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diff --git a/clang/lib/AST/MicrosoftMangle.cpp b/clang/lib/AST/MicrosoftMangle.cpp
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+//===--- MicrosoftMangle.cpp - Microsoft Visual C++ Name Mangling ---------===//
+//
+// The LLVM Compiler Infrastructure
+//
+// This file is distributed under the University of Illinois Open Source
+// License. See LICENSE.TXT for details.
+//
+//===----------------------------------------------------------------------===//
+//
+// This provides C++ name mangling targeting the Microsoft Visual C++ ABI.
+//
+//===----------------------------------------------------------------------===//
+
+#include "clang/AST/Mangle.h"
+#include "clang/AST/ASTContext.h"
+#include "clang/AST/CharUnits.h"
+#include "clang/AST/Decl.h"
+#include "clang/AST/DeclCXX.h"
+#include "clang/AST/DeclObjC.h"
+#include "clang/AST/DeclTemplate.h"
+#include "clang/AST/ExprCXX.h"
+#include "clang/Basic/ABI.h"
+
+using namespace clang;
+
+namespace {
+
+/// MicrosoftCXXNameMangler - Manage the mangling of a single name for the
+/// Microsoft Visual C++ ABI.
+class MicrosoftCXXNameMangler {
+ MangleContext &Context;
+ raw_ostream &Out;
+
+ ASTContext &getASTContext() const { return Context.getASTContext(); }
+
+public:
+ MicrosoftCXXNameMangler(MangleContext &C, raw_ostream &Out_)
+ : Context(C), Out(Out_) { }
+
+ void mangle(const NamedDecl *D, StringRef Prefix = "?");
+ void mangleName(const NamedDecl *ND);
+ void mangleFunctionEncoding(const FunctionDecl *FD);
+ void mangleVariableEncoding(const VarDecl *VD);
+ void mangleNumber(int64_t Number);
+ void mangleType(QualType T);
+
+private:
+ void mangleUnqualifiedName(const NamedDecl *ND) {
+ mangleUnqualifiedName(ND, ND->getDeclName());
+ }
+ void mangleUnqualifiedName(const NamedDecl *ND, DeclarationName Name);
+ void mangleSourceName(const IdentifierInfo *II);
+ void manglePostfix(const DeclContext *DC, bool NoFunction=false);
+ void mangleOperatorName(OverloadedOperatorKind OO);
+ void mangleQualifiers(Qualifiers Quals, bool IsMember);
+
+ void mangleObjCMethodName(const ObjCMethodDecl *MD);
+
+ // Declare manglers for every type class.
+#define ABSTRACT_TYPE(CLASS, PARENT)
+#define NON_CANONICAL_TYPE(CLASS, PARENT)
+#define TYPE(CLASS, PARENT) void mangleType(const CLASS##Type *T);
+#include "clang/AST/TypeNodes.def"
+
+ void mangleType(const TagType*);
+ void mangleType(const FunctionType *T, const FunctionDecl *D,
+ bool IsStructor, bool IsInstMethod);
+ void mangleType(const ArrayType *T, bool IsGlobal);
+ void mangleExtraDimensions(QualType T);
+ void mangleFunctionClass(const FunctionDecl *FD);
+ void mangleCallingConvention(const FunctionType *T, bool IsInstMethod = false);
+ void mangleThrowSpecification(const FunctionProtoType *T);
+
+};
+
+/// MicrosoftMangleContext - Overrides the default MangleContext for the
+/// Microsoft Visual C++ ABI.
+class MicrosoftMangleContext : public MangleContext {
+public:
+ MicrosoftMangleContext(ASTContext &Context,
+ DiagnosticsEngine &Diags) : MangleContext(Context, Diags) { }
+ virtual bool shouldMangleDeclName(const NamedDecl *D);
+ virtual void mangleName(const NamedDecl *D, raw_ostream &Out);
+ virtual void mangleThunk(const CXXMethodDecl *MD,
+ const ThunkInfo &Thunk,
+ raw_ostream &);
+ virtual void mangleCXXDtorThunk(const CXXDestructorDecl *DD, CXXDtorType Type,
+ const ThisAdjustment &ThisAdjustment,
+ raw_ostream &);
+ virtual void mangleCXXVTable(const CXXRecordDecl *RD,
+ raw_ostream &);
+ virtual void mangleCXXVTT(const CXXRecordDecl *RD,
+ raw_ostream &);
+ virtual void mangleCXXCtorVTable(const CXXRecordDecl *RD, int64_t Offset,
+ const CXXRecordDecl *Type,
+ raw_ostream &);
+ virtual void mangleCXXRTTI(QualType T, raw_ostream &);
+ virtual void mangleCXXRTTIName(QualType T, raw_ostream &);
+ virtual void mangleCXXCtor(const CXXConstructorDecl *D, CXXCtorType Type,
+ raw_ostream &);
+ virtual void mangleCXXDtor(const CXXDestructorDecl *D, CXXDtorType Type,
+ raw_ostream &);
+ virtual void mangleReferenceTemporary(const clang::VarDecl *,
+ raw_ostream &);
+};
+
+}
+
+static bool isInCLinkageSpecification(const Decl *D) {
+ D = D->getCanonicalDecl();
+ for (const DeclContext *DC = D->getDeclContext();
+ !DC->isTranslationUnit(); DC = DC->getParent()) {
+ if (const LinkageSpecDecl *Linkage = dyn_cast<LinkageSpecDecl>(DC))
+ return Linkage->getLanguage() == LinkageSpecDecl::lang_c;
+ }
+
+ return false;
+}
+
+bool MicrosoftMangleContext::shouldMangleDeclName(const NamedDecl *D) {
+ // In C, functions with no attributes never need to be mangled. Fastpath them.
+ if (!getASTContext().getLangOpts().CPlusPlus && !D->hasAttrs())
+ return false;
+
+ // Any decl can be declared with __asm("foo") on it, and this takes precedence
+ // over all other naming in the .o file.
+ if (D->hasAttr<AsmLabelAttr>())
+ return true;
+
+ // Clang's "overloadable" attribute extension to C/C++ implies name mangling
+ // (always) as does passing a C++ member function and a function
+ // whose name is not a simple identifier.
+ const FunctionDecl *FD = dyn_cast<FunctionDecl>(D);
+ if (FD && (FD->hasAttr<OverloadableAttr>() || isa<CXXMethodDecl>(FD) ||
+ !FD->getDeclName().isIdentifier()))
+ return true;
+
+ // Otherwise, no mangling is done outside C++ mode.
