatrick Out << 'I';
5215e5dd7070Spatrick switch (T) {
5216e5dd7070Spatrick case Ctor_Complete:
5217e5dd7070Spatrick Out << '1';
5218e5dd7070Spatrick break;
5219e5dd7070Spatrick case Ctor_Base:
5220e5dd7070Spatrick Out << '2';
5221e5dd7070Spatrick break;
5222e5dd7070Spatrick case Ctor_Comdat:
5223e5dd7070Spatrick Out << '5';
5224e5dd7070Spatrick break;
5225e5dd7070Spatrick case Ctor_DefaultClosure:
5226e5dd7070Spatrick case Ctor_CopyingClosure:
5227e5dd7070Spatrick llvm_unreachable("closure constructors don't exist for the Itanium ABI!");
5228e5dd7070Spatrick }
5229e5dd7070Spatrick if (InheritedFrom)
5230e5dd7070Spatrick mangleName(InheritedFrom);
5231e5dd7070Spatrick }
5232e5dd7070Spatrick
mangleCXXDtorType(CXXDtorType T)5233e5dd7070Spatrick void CXXNameMangler::mangleCXXDtorType(CXXDtorType T) {
5234e5dd7070Spatrick // <ctor-dtor-name> ::= D0 # deleting destructor
5235e5dd7070Spatrick // ::= D1 # complete object destructor
5236e5dd7070Spatrick // ::= D2 # base object destructor
5237e5dd7070Spatrick //
5238e5dd7070Spatrick // In addition, D5 is a comdat name with D1, D2 and, if virtual, D0 in it.
5239e5dd7070Spatrick switch (T) {
5240e5dd7070Spatrick case Dtor_Deleting:
5241e5dd7070Spatrick Out << "D0";
5242e5dd7070Spatrick break;
5243e5dd7070Spatrick case Dtor_Complete:
5244e5dd7070Spatrick Out << "D1";
5245e5dd7070Spatrick break;
5246e5dd7070Spatrick case Dtor_Base:
5247e5dd7070Spatrick Out << "D2";
5248e5dd7070Spatrick break;
5249e5dd7070Spatrick case Dtor_Comdat:
5250e5dd7070Spatrick Out << "D5";
5251e5dd7070Spatrick break;
5252e5dd7070Spatrick }
5253e5dd7070Spatrick }
5254e5dd7070Spatrick
5255a9ac8606Spatrick namespace {
5256a9ac8606Spatrick // Helper to provide ancillary information on a template used to mangle its
5257a9ac8606Spatrick // arguments.
5258a9ac8606Spatrick struct TemplateArgManglingInfo {
5259a9ac8606Spatrick TemplateDecl *ResolvedTemplate = nullptr;
5260a9ac8606Spatrick bool SeenPackExpansionIntoNonPack = false;
5261a9ac8606Spatrick const NamedDecl *UnresolvedExpandedPack = nullptr;
5262a9ac8606Spatrick
TemplateArgManglingInfo__anon7494c7930611::TemplateArgManglingInfo5263a9ac8606Spatrick TemplateArgManglingInfo(TemplateName TN) {
5264a9ac8606Spatrick if (TemplateDecl *TD = TN.getAsTemplateDecl())
5265a9ac8606Spatrick ResolvedTemplate = TD;
5266a9ac8606Spatrick }
5267a9ac8606Spatrick
5268a9ac8606Spatrick /// Do we need to mangle template arguments with exactly correct types?
5269a9ac8606Spatrick ///
5270a9ac8606Spatrick /// This should be called exactly once for each parameter / argument pair, in
5271a9ac8606Spatrick /// order.
needExactType__anon7494c7930611::TemplateArgManglingInfo5272a9ac8606Spatrick bool needExactType(unsigned ParamIdx, const TemplateArgument &Arg) {
5273a9ac8606Spatrick // We need correct types when the template-name is unresolved or when it
5274a9ac8606Spatrick // names a template that is able to be overloaded.
5275a9ac8606Spatrick if (!ResolvedTemplate || SeenPackExpansionIntoNonPack)
5276a9ac8606Spatrick return true;
5277a9ac8606Spatrick
5278a9ac8606Spatrick // Move to the next parameter.
5279a9ac8606Spatrick const NamedDecl *Param = UnresolvedExpandedPack;
5280a9ac8606Spatrick if (!Param) {
5281a9ac8606Spatrick assert(ParamIdx < ResolvedTemplate->getTemplateParameters()->size() &&
5282a9ac8606Spatrick "no parameter for argument");
5283a9ac8606Spatrick Param = ResolvedTemplate->getTemplateParameters()->getParam(ParamIdx);
5284a9ac8606Spatrick
5285a9ac8606Spatrick // If we reach an expanded parameter pack whose argument isn't in pack
5286a9ac8606Spatrick // form, that means Sema couldn't figure out which arguments belonged to
5287a9ac8606Spatrick // it, because it contains a pack expansion. Track the expanded pack for
5288a9ac8606Spatrick // all further template arguments until we hit that pack expansion.
5289a9ac8606Spatrick if (Param->isParameterPack() && Arg.getKind() != TemplateArgument::Pack) {
5290a9ac8606Spatrick assert(getExpandedPackSize(Param) &&
5291a9ac8606Spatrick "failed to form pack argument for parameter pack");
5292a9ac8606Spatrick UnresolvedExpandedPack = Param;
5293a9ac8606Spatrick }
5294a9ac8606Spatrick }
5295a9ac8606Spatrick
5296a9ac8606Spatrick // If we encounter a pack argument that is expanded into a non-pack
5297a9ac8606Spatrick // parameter, we can no longer track parameter / argument correspondence,
5298a9ac8606Spatrick // and need to use exact types from this point onwards.
5299a9ac8606Spatrick if (Arg.isPackExpansion() &&
5300a9ac8606Spatrick (!Param->isParameterPack() || UnresolvedExpandedPack)) {
5301a9ac8606Spatrick SeenPackExpansionIntoNonPack = true;
5302a9ac8606Spatrick return true;
5303a9ac8606Spatrick }
5304a9ac8606Spatrick
5305a9ac8606Spatrick // We need exact types for function template arguments because they might be
5306a9ac8606Spatrick // overloaded on template parameter type. As a special case, a member
5307a9ac8606Spatrick // function template of a generic lambda is not overloadable.
5308a9ac8606Spatrick if (auto *FTD = dyn_cast<FunctionTemplateDecl>(ResolvedTemplate)) {
5309a9ac8606Spatrick auto *RD = dyn_cast<CXXRecordDecl>(FTD->getDeclContext());
5310a9ac8606Spatrick if (!RD || !RD->isGenericLambda())
5311a9ac8606Spatrick return true;
5312a9ac8606Spatrick }
5313a9ac8606Spatrick
5314a9ac8606Spatrick // Otherwise, we only need a correct type if the parameter has a deduced
5315a9ac8606Spatrick // type.
5316a9ac8606Spatrick //
5317a9ac8606Spatrick // Note: for an expanded parameter pack, getType() returns the type prior
5318a9ac8606Spatrick // to expansion. We could ask for the expanded type with getExpansionType(),
5319a9ac8606Spatrick // but it doesn't matter because substitution and expansion don't affect
5320a9ac8606Spatrick // whether a deduced type appears in the type.
5321a9ac8606Spatrick auto *NTTP = dyn_cast<NonTypeTemplateParmDecl>(Param);
5322a9ac8606Spatrick return NTTP && NTTP->getType()->getContainedDeducedType();
5323a9ac8606Spatrick }
5324a9ac8606Spatrick };
5325a9ac8606Spatrick }
5326a9ac8606Spatrick
mangleTemplateArgs(TemplateName TN,const TemplateArgumentLoc * TemplateArgs,unsigned NumTemplateArgs)5327a9ac8606Spatrick void CXXNameMangler::mangleTemplateArgs(TemplateName TN,
5328a9ac8606Spatrick const TemplateArgumentLoc *TemplateArgs,
5329e5dd7070Spatrick unsigned NumTemplateArgs) {
5330e5dd7070Spatrick // <template-args> ::= I <template-arg>+ E
5331e5dd7070Spatrick Out << 'I';
5332a9ac8606Spatrick TemplateArgManglingInfo Info(TN);
5333e5dd7070Spatrick for (unsigned i = 0; i != NumTemplateArgs; ++i)
5334a9ac8606Spatrick mangleTemplateArg(TemplateArgs[i].getArgument(),
5335a9ac8606Spatrick Info.needExactType(i, TemplateArgs[i].getArgument()));
5336e5dd7070Spatrick Out << 'E';
5337e5dd7070Spatrick }
5338e5dd7070Spatrick
mangleTemplateArgs(TemplateName TN,const TemplateArgumentList & AL)5339a9ac8606Spatrick void CXXNameMangler::mangleTemplateArgs(TemplateName TN,
5340a9ac8606Spatrick const TemplateArgumentList &AL) {
5341e5dd7070Spatrick // <template-args> ::= I <template-arg>+ E
5342e5dd7070Spatrick Out << 'I';
5343a9ac8606Spatrick TemplateArgManglingInfo Info(TN);
5344e5dd7070Spatrick for (unsigned i = 0, e = AL.size(); i != e; ++i)
5345a9ac8606Spatrick mangleTemplateArg(AL[i], Info.needExactType(i, AL[i]));
5346e5dd7070Spatrick Out << 'E';
5347e5dd7070Spatrick }
5348e5dd7070Spatrick
mangleTemplateArgs(TemplateName TN,ArrayRef<TemplateArgument> Args)5349a9ac8606Spatrick void CXXNameMangler::mangleTemplateArgs(TemplateName TN,
5350*12c85518Srobert ArrayRef<TemplateArgument> Args) {
5351e5dd7070Spatrick // <template-args> ::= I <template-arg>+ E
5352e5dd7070Spatrick Out << 'I';
5353a9ac8606Spatrick TemplateArgManglingInfo Info(TN);
5354*12c85518Srobert for (unsigned i = 0; i != Args.size(); ++i)
5355*12c85518Srobert mangleTemplateArg(Args[i], Info.needExactType(i, Args[i]));
5356e5dd7070Spatrick Out << 'E';
5357e5dd7070Spatrick }
5358e5dd7070Spatrick
mangleTemplateArg(TemplateArgument A,bool NeedExactType)5359a9ac8606Spatrick void CXXNameMangler::mangleTemplateArg(TemplateArgument A, bool NeedExactType) {
5360e5dd7070Spatrick // <template-arg> ::= <type> # type or template
5361e5dd7070Spatrick // ::= X <expression> E # expression
5362e5dd7070Spatrick // ::= <expr-primary> # simple expressions
5363e5dd7070Spatrick // ::= J <template-arg>* E # argument pack
5364e5dd7070Spatrick if (!A.isInstantiationDependent() || A.isDependent())
5365e5dd7070Spatrick A = Context.getASTContext().getCanonicalTemplateArgument(A);
5366e5dd7070Spatrick
5367e5dd7070Spatrick switch (A.getKind()) {
5368e5dd7070Spatrick case TemplateArgument::Null:
5369e5dd7070Spatrick llvm_unreachable("Cannot mangle NULL template argument");
5370e5dd7070Spatrick
5371e5dd7070Spatrick case TemplateArgument::Type:
5372e5dd7070Spatrick mangleType(A.getAsType());
5373e5dd7070Spatrick break;
5374e5dd7070Spatrick case TemplateArgument::Template:
5375e5dd7070Spatrick // This is mangled as <type>.
