ItaniumCXXABI.cpp revision fc8f0e14ad142ed811e90fbd9a30e419e301c717
13a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davis//===------- ItaniumCXXABI.cpp - Emit LLVM Code from ASTs for a Module ----===//
23a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davis//
33a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davis//                     The LLVM Compiler Infrastructure
43a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davis//
53a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davis// This file is distributed under the University of Illinois Open Source
63a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davis// License. See LICENSE.TXT for details.
73a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davis//
83a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davis//===----------------------------------------------------------------------===//
93a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davis//
10fc8f0e14ad142ed811e90fbd9a30e419e301c717Chris Lattner// This provides C++ code generation targeting the Itanium C++ ABI.  The class
113a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davis// in this file generates structures that follow the Itanium C++ ABI, which is
123a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davis// documented at:
133a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davis//  http://www.codesourcery.com/public/cxx-abi/abi.html
143a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davis//  http://www.codesourcery.com/public/cxx-abi/abi-eh.html
15ee79a4c30e5d1c5285551c9a25b8ec6d45d46aa7John McCall//
16ee79a4c30e5d1c5285551c9a25b8ec6d45d46aa7John McCall// It also supports the closely-related ARM ABI, documented at:
17ee79a4c30e5d1c5285551c9a25b8ec6d45d46aa7John McCall// http://infocenter.arm.com/help/topic/com.arm.doc.ihi0041c/IHI0041C_cppabi.pdf
18ee79a4c30e5d1c5285551c9a25b8ec6d45d46aa7John McCall//
193a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davis//===----------------------------------------------------------------------===//
203a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davis
213a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davis#include "CGCXXABI.h"
220bab0cdab751248ca389a5592bcb70eac5d39260John McCall#include "CGRecordLayout.h"
2393d557bc1867b7d7b102f87290194b4be7932c92John McCall#include "CodeGenFunction.h"
243a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davis#include "CodeGenModule.h"
2514110477887e3dc168ffc6c191e72d705051f99ePeter Collingbourne#include <clang/AST/Mangle.h>
2693d557bc1867b7d7b102f87290194b4be7932c92John McCall#include <clang/AST/Type.h>
270bab0cdab751248ca389a5592bcb70eac5d39260John McCall#include <llvm/Target/TargetData.h>
2893d557bc1867b7d7b102f87290194b4be7932c92John McCall#include <llvm/Value.h>
293a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davis
303a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davisusing namespace clang;
3193d557bc1867b7d7b102f87290194b4be7932c92John McCallusing namespace CodeGen;
323a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davis
333a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davisnamespace {
34071cc7deffad608165b1ddd5263e8bf181861520Charles Davisclass ItaniumCXXABI : public CodeGen::CGCXXABI {
350bab0cdab751248ca389a5592bcb70eac5d39260John McCallprivate:
360bab0cdab751248ca389a5592bcb70eac5d39260John McCall  const llvm::IntegerType *PtrDiffTy;
3793d557bc1867b7d7b102f87290194b4be7932c92John McCallprotected:
38babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall  bool IsARM;
390bab0cdab751248ca389a5592bcb70eac5d39260John McCall
400bab0cdab751248ca389a5592bcb70eac5d39260John McCall  // It's a little silly for us to cache this.
410bab0cdab751248ca389a5592bcb70eac5d39260John McCall  const llvm::IntegerType *getPtrDiffTy() {
420bab0cdab751248ca389a5592bcb70eac5d39260John McCall    if (!PtrDiffTy) {
439cb2cee212d708220c52249ceac4cdd9f2b8aeb0John McCall      QualType T = getContext().getPointerDiffType();
440bab0cdab751248ca389a5592bcb70eac5d39260John McCall      const llvm::Type *Ty = CGM.getTypes().ConvertTypeRecursive(T);
450bab0cdab751248ca389a5592bcb70eac5d39260John McCall      PtrDiffTy = cast<llvm::IntegerType>(Ty);
460bab0cdab751248ca389a5592bcb70eac5d39260John McCall    }
470bab0cdab751248ca389a5592bcb70eac5d39260John McCall    return PtrDiffTy;
480bab0cdab751248ca389a5592bcb70eac5d39260John McCall  }
490bab0cdab751248ca389a5592bcb70eac5d39260John McCall
506ec278d1a354517e20f13a877481453ee7940c78John McCall  bool NeedsArrayCookie(const CXXNewExpr *expr);
516ec278d1a354517e20f13a877481453ee7940c78John McCall  bool NeedsArrayCookie(const CXXDeleteExpr *expr,
526ec278d1a354517e20f13a877481453ee7940c78John McCall                        QualType elementType);
531e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
543a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davispublic:
55babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall  ItaniumCXXABI(CodeGen::CodeGenModule &CGM, bool IsARM = false) :
5614110477887e3dc168ffc6c191e72d705051f99ePeter Collingbourne    CGCXXABI(CGM), PtrDiffTy(0), IsARM(IsARM) { }
5793d557bc1867b7d7b102f87290194b4be7932c92John McCall
58f16aa103d3afd42fbca2ab346f191bf745cec092John McCall  bool isZeroInitializable(const MemberPointerType *MPT);
59cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall
600bab0cdab751248ca389a5592bcb70eac5d39260John McCall  const llvm::Type *ConvertMemberPointerType(const MemberPointerType *MPT);
610bab0cdab751248ca389a5592bcb70eac5d39260John McCall
6293d557bc1867b7d7b102f87290194b4be7932c92John McCall  llvm::Value *EmitLoadOfMemberFunctionPointer(CodeGenFunction &CGF,
6393d557bc1867b7d7b102f87290194b4be7932c92John McCall                                               llvm::Value *&This,