+ if (!getASTContext().getLangOpts().CPlusPlus)
+ return false;
+
+ // Variables at global scope with internal linkage are not mangled.
+ if (!FD) {
+ const DeclContext *DC = D->getDeclContext();
+ if (DC->isTranslationUnit() && D->getLinkage() == InternalLinkage)
+ return false;
+ }
+
+ // C functions and "main" are not mangled.
+ if ((FD && FD->isMain()) || isInCLinkageSpecification(D))
+ return false;
+
+ return true;
+}
+
+void MicrosoftCXXNameMangler::mangle(const NamedDecl *D,
+ StringRef Prefix) {
+ // MSVC doesn't mangle C++ names the same way it mangles extern "C" names.
+ // Therefore it's really important that we don't decorate the
+ // name with leading underscores or leading/trailing at signs. So, emit a
+ // asm marker at the start so we get the name right.
+ Out << '\01'; // LLVM IR Marker for __asm("foo")
+
+ // Any decl can be declared with __asm("foo") on it, and this takes precedence
+ // over all other naming in the .o file.
+ if (const AsmLabelAttr *ALA = D->getAttr<AsmLabelAttr>()) {
+ // If we have an asm name, then we use it as the mangling.
+ Out << ALA->getLabel();
+ return;
+ }
+
+ // <mangled-name> ::= ? <name> <type-encoding>
+ Out << Prefix;
+ mangleName(D);
+ if (const FunctionDecl *FD = dyn_cast<FunctionDecl>(D))
+ mangleFunctionEncoding(FD);
+ else if (const VarDecl *VD = dyn_cast<VarDecl>(D))
+ mangleVariableEncoding(VD);
+ // TODO: Fields? Can MSVC even mangle them?
+}
+
+void MicrosoftCXXNameMangler::mangleFunctionEncoding(const FunctionDecl *FD) {
+ // <type-encoding> ::= <function-class> <function-type>
+
+ // Don't mangle in the type if this isn't a decl we should typically mangle.
+ if (!Context.shouldMangleDeclName(FD))
+ return;
+
+ // We should never ever see a FunctionNoProtoType at this point.
+ // We don't even know how to mangle their types anyway :).
+ const FunctionProtoType *FT = cast<FunctionProtoType>(FD->getType());
+
+ bool InStructor = false, InInstMethod = false;
+ const CXXMethodDecl *MD = dyn_cast<CXXMethodDecl>(FD);
+ if (MD) {
+ if (MD->isInstance())
+ InInstMethod = true;
+ if (isa<CXXConstructorDecl>(MD) || isa<CXXDestructorDecl>(MD))
+ InStructor = true;
+ }
+
+ // First, the function class.
+ mangleFunctionClass(FD);
+
+ mangleType(FT, FD, InStructor, InInstMethod);
+}
+
+void MicrosoftCXXNameMangler::mangleVariableEncoding(const VarDecl *VD) {
+ // <type-encoding> ::= <storage-class> <variable-type>
+ // <storage-class> ::= 0 # private static member
+ // ::= 1 # protected static member
+ // ::= 2 # public static member
+ // ::= 3 # global
+ // ::= 4 # static local
+
+ // The first character in the encoding (after the name) is the storage class.
+ if (VD->isStaticDataMember()) {
+ // If it's a static member, it also encodes the access level.
+ switch (VD->getAccess()) {
+ default:
+ case AS_private: Out << '0'; break;
+ case AS_protected: Out << '1'; break;
+ case AS_public: Out << '2'; break;
+ }
+ }
+ else if (!VD->isStaticLocal())
+ Out << '3';
+ else
+ Out << '4';
+ // Now mangle the type.
+ // <variable-type> ::= <type> <cvr-qualifiers>
+ // ::= <type> A # pointers, references, arrays
+ // Pointers and references are odd. The type of 'int * const foo;' gets
+ // mangled as 'QAHA' instead of 'PAHB', for example.
+ QualType Ty = VD->getType();
+ if (Ty->isPointerType() || Ty->isReferenceType()) {
+ mangleType(Ty);
+ Out << 'A';
+ } else if (Ty->isArrayType()) {
+ // Global arrays are funny, too.
+ mangleType(cast<ArrayType>(Ty.getTypePtr()), true);
+ Out << 'A';
+ } else {
+ mangleType(Ty.getLocalUnqualifiedType());
+ mangleQualifiers(Ty.getLocalQualifiers(), false);
+ }
+}
+
+void MicrosoftCXXNameMangler::mangleName(const NamedDecl *ND) {
+ // <name> ::= <unscoped-name> {[<named-scope>]+ | [<nested-name>]}? @
+ const DeclContext *DC = ND->getDeclContext();
+
+ // Always start with the unqualified name.
+ mangleUnqualifiedName(ND);
+
+ // If this is an extern variable declared locally, the relevant DeclContext
+ // is that of the containing namespace, or the translation unit.
+ if (isa<FunctionDecl>(DC) && ND->hasLinkage())
+ while (!DC->isNamespace() && !DC->isTranslationUnit())
+ DC = DC->getParent();
+
+ manglePostfix(DC);
+
+ // Terminate the whole name with an '@'.
+ Out << '@';
+}
+
+void MicrosoftCXXNameMangler::mangleNumber(int64_t Number) {
+ // <number> ::= [?] <decimal digit> # <= 9
+ // ::= [?] <hex digit>+ @ # > 9; A = 0, B = 1, etc...
+ if (Number < 0) {
+ Out << '?';
+ Number = -Number;
+ }
+ if (Number >= 1 && Number <= 10) {
+ Out << Number-1;
+ } else {
+ // We have to build up the encoding in reverse order, so it will come
+ // out right when we write it out.
+ char Encoding[16];
+ char *EndPtr = Encoding+sizeof(Encoding);
+ char *CurPtr = EndPtr;
+ while (Number) {
+ *--CurPtr = 'A' + (Number % 16);
+ Number /= 16;
+ }
+ Out.write(CurPtr, EndPtr-CurPtr);
+ Out << '@';
+ }
+}
+
+void
+MicrosoftCXXNameMangler::mangleUnqualifiedName(const NamedDecl *ND,
+ DeclarationName Name) {
+ // <unqualified-name> ::= <operator-name>
+ // ::= <ctor-dtor-name>
+ // ::= <source-name>
+ switch (Name.getNameKind()) {
+ case DeclarationName::Identifier: {
+ if (const IdentifierInfo *II = Name.getAsIdentifierInfo()) {
+ mangleSourceName(II);
+ break;
+ }
+
+ // Otherwise, an anonymous entity. We must have a declaration.