5376e5dd7070Spatrick mangleType(A.getAsTemplate());
5377e5dd7070Spatrick break;
5378e5dd7070Spatrick case TemplateArgument::TemplateExpansion:
5379e5dd7070Spatrick // <type> ::= Dp <type> # pack expansion (C++0x)
5380e5dd7070Spatrick Out << "Dp";
5381e5dd7070Spatrick mangleType(A.getAsTemplateOrTemplatePattern());
5382e5dd7070Spatrick break;
5383a9ac8606Spatrick case TemplateArgument::Expression:
5384a9ac8606Spatrick mangleTemplateArgExpr(A.getAsExpr());
5385e5dd7070Spatrick break;
5386e5dd7070Spatrick case TemplateArgument::Integral:
5387e5dd7070Spatrick mangleIntegerLiteral(A.getIntegralType(), A.getAsIntegral());
5388e5dd7070Spatrick break;
5389e5dd7070Spatrick case TemplateArgument::Declaration: {
5390e5dd7070Spatrick // <expr-primary> ::= L <mangled-name> E # external name
5391e5dd7070Spatrick ValueDecl *D = A.getAsDecl();
5392a9ac8606Spatrick
5393a9ac8606Spatrick // Template parameter objects are modeled by reproducing a source form
5394a9ac8606Spatrick // produced as if by aggregate initialization.
5395a9ac8606Spatrick if (A.getParamTypeForDecl()->isRecordType()) {
5396a9ac8606Spatrick auto *TPO = cast<TemplateParamObjectDecl>(D);
5397a9ac8606Spatrick mangleValueInTemplateArg(TPO->getType().getUnqualifiedType(),
5398a9ac8606Spatrick TPO->getValue(), /*TopLevel=*/true,
5399a9ac8606Spatrick NeedExactType);
5400a9ac8606Spatrick break;
5401e5dd7070Spatrick }
5402e5dd7070Spatrick
5403a9ac8606Spatrick ASTContext &Ctx = Context.getASTContext();
5404a9ac8606Spatrick APValue Value;
5405a9ac8606Spatrick if (D->isCXXInstanceMember())
5406a9ac8606Spatrick // Simple pointer-to-member with no conversion.
5407a9ac8606Spatrick Value = APValue(D, /*IsDerivedMember=*/false, /*Path=*/{});
5408a9ac8606Spatrick else if (D->getType()->isArrayType() &&
5409a9ac8606Spatrick Ctx.hasSimilarType(Ctx.getDecayedType(D->getType()),
5410a9ac8606Spatrick A.getParamTypeForDecl()) &&
5411a9ac8606Spatrick Ctx.getLangOpts().getClangABICompat() >
5412a9ac8606Spatrick LangOptions::ClangABI::Ver11)
5413a9ac8606Spatrick // Build a value corresponding to this implicit array-to-pointer decay.
5414a9ac8606Spatrick Value = APValue(APValue::LValueBase(D), CharUnits::Zero(),
5415a9ac8606Spatrick {APValue::LValuePathEntry::ArrayIndex(0)},
5416a9ac8606Spatrick /*OnePastTheEnd=*/false);
5417a9ac8606Spatrick else
5418a9ac8606Spatrick // Regular pointer or reference to a declaration.
5419a9ac8606Spatrick Value = APValue(APValue::LValueBase(D), CharUnits::Zero(),
5420a9ac8606Spatrick ArrayRef<APValue::LValuePathEntry>(),
5421a9ac8606Spatrick /*OnePastTheEnd=*/false);
5422a9ac8606Spatrick mangleValueInTemplateArg(A.getParamTypeForDecl(), Value, /*TopLevel=*/true,
5423a9ac8606Spatrick NeedExactType);
5424e5dd7070Spatrick break;
5425e5dd7070Spatrick }
5426e5dd7070Spatrick case TemplateArgument::NullPtr: {
5427a9ac8606Spatrick mangleNullPointer(A.getNullPtrType());
5428e5dd7070Spatrick break;
5429e5dd7070Spatrick }
5430e5dd7070Spatrick case TemplateArgument::Pack: {
5431e5dd7070Spatrick // <template-arg> ::= J <template-arg>* E
5432e5dd7070Spatrick Out << 'J';
5433e5dd7070Spatrick for (const auto &P : A.pack_elements())
5434a9ac8606Spatrick mangleTemplateArg(P, NeedExactType);
5435e5dd7070Spatrick Out << 'E';
5436e5dd7070Spatrick }
5437e5dd7070Spatrick }
5438e5dd7070Spatrick }
5439e5dd7070Spatrick
mangleTemplateArgExpr(const Expr * E)5440a9ac8606Spatrick void CXXNameMangler::mangleTemplateArgExpr(const Expr *E) {
5441a9ac8606Spatrick ASTContext &Ctx = Context.getASTContext();
5442a9ac8606Spatrick if (Ctx.getLangOpts().getClangABICompat() > LangOptions::ClangABI::Ver11) {
5443a9ac8606Spatrick mangleExpression(E, UnknownArity, /*AsTemplateArg=*/true);
5444a9ac8606Spatrick return;
5445a9ac8606Spatrick }
5446a9ac8606Spatrick
5447a9ac8606Spatrick // Prior to Clang 12, we didn't omit the X .. E around <expr-primary>
5448a9ac8606Spatrick // correctly in cases where the template argument was
5449a9ac8606Spatrick // constructed from an expression rather than an already-evaluated
5450a9ac8606Spatrick // literal. In such a case, we would then e.g. emit 'XLi0EE' instead of
5451a9ac8606Spatrick // 'Li0E'.
5452a9ac8606Spatrick //
5453a9ac8606Spatrick // We did special-case DeclRefExpr to attempt to DTRT for that one
5454a9ac8606Spatrick // expression-kind, but while doing so, unfortunately handled ParmVarDecl
5455a9ac8606Spatrick // (subtype of VarDecl) _incorrectly_, and emitted 'L_Z .. E' instead of
5456a9ac8606Spatrick // the proper 'Xfp_E'.
5457a9ac8606Spatrick E = E->IgnoreParenImpCasts();
5458a9ac8606Spatrick if (const DeclRefExpr *DRE = dyn_cast<DeclRefExpr>(E)) {
5459a9ac8606Spatrick const ValueDecl *D = DRE->getDecl();
5460a9ac8606Spatrick if (isa<VarDecl>(D) || isa<FunctionDecl>(D)) {
5461a9ac8606Spatrick Out << 'L';
5462a9ac8606Spatrick mangle(D);
5463a9ac8606Spatrick Out << 'E';
5464a9ac8606Spatrick return;
5465a9ac8606Spatrick }
5466a9ac8606Spatrick }
5467a9ac8606Spatrick Out << 'X';
5468a9ac8606Spatrick mangleExpression(E);
5469a9ac8606Spatrick Out << 'E';
5470a9ac8606Spatrick }
5471a9ac8606Spatrick
5472a9ac8606Spatrick /// Determine whether a given value is equivalent to zero-initialization for
5473a9ac8606Spatrick /// the purpose of discarding a trailing portion of a 'tl' mangling.
5474a9ac8606Spatrick ///
5475a9ac8606Spatrick /// Note that this is not in general equivalent to determining whether the
5476a9ac8606Spatrick /// value has an all-zeroes bit pattern.
isZeroInitialized(QualType T,const APValue & V)5477a9ac8606Spatrick static bool isZeroInitialized(QualType T, const APValue &V) {
5478a9ac8606Spatrick // FIXME: mangleValueInTemplateArg has quadratic time complexity in
5479a9ac8606Spatrick // pathological cases due to using this, but it's a little awkward
5480a9ac8606Spatrick // to do this in linear time in general.
5481a9ac8606Spatrick switch (V.getKind()) {
5482a9ac8606Spatrick case APValue::None:
5483a9ac8606Spatrick case APValue::Indeterminate:
5484a9ac8606Spatrick case APValue::AddrLabelDiff:
5485a9ac8606Spatrick return false;
5486a9ac8606Spatrick
5487a9ac8606Spatrick case APValue::Struct: {
5488a9ac8606Spatrick const CXXRecordDecl *RD = T->getAsCXXRecordDecl();
5489a9ac8606Spatrick assert(RD && "unexpected type for record value");
5490a9ac8606Spatrick unsigned I = 0;
5491a9ac8606Spatrick for (const CXXBaseSpecifier &BS : RD->bases()) {
5492a9ac8606Spatrick if (!isZeroInitialized(BS.getType(), V.getStructBase(I)))
5493a9ac8606Spatrick return false;
5494a9ac8606Spatrick ++I;
5495a9ac8606Spatrick }
5496a9ac8606Spatrick I = 0;
5497a9ac8606Spatrick for (const FieldDecl *FD : RD->fields()) {
5498a9ac8606Spatrick if (!FD->isUnnamedBitfield() &&
5499a9ac8606Spatrick !isZeroInitialized(FD->getType(), V.getStructField(I)))
5500a9ac8606Spatrick return false;
5501a9ac8606Spatrick ++I;
5502a9ac8606Spatrick }
5503a9ac8606Spatrick return true;
5504a9ac8606Spatrick }
5505a9ac8606Spatrick
5506a9ac8606Spatrick case APValue::Union: {
5507a9ac8606Spatrick const CXXRecordDecl *RD = T->getAsCXXRecordDecl();
5508a9ac8606Spatrick assert(RD && "unexpected type for union value");
5509a9ac8606Spatrick // Zero-initialization zeroes the first non-unnamed-bitfield field, if any.
5510a9ac8606Spatrick for (const FieldDecl *FD : RD->fields()) {
5511a9ac8606Spatrick if (!FD->isUnnamedBitfield())
5512a9ac8606Spatrick return V.getUnionField() && declaresSameEntity(FD, V.getUnionField()) &&
5513a9ac8606Spatrick isZeroInitialized(FD->getType(), V.getUnionValue());
5514a9ac8606Spatrick }
5515a9ac8606Spatrick // If there are no fields (other than unnamed bitfields), the value is
5516a9ac8606Spatrick // necessarily zero-initialized.
5517a9ac8606Spatrick return true;
5518a9ac8606Spatrick }
5519a9ac8606Spatrick
5520a9ac8606Spatrick case APValue::Array: {
5521a9ac8606Spatrick QualType ElemT(T->getArrayElementTypeNoTypeQual(), 0);
5522a9ac8606Spatrick for (unsigned I = 0, N = V.getArrayInitializedElts(); I != N; ++I)
5523a9ac8606Spatrick if (!isZeroInitialized(ElemT, V.getArrayInitializedElt(I)))
5524a9ac8606Spatrick return false;
5525a9ac8606Spatrick return !V.hasArrayFiller() || isZeroInitialized(ElemT, V.getArrayFiller());
5526a9ac8606Spatrick }
5527a9ac8606Spatrick
5528a9ac8606Spatrick case APValue::Vector: {
5529a9ac8606Spatrick const VectorType *VT = T->castAs<VectorType>();
5530a9ac8606Spatrick for (unsigned I = 0, N = V.getVectorLength(); I != N; ++I)
5531a9ac8606Spatrick if (!isZeroInitialized(VT->getElementType(), V.getVectorElt(I)))
5532a9ac8606Spatrick return false;
5533a9ac8606Spatrick return true;
5534a9ac8606Spatrick }
5535a9ac8606Spatrick
5536a9ac8606Spatrick case APValue::Int:
5537a9ac8606Spatrick return !V.getInt();
5538a9ac8606Spatrick
5539a9ac8606Spatrick case APValue::Float:
5540a9ac8606Spatrick return V.getFloat().isPosZero();
5541a9ac8606Spatrick
5542a9ac8606Spatrick case APValue::FixedPoint:
5543a9ac8606Spatrick return !V.getFixedPoint().getValue();
5544a9ac8606Spatrick
5545a9ac8606Spatrick case APValue::ComplexFloat:
5546a9ac8606Spatrick return V.getComplexFloatReal().isPosZero() &&
5547a9ac8606Spatrick V.getComplexFloatImag().isPosZero();
5548a9ac8606Spatrick
5549a9ac8606Spatrick case APValue::ComplexInt:
5550a9ac8606Spatrick return !V.getComplexIntReal() && !V.getComplexIntImag();
5551a9ac8606Spatrick
5552a9ac8606Spatrick case APValue::LValue:
5553a9ac8606Spatrick return V.isNullPointer();
5554a9ac8606Spatrick
5555a9ac8606Spatrick case APValue::MemberPointer:
5556a9ac8606Spatrick return !V.getMemberPointerDecl();
5557a9ac8606Spatrick }
5558a9ac8606Spatrick
5559a9ac8606Spatrick llvm_unreachable("Unhandled APValue::ValueKind enum");
5560a9ac8606Spatrick }
5561a9ac8606Spatrick
getLValueType(ASTContext & Ctx,const APValue & LV)5562a9ac8606Spatrick static QualType getLValueType(ASTContext &Ctx, const APValue &LV) {
5563a9ac8606Spatrick QualType T = LV.getLValueBase().getType();
5564a9ac8606Spatrick for (APValue::LValuePathEntry E : LV.getLValuePath()) {
5565a9ac8606Spatrick if (const ArrayType *AT = Ctx.getAsArrayType(T))
5566a9ac8606Spatrick T = AT->getElementType();
5567a9ac8606Spatrick else if (const FieldDecl *FD =
5568a9ac8606Spatrick dyn_cast<FieldDecl>(E.getAsBaseOrMember().getPointer()))
5569a9ac8606Spatrick T = FD->getType();
5570a9ac8606Spatrick else
5571a9ac8606Spatrick T = Ctx.getRecordType(
5572a9ac8606Spatrick cast<CXXRecordDecl>(E.getAsBaseOrMember().getPointer()));
5573a9ac8606Spatrick }
5574a9ac8606Spatrick return T;
5575a9ac8606Spatrick }
5576a9ac8606Spatrick
getUnionInitName(SourceLocation UnionLoc,DiagnosticsEngine & Diags,const FieldDecl * FD)5577*12c85518Srobert static IdentifierInfo *getUnionInitName(SourceLocation UnionLoc,
5578*12c85518Srobert DiagnosticsEngine &Diags,
5579*12c85518Srobert const FieldDecl *FD) {
5580*12c85518Srobert // According to:
5581*12c85518Srobert // http://itanium-cxx-abi.github.io/cxx-abi/abi.html#mangling.anonymous
5582*12c85518Srobert // For the purposes of mangling, the name of an anonymous union is considered
5583*12c85518Srobert // to be the name of the first named data member found by a pre-order,
5584*12c85518Srobert // depth-first, declaration-order walk of the data members of the anonymous
5585*12c85518Srobert // union.