6493d557bc1867b7d7b102f87290194b4be7932c92John McCall                                               llvm::Value *MemFnPtr,
6593d557bc1867b7d7b102f87290194b4be7932c92John McCall                                               const MemberPointerType *MPT);
663023def6bea3af6dbb51eea51f8cb8ea892d26cfJohn McCall
676c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall  llvm::Value *EmitMemberDataPointerAddress(CodeGenFunction &CGF,
686c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall                                            llvm::Value *Base,
696c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall                                            llvm::Value *MemPtr,
706c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall                                            const MemberPointerType *MPT);
716c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall
720bab0cdab751248ca389a5592bcb70eac5d39260John McCall  llvm::Value *EmitMemberPointerConversion(CodeGenFunction &CGF,
730bab0cdab751248ca389a5592bcb70eac5d39260John McCall                                           const CastExpr *E,
740bab0cdab751248ca389a5592bcb70eac5d39260John McCall                                           llvm::Value *Src);
75cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall
760bab0cdab751248ca389a5592bcb70eac5d39260John McCall  llvm::Constant *EmitMemberPointerConversion(llvm::Constant *C,
770bab0cdab751248ca389a5592bcb70eac5d39260John McCall                                              const CastExpr *E);
78cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall
790bab0cdab751248ca389a5592bcb70eac5d39260John McCall  llvm::Constant *EmitNullMemberPointer(const MemberPointerType *MPT);
80cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall
81755d8497e39071aa24acc173ff07083e3256b8f8John McCall  llvm::Constant *EmitMemberPointer(const CXXMethodDecl *MD);
825808ce43f8d7e71f5acacc9ca320268c4f37565aJohn McCall  llvm::Constant *EmitMemberDataPointer(const MemberPointerType *MPT,
835808ce43f8d7e71f5acacc9ca320268c4f37565aJohn McCall                                        CharUnits offset);
84875ab10245d3bf37252dd822aa1616bb0a391095John McCall
850bab0cdab751248ca389a5592bcb70eac5d39260John McCall  llvm::Value *EmitMemberPointerComparison(CodeGenFunction &CGF,
860bab0cdab751248ca389a5592bcb70eac5d39260John McCall                                           llvm::Value *L,
870bab0cdab751248ca389a5592bcb70eac5d39260John McCall                                           llvm::Value *R,
880bab0cdab751248ca389a5592bcb70eac5d39260John McCall                                           const MemberPointerType *MPT,
890bab0cdab751248ca389a5592bcb70eac5d39260John McCall                                           bool Inequality);
90e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall
910bab0cdab751248ca389a5592bcb70eac5d39260John McCall  llvm::Value *EmitMemberPointerIsNotNull(CodeGenFunction &CGF,
920bab0cdab751248ca389a5592bcb70eac5d39260John McCall                                          llvm::Value *Addr,
930bab0cdab751248ca389a5592bcb70eac5d39260John McCall                                          const MemberPointerType *MPT);
944c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
954c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  void BuildConstructorSignature(const CXXConstructorDecl *Ctor,
964c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                 CXXCtorType T,
974c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                 CanQualType &ResTy,
984c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                 llvm::SmallVectorImpl<CanQualType> &ArgTys);
994c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
1004c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  void BuildDestructorSignature(const CXXDestructorDecl *Dtor,
1014c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                CXXDtorType T,
1024c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                CanQualType &ResTy,
1034c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                llvm::SmallVectorImpl<CanQualType> &ArgTys);
1044c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
1054c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  void BuildInstanceFunctionParams(CodeGenFunction &CGF,
1064c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                   QualType &ResTy,
1074c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                   FunctionArgList &Params);
1084c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
1094c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  void EmitInstanceFunctionProlog(CodeGenFunction &CGF);
1101e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
1116ec278d1a354517e20f13a877481453ee7940c78John McCall  CharUnits GetArrayCookieSize(const CXXNewExpr *expr);
1121e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  llvm::Value *InitializeArrayCookie(CodeGenFunction &CGF,
1131e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                     llvm::Value *NewPtr,
1141e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                     llvm::Value *NumElements,
1156ec278d1a354517e20f13a877481453ee7940c78John McCall                                     const CXXNewExpr *expr,
1161e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                     QualType ElementType);
1171e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  void ReadArrayCookie(CodeGenFunction &CGF, llvm::Value *Ptr,
1186ec278d1a354517e20f13a877481453ee7940c78John McCall                       const CXXDeleteExpr *expr,
1191e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                       QualType ElementType, llvm::Value *&NumElements,
1201e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                       llvm::Value *&AllocPtr, CharUnits &CookieSize);
1215cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