+ assert(ND && "mangling empty name without declaration");
+
+ if (const NamespaceDecl *NS = dyn_cast<NamespaceDecl>(ND)) {
+ if (NS->isAnonymousNamespace()) {
+ Out << "?A";
+ break;
+ }
+ }
+
+ // We must have an anonymous struct.
+ const TagDecl *TD = cast<TagDecl>(ND);
+ if (const TypedefNameDecl *D = TD->getTypedefNameForAnonDecl()) {
+ assert(TD->getDeclContext() == D->getDeclContext() &&
+ "Typedef should not be in another decl context!");
+ assert(D->getDeclName().getAsIdentifierInfo() &&
+ "Typedef was not named!");
+ mangleSourceName(D->getDeclName().getAsIdentifierInfo());
+ break;
+ }
+
+ // When VC encounters an anonymous type with no tag and no typedef,
+ // it literally emits '<unnamed-tag>'.
+ Out << "<unnamed-tag>";
+ break;
+ }
+
+ case DeclarationName::ObjCZeroArgSelector:
+ case DeclarationName::ObjCOneArgSelector:
+ case DeclarationName::ObjCMultiArgSelector:
+ llvm_unreachable("Can't mangle Objective-C selector names here!");
+
+ case DeclarationName::CXXConstructorName:
+ Out << "?0";
+ break;
+
+ case DeclarationName::CXXDestructorName:
+ Out << "?1";
+ break;
+
+ case DeclarationName::CXXConversionFunctionName:
+ // <operator-name> ::= ?B # (cast)
+ // The target type is encoded as the return type.
+ Out << "?B";
+ break;
+
+ case DeclarationName::CXXOperatorName:
+ mangleOperatorName(Name.getCXXOverloadedOperator());
+ break;
+
+ case DeclarationName::CXXLiteralOperatorName:
+ // FIXME: Was this added in VS2010? Does MS even know how to mangle this?
+ llvm_unreachable("Don't know how to mangle literal operators yet!");
+
+ case DeclarationName::CXXUsingDirective:
+ llvm_unreachable("Can't mangle a using directive name!");
+ }
+}
+
+void MicrosoftCXXNameMangler::manglePostfix(const DeclContext *DC,
+ bool NoFunction) {
+ // <postfix> ::= <unqualified-name> [<postfix>]
+ // ::= <template-postfix> <template-args> [<postfix>]
+ // ::= <template-param>
+ // ::= <substitution> [<postfix>]
+
+ if (!DC) return;
+
+ while (isa<LinkageSpecDecl>(DC))
+ DC = DC->getParent();
+
+ if (DC->isTranslationUnit())
+ return;
+
+ if (const BlockDecl *BD = dyn_cast<BlockDecl>(DC)) {
+ Context.mangleBlock(BD, Out);
+ Out << '@';
+ return manglePostfix(DC->getParent(), NoFunction);
+ }
+
+ if (NoFunction && (isa<FunctionDecl>(DC) || isa<ObjCMethodDecl>(DC)))
+ return;
+ else if (const ObjCMethodDecl *Method = dyn_cast<ObjCMethodDecl>(DC))
+ mangleObjCMethodName(Method);
+ else {
+ mangleUnqualifiedName(cast<NamedDecl>(DC));
+ manglePostfix(DC->getParent(), NoFunction);
+ }
+}
+
+void MicrosoftCXXNameMangler::mangleOperatorName(OverloadedOperatorKind OO) {
+ switch (OO) {
+ // ?0 # constructor
+ // ?1 # destructor
+ // <operator-name> ::= ?2 # new
+ case OO_New: Out << "?2"; break;
+ // <operator-name> ::= ?3 # delete
+ case OO_Delete: Out << "?3"; break;
+ // <operator-name> ::= ?4 # =
+ case OO_Equal: Out << "?4"; break;
+ // <operator-name> ::= ?5 # >>
+ case OO_GreaterGreater: Out << "?5"; break;
+ // <operator-name> ::= ?6 # <<
+ case OO_LessLess: Out << "?6"; break;
+ // <operator-name> ::= ?7 # !
+ case OO_Exclaim: Out << "?7"; break;
+ // <operator-name> ::= ?8 # ==
+ case OO_EqualEqual: Out << "?8"; break;
+ // <operator-name> ::= ?9 # !=
+ case OO_ExclaimEqual: Out << "?9"; break;
+ // <operator-name> ::= ?A # []
+ case OO_Subscript: Out << "?A"; break;
+ // ?B # conversion
+ // <operator-name> ::= ?C # ->
+ case OO_Arrow: Out << "?C"; break;
+ // <operator-name> ::= ?D # *
+ case OO_Star: Out << "?D"; break;
+ // <operator-name> ::= ?E # ++
+ case OO_PlusPlus: Out << "?E"; break;
+ // <operator-name> ::= ?F # --
+ case OO_MinusMinus: Out << "?F"; break;
+ // <operator-name> ::= ?G # -
+ case OO_Minus: Out << "?G"; break;
+ // <operator-name> ::= ?H # +
+ case OO_Plus: Out << "?H"; break;
+ // <operator-name> ::= ?I # &
+ case OO_Amp: Out << "?I"; break;
+ // <operator-name> ::= ?J # ->*
+ case OO_ArrowStar: Out << "?J"; break;
+ // <operator-name> ::= ?K # /
+ case OO_Slash: Out << "?K"; break;
+ // <operator-name> ::= ?L # %
+ case OO_Percent: Out << "?L"; break;
+ // <operator-name> ::= ?M # <
+ case OO_Less: Out << "?M"; break;
+ // <operator-name> ::= ?N # <=
+ case OO_LessEqual: Out << "?N"; break;
+ // <operator-name> ::= ?O # >
+ case OO_Greater: Out << "?O"; break;
+ // <operator-name> ::= ?P # >=
+ case OO_GreaterEqual: Out << "?P"; break;
+ // <operator-name> ::= ?Q # ,
+ case OO_Comma: Out << "?Q"; break;
+ // <operator-name> ::= ?R # ()
+ case OO_Call: Out << "?R"; break;
+ // <operator-name> ::= ?S # ~
+ case OO_Tilde: Out << "?S"; break;
+ // <operator-name> ::= ?T # ^
+ case OO_Caret: Out << "?T"; break;