5586*12c85518Srobert
5587*12c85518Srobert if (FD->getIdentifier())
5588*12c85518Srobert return FD->getIdentifier();
5589*12c85518Srobert
5590*12c85518Srobert // The only cases where the identifer of a FieldDecl would be blank is if the
5591*12c85518Srobert // field represents an anonymous record type or if it is an unnamed bitfield.
5592*12c85518Srobert // There is no type to descend into in the case of a bitfield, so we can just
5593*12c85518Srobert // return nullptr in that case.
5594*12c85518Srobert if (FD->isBitField())
5595*12c85518Srobert return nullptr;
5596*12c85518Srobert const CXXRecordDecl *RD = FD->getType()->getAsCXXRecordDecl();
5597*12c85518Srobert
5598*12c85518Srobert // Consider only the fields in declaration order, searched depth-first. We
5599*12c85518Srobert // don't care about the active member of the union, as all we are doing is
5600*12c85518Srobert // looking for a valid name. We also don't check bases, due to guidance from
5601*12c85518Srobert // the Itanium ABI folks.
5602*12c85518Srobert for (const FieldDecl *RDField : RD->fields()) {
5603*12c85518Srobert if (IdentifierInfo *II = getUnionInitName(UnionLoc, Diags, RDField))
5604*12c85518Srobert return II;
5605*12c85518Srobert }
5606*12c85518Srobert
5607*12c85518Srobert // According to the Itanium ABI: If there is no such data member (i.e., if all
5608*12c85518Srobert // of the data members in the union are unnamed), then there is no way for a
5609*12c85518Srobert // program to refer to the anonymous union, and there is therefore no need to
5610*12c85518Srobert // mangle its name. However, we should diagnose this anyway.
5611*12c85518Srobert unsigned DiagID = Diags.getCustomDiagID(
5612*12c85518Srobert DiagnosticsEngine::Error, "cannot mangle this unnamed union NTTP yet");
5613*12c85518Srobert Diags.Report(UnionLoc, DiagID);
5614*12c85518Srobert
5615*12c85518Srobert return nullptr;
5616*12c85518Srobert }
5617*12c85518Srobert
mangleValueInTemplateArg(QualType T,const APValue & V,bool TopLevel,bool NeedExactType)5618a9ac8606Spatrick void CXXNameMangler::mangleValueInTemplateArg(QualType T, const APValue &V,
5619a9ac8606Spatrick bool TopLevel,
5620a9ac8606Spatrick bool NeedExactType) {
5621a9ac8606Spatrick // Ignore all top-level cv-qualifiers, to match GCC.
5622a9ac8606Spatrick Qualifiers Quals;
5623a9ac8606Spatrick T = getASTContext().getUnqualifiedArrayType(T, Quals);
5624a9ac8606Spatrick
5625a9ac8606Spatrick // A top-level expression that's not a primary expression is wrapped in X...E.
5626a9ac8606Spatrick bool IsPrimaryExpr = true;
5627a9ac8606Spatrick auto NotPrimaryExpr = [&] {
5628a9ac8606Spatrick if (TopLevel && IsPrimaryExpr)
5629a9ac8606Spatrick Out << 'X';
5630a9ac8606Spatrick IsPrimaryExpr = false;
5631a9ac8606Spatrick };
5632a9ac8606Spatrick
5633a9ac8606Spatrick // Proposed in https://github.com/itanium-cxx-abi/cxx-abi/issues/63.
5634a9ac8606Spatrick switch (V.getKind()) {
5635a9ac8606Spatrick case APValue::None:
5636a9ac8606Spatrick case APValue::Indeterminate:
5637a9ac8606Spatrick Out << 'L';
5638a9ac8606Spatrick mangleType(T);
5639a9ac8606Spatrick Out << 'E';
5640a9ac8606Spatrick break;
5641a9ac8606Spatrick
5642a9ac8606Spatrick case APValue::AddrLabelDiff:
5643a9ac8606Spatrick llvm_unreachable("unexpected value kind in template argument");
5644a9ac8606Spatrick
5645a9ac8606Spatrick case APValue::Struct: {
5646a9ac8606Spatrick const CXXRecordDecl *RD = T->getAsCXXRecordDecl();
5647a9ac8606Spatrick assert(RD && "unexpected type for record value");
5648a9ac8606Spatrick
5649a9ac8606Spatrick // Drop trailing zero-initialized elements.
5650*12c85518Srobert llvm::SmallVector<const FieldDecl *, 16> Fields(RD->fields());
5651a9ac8606Spatrick while (
5652a9ac8606Spatrick !Fields.empty() &&
5653a9ac8606Spatrick (Fields.back()->isUnnamedBitfield() ||
5654a9ac8606Spatrick isZeroInitialized(Fields.back()->getType(),
5655a9ac8606Spatrick V.getStructField(Fields.back()->getFieldIndex())))) {
5656a9ac8606Spatrick Fields.pop_back();
5657a9ac8606Spatrick }
5658a9ac8606Spatrick llvm::ArrayRef<CXXBaseSpecifier> Bases(RD->bases_begin(), RD->bases_end());
5659a9ac8606Spatrick if (Fields.empty()) {
5660a9ac8606Spatrick while (!Bases.empty() &&
5661a9ac8606Spatrick isZeroInitialized(Bases.back().getType(),
5662a9ac8606Spatrick V.getStructBase(Bases.size() - 1)))
5663a9ac8606Spatrick Bases = Bases.drop_back();
5664a9ac8606Spatrick }
5665a9ac8606Spatrick
5666a9ac8606Spatrick // <expression> ::= tl <type> <braced-expression>* E
5667a9ac8606Spatrick NotPrimaryExpr();
5668a9ac8606Spatrick Out << "tl";
5669a9ac8606Spatrick mangleType(T);
5670a9ac8606Spatrick for (unsigned I = 0, N = Bases.size(); I != N; ++I)
5671a9ac8606Spatrick mangleValueInTemplateArg(Bases[I].getType(), V.getStructBase(I), false);
5672a9ac8606Spatrick for (unsigned I = 0, N = Fields.size(); I != N; ++I) {
5673a9ac8606Spatrick if (Fields[I]->isUnnamedBitfield())
5674a9ac8606Spatrick continue;
5675a9ac8606Spatrick mangleValueInTemplateArg(Fields[I]->getType(),
5676a9ac8606Spatrick V.getStructField(Fields[I]->getFieldIndex()),
5677a9ac8606Spatrick false);
5678a9ac8606Spatrick }
5679a9ac8606Spatrick Out << 'E';
5680a9ac8606Spatrick break;
5681a9ac8606Spatrick }
5682a9ac8606Spatrick
5683a9ac8606Spatrick case APValue::Union: {
5684a9ac8606Spatrick assert(T->getAsCXXRecordDecl() && "unexpected type for union value");
5685a9ac8606Spatrick const FieldDecl *FD = V.getUnionField();
5686a9ac8606Spatrick
5687a9ac8606Spatrick if (!FD) {
5688a9ac8606Spatrick Out << 'L';
5689a9ac8606Spatrick mangleType(T);
5690a9ac8606Spatrick Out << 'E';
5691a9ac8606Spatrick break;
5692a9ac8606Spatrick }
5693a9ac8606Spatrick
5694a9ac8606Spatrick // <braced-expression> ::= di <field source-name> <braced-expression>
5695a9ac8606Spatrick NotPrimaryExpr();
5696a9ac8606Spatrick Out << "tl";
5697a9ac8606Spatrick mangleType(T);
5698a9ac8606Spatrick if (!isZeroInitialized(T, V)) {
5699a9ac8606Spatrick Out << "di";
5700*12c85518Srobert IdentifierInfo *II = (getUnionInitName(
5701*12c85518Srobert T->getAsCXXRecordDecl()->getLocation(), Context.getDiags(), FD));
5702*12c85518Srobert if (II)
5703*12c85518Srobert mangleSourceName(II);
5704a9ac8606Spatrick mangleValueInTemplateArg(FD->getType(), V.getUnionValue(), false);
5705a9ac8606Spatrick }
5706a9ac8606Spatrick Out << 'E';
5707a9ac8606Spatrick break;
5708a9ac8606Spatrick }
5709a9ac8606Spatrick
5710a9ac8606Spatrick case APValue::Array: {
5711a9ac8606Spatrick QualType ElemT(T->getArrayElementTypeNoTypeQual(), 0);
5712a9ac8606Spatrick
5713a9ac8606Spatrick NotPrimaryExpr();
5714a9ac8606Spatrick Out << "tl";
5715a9ac8606Spatrick mangleType(T);
5716a9ac8606Spatrick
5717a9ac8606Spatrick // Drop trailing zero-initialized elements.