1223030eb82593097502469a8b3fc26112c79c75605John McCall  void EmitGuardedInit(CodeGenFunction &CGF, const VarDecl &D,
1233030eb82593097502469a8b3fc26112c79c75605John McCall                       llvm::GlobalVariable *DeclPtr);
1243a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davis};
125ee79a4c30e5d1c5285551c9a25b8ec6d45d46aa7John McCall
126ee79a4c30e5d1c5285551c9a25b8ec6d45d46aa7John McCallclass ARMCXXABI : public ItaniumCXXABI {
127ee79a4c30e5d1c5285551c9a25b8ec6d45d46aa7John McCallpublic:
128babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall  ARMCXXABI(CodeGen::CodeGenModule &CGM) : ItaniumCXXABI(CGM, /*ARM*/ true) {}
1294c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
1304c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  void BuildConstructorSignature(const CXXConstructorDecl *Ctor,
1314c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                 CXXCtorType T,
1324c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                 CanQualType &ResTy,
1334c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                 llvm::SmallVectorImpl<CanQualType> &ArgTys);
1344c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
1354c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  void BuildDestructorSignature(const CXXDestructorDecl *Dtor,
1364c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                CXXDtorType T,
1374c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                CanQualType &ResTy,
1384c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                llvm::SmallVectorImpl<CanQualType> &ArgTys);
1394c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
1404c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  void BuildInstanceFunctionParams(CodeGenFunction &CGF,
1414c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                   QualType &ResTy,
1424c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                   FunctionArgList &Params);
1434c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
1444c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  void EmitInstanceFunctionProlog(CodeGenFunction &CGF);
1454c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
1464c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  void EmitReturnFromThunk(CodeGenFunction &CGF, RValue RV, QualType ResTy);
1474c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
1486ec278d1a354517e20f13a877481453ee7940c78John McCall  CharUnits GetArrayCookieSize(const CXXNewExpr *expr);
1491e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  llvm::Value *InitializeArrayCookie(CodeGenFunction &CGF,
1501e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                     llvm::Value *NewPtr,
1511e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                     llvm::Value *NumElements,
1526ec278d1a354517e20f13a877481453ee7940c78John McCall                                     const CXXNewExpr *expr,
1531e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                     QualType ElementType);
1541e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  void ReadArrayCookie(CodeGenFunction &CGF, llvm::Value *Ptr,
1556ec278d1a354517e20f13a877481453ee7940c78John McCall                       const CXXDeleteExpr *expr,
1561e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                       QualType ElementType, llvm::Value *&NumElements,
1571e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                       llvm::Value *&AllocPtr, CharUnits &CookieSize);
1584c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
1594c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCallprivate:
1604c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  /// \brief Returns true if the given instance method is one of the
1614c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  /// kinds that the ARM ABI says returns 'this'.
1624c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  static bool HasThisReturn(GlobalDecl GD) {
1634c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall    const CXXMethodDecl *MD = cast<CXXMethodDecl>(GD.getDecl());
1644c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall    return ((isa<CXXDestructorDecl>(MD) && GD.getDtorType() != Dtor_Deleting) ||
1654c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall            (isa<CXXConstructorDecl>(MD)));
1664c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  }
167ee79a4c30e5d1c5285551c9a25b8ec6d45d46aa7John McCall};
1683a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davis}
1693a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davis
170071cc7deffad608165b1ddd5263e8bf181861520Charles DavisCodeGen::CGCXXABI *CodeGen::CreateItaniumCXXABI(CodeGenModule &CGM) {
1713a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davis  return new ItaniumCXXABI(CGM);
1723a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davis}
1733a811f1f4286ee3fd0c563c1cfe623956f3caa24Charles Davis
174ee79a4c30e5d1c5285551c9a25b8ec6d45d46aa7John McCallCodeGen::CGCXXABI *CodeGen::CreateARMCXXABI(CodeGenModule &CGM) {
175ee79a4c30e5d1c5285551c9a25b8ec6d45d46aa7John McCall  return new ARMCXXABI(CGM);
176ee79a4c30e5d1c5285551c9a25b8ec6d45d46aa7John McCall}
177ee79a4c30e5d1c5285551c9a25b8ec6d45d46aa7John McCall
1780bab0cdab751248ca389a5592bcb70eac5d39260John McCallconst llvm::Type *
1790bab0cdab751248ca389a5592bcb70eac5d39260John McCallItaniumCXXABI::ConvertMemberPointerType(const MemberPointerType *MPT) {
1800bab0cdab751248ca389a5592bcb70eac5d39260John McCall  if (MPT->isMemberDataPointer())
1810bab0cdab751248ca389a5592bcb70eac5d39260John McCall    return getPtrDiffTy();
1820bab0cdab751248ca389a5592bcb70eac5d39260John McCall  else
1830bab0cdab751248ca389a5592bcb70eac5d39260John McCall    return llvm::StructType::get(CGM