+ // <operator-name> ::= ?U # |
+ case OO_Pipe: Out << "?U"; break;
+ // <operator-name> ::= ?V # &&
+ case OO_AmpAmp: Out << "?V"; break;
+ // <operator-name> ::= ?W # ||
+ case OO_PipePipe: Out << "?W"; break;
+ // <operator-name> ::= ?X # *=
+ case OO_StarEqual: Out << "?X"; break;
+ // <operator-name> ::= ?Y # +=
+ case OO_PlusEqual: Out << "?Y"; break;
+ // <operator-name> ::= ?Z # -=
+ case OO_MinusEqual: Out << "?Z"; break;
+ // <operator-name> ::= ?_0 # /=
+ case OO_SlashEqual: Out << "?_0"; break;
+ // <operator-name> ::= ?_1 # %=
+ case OO_PercentEqual: Out << "?_1"; break;
+ // <operator-name> ::= ?_2 # >>=
+ case OO_GreaterGreaterEqual: Out << "?_2"; break;
+ // <operator-name> ::= ?_3 # <<=
+ case OO_LessLessEqual: Out << "?_3"; break;
+ // <operator-name> ::= ?_4 # &=
+ case OO_AmpEqual: Out << "?_4"; break;
+ // <operator-name> ::= ?_5 # |=
+ case OO_PipeEqual: Out << "?_5"; break;
+ // <operator-name> ::= ?_6 # ^=
+ case OO_CaretEqual: Out << "?_6"; break;
+ // ?_7 # vftable
+ // ?_8 # vbtable
+ // ?_9 # vcall
+ // ?_A # typeof
+ // ?_B # local static guard
+ // ?_C # string
+ // ?_D # vbase destructor
+ // ?_E # vector deleting destructor
+ // ?_F # default constructor closure
+ // ?_G # scalar deleting destructor
+ // ?_H # vector constructor iterator
+ // ?_I # vector destructor iterator
+ // ?_J # vector vbase constructor iterator
+ // ?_K # virtual displacement map
+ // ?_L # eh vector constructor iterator
+ // ?_M # eh vector destructor iterator
+ // ?_N # eh vector vbase constructor iterator
+ // ?_O # copy constructor closure
+ // ?_P<name> # udt returning <name>
+ // ?_Q # <unknown>
+ // ?_R0 # RTTI Type Descriptor
+ // ?_R1 # RTTI Base Class Descriptor at (a,b,c,d)
+ // ?_R2 # RTTI Base Class Array
+ // ?_R3 # RTTI Class Hierarchy Descriptor
+ // ?_R4 # RTTI Complete Object Locator
+ // ?_S # local vftable
+ // ?_T # local vftable constructor closure
+ // <operator-name> ::= ?_U # new[]
+ case OO_Array_New: Out << "?_U"; break;
+ // <operator-name> ::= ?_V # delete[]
+ case OO_Array_Delete: Out << "?_V"; break;
+
+ case OO_Conditional:
+ llvm_unreachable("Don't know how to mangle ?:");
+
+ case OO_None:
+ case NUM_OVERLOADED_OPERATORS:
+ llvm_unreachable("Not an overloaded operator");
+ }
+}
+
+void MicrosoftCXXNameMangler::mangleSourceName(const IdentifierInfo *II) {
+ // <source name> ::= <identifier> @
+ Out << II->getName() << '@';
+}
+
+void MicrosoftCXXNameMangler::mangleObjCMethodName(const ObjCMethodDecl *MD) {
+ Context.mangleObjCMethodName(MD, Out);
+}
+
+void MicrosoftCXXNameMangler::mangleQualifiers(Qualifiers Quals,
+ bool IsMember) {
+ // <cvr-qualifiers> ::= [E] [F] [I] <base-cvr-qualifiers>
+ // 'E' means __ptr64 (32-bit only); 'F' means __unaligned (32/64-bit only);
+ // 'I' means __restrict (32/64-bit).
+ // Note that the MSVC __restrict keyword isn't the same as the C99 restrict
+ // keyword!
+ // <base-cvr-qualifiers> ::= A # near
+ // ::= B # near const
+ // ::= C # near volatile
+ // ::= D # near const volatile
+ // ::= E # far (16-bit)
+ // ::= F # far const (16-bit)
+ // ::= G # far volatile (16-bit)
+ // ::= H # far const volatile (16-bit)
+ // ::= I # huge (16-bit)
+ // ::= J # huge const (16-bit)
+ // ::= K # huge volatile (16-bit)
+ // ::= L # huge const volatile (16-bit)
+ // ::= M <basis> # based
+ // ::= N <basis> # based const
+ // ::= O <basis> # based volatile
+ // ::= P <basis> # based const volatile
+ // ::= Q # near member
+ // ::= R # near const member
+ // ::= S # near volatile member
+ // ::= T # near const volatile member
+ // ::= U # far member (16-bit)
+ // ::= V # far const member (16-bit)
+ // ::= W # far volatile member (16-bit)
+ // ::= X # far const volatile member (16-bit)
+ // ::= Y # huge member (16-bit)
+ // ::= Z # huge const member (16-bit)
+ // ::= 0 # huge volatile member (16-bit)
+ // ::= 1 # huge const volatile member (16-bit)
+ // ::= 2 <basis> # based member
+ // ::= 3 <basis> # based const member
+ // ::= 4 <basis> # based volatile member
+ // ::= 5 <basis> # based const volatile member
+ // ::= 6 # near function (pointers only)
+ // ::= 7 # far function (pointers only)
+ // ::= 8 # near method (pointers only)
+ // ::= 9 # far method (pointers only)
+ // ::= _A <basis> # based function (pointers only)
+ // ::= _B <basis> # based function (far?) (pointers only)
+ // ::= _C <basis> # based method (pointers only)
+ // ::= _D <basis> # based method (far?) (pointers only)
+ // ::= _E # block (Clang)
+ // <basis> ::= 0 # __based(void)
+ // ::= 1 # __based(segment)?
+ // ::= 2 <name> # __based(name)
+ // ::= 3 # ?
+ // ::= 4 # ?