5718a9ac8606Spatrick unsigned N = V.getArraySize();
5719a9ac8606Spatrick if (!V.hasArrayFiller() || isZeroInitialized(ElemT, V.getArrayFiller())) {
5720a9ac8606Spatrick N = V.getArrayInitializedElts();
5721a9ac8606Spatrick while (N && isZeroInitialized(ElemT, V.getArrayInitializedElt(N - 1)))
5722a9ac8606Spatrick --N;
5723a9ac8606Spatrick }
5724a9ac8606Spatrick
5725a9ac8606Spatrick for (unsigned I = 0; I != N; ++I) {
5726a9ac8606Spatrick const APValue &Elem = I < V.getArrayInitializedElts()
5727a9ac8606Spatrick ? V.getArrayInitializedElt(I)
5728a9ac8606Spatrick : V.getArrayFiller();
5729a9ac8606Spatrick mangleValueInTemplateArg(ElemT, Elem, false);
5730a9ac8606Spatrick }
5731a9ac8606Spatrick Out << 'E';
5732a9ac8606Spatrick break;
5733a9ac8606Spatrick }
5734a9ac8606Spatrick
5735a9ac8606Spatrick case APValue::Vector: {
5736a9ac8606Spatrick const VectorType *VT = T->castAs<VectorType>();
5737a9ac8606Spatrick
5738a9ac8606Spatrick NotPrimaryExpr();
5739a9ac8606Spatrick Out << "tl";
5740a9ac8606Spatrick mangleType(T);
5741a9ac8606Spatrick unsigned N = V.getVectorLength();
5742a9ac8606Spatrick while (N && isZeroInitialized(VT->getElementType(), V.getVectorElt(N - 1)))
5743a9ac8606Spatrick --N;
5744a9ac8606Spatrick for (unsigned I = 0; I != N; ++I)
5745a9ac8606Spatrick mangleValueInTemplateArg(VT->getElementType(), V.getVectorElt(I), false);
5746a9ac8606Spatrick Out << 'E';
5747a9ac8606Spatrick break;
5748a9ac8606Spatrick }
5749a9ac8606Spatrick
5750a9ac8606Spatrick case APValue::Int:
5751a9ac8606Spatrick mangleIntegerLiteral(T, V.getInt());
5752a9ac8606Spatrick break;
5753a9ac8606Spatrick
5754a9ac8606Spatrick case APValue::Float:
5755a9ac8606Spatrick mangleFloatLiteral(T, V.getFloat());
5756a9ac8606Spatrick break;
5757a9ac8606Spatrick
5758a9ac8606Spatrick case APValue::FixedPoint:
5759a9ac8606Spatrick mangleFixedPointLiteral();
5760a9ac8606Spatrick break;
5761a9ac8606Spatrick
5762a9ac8606Spatrick case APValue::ComplexFloat: {
5763a9ac8606Spatrick const ComplexType *CT = T->castAs<ComplexType>();
5764a9ac8606Spatrick NotPrimaryExpr();
5765a9ac8606Spatrick Out << "tl";
5766a9ac8606Spatrick mangleType(T);
5767a9ac8606Spatrick if (!V.getComplexFloatReal().isPosZero() ||
5768a9ac8606Spatrick !V.getComplexFloatImag().isPosZero())
5769a9ac8606Spatrick mangleFloatLiteral(CT->getElementType(), V.getComplexFloatReal());
5770a9ac8606Spatrick if (!V.getComplexFloatImag().isPosZero())
5771a9ac8606Spatrick mangleFloatLiteral(CT->getElementType(), V.getComplexFloatImag());
5772a9ac8606Spatrick Out << 'E';
5773a9ac8606Spatrick break;
5774a9ac8606Spatrick }
5775a9ac8606Spatrick
5776a9ac8606Spatrick case APValue::ComplexInt: {
5777a9ac8606Spatrick const ComplexType *CT = T->castAs<ComplexType>();
5778a9ac8606Spatrick NotPrimaryExpr();
5779a9ac8606Spatrick Out << "tl";
5780a9ac8606Spatrick mangleType(T);
5781a9ac8606Spatrick if (V.getComplexIntReal().getBoolValue() ||
5782a9ac8606Spatrick V.getComplexIntImag().getBoolValue())
5783a9ac8606Spatrick mangleIntegerLiteral(CT->getElementType(), V.getComplexIntReal());
5784a9ac8606Spatrick if (V.getComplexIntImag().getBoolValue())
5785a9ac8606Spatrick mangleIntegerLiteral(CT->getElementType(), V.getComplexIntImag());
5786a9ac8606Spatrick Out << 'E';
5787a9ac8606Spatrick break;
5788a9ac8606Spatrick }
5789a9ac8606Spatrick
5790a9ac8606Spatrick case APValue::LValue: {
5791a9ac8606Spatrick // Proposed in https://github.com/itanium-cxx-abi/cxx-abi/issues/47.
5792a9ac8606Spatrick assert((T->isPointerType() || T->isReferenceType()) &&
5793a9ac8606Spatrick "unexpected type for LValue template arg");
5794a9ac8606Spatrick
5795a9ac8606Spatrick if (V.isNullPointer()) {
5796a9ac8606Spatrick mangleNullPointer(T);
5797a9ac8606Spatrick break;
5798a9ac8606Spatrick }
5799a9ac8606Spatrick
5800a9ac8606Spatrick APValue::LValueBase B = V.getLValueBase();
5801a9ac8606Spatrick if (!B) {
5802a9ac8606Spatrick // Non-standard mangling for integer cast to a pointer; this can only
5803a9ac8606Spatrick // occur as an extension.
5804a9ac8606Spatrick CharUnits Offset = V.getLValueOffset();
5805a9ac8606Spatrick if (Offset.isZero()) {
5806a9ac8606Spatrick // This is reinterpret_cast<T*>(0), not a null pointer. Mangle this as
5807a9ac8606Spatrick // a cast, because L <type> 0 E means something else.
5808a9ac8606Spatrick NotPrimaryExpr();
5809a9ac8606Spatrick Out << "rc";
5810a9ac8606Spatrick mangleType(T);
5811a9ac8606Spatrick Out << "Li0E";
5812a9ac8606Spatrick if (TopLevel)
5813a9ac8606Spatrick Out << 'E';
5814a9ac8606Spatrick } else {
5815a9ac8606Spatrick Out << "L";
5816a9ac8606Spatrick mangleType(T);
5817a9ac8606Spatrick Out << Offset.getQuantity() << 'E';
5818a9ac8606Spatrick }
5819a9ac8606Spatrick break;
5820a9ac8606Spatrick }
5821a9ac8606Spatrick
5822a9ac8606Spatrick ASTContext &Ctx = Context.getASTContext();
5823a9ac8606Spatrick
5824a9ac8606Spatrick enum { Base, Offset, Path } Kind;
5825a9ac8606Spatrick if (!V.hasLValuePath()) {
5826a9ac8606Spatrick // Mangle as (T*)((char*)&base + N).
5827a9ac8606Spatrick if (T->isReferenceType()) {
5828a9ac8606Spatrick NotPrimaryExpr();
5829a9ac8606Spatrick Out << "decvP";
5830a9ac8606Spatrick mangleType(T->getPointeeType());
5831a9ac8606Spatrick } else {
5832a9ac8606Spatrick NotPrimaryExpr();
5833a9ac8606Spatrick Out << "cv";
5834a9ac8606Spatrick mangleType(T);
5835a9ac8606Spatrick }
5836a9ac8606Spatrick Out << "plcvPcad";
5837a9ac8606Spatrick Kind = Offset;
5838a9ac8606Spatrick } else {
5839a9ac8606Spatrick if (!V.getLValuePath().empty() || V.isLValueOnePastTheEnd()) {
5840a9ac8606Spatrick NotPrimaryExpr();
5841a9ac8606Spatrick // A final conversion to the template parameter's type is usually
5842a9ac8606Spatrick // folded into the 'so' mangling, but we can't do that for 'void*'
5843a9ac8606Spatrick // parameters without introducing collisions.
5844a9ac8606Spatrick if (NeedExactType && T->isVoidPointerType()) {
5845a9ac8606Spatrick Out << "cv";
5846a9ac8606Spatrick mangleType(T);
5847a9ac8606Spatrick }
5848a9ac8606Spatrick if (T->isPointerType())
5849a9ac8606Spatrick Out << "ad";
5850a9ac8606Spatrick Out << "so";
5851a9ac8606Spatrick mangleType(T->isVoidPointerType()
5852a9ac8606Spatrick ? getLValueType(Ctx, V).getUnqualifiedType()
5853a9ac8606Spatrick : T->getPointeeType());
5854a9ac8606Spatrick Kind = Path;
5855a9ac8606Spatrick } else {
5856a9ac8606Spatrick if (NeedExactType &&
5857a9ac8606Spatrick !Ctx.hasSameType(T->getPointeeType(), getLValueType(Ctx, V)) &&
5858a9ac8606Spatrick Ctx.getLangOpts().getClangABICompat() >
5859a9ac8606Spatrick LangOptions::ClangABI::Ver11) {
5860a9ac8606Spatrick NotPrimaryExpr();
5861a9ac8606Spatrick Out << "cv";
5862a9ac8606Spatrick mangleType(T);
5863a9ac8606Spatrick }
5864a9ac8606Spatrick if (T->isPointerType()) {
5865a9ac8606Spatrick NotPrimaryExpr();
5866a9ac8606Spatrick Out << "ad";
5867a9ac8606Spatrick }
5868a9ac8606Spatrick Kind = Base;
5869a9ac8606Spatrick }
5870a9ac8606Spatrick }
5871a9ac8606Spatrick
5872a9ac8606Spatrick QualType TypeSoFar = B.getType();
5873a9ac8606Spatrick if (auto *VD = B.dyn_cast<const ValueDecl*>()) {
5874a9ac8606Spatrick Out << 'L';
5875a9ac8606Spatrick mangle(VD);
5876a9ac8606Spatrick Out << 'E';
5877a9ac8606Spatrick } else if (auto *E = B.dyn_cast<const Expr*>()) {
5878a9ac8606Spatrick NotPrimaryExpr();
5879a9ac8606Spatrick mangleExpression(E);
5880a9ac8606Spatrick } else if (auto TI = B.dyn_cast<TypeInfoLValue>()) {
5881a9ac8606Spatrick NotPrimaryExpr();
5882a9ac8606Spatrick Out << "ti";
5883a9ac8606Spatrick mangleType(QualType(TI.getType(), 0));
5884a9ac8606Spatrick } else {
5885a9ac8606Spatrick // We should never see dynamic allocations here.
5886a9ac8606Spatrick llvm_unreachable("unexpected lvalue base kind in template argument");
5887a9ac8606Spatrick }
5888a9ac8606Spatrick
5889a9ac8606Spatrick switch (Kind) {
5890a9ac8606Spatrick case Base:
5891a9ac8606Spatrick break;
5892a9ac8606Spatrick
5893a9ac8606Spatrick case Offset:
5894a9ac8606Spatrick Out << 'L';
5895a9ac8606Spatrick mangleType(Ctx.getPointerDiffType());
5896a9ac8606Spatrick mangleNumber(V.getLValueOffset().getQuantity());
5897a9ac8606Spatrick Out << 'E';
5898a9ac8606Spatrick break;
5899a9ac8606Spatrick
5900a9ac8606Spatrick case Path:
5901a9ac8606Spatrick // <expression> ::= so <referent type> <expr> [<offset number>]
5902a9ac8606Spatrick // <union-selector>* [p] E
5903a9ac8606Spatrick if (!V.getLValueOffset().isZero())
5904a9ac8606Spatrick mangleNumber(V.getLValueOffset().getQuantity());
5905a9ac8606Spatrick
5906a9ac8606Spatrick // We model a past-the-end array pointer as array indexing with index N,
5907a9ac8606Spatrick // not with the "past the end" flag. Compensate for that.
5908a9ac8606Spatrick bool OnePastTheEnd = V.isLValueOnePastTheEnd();
5909a9ac8606Spatrick
5910a9ac8606Spatrick for (APValue::LValuePathEntry E : V.getLValuePath()) {
5911a9ac8606Spatrick if (auto *AT = TypeSoFar->getAsArrayTypeUnsafe()) {
5912a9ac8606Spatrick if (auto *CAT = dyn_cast<ConstantArrayType>(AT))
5913a9ac8606Spatrick OnePastTheEnd |= CAT->getSize() == E.getAsArrayIndex();
5914a9ac8606Spatrick TypeSoFar = AT->getElementType();
5915a9ac8606Spatrick } else {
5916a9ac8606Spatrick const Decl *D = E.getAsBaseOrMember().getPointer();
5917a9ac8606Spatrick if (auto *FD = dyn_cast<FieldDecl>(D)) {
5918a9ac8606Spatrick // <union-selector> ::= _ <number>
5919a9ac8606Spatrick if (FD->getParent()->isUnion()) {
5920a9ac8606Spatrick Out << '_';
5921a9ac8606Spatrick if (FD->getFieldIndex())
5922a9ac8606Spatrick Out << (FD->getFieldIndex() - 1);
5923a9ac8606Spatrick }
5924a9ac8606Spatrick TypeSoFar = FD->getType();
5925a9ac8606Spatrick } else {
5926a9ac8606Spatrick TypeSoFar = Ctx.getRecordType(cast<CXXRecordDecl>(D));
5927a9ac8606Spatrick }
5928a9ac8606Spatrick }
5929a9ac8606Spatrick }
5930a9ac8606Spatrick
5931a9ac8606Spatrick if (OnePastTheEnd)
5932a9ac8606Spatrick Out << 'p';
5933a9ac8606Spatrick Out << 'E';
5934a9ac8606Spatrick break;
5935a9ac8606Spatrick }
5936a9ac8606Spatrick
5937a9ac8606Spatrick break;
5938a9ac8606Spatrick }
5939a9ac8606Spatrick
5940a9ac8606Spatrick case APValue::MemberPointer:
5941a9ac8606Spatrick // Proposed in https://github.com/itanium-cxx-abi/cxx-abi/issues/47.
5942a9ac8606Spatrick if (!V.getMemberPointerDecl()) {
5943a9ac8606Spatrick mangleNullPointer(T);
5944a9ac8606Spatrick break;
5945a9ac8606Spatrick }
5946a9ac8606Spatrick
5947a9ac8606Spatrick ASTContext &Ctx = Context.getASTContext();
5948a9ac8606Spatrick
5949a9ac8606Spatrick NotPrimaryExpr();
5950a9ac8606Spatrick if (!V.getMemberPointerPath().empty()) {
5951a9ac8606Spatrick Out << "mc";
5952a9ac8606Spatrick mangleType(T);
5953a9ac8606Spatrick } else if (NeedExactType &&
5954a9ac8606Spatrick !Ctx.hasSameType(
5955a9ac8606Spatrick T->castAs<MemberPointerType>()->getPointeeType(),
5956a9ac8606Spatrick V.getMemberPointerDecl()->getType()) &&
5957a9ac8606Spatrick Ctx.getLangOpts().getClangABICompat() >
5958a9ac8606Spatrick LangOptions::ClangABI::Ver11) {
5959a9ac8606Spatrick Out << "cv";
5960a9ac8606Spatrick mangleType(T);
5961a9ac8606Spatrick }
5962a9ac8606Spatrick Out << "adL";
5963a9ac8606Spatrick mangle(V.getMemberPointerDecl());
5964a9ac8606Spatrick Out << 'E';
5965a9ac8606Spatrick if (!V.getMemberPointerPath().empty()) {
5966a9ac8606Spatrick CharUnits Offset =
5967a9ac8606Spatrick Context.getASTContext().getMemberPointerPathAdjustment(V);
5968a9ac8606Spatrick if (!Offset.isZero())
5969a9ac8606Spatrick mangleNumber(Offset.getQuantity());
5970a9ac8606Spatrick Out << 'E';
5971a9ac8606Spatrick }
5972a9ac8606Spatrick break;
5973a9ac8606Spatrick }
5974a9ac8606Spatrick
5975a9ac8606Spatrick if (TopLevel && !IsPrimaryExpr)
5976a9ac8606Spatrick Out << 'E';
5977a9ac8606Spatrick }
5978a9ac8606Spatrick
mangleTemplateParameter(unsigned Depth,unsigned Index)5979e5dd7070Spatrick void CXXNameMangler::mangleTemplateParameter(unsigned Depth, unsigned Index) {
5980e5dd7070Spatrick // <template-param> ::= T_ # first template parameter
5981e5dd7070Spatrick // ::= T <parameter-2 non-negative number> _
5982e5dd7070Spatrick // ::= TL <L-1 non-negative number> __
5983e5dd7070Spatrick // ::= TL <L-1 non-negative number> _
5984e5dd7070Spatrick // <parameter-2 non-negative number> _
5985e5dd7070Spatrick //
5986e5dd7070Spatrick // The latter two manglings are from a proposal here:
5987e5dd7070Spatrick // https://github.com/itanium-cxx-abi/cxx-abi/issues/31#issuecomment-528122117
5988e5dd7070Spatrick Out << 'T';
5989e5dd7070Spatrick if (Depth != 0)
5990e5dd7070Spatrick Out << 'L' << (Depth - 1) << '_';
5991e5dd7070Spatrick if (Index != 0)
5992e5dd7070Spatrick Out << (Index - 1);
5993e5dd7070Spatrick Out << '_';
5994e5dd7070Spatrick }
5995e5dd7070Spatrick
mangleSeqID(unsigned SeqID)5996e5dd7070Spatrick void CXXNameMangler::mangleSeqID(unsigned SeqID) {
5997*12c85518Srobert if (SeqID == 0) {
5998*12c85518Srobert // Nothing.
5999*12c85518Srobert } else if (SeqID == 1) {
6000e5dd7070Spatrick Out << '0';
6001*12c85518Srobert } else {
6002e5dd7070Spatrick SeqID--;
6003e5dd7070Spatrick
6004e5dd7070Spatrick // <seq-id> is encoded in base-36, using digits and upper case letters.
6005e5dd7070Spatrick char Buffer[7]; // log(2**32) / log(36) ~= 7
6006e5dd7070Spatrick MutableArrayRef<char> BufferRef(Buffer);
6007e5dd7070Spatrick MutableArrayRef<char>::reverse_iterator I = BufferRef.rbegin();
6008e5dd7070Spatrick
6009e5dd7070Spatrick for (; SeqID != 0; SeqID /= 36) {
6010e5dd7070Spatrick unsigned C = SeqID % 36;
6011e5dd7070Spatrick *I++ = (C < 10 ? '0' + C : 'A' + C - 10);
6012e5dd7070Spatrick }
6013e5dd7070Spatrick
6014e5dd7070Spatrick Out.write(I.base(), I - BufferRef.rbegin());
6015e5dd7070Spatrick }
6016e5dd7070Spatrick Out << '_';
6017e5dd7070Spatrick }
6018e5dd7070Spatrick
mangleExistingSubstitution(TemplateName tname)6019e5dd7070Spatrick void CXXNameMangler::mangleExistingSubstitution(TemplateName tname) {
6020e5dd7070Spatrick bool result = mangleSubstitution(tname);
6021e5dd7070Spatrick assert(result && "no existing substitution for template name");
6022e5dd7070Spatrick (void) result;
6023e5dd7070Spatrick }
6024e5dd7070Spatrick
6025e5dd7070Spatrick // <substitution> ::= S <seq-id> _
6026e5dd7070Spatrick // ::= S_
mangleSubstitution(const NamedDecl * ND)6027e5dd7070Spatrick bool CXXNameMangler::mangleSubstitution(const NamedDecl *ND) {
6028e5dd7070Spatrick // Try one of the standard substitutions first.
6029e5dd7070Spatrick if (mangleStandardSubstitution(ND))
6030e5dd7070Spatrick return true;
6031e5dd7070Spatrick
6032e5dd7070Spatrick ND = cast<NamedDecl>(ND->getCanonicalDecl());
6033e5dd7070Spatrick return mangleSubstitution(reinterpret_cast<uintptr_t>(ND));
6034e5dd7070Spatrick }
6035e5dd7070Spatrick
mangleSubstitution(NestedNameSpecifier * NNS)6036*12c85518Srobert bool CXXNameMangler::mangleSubstitution(NestedNameSpecifier *NNS) {
6037*12c85518Srobert assert(NNS->getKind() == NestedNameSpecifier::Identifier &&
6038*12c85518Srobert "mangleSubstitution(NestedNameSpecifier *) is only used for "
6039*12c85518Srobert "identifier nested name specifiers.");
6040*12c85518Srobert NNS = Context.getASTContext().getCanonicalNestedNameSpecifier(NNS);
6041*12c85518Srobert return mangleSubstitution(reinterpret_cast<uintptr_t>(NNS));
6042*12c85518Srobert }
6043*12c85518Srobert
6044e5dd7070Spatrick /// Determine whether the given type has any qualifiers that are relevant for
6045e5dd7070Spatrick /// substitutions.
hasMangledSubstitutionQualifiers(QualType T)6046e5dd7070Spatrick static bool hasMangledSubstitutionQualifiers(QualType T) {
6047e5dd7070Spatrick Qualifiers Qs = T.getQualifiers();
6048e5dd7070Spatrick return Qs.getCVRQualifiers() || Qs.hasAddressSpace() || Qs.hasUnaligned();
6049e5dd7070Spatrick }
6050e5dd7070Spatrick
mangleSubstitution(QualType T)6051e5dd7070Spatrick bool CXXNameMangler::mangleSubstitution(QualType T) {
6052e5dd7070Spatrick if (!hasMangledSubstitutionQualifiers(T)) {
6053e5dd7070Spatrick if (const RecordType *RT = T->getAs<RecordType>())
6054e5dd7070Spatrick return mangleSubstitution(RT->getDecl());
6055e5dd7070Spatrick }
6056e5dd7070Spatrick
6057e5dd7070Spatrick uintptr_t TypePtr = reinterpret_cast<uintptr_t>(T.getAsOpaquePtr());
6058e5dd7070Spatrick
6059e5dd7070Spatrick return mangleSubstitution(TypePtr);
6060e5dd7070Spatrick }
6061e5dd7070Spatrick
mangleSubstitution(TemplateName Template)6062e5dd7070Spatrick bool CXXNameMangler::mangleSubstitution(TemplateName Template) {
6063e5dd7070Spatrick if (TemplateDecl *TD = Template.getAsTemplateDecl())
6064e5dd7070Spatrick return mangleSubstitution(TD);
6065e5dd7070Spatrick
6066e5dd7070Spatrick Template = Context.getASTContext().getCanonicalTemplateName(Template);
6067e5dd7070Spatrick return mangleSubstitution(
6068e5dd7070Spatrick reinterpret_cast<uintptr_t>(Template.getAsVoidPointer()));
6069e5dd7070Spatrick }
6070e5dd7070Spatrick
mangleSubstitution(uintptr_t Ptr)6071e5dd7070Spatrick bool CXXNameMangler::mangleSubstitution(uintptr_t Ptr) {
6072e5dd7070Spatrick llvm::DenseMap<uintptr_t, unsigned>::iterator I = Substitutions.find(Ptr);
6073e5dd7070Spatrick if (I == Substitutions.end())
6074e5dd7070Spatrick return false;
6075e5dd7070Spatrick
6076e5dd7070Spatrick unsigned SeqID = I->second;
6077e5dd7070Spatrick Out << 'S';
6078e5dd7070Spatrick mangleSeqID(SeqID);
6079e5dd7070Spatrick
6080e5dd7070Spatrick return true;
6081e5dd7070Spatrick }
6082e5dd7070Spatrick
6083*12c85518Srobert /// Returns whether S is a template specialization of std::Name with a single
6084*12c85518Srobert /// argument of type A.
isSpecializedAs(QualType S,llvm::StringRef Name,QualType A)6085*12c85518Srobert bool CXXNameMangler::isSpecializedAs(QualType S, llvm::StringRef Name,
6086*12c85518Srobert QualType A) {
6087*12c85518Srobert if (S.isNull())
6088e5dd7070Spatrick return false;
6089e5dd7070Spatrick
6090*12c85518Srobert const RecordType *RT = S->getAs<RecordType>();
6091e5dd7070Spatrick if (!RT)
6092e5dd7070Spatrick return false;
6093e5dd7070Spatrick
6094e5dd7070Spatrick const ClassTemplateSpecializationDecl *SD =
6095e5dd7070Spatrick dyn_cast<ClassTemplateSpecializationDecl>(RT->getDecl());
6096*12c85518Srobert if (!SD || !SD->getIdentifier()->isStr(Name))
6097e5dd7070Spatrick return false;
6098e5dd7070Spatrick
6099*12c85518Srobert if (!isStdNamespace(Context.getEffectiveDeclContext(SD)))
6100e5dd7070Spatrick return false;
6101e5dd7070Spatrick
6102e5dd7070Spatrick const TemplateArgumentList &TemplateArgs = SD->getTemplateArgs();
6103e5dd7070Spatrick if (TemplateArgs.size() != 1)
6104e5dd7070Spatrick return false;
6105e5dd7070Spatrick
6106*12c85518Srobert if (TemplateArgs[0].getAsType() != A)
6107e5dd7070Spatrick return false;
6108e5dd7070Spatrick
6109*12c85518Srobert if (SD->getSpecializedTemplate()->getOwningModuleForLinkage())
6110*12c85518Srobert return false;
6111*12c85518Srobert
6112*12c85518Srobert return true;
6113e5dd7070Spatrick }
6114e5dd7070Spatrick
6115*12c85518Srobert /// Returns whether SD is a template specialization std::Name<char,
6116*12c85518Srobert /// std::char_traits<char> [, std::allocator<char>]>
6117*12c85518Srobert /// HasAllocator controls whether the 3rd template argument is needed.