+ // ::= 5 # not really based
+ if (!IsMember) {
+ if (!Quals.hasVolatile()) {
+ if (!Quals.hasConst())
+ Out << 'A';
+ else
+ Out << 'B';
+ } else {
+ if (!Quals.hasConst())
+ Out << 'C';
+ else
+ Out << 'D';
+ }
+ } else {
+ if (!Quals.hasVolatile()) {
+ if (!Quals.hasConst())
+ Out << 'Q';
+ else
+ Out << 'R';
+ } else {
+ if (!Quals.hasConst())
+ Out << 'S';
+ else
+ Out << 'T';
+ }
+ }
+
+ // FIXME: For now, just drop all extension qualifiers on the floor.
+}
+
+void MicrosoftCXXNameMangler::mangleType(QualType T) {
+ // Only operate on the canonical type!
+ T = getASTContext().getCanonicalType(T);
+
+ Qualifiers Quals = T.getLocalQualifiers();
+ if (Quals) {
+ // We have to mangle these now, while we still have enough information.
+ // <pointer-cvr-qualifiers> ::= P # pointer
+ // ::= Q # const pointer
+ // ::= R # volatile pointer
+ // ::= S # const volatile pointer
+ if (T->isAnyPointerType() || T->isMemberPointerType() ||
+ T->isBlockPointerType()) {
+ if (!Quals.hasVolatile())
+ Out << 'Q';
+ else {
+ if (!Quals.hasConst())
+ Out << 'R';
+ else
+ Out << 'S';
+ }
+ } else
+ // Just emit qualifiers like normal.
+ // NB: When we mangle a pointer/reference type, and the pointee
+ // type has no qualifiers, the lack of qualifier gets mangled
+ // in there.
+ mangleQualifiers(Quals, false);
+ } else if (T->isAnyPointerType() || T->isMemberPointerType() ||
+ T->isBlockPointerType()) {
+ Out << 'P';
+ }
+ switch (T->getTypeClass()) {
+#define ABSTRACT_TYPE(CLASS, PARENT)
+#define NON_CANONICAL_TYPE(CLASS, PARENT) \
+case Type::CLASS: \
+llvm_unreachable("can't mangle non-canonical type " #CLASS "Type"); \
+return;
+#define TYPE(CLASS, PARENT) \
+case Type::CLASS: \
+mangleType(static_cast<const CLASS##Type*>(T.getTypePtr())); \
+break;
+#include "clang/AST/TypeNodes.def"
+ }
+}
+
+void MicrosoftCXXNameMangler::mangleType(const BuiltinType *T) {
+ // <type> ::= <builtin-type>
+ // <builtin-type> ::= X # void
+ // ::= C # signed char
+ // ::= D # char
+ // ::= E # unsigned char
+ // ::= F # short
+ // ::= G # unsigned short (or wchar_t if it's not a builtin)
+ // ::= H # int
+ // ::= I # unsigned int
+ // ::= J # long
+ // ::= K # unsigned long
+ // L # <none>
+ // ::= M # float
+ // ::= N # double
+ // ::= O # long double (__float80 is mangled differently)
+ // ::= _J # long long, __int64
+ // ::= _K # unsigned long long, __int64
+ // ::= _L # __int128
+ // ::= _M # unsigned __int128
+ // ::= _N # bool
+ // _O # <array in parameter>
+ // ::= _T # __float80 (Intel)
+ // ::= _W # wchar_t
+ // ::= _Z # __float80 (Digital Mars)
+ switch (T->getKind()) {
+ case BuiltinType::Void: Out << 'X'; break;
+ case BuiltinType::SChar: Out << 'C'; break;
+ case BuiltinType::Char_U: case BuiltinType::Char_S: Out << 'D'; break;
+ case BuiltinType::UChar: Out << 'E'; break;
+ case BuiltinType::Short: Out << 'F'; break;
+ case BuiltinType::UShort: Out << 'G'; break;
+ case BuiltinType::Int: Out << 'H'; break;
+ case BuiltinType::UInt: Out << 'I'; break;
+ case BuiltinType::Long: Out << 'J'; break;
+ case BuiltinType::ULong: Out << 'K'; break;
+ case BuiltinType::Float: Out << 'M'; break;
+ case BuiltinType::Double: Out << 'N'; break;
+ // TODO: Determine size and mangle accordingly
+ case BuiltinType::LongDouble: Out << 'O'; break;
+ case BuiltinType::LongLong: Out << "_J"; break;
+ case BuiltinType::ULongLong: Out << "_K"; break;
+ case BuiltinType::Int128: Out << "_L"; break;
+ case BuiltinType::UInt128: Out << "_M"; break;
+ case BuiltinType::Bool: Out << "_N"; break;
+ case BuiltinType::WChar_S:
+ case BuiltinType::WChar_U: Out << "_W"; break;
+
+#define BUILTIN_TYPE(Id, SingletonId)
+#define PLACEHOLDER_TYPE(Id, SingletonId) \
+ case BuiltinType::Id:
+#include "clang/AST/BuiltinTypes.def"
+ case BuiltinType::Dependent:
+ llvm_unreachable("placeholder types shouldn't get to name mangling");
+
+ case BuiltinType::ObjCId: Out << "PAUobjc_object@@"; break;
+ case BuiltinType::ObjCClass: Out << "PAUobjc_class@@"; break;
+ case BuiltinType::ObjCSel: Out << "PAUobjc_selector@@"; break;
+
+ case BuiltinType::Char16:
+ case BuiltinType::Char32:
+ case BuiltinType::Half:
+ case BuiltinType::NullPtr:
+ assert(0 && "Don't know how to mangle this type yet");
+ }
+}
+
+// <type> ::= <function-type>
+void MicrosoftCXXNameMangler::mangleType(const FunctionProtoType *T) {
+ // Structors only appear in decls, so at this point we know it's not a
+ // structor type.
+ // I'll probably have mangleType(MemberPointerType) call the mangleType()
+ // method directly.
+ mangleType(T, NULL, false, false);
+}
+void MicrosoftCXXNameMangler::mangleType(const FunctionNoProtoType *T) {
+ llvm_unreachable("Can't mangle K&R function prototypes");
+}
+
+void MicrosoftCXXNameMangler::mangleType(const FunctionType *T,
+ const FunctionDecl *D,
+ bool IsStructor,
+ bool IsInstMethod) {
+ // <function-type> ::= <this-cvr-qualifiers> <calling-convention>
+ // <return-type> <argument-list> <throw-spec>
+ const FunctionProtoType *Proto = cast<FunctionProtoType>(T);
+
+ // If this is a C++ instance method, mangle the CVR qualifiers for the
+ // this pointer.