isStdCharSpecialization(const ClassTemplateSpecializationDecl * SD,llvm::StringRef Name,bool HasAllocator)6118*12c85518Srobert bool CXXNameMangler::isStdCharSpecialization(
6119*12c85518Srobert const ClassTemplateSpecializationDecl *SD, llvm::StringRef Name,
6120*12c85518Srobert bool HasAllocator) {
6121*12c85518Srobert if (!SD->getIdentifier()->isStr(Name))
6122e5dd7070Spatrick return false;
6123e5dd7070Spatrick
6124e5dd7070Spatrick const TemplateArgumentList &TemplateArgs = SD->getTemplateArgs();
6125*12c85518Srobert if (TemplateArgs.size() != (HasAllocator ? 3 : 2))
6126e5dd7070Spatrick return false;
6127e5dd7070Spatrick
6128*12c85518Srobert QualType A = TemplateArgs[0].getAsType();
6129*12c85518Srobert if (A.isNull())
6130*12c85518Srobert return false;
6131*12c85518Srobert // Plain 'char' is named Char_S or Char_U depending on the target ABI.
6132*12c85518Srobert if (!A->isSpecificBuiltinType(BuiltinType::Char_S) &&
6133*12c85518Srobert !A->isSpecificBuiltinType(BuiltinType::Char_U))
6134e5dd7070Spatrick return false;
6135e5dd7070Spatrick
6136*12c85518Srobert if (!isSpecializedAs(TemplateArgs[1].getAsType(), "char_traits", A))
6137*12c85518Srobert return false;
6138*12c85518Srobert
6139*12c85518Srobert if (HasAllocator &&
6140*12c85518Srobert !isSpecializedAs(TemplateArgs[2].getAsType(), "allocator", A))
6141*12c85518Srobert return false;
6142*12c85518Srobert
6143*12c85518Srobert if (SD->getSpecializedTemplate()->getOwningModuleForLinkage())
6144e5dd7070Spatrick return false;
6145e5dd7070Spatrick
6146e5dd7070Spatrick return true;
6147e5dd7070Spatrick }
6148e5dd7070Spatrick
mangleStandardSubstitution(const NamedDecl * ND)6149e5dd7070Spatrick bool CXXNameMangler::mangleStandardSubstitution(const NamedDecl *ND) {
6150e5dd7070Spatrick // <substitution> ::= St # ::std::
6151e5dd7070Spatrick if (const NamespaceDecl *NS = dyn_cast<NamespaceDecl>(ND)) {
6152e5dd7070Spatrick if (isStd(NS)) {
6153e5dd7070Spatrick Out << "St";
6154e5dd7070Spatrick return true;
6155e5dd7070Spatrick }
6156*12c85518Srobert return false;
6157e5dd7070Spatrick }
6158e5dd7070Spatrick
6159e5dd7070Spatrick if (const ClassTemplateDecl *TD = dyn_cast<ClassTemplateDecl>(ND)) {
6160*12c85518Srobert if (!isStdNamespace(Context.getEffectiveDeclContext(TD)))
6161*12c85518Srobert return false;
6162*12c85518Srobert
6163*12c85518Srobert if (TD->getOwningModuleForLinkage())
6164e5dd7070Spatrick return false;
6165e5dd7070Spatrick
6166e5dd7070Spatrick // <substitution> ::= Sa # ::std::allocator
6167e5dd7070Spatrick if (TD->getIdentifier()->isStr("allocator")) {
6168e5dd7070Spatrick Out << "Sa";
6169e5dd7070Spatrick return true;
6170e5dd7070Spatrick }
6171e5dd7070Spatrick
6172e5dd7070Spatrick // <<substitution> ::= Sb # ::std::basic_string
6173e5dd7070Spatrick if (TD->getIdentifier()->isStr("basic_string")) {
6174e5dd7070Spatrick Out << "Sb";
6175e5dd7070Spatrick return true;
6176e5dd7070Spatrick }
6177*12c85518Srobert return false;
6178e5dd7070Spatrick }
6179e5dd7070Spatrick
6180e5dd7070Spatrick if (const ClassTemplateSpecializationDecl *SD =
6181e5dd7070Spatrick dyn_cast<ClassTemplateSpecializationDecl>(ND)) {
6182*12c85518Srobert if (!isStdNamespace(Context.getEffectiveDeclContext(SD)))
6183*12c85518Srobert return false;
6184*12c85518Srobert
6185*12c85518Srobert if (SD->getSpecializedTemplate()->getOwningModuleForLinkage())
6186e5dd7070Spatrick return false;
6187e5dd7070Spatrick
6188e5dd7070Spatrick // <substitution> ::= Ss # ::std::basic_string<char,
6189e5dd7070Spatrick // ::std::char_traits<char>,
6190e5dd7070Spatrick // ::std::allocator<char> >
6191*12c85518Srobert if (isStdCharSpecialization(SD, "basic_string", /*HasAllocator=*/true)) {
6192e5dd7070Spatrick Out << "Ss";
6193e5dd7070Spatrick return true;
6194e5dd7070Spatrick }
6195e5dd7070Spatrick
6196e5dd7070Spatrick // <substitution> ::= Si # ::std::basic_istream<char,
6197e5dd7070Spatrick // ::std::char_traits<char> >
6198*12c85518Srobert if (isStdCharSpecialization(SD, "basic_istream", /*HasAllocator=*/false)) {
6199e5dd7070Spatrick Out << "Si";
6200e5dd7070Spatrick return true;
6201e5dd7070Spatrick }
6202e5dd7070Spatrick
6203e5dd7070Spatrick // <substitution> ::= So # ::std::basic_ostream<char,
6204e5dd7070Spatrick // ::std::char_traits<char> >
6205*12c85518Srobert if (isStdCharSpecialization(SD, "basic_ostream", /*HasAllocator=*/false)) {
6206e5dd7070Spatrick Out << "So";
6207e5dd7070Spatrick return true;
6208e5dd7070Spatrick }
6209e5dd7070Spatrick
6210e5dd7070Spatrick // <substitution> ::= Sd # ::std::basic_iostream<char,
6211e5dd7070Spatrick // ::std::char_traits<char> >
6212*12c85518Srobert if (isStdCharSpecialization(SD, "basic_iostream", /*HasAllocator=*/false)) {
6213e5dd7070Spatrick Out << "Sd";
6214e5dd7070Spatrick return true;
6215e5dd7070Spatrick }
6216*12c85518Srobert return false;
6217e5dd7070Spatrick }
6218*12c85518Srobert
6219e5dd7070Spatrick return false;
6220e5dd7070Spatrick }
6221e5dd7070Spatrick
addSubstitution(QualType T)6222e5dd7070Spatrick void CXXNameMangler::addSubstitution(QualType T) {
6223e5dd7070Spatrick if (!hasMangledSubstitutionQualifiers(T)) {
6224e5dd7070Spatrick if (const RecordType *RT = T->getAs<RecordType>()) {
6225e5dd7070Spatrick addSubstitution(RT->getDecl());
6226e5dd7070Spatrick return;
6227e5dd7070Spatrick }
6228e5dd7070Spatrick }
6229e5dd7070Spatrick
6230e5dd7070Spatrick uintptr_t TypePtr = reinterpret_cast<uintptr_t>(T.getAsOpaquePtr());
6231e5dd7070Spatrick addSubstitution(TypePtr);
6232e5dd7070Spatrick }
6233e5dd7070Spatrick
addSubstitution(TemplateName Template)6234e5dd7070Spatrick void CXXNameMangler::addSubstitution(TemplateName Template) {
6235e5dd7070Spatrick if (TemplateDecl *TD = Template.getAsTemplateDecl())
6236e5dd7070Spatrick return addSubstitution(TD);
6237e5dd7070Spatrick
6238e5dd7070Spatrick Template = Context.getASTContext().getCanonicalTemplateName(Template);
6239e5dd7070Spatrick addSubstitution(reinterpret_cast<uintptr_t>(Template.getAsVoidPointer()));
6240e5dd7070Spatrick }
6241e5dd7070Spatrick
addSubstitution(uintptr_t Ptr)6242e5dd7070Spatrick void CXXNameMangler::addSubstitution(uintptr_t Ptr) {
6243e5dd7070Spatrick assert(!Substitutions.count(Ptr) && "Substitution already exists!");
6244e5dd7070Spatrick Substitutions[Ptr] = SeqID++;
6245e5dd7070Spatrick }
6246e5dd7070Spatrick
extendSubstitutions(CXXNameMangler * Other)6247e5dd7070Spatrick void CXXNameMangler::extendSubstitutions(CXXNameMangler* Other) {
6248e5dd7070Spatrick assert(Other->SeqID >= SeqID && "Must be superset of substitutions!");
6249e5dd7070Spatrick if (Other->SeqID > SeqID) {
6250e5dd7070Spatrick Substitutions.swap(Other->Substitutions);
6251e5dd7070Spatrick SeqID = Other->SeqID;
6252e5dd7070Spatrick }
6253e5dd7070Spatrick }
6254e5dd7070Spatrick
6255e5dd7070Spatrick CXXNameMangler::AbiTagList
makeFunctionReturnTypeTags(const FunctionDecl * FD)6256e5dd7070Spatrick CXXNameMangler::makeFunctionReturnTypeTags(const FunctionDecl *FD) {
6257e5dd7070Spatrick // When derived abi tags are disabled there is no need to make any list.
6258e5dd7070Spatrick if (DisableDerivedAbiTags)
6259e5dd7070Spatrick return AbiTagList();
6260e5dd7070Spatrick
6261e5dd7070Spatrick llvm::raw_null_ostream NullOutStream;
6262e5dd7070Spatrick CXXNameMangler TrackReturnTypeTags(*this, NullOutStream);
6263e5dd7070Spatrick TrackReturnTypeTags.disableDerivedAbiTags();
6264e5dd7070Spatrick
6265e5dd7070Spatrick const FunctionProtoType *Proto =
6266e5dd7070Spatrick cast<FunctionProtoType>(FD->getType()->getAs<FunctionType>());
6267e5dd7070Spatrick FunctionTypeDepthState saved = TrackReturnTypeTags.FunctionTypeDepth.push();
6268e5dd7070Spatrick TrackReturnTypeTags.FunctionTypeDepth.enterResultType();
6269e5dd7070Spatrick TrackReturnTypeTags.mangleType(Proto->getReturnType());
6270e5dd7070Spatrick TrackReturnTypeTags.FunctionTypeDepth.leaveResultType();
6271e5dd7070Spatrick TrackReturnTypeTags.FunctionTypeDepth.pop(saved);
6272e5dd7070Spatrick
6273e5dd7070Spatrick return TrackReturnTypeTags.AbiTagsRoot.getSortedUniqueUsedAbiTags();
6274e5dd7070Spatrick }
6275e5dd7070Spatrick
6276e5dd7070Spatrick CXXNameMangler::AbiTagList
makeVariableTypeTags(const VarDecl * VD)6277e5dd7070Spatrick CXXNameMangler::makeVariableTypeTags(const VarDecl *VD) {
6278e5dd7070Spatrick // When derived abi tags are disabled there is no need to make any list.
6279e5dd7070Spatrick if (DisableDerivedAbiTags)
6280e5dd7070Spatrick return AbiTagList();
6281e5dd7070Spatrick
6282e5dd7070Spatrick llvm::raw_null_ostream NullOutStream;
6283e5dd7070Spatrick CXXNameMangler TrackVariableType(*this, NullOutStream);
6284e5dd7070Spatrick TrackVariableType.disableDerivedAbiTags();
6285e5dd7070Spatrick
6286e5dd7070Spatrick TrackVariableType.mangleType(VD->getType());
6287e5dd7070Spatrick
6288e5dd7070Spatrick return TrackVariableType.AbiTagsRoot.getSortedUniqueUsedAbiTags();
6289e5dd7070Spatrick }
6290e5dd7070Spatrick
shouldHaveAbiTags(ItaniumMangleContextImpl & C,const VarDecl * VD)6291e5dd7070Spatrick bool CXXNameMangler::shouldHaveAbiTags(ItaniumMangleContextImpl &C,
6292e5dd7070Spatrick const VarDecl *VD) {
6293e5dd7070Spatrick llvm::raw_null_ostream NullOutStream;
6294e5dd7070Spatrick CXXNameMangler TrackAbiTags(C, NullOutStream, nullptr, true);
6295e5dd7070Spatrick TrackAbiTags.mangle(VD);
6296e5dd7070Spatrick return TrackAbiTags.AbiTagsRoot.getUsedAbiTags().size();
6297e5dd7070Spatrick }
6298e5dd7070Spatrick
6299e5dd7070Spatrick //
6300e5dd7070Spatrick
6301e5dd7070Spatrick /// Mangles the name of the declaration D and emits that name to the given
6302e5dd7070Spatrick /// output stream.
6303e5dd7070Spatrick ///
6304e5dd7070Spatrick /// If the declaration D requires a mangled name, this routine will emit that
6305e5dd7070Spatrick /// mangled name to \p os and return true. Otherwise, \p os will be unchanged
6306e5dd7070Spatrick /// and this routine will return false. In this case, the caller should just
6307e5dd7070Spatrick /// emit the identifier of the declaration (\c D->getIdentifier()) as its
6308e5dd7070Spatrick /// name.
mangleCXXName(GlobalDecl GD,raw_ostream & Out)6309ec727ea7Spatrick void ItaniumMangleContextImpl::mangleCXXName(GlobalDecl GD,
6310e5dd7070Spatrick raw_ostream &Out) {
6311ec727ea7Spatrick const NamedDecl *D = cast<NamedDecl>(GD.getDecl());
6312a9ac8606Spatrick assert((isa<FunctionDecl, VarDecl, TemplateParamObjectDecl>(D)) &&
6313e5dd7070Spatrick "Invalid mangleName() call, argument is not a variable or function!");
6314e5dd7070Spatrick
6315e5dd7070Spatrick PrettyStackTraceDecl CrashInfo(D, SourceLocation(),
6316e5dd7070Spatrick getASTContext().getSourceManager(),
6317e5dd7070Spatrick "Mangling declaration");
6318e5dd7070Spatrick
6319ec727ea7Spatrick if (auto *CD = dyn_cast<CXXConstructorDecl>(D)) {
6320ec727ea7Spatrick auto Type = GD.getCtorType();
6321ec727ea7Spatrick CXXNameMangler Mangler(*this, Out, CD, Type);
6322ec727ea7Spatrick return Mangler.mangle(GlobalDecl(CD, Type));
6323ec727ea7Spatrick }
6324ec727ea7Spatrick
6325ec727ea7Spatrick if (auto *DD = dyn_cast<CXXDestructorDecl>(D)) {
6326ec727ea7Spatrick auto Type = GD.getDtorType();
6327ec727ea7Spatrick CXXNameMangler Mangler(*this, Out, DD, Type);
6328ec727ea7Spatrick return Mangler.mangle(GlobalDecl(DD, Type));
6329ec727ea7Spatrick }
6330ec727ea7Spatrick
6331e5dd7070Spatrick CXXNameMangler Mangler(*this, Out, D);
6332ec727ea7Spatrick Mangler.mangle(GD);
6333e5dd7070Spatrick }
6334e5dd7070Spatrick
mangleCXXCtorComdat(const CXXConstructorDecl * D,raw_ostream & Out)6335e5dd7070Spatrick void ItaniumMangleContextImpl::mangleCXXCtorComdat(const CXXConstructorDecl *D,
6336e5dd7070Spatrick raw_ostream &Out) {
6337e5dd7070Spatrick CXXNameMangler Mangler(*this, Out, D, Ctor_Comdat);
6338ec727ea7Spatrick Mangler.mangle(GlobalDecl(D, Ctor_Comdat));
6339e5dd7070Spatrick }
6340e5dd7070Spatrick
mangleCXXDtorComdat(const CXXDestructorDecl * D,raw_ostream & Out)6341e5dd7070Spatrick void ItaniumMangleContextImpl::mangleCXXDtorComdat(const CXXDestructorDecl *D,
6342e5dd7070Spatrick raw_ostream &Out) {
6343e5dd7070Spatrick CXXNameMangler Mangler(*this, Out, D, Dtor_Comdat);
6344ec727ea7Spatrick Mangler.mangle(GlobalDecl(D, Dtor_Comdat));
6345e5dd7070Spatrick }
6346e5dd7070Spatrick
mangleThunk(const CXXMethodDecl * MD,const ThunkInfo & Thunk,raw_ostream & Out)6347e5dd7070Spatrick void ItaniumMangleContextImpl::mangleThunk(const CXXMethodDecl *MD,
6348e5dd7070Spatrick const ThunkInfo &Thunk,
6349e5dd7070Spatrick raw_ostream &Out) {
6350e5dd7070Spatrick // <special-name> ::= T <call-offset> <base encoding>
6351e5dd7070Spatrick // # base is the nominal target function of thunk
6352e5dd7070Spatrick // <special-name> ::= Tc <call-offset> <call-offset> <base encoding>
6353e5dd7070Spatrick // # base is the nominal target function of thunk
6354e5dd7070Spatrick // # first call-offset is 'this' adjustment
6355e5dd7070Spatrick // # second call-offset is result adjustment
6356e5dd7070Spatrick
6357e5dd7070Spatrick assert(!isa<CXXDestructorDecl>(MD) &&
6358e5dd7070Spatrick "Use mangleCXXDtor for destructor decls!");
6359e5dd7070Spatrick CXXNameMangler Mangler(*this, Out);
6360e5dd7070Spatrick Mangler.getStream() << "_ZT";
6361e5dd7070Spatrick if (!Thunk.Return.isEmpty())
6362e5dd7070Spatrick Mangler.getStream() << 'c';
6363e5dd7070Spatrick
6364e5dd7070Spatrick // Mangle the 'this' pointer adjustment.
6365e5dd7070Spatrick Mangler.mangleCallOffset(Thunk.This.NonVirtual,
6366e5dd7070Spatrick Thunk.This.Virtual.Itanium.VCallOffsetOffset);
6367e5dd7070Spatrick
6368e5dd7070Spatrick // Mangle the return pointer adjustment if there is one.
6369e5dd7070Spatrick if (!Thunk.Return.isEmpty())
6370e5dd7070Spatrick Mangler.mangleCallOffset(Thunk.Return.NonVirtual,
6371e5dd7070Spatrick Thunk.Return.Virtual.Itanium.VBaseOffsetOffset);
6372e5dd7070Spatrick
6373e5dd7070Spatrick Mangler.mangleFunctionEncoding(MD);
6374e5dd7070Spatrick }
6375e5dd7070Spatrick
mangleCXXDtorThunk(const CXXDestructorDecl * DD,CXXDtorType Type,const ThisAdjustment & ThisAdjustment,raw_ostream & Out)6376e5dd7070Spatrick void ItaniumMangleContextImpl::mangleCXXDtorThunk(
6377e5dd7070Spatrick const CXXDestructorDecl *DD, CXXDtorType Type,
6378e5dd7070Spatrick const ThisAdjustment &ThisAdjustment, raw_ostream &Out) {
6379e5dd7070Spatrick // <special-name> ::= T <call-offset> <base encoding>
6380e5dd7070Spatrick // # base is the nominal target function of thunk
6381e5dd7070Spatrick CXXNameMangler Mangler(*this, Out, DD, Type);
6382e5dd7070Spatrick Mangler.getStream() << "_ZT";
6383e5dd7070Spatrick
6384e5dd7070Spatrick // Mangle the 'this' pointer adjustment.
6385e5dd7070Spatrick Mangler.mangleCallOffset(ThisAdjustment.NonVirtual,
6386e5dd7070Spatrick ThisAdjustment.Virtual.Itanium.VCallOffsetOffset);
6387e5dd7070Spatrick
6388ec727ea7Spatrick Mangler.mangleFunctionEncoding(GlobalDecl(DD, Type));
6389e5dd7070Spatrick }
6390e5dd7070Spatrick
6391e5dd7070Spatrick /// Returns the mangled name for a guard variable for the passed in VarDecl.
mangleStaticGuardVariable(const VarDecl * D,raw_ostream & Out)6392e5dd7070Spatrick void ItaniumMangleContextImpl::mangleStaticGuardVariable(const VarDecl *D,
6393e5dd7070Spatrick raw_ostream &Out) {
6394e5dd7070Spatrick // <special-name> ::= GV <object name> # Guard variable for one-time
6395e5dd7070Spatrick // # initialization
6396e5dd7070Spatrick CXXNameMangler Mangler(*this, Out);
6397e5dd7070Spatrick // GCC 5.3.0 doesn't emit derived ABI tags for local names but that seems to
6398e5dd7070Spatrick // be a bug that is fixed in trunk.
6399e5dd7070Spatrick Mangler.getStream() << "_ZGV";
6400e5dd7070Spatrick Mangler.mangleName(D);
6401e5dd7070Spatrick }
6402e5dd7070Spatrick
mangleDynamicInitializer(const VarDecl * MD,raw_ostream & Out)6403e5dd7070Spatrick void ItaniumMangleContextImpl::mangleDynamicInitializer(const VarDecl *MD,
6404e5dd7070Spatrick raw_ostream &Out) {
6405e5dd7070Spatrick // These symbols are internal in the Itanium ABI, so the names don't matter.
6406e5dd7070Spatrick // Clang has traditionally used this symbol and allowed LLVM to adjust it to
6407e5dd7070Spatrick // avoid duplicate symbols.
6408e5dd7070Spatrick Out << "__cxx_global_var_init";
6409e5dd7070Spatrick }
6410e5dd7070Spatrick
mangleDynamicAtExitDestructor(const VarDecl * D,raw_ostream & Out)6411e5dd7070Spatrick void ItaniumMangleContextImpl::mangleDynamicAtExitDestructor(const VarDecl *D,
6412e5dd7070Spatrick raw_ostream &Out) {
6413e5dd7070Spatrick // Prefix the mangling of D with __dtor_.
6414e5dd7070Spatrick CXXNameMangler Mangler(*this, Out);
6415e5dd7070Spatrick Mangler.getStream() << "__dtor_";
6416e5dd7070Spatrick if (shouldMangleDeclName(D))
6417e5dd7070Spatrick Mangler.mangle(D);
6418e5dd7070Spatrick else
6419e5dd7070Spatrick Mangler.getStream() << D->getName();
6420e5dd7070Spatrick }
6421e5dd7070Spatrick
mangleDynamicStermFinalizer(const VarDecl * D,raw_ostream & Out)6422ec727ea7Spatrick void ItaniumMangleContextImpl::mangleDynamicStermFinalizer(const VarDecl *D,
6423ec727ea7Spatrick raw_ostream &Out) {
6424ec727ea7Spatrick // Clang generates these internal-linkage functions as part of its
6425ec727ea7Spatrick // implementation of the XL ABI.