+ if (IsInstMethod)
+ mangleQualifiers(Qualifiers::fromCVRMask(Proto->getTypeQuals()), false);
+
+ mangleCallingConvention(T, IsInstMethod);
+
+ // <return-type> ::= <type>
+ // ::= @ # structors (they have no declared return type)
+ if (IsStructor)
+ Out << '@';
+ else
+ mangleType(Proto->getResultType());
+
+ // <argument-list> ::= X # void
+ // ::= <type>+ @
+ // ::= <type>* Z # varargs
+ if (Proto->getNumArgs() == 0 && !Proto->isVariadic()) {
+ Out << 'X';
+ } else {
+ if (D) {
+ // If we got a decl, use the "types-as-written" to make sure arrays
+ // get mangled right.
+ for (FunctionDecl::param_const_iterator Parm = D->param_begin(),
+ ParmEnd = D->param_end();
+ Parm != ParmEnd; ++Parm)
+ mangleType((*Parm)->getTypeSourceInfo()->getType());
+ } else {
+ for (FunctionProtoType::arg_type_iterator Arg = Proto->arg_type_begin(),
+ ArgEnd = Proto->arg_type_end();
+ Arg != ArgEnd; ++Arg)
+ mangleType(*Arg);
+ }
+ // <builtin-type> ::= Z # ellipsis
+ if (Proto->isVariadic())
+ Out << 'Z';
+ else
+ Out << '@';
+ }
+
+ mangleThrowSpecification(Proto);
+}
+
+void MicrosoftCXXNameMangler::mangleFunctionClass(const FunctionDecl *FD) {
+ // <function-class> ::= A # private: near
+ // ::= B # private: far
+ // ::= C # private: static near
+ // ::= D # private: static far
+ // ::= E # private: virtual near
+ // ::= F # private: virtual far
+ // ::= G # private: thunk near
+ // ::= H # private: thunk far
+ // ::= I # protected: near
+ // ::= J # protected: far
+ // ::= K # protected: static near
+ // ::= L # protected: static far
+ // ::= M # protected: virtual near
+ // ::= N # protected: virtual far
+ // ::= O # protected: thunk near
+ // ::= P # protected: thunk far
+ // ::= Q # public: near
+ // ::= R # public: far
+ // ::= S # public: static near
+ // ::= T # public: static far
+ // ::= U # public: virtual near
+ // ::= V # public: virtual far
+ // ::= W # public: thunk near
+ // ::= X # public: thunk far
+ // ::= Y # global near
+ // ::= Z # global far
+ if (const CXXMethodDecl *MD = dyn_cast<CXXMethodDecl>(FD)) {
+ switch (MD->getAccess()) {
+ default:
+ case AS_private:
+ if (MD->isStatic())
+ Out << 'C';
+ else if (MD->isVirtual())
+ Out << 'E';
+ else
+ Out << 'A';
+ break;
+ case AS_protected:
+ if (MD->isStatic())
+ Out << 'K';
+ else if (MD->isVirtual())
+ Out << 'M';
+ else
+ Out << 'I';
+ break;
+ case AS_public:
+ if (MD->isStatic())
+ Out << 'S';
+ else if (MD->isVirtual())
+ Out << 'U';
+ else
+ Out << 'Q';
+ }
+ } else
+ Out << 'Y';
+}
+void MicrosoftCXXNameMangler::mangleCallingConvention(const FunctionType *T,
+ bool IsInstMethod) {
+ // <calling-convention> ::= A # __cdecl
+ // ::= B # __export __cdecl
+ // ::= C # __pascal
+ // ::= D # __export __pascal
+ // ::= E # __thiscall
+ // ::= F # __export __thiscall
+ // ::= G # __stdcall
+ // ::= H # __export __stdcall
+ // ::= I # __fastcall
+ // ::= J # __export __fastcall
+ // The 'export' calling conventions are from a bygone era
+ // (*cough*Win16*cough*) when functions were declared for export with
+ // that keyword. (It didn't actually export them, it just made them so
+ // that they could be in a DLL and somebody from another module could call
+ // them.)
+ CallingConv CC = T->getCallConv();
+ if (CC == CC_Default)
+ CC = IsInstMethod ? getASTContext().getDefaultMethodCallConv() : CC_C;
+ switch (CC) {
+ default:
+ llvm_unreachable("Unsupported CC for mangling");
+ case CC_Default:
+ case CC_C: Out << 'A'; break;
+ case CC_X86Pascal: Out << 'C'; break;
+ case CC_X86ThisCall: Out << 'E'; break;
+ case CC_X86StdCall: Out << 'G'; break;
+ case CC_X86FastCall: Out << 'I'; break;
+ }
+}
+void MicrosoftCXXNameMangler::mangleThrowSpecification(
+ const FunctionProtoType *FT) {
+ // <throw-spec> ::= Z # throw(...) (default)
+ // ::= @ # throw() or __declspec/__attribute__((nothrow))
+ // ::= <type>+
+ // NOTE: Since the Microsoft compiler ignores throw specifications, they are
+ // all actually mangled as 'Z'. (They're ignored because their associated
+ // functionality isn't implemented, and probably never will be.)
+ Out << 'Z';
+}
+
+void MicrosoftCXXNameMangler::mangleType(const UnresolvedUsingType *T) {
+ llvm_unreachable("Don't know how to mangle UnresolvedUsingTypes yet!");
+}
+
+// <type> ::= <union-type> | <struct-type> | <class-type> | <enum-type>
+// <union-type> ::= T <name>
+// <struct-type> ::= U <name>
+// <class-type> ::= V <name>
+// <enum-type> ::= W <size> <name>
+void MicrosoftCXXNameMangler::mangleType(const EnumType *T) {
+ mangleType(static_cast<const TagType*>(T));
+}
+void MicrosoftCXXNameMangler::mangleType(const RecordType *T) {
+ mangleType(static_cast<const TagType*>(T));
+}
+void MicrosoftCXXNameMangler::mangleType(const TagType *T) {
+ switch (T->getDecl()->getTagKind()) {
+ case TTK_Union:
+ Out << 'T';
+ break;
+ case TTK_Struct:
+ Out << 'U';
+ break;
+ case TTK_Class:
+ Out << 'V';
+ break;
+ case TTK_Enum:
+ Out << 'W';
+ Out << getASTContext().getTypeSizeInChars(
+ cast<EnumDecl>(T->getDecl())->getIntegerType()).getQuantity();
+ break;
+ }
+ mangleName(T->getDecl());
+}
+
+// <type> ::= <array-type>
+// <array-type> ::= P <cvr-qualifiers> [Y <dimension-count> <dimension>+]
+// <element-type> # as global
+// ::= Q <cvr-qualifiers> [Y <dimension-count> <dimension>+]
+// <element-type> # as param
+// It's supposed to be the other way around, but for some strange reason, it
+// isn't. Today this behavior is retained for the sole purpose of backwards
+// compatibility.
+void MicrosoftCXXNameMangler::mangleType(const ArrayType *T, bool IsGlobal) {
+ // This isn't a recursive mangling, so now we have to do it all in this
+ // one call.
+ if (IsGlobal)
+ Out << 'P';
+ else
+ Out << 'Q';
+ mangleExtraDimensions(T->getElementType());
+}
+void MicrosoftCXXNameMangler::mangleType(const ConstantArrayType *T) {
+ mangleType(static_cast<const ArrayType *>(T), false);
+}
+void MicrosoftCXXNameMangler::mangleType(const VariableArrayType *T) {
+ mangleType(static_cast<const ArrayType *>(T), false);
+}
+void MicrosoftCXXNameMangler::mangleType(const DependentSizedArrayType *T) {
+ mangleType(static_cast<const ArrayType *>(T), false);
+}
+void MicrosoftCXXNameMangler::mangleType(const IncompleteArrayType *T) {
+ mangleType(static_cast<const ArrayType *>(T), false);
+}
+void MicrosoftCXXNameMangler::mangleExtraDimensions(QualType ElementTy) {
+ SmallVector<llvm::APInt, 3> Dimensions;
+ for (;;) {
+ if (ElementTy->isConstantArrayType()) {
+ const ConstantArrayType *CAT =
+ static_cast<const ConstantArrayType *>(ElementTy.getTypePtr());
+ Dimensions.push_back(CAT->getSize());
+ ElementTy = CAT->getElementType();
+ } else if (ElementTy->isVariableArrayType()) {
+ llvm_unreachable("Don't know how to mangle VLAs!");
+ } else if (ElementTy->isDependentSizedArrayType()) {
+ // The dependent expression has to be folded into a constant (TODO).
+ llvm_unreachable("Don't know how to mangle dependent-sized arrays!");
+ } else if (ElementTy->isIncompleteArrayType()) continue;
+ else break;
+ }
+ mangleQualifiers(ElementTy.getQualifiers(), false);
+ // If there are any additional dimensions, mangle them now.
+ if (Dimensions.size() > 0) {
+ Out << 'Y';
+ // <dimension-count> ::= <number> # number of extra dimensions
+ mangleNumber(Dimensions.size());
+ for (unsigned Dim = 0; Dim < Dimensions.size(); ++Dim) {
+ mangleNumber(Dimensions[Dim].getLimitedValue());
+ }
+ }
+ mangleType(ElementTy.getLocalUnqualifiedType());
+}
+
+// <type> ::= <pointer-to-member-type>
+// <pointer-to-member-type> ::= <pointer-cvr-qualifiers> <cvr-qualifiers>
+// <class name> <type>
+void MicrosoftCXXNameMangler::mangleType(const MemberPointerType *T) {
+ QualType PointeeType = T->getPointeeType();
+ if (const FunctionProtoType *FPT = dyn_cast<FunctionProtoType>(PointeeType)) {
+ Out << '8';
+ mangleName(cast<RecordType>(T->getClass())->getDecl());
+ mangleType(FPT, NULL, false, true);
+ } else {
+ mangleQualifiers(PointeeType.getQualifiers(), true);
+ mangleName(cast<RecordType>(T->getClass())->getDecl());
+ mangleType(PointeeType.getLocalUnqualifiedType());
+ }
+}
+
+void MicrosoftCXXNameMangler::mangleType(const TemplateTypeParmType *T) {
+ llvm_unreachable("Don't know how to mangle TemplateTypeParmTypes yet!");
+}
+
+void MicrosoftCXXNameMangler::mangleType(
+ const SubstTemplateTypeParmPackType *T) {
+ llvm_unreachable(
+ "Don't know how to mangle SubstTemplateTypeParmPackTypes yet!");
+}
+
+// <type> ::= <pointer-type>
+// <pointer-type> ::= <pointer-cvr-qualifiers> <cvr-qualifiers> <type>
+void MicrosoftCXXNameMangler::mangleType(const PointerType *T) {
+ QualType PointeeTy = T->getPointeeType();
+ if (PointeeTy->isArrayType()) {
+ // Pointers to arrays are mangled like arrays.
+ mangleExtraDimensions(T->getPointeeType());
+ } else if (PointeeTy->isFunctionType()) {
+ // Function pointers are special.
+ Out << '6';
+ mangleType(static_cast<const FunctionType *>(PointeeTy.getTypePtr()),
+ NULL, false, false);
+ } else {
+ if (!PointeeTy.hasQualifiers())
+ // Lack of qualifiers is mangled as 'A'.
+ Out << 'A';
+ mangleType(PointeeTy);
+ }
+}
+void MicrosoftCXXNameMangler::mangleType(const ObjCObjectPointerType *T) {
+ // Object pointers never have qualifiers.
+ Out << 'A';
+ mangleType(T->getPointeeType());
+}
+
+// <type> ::= <reference-type>
+// <reference-type> ::= A <cvr-qualifiers> <type>
+void MicrosoftCXXNameMangler::mangleType(const LValueReferenceType *T) {
+ Out << 'A';
+ QualType PointeeTy = T->getPointeeType();
+ if (!PointeeTy.hasQualifiers())
+ // Lack of qualifiers is mangled as 'A'.