6426ec727ea7Spatrick CXXNameMangler Mangler(*this, Out);
6427ec727ea7Spatrick Mangler.getStream() << "__finalize_";
6428ec727ea7Spatrick if (shouldMangleDeclName(D))
6429ec727ea7Spatrick Mangler.mangle(D);
6430ec727ea7Spatrick else
6431ec727ea7Spatrick Mangler.getStream() << D->getName();
6432ec727ea7Spatrick }
6433ec727ea7Spatrick
mangleSEHFilterExpression(GlobalDecl EnclosingDecl,raw_ostream & Out)6434e5dd7070Spatrick void ItaniumMangleContextImpl::mangleSEHFilterExpression(
6435*12c85518Srobert GlobalDecl EnclosingDecl, raw_ostream &Out) {
6436e5dd7070Spatrick CXXNameMangler Mangler(*this, Out);
6437e5dd7070Spatrick Mangler.getStream() << "__filt_";
6438*12c85518Srobert auto *EnclosingFD = cast<FunctionDecl>(EnclosingDecl.getDecl());
6439*12c85518Srobert if (shouldMangleDeclName(EnclosingFD))
6440e5dd7070Spatrick Mangler.mangle(EnclosingDecl);
6441e5dd7070Spatrick else
6442*12c85518Srobert Mangler.getStream() << EnclosingFD->getName();
6443e5dd7070Spatrick }
6444e5dd7070Spatrick
mangleSEHFinallyBlock(GlobalDecl EnclosingDecl,raw_ostream & Out)6445e5dd7070Spatrick void ItaniumMangleContextImpl::mangleSEHFinallyBlock(
6446*12c85518Srobert GlobalDecl EnclosingDecl, raw_ostream &Out) {
6447e5dd7070Spatrick CXXNameMangler Mangler(*this, Out);
6448e5dd7070Spatrick Mangler.getStream() << "__fin_";
6449*12c85518Srobert auto *EnclosingFD = cast<FunctionDecl>(EnclosingDecl.getDecl());
6450*12c85518Srobert if (shouldMangleDeclName(EnclosingFD))
6451e5dd7070Spatrick Mangler.mangle(EnclosingDecl);
6452e5dd7070Spatrick else
6453*12c85518Srobert Mangler.getStream() << EnclosingFD->getName();
6454e5dd7070Spatrick }
6455e5dd7070Spatrick
mangleItaniumThreadLocalInit(const VarDecl * D,raw_ostream & Out)6456e5dd7070Spatrick void ItaniumMangleContextImpl::mangleItaniumThreadLocalInit(const VarDecl *D,
6457e5dd7070Spatrick raw_ostream &Out) {
6458e5dd7070Spatrick // <special-name> ::= TH <object name>
6459e5dd7070Spatrick CXXNameMangler Mangler(*this, Out);
6460e5dd7070Spatrick Mangler.getStream() << "_ZTH";
6461e5dd7070Spatrick Mangler.mangleName(D);
6462e5dd7070Spatrick }
6463e5dd7070Spatrick
6464e5dd7070Spatrick void
mangleItaniumThreadLocalWrapper(const VarDecl * D,raw_ostream & Out)6465e5dd7070Spatrick ItaniumMangleContextImpl::mangleItaniumThreadLocalWrapper(const VarDecl *D,
6466e5dd7070Spatrick raw_ostream &Out) {
6467e5dd7070Spatrick // <special-name> ::= TW <object name>
6468e5dd7070Spatrick CXXNameMangler Mangler(*this, Out);
6469e5dd7070Spatrick Mangler.getStream() << "_ZTW";
6470e5dd7070Spatrick Mangler.mangleName(D);
6471e5dd7070Spatrick }
6472e5dd7070Spatrick
mangleReferenceTemporary(const VarDecl * D,unsigned ManglingNumber,raw_ostream & Out)6473e5dd7070Spatrick void ItaniumMangleContextImpl::mangleReferenceTemporary(const VarDecl *D,
6474e5dd7070Spatrick unsigned ManglingNumber,
6475e5dd7070Spatrick raw_ostream &Out) {
6476e5dd7070Spatrick // We match the GCC mangling here.
6477e5dd7070Spatrick // <special-name> ::= GR <object name>
6478e5dd7070Spatrick CXXNameMangler Mangler(*this, Out);
6479e5dd7070Spatrick Mangler.getStream() << "_ZGR";
6480e5dd7070Spatrick Mangler.mangleName(D);
6481e5dd7070Spatrick assert(ManglingNumber > 0 && "Reference temporary mangling number is zero!");
6482e5dd7070Spatrick Mangler.mangleSeqID(ManglingNumber - 1);
6483e5dd7070Spatrick }
6484e5dd7070Spatrick
mangleCXXVTable(const CXXRecordDecl * RD,raw_ostream & Out)6485e5dd7070Spatrick void ItaniumMangleContextImpl::mangleCXXVTable(const CXXRecordDecl *RD,
6486e5dd7070Spatrick raw_ostream &Out) {
6487e5dd7070Spatrick // <special-name> ::= TV <type> # virtual table
6488e5dd7070Spatrick CXXNameMangler Mangler(*this, Out);
6489e5dd7070Spatrick Mangler.getStream() << "_ZTV";
6490e5dd7070Spatrick Mangler.mangleNameOrStandardSubstitution(RD);
6491e5dd7070Spatrick }
6492e5dd7070Spatrick
mangleCXXVTT(const CXXRecordDecl * RD,raw_ostream & Out)6493e5dd7070Spatrick void ItaniumMangleContextImpl::mangleCXXVTT(const CXXRecordDecl *RD,
6494e5dd7070Spatrick raw_ostream &Out) {
6495e5dd7070Spatrick // <special-name> ::= TT <type> # VTT structure
6496e5dd7070Spatrick CXXNameMangler Mangler(*this, Out);
6497e5dd7070Spatrick Mangler.getStream() << "_ZTT";
6498e5dd7070Spatrick Mangler.mangleNameOrStandardSubstitution(RD);
6499e5dd7070Spatrick }
6500e5dd7070Spatrick
mangleCXXCtorVTable(const CXXRecordDecl * RD,int64_t Offset,const CXXRecordDecl * Type,raw_ostream & Out)6501e5dd7070Spatrick void ItaniumMangleContextImpl::mangleCXXCtorVTable(const CXXRecordDecl *RD,
6502e5dd7070Spatrick int64_t Offset,
6503e5dd7070Spatrick const CXXRecordDecl *Type,
6504e5dd7070Spatrick raw_ostream &Out) {
6505e5dd7070Spatrick // <special-name> ::= TC <type> <offset number> _ <base type>
6506e5dd7070Spatrick CXXNameMangler Mangler(*this, Out);
6507e5dd7070Spatrick Mangler.getStream() << "_ZTC";
6508e5dd7070Spatrick Mangler.mangleNameOrStandardSubstitution(RD);
6509e5dd7070Spatrick Mangler.getStream() << Offset;
6510e5dd7070Spatrick Mangler.getStream() << '_';
6511e5dd7070Spatrick Mangler.mangleNameOrStandardSubstitution(Type);
6512e5dd7070Spatrick }
6513e5dd7070Spatrick
mangleCXXRTTI(QualType Ty,raw_ostream & Out)6514e5dd7070Spatrick void ItaniumMangleContextImpl::mangleCXXRTTI(QualType Ty, raw_ostream &Out) {
6515e5dd7070Spatrick // <special-name> ::= TI <type> # typeinfo structure
6516e5dd7070Spatrick assert(!Ty.hasQualifiers() && "RTTI info cannot have top-level qualifiers");
6517e5dd7070Spatrick CXXNameMangler Mangler(*this, Out);
6518e5dd7070Spatrick Mangler.getStream() << "_ZTI";
6519e5dd7070Spatrick Mangler.mangleType(Ty);
6520e5dd7070Spatrick }
6521e5dd7070Spatrick
mangleCXXRTTIName(QualType Ty,raw_ostream & Out)6522e5dd7070Spatrick void ItaniumMangleContextImpl::mangleCXXRTTIName(QualType Ty,
6523e5dd7070Spatrick raw_ostream &Out) {
6524e5dd7070Spatrick // <special-name> ::= TS <type> # typeinfo name (null terminated byte string)
6525e5dd7070Spatrick CXXNameMangler Mangler(*this, Out);
6526e5dd7070Spatrick Mangler.getStream() << "_ZTS";
6527e5dd7070Spatrick Mangler.mangleType(Ty);
6528e5dd7070Spatrick }
6529e5dd7070Spatrick
mangleTypeName(QualType Ty,raw_ostream & Out)6530e5dd7070Spatrick void ItaniumMangleContextImpl::mangleTypeName(QualType Ty, raw_ostream &Out) {
6531e5dd7070Spatrick mangleCXXRTTIName(Ty, Out);
6532e5dd7070Spatrick }
6533e5dd7070Spatrick
mangleStringLiteral(const StringLiteral *,raw_ostream &)6534e5dd7070Spatrick void ItaniumMangleContextImpl::mangleStringLiteral(const StringLiteral *, raw_ostream &) {
6535e5dd7070Spatrick llvm_unreachable("Can't mangle string literals");
6536e5dd7070Spatrick }
6537e5dd7070Spatrick
mangleLambdaSig(const CXXRecordDecl * Lambda,raw_ostream & Out)6538e5dd7070Spatrick void ItaniumMangleContextImpl::mangleLambdaSig(const CXXRecordDecl *Lambda,
6539e5dd7070Spatrick raw_ostream &Out) {
6540e5dd7070Spatrick CXXNameMangler Mangler(*this, Out);
6541e5dd7070Spatrick Mangler.mangleLambdaSig(Lambda);
6542e5dd7070Spatrick }
6543e5dd7070Spatrick
mangleModuleInitializer(const Module * M,raw_ostream & Out)6544*12c85518Srobert void ItaniumMangleContextImpl::mangleModuleInitializer(const Module *M,
6545*12c85518Srobert raw_ostream &Out) {
6546*12c85518Srobert // <special-name> ::= GI <module-name> # module initializer function
6547*12c85518Srobert CXXNameMangler Mangler(*this, Out);
6548*12c85518Srobert Mangler.getStream() << "_ZGI";
6549*12c85518Srobert Mangler.mangleModuleNamePrefix(M->getPrimaryModuleInterfaceName());
6550*12c85518Srobert if (M->isModulePartition()) {
6551*12c85518Srobert // The partition needs including, as partitions can have them too.
6552*12c85518Srobert auto Partition = M->Name.find(':');
6553*12c85518Srobert Mangler.mangleModuleNamePrefix(
6554*12c85518Srobert StringRef(&M->Name[Partition + 1], M->Name.size() - Partition - 1),
6555*12c85518Srobert /*IsPartition*/ true);
6556*12c85518Srobert }
6557*12c85518Srobert }
6558*12c85518Srobert
create(ASTContext & Context,DiagnosticsEngine & Diags,bool IsAux)6559ec727ea7Spatrick ItaniumMangleContext *ItaniumMangleContext::create(ASTContext &Context,
6560*12c85518Srobert DiagnosticsEngine &Diags,
6561*12c85518Srobert bool IsAux) {
6562a9ac8606Spatrick return new ItaniumMangleContextImpl(
6563a9ac8606Spatrick Context, Diags,
6564*12c85518Srobert [](ASTContext &, const NamedDecl *) -> std::optional<unsigned> {
6565*12c85518Srobert return std::nullopt;
6566*12c85518Srobert },
6567*12c85518Srobert IsAux);
6568a9ac8606Spatrick }
6569a9ac8606Spatrick
6570a9ac8606Spatrick ItaniumMangleContext *
create(ASTContext & Context,DiagnosticsEngine & Diags,DiscriminatorOverrideTy DiscriminatorOverride,bool IsAux)6571a9ac8606Spatrick ItaniumMangleContext::create(ASTContext &Context, DiagnosticsEngine &Diags,
6572*12c85518Srobert DiscriminatorOverrideTy DiscriminatorOverride,
6573*12c85518Srobert bool IsAux) {
6574*12c85518Srobert return new ItaniumMangleContextImpl(Context, Diags, DiscriminatorOverride,
6575*12c85518Srobert IsAux);
6576e5dd7070Spatrick }
6577