+ Out << 'A';
+ mangleType(PointeeTy);
+}
+
+void MicrosoftCXXNameMangler::mangleType(const RValueReferenceType *T) {
+ llvm_unreachable("Don't know how to mangle RValueReferenceTypes yet!");
+}
+
+void MicrosoftCXXNameMangler::mangleType(const ComplexType *T) {
+ llvm_unreachable("Don't know how to mangle ComplexTypes yet!");
+}
+
+void MicrosoftCXXNameMangler::mangleType(const VectorType *T) {
+ llvm_unreachable("Don't know how to mangle VectorTypes yet!");
+}
+void MicrosoftCXXNameMangler::mangleType(const ExtVectorType *T) {
+ llvm_unreachable("Don't know how to mangle ExtVectorTypes yet!");
+}
+void MicrosoftCXXNameMangler::mangleType(const DependentSizedExtVectorType *T) {
+ llvm_unreachable(
+ "Don't know how to mangle DependentSizedExtVectorTypes yet!");
+}
+
+void MicrosoftCXXNameMangler::mangleType(const ObjCInterfaceType *T) {
+ // ObjC interfaces have structs underlying them.
+ Out << 'U';
+ mangleName(T->getDecl());
+}
+
+void MicrosoftCXXNameMangler::mangleType(const ObjCObjectType *T) {
+ // We don't allow overloading by different protocol qualification,
+ // so mangling them isn't necessary.
+ mangleType(T->getBaseType());
+}
+
+void MicrosoftCXXNameMangler::mangleType(const BlockPointerType *T) {
+ Out << "_E";
+ mangleType(T->getPointeeType());
+}
+
+void MicrosoftCXXNameMangler::mangleType(const InjectedClassNameType *T) {
+ llvm_unreachable("Don't know how to mangle InjectedClassNameTypes yet!");
+}
+
+void MicrosoftCXXNameMangler::mangleType(const TemplateSpecializationType *T) {
+ llvm_unreachable("Don't know how to mangle TemplateSpecializationTypes yet!");
+}
+
+void MicrosoftCXXNameMangler::mangleType(const DependentNameType *T) {
+ llvm_unreachable("Don't know how to mangle DependentNameTypes yet!");
+}
+
+void MicrosoftCXXNameMangler::mangleType(
+ const DependentTemplateSpecializationType *T) {
+ llvm_unreachable(
+ "Don't know how to mangle DependentTemplateSpecializationTypes yet!");
+}
+
+void MicrosoftCXXNameMangler::mangleType(const PackExpansionType *T) {
+ llvm_unreachable("Don't know how to mangle PackExpansionTypes yet!");
+}
+
+void MicrosoftCXXNameMangler::mangleType(const TypeOfType *T) {
+ llvm_unreachable("Don't know how to mangle TypeOfTypes yet!");
+}
+
+void MicrosoftCXXNameMangler::mangleType(const TypeOfExprType *T) {
+ llvm_unreachable("Don't know how to mangle TypeOfExprTypes yet!");
+}
+
+void MicrosoftCXXNameMangler::mangleType(const DecltypeType *T) {
+ llvm_unreachable("Don't know how to mangle DecltypeTypes yet!");
+}
+
+void MicrosoftCXXNameMangler::mangleType(const UnaryTransformType *T) {
+ llvm_unreachable("Don't know how to mangle UnaryTransformationTypes yet!");
+}
+
+void MicrosoftCXXNameMangler::mangleType(const AutoType *T) {
+ llvm_unreachable("Don't know how to mangle AutoTypes yet!");
+}
+
+void MicrosoftCXXNameMangler::mangleType(const AtomicType *T) {
+ llvm_unreachable("Don't know how to mangle AtomicTypes yet!");
+}
+
+void MicrosoftMangleContext::mangleName(const NamedDecl *D,
+ raw_ostream &Out) {
+ assert((isa<FunctionDecl>(D) || isa<VarDecl>(D)) &&
+ "Invalid mangleName() call, argument is not a variable or function!");
+ assert(!isa<CXXConstructorDecl>(D) && !isa<CXXDestructorDecl>(D) &&
+ "Invalid mangleName() call on 'structor decl!");
+
+ PrettyStackTraceDecl CrashInfo(D, SourceLocation(),
+ getASTContext().getSourceManager(),
+ "Mangling declaration");
+
+ MicrosoftCXXNameMangler Mangler(*this, Out);
+ return Mangler.mangle(D);
+}
+void MicrosoftMangleContext::mangleThunk(const CXXMethodDecl *MD,
+ const ThunkInfo &Thunk,
+ raw_ostream &) {
+ llvm_unreachable("Can't yet mangle thunks!");
+}
+void MicrosoftMangleContext::mangleCXXDtorThunk(const CXXDestructorDecl *DD,
+ CXXDtorType Type,
+ const ThisAdjustment &,
+ raw_ostream &) {
+ llvm_unreachable("Can't yet mangle destructor thunks!");
+}
+void MicrosoftMangleContext::mangleCXXVTable(const CXXRecordDecl *RD,
+ raw_ostream &) {
+ llvm_unreachable("Can't yet mangle virtual tables!");
+}
+void MicrosoftMangleContext::mangleCXXVTT(const CXXRecordDecl *RD,
+ raw_ostream &) {
+ llvm_unreachable("The MS C++ ABI does not have virtual table tables!");
+}
+void MicrosoftMangleContext::mangleCXXCtorVTable(const CXXRecordDecl *RD,
+ int64_t Offset,
+ const CXXRecordDecl *Type,
+ raw_ostream &) {
+ llvm_unreachable("The MS C++ ABI does not have constructor vtables!");
+}
+void MicrosoftMangleContext::mangleCXXRTTI(QualType T,
+ raw_ostream &) {
+ llvm_unreachable("Can't yet mangle RTTI!");
+}
+void MicrosoftMangleContext::mangleCXXRTTIName(QualType T,
+ raw_ostream &) {
+ llvm_unreachable("Can't yet mangle RTTI names!");
+}
+void MicrosoftMangleContext::mangleCXXCtor(const CXXConstructorDecl *D,
+ CXXCtorType Type,
+ raw_ostream & Out) {
+ MicrosoftCXXNameMangler mangler(*this, Out);
+ mangler.mangle(D);
+}
+void MicrosoftMangleContext::mangleCXXDtor(const CXXDestructorDecl *D,
+ CXXDtorType Type,
+ raw_ostream & Out) {
+ MicrosoftCXXNameMangler mangler(*this, Out);
+ mangler.mangle(D);
+}
+void MicrosoftMangleContext::mangleReferenceTemporary(const clang::VarDecl *,
+ raw_ostream &) {
+ llvm_unreachable("Can't yet mangle reference temporaries!");
+}
+
+MangleContext *clang::createMicrosoftMangleContext(ASTContext &Context,
+ DiagnosticsEngine &Diags) {
+ return new MicrosoftMangleContext(Context, Diags);
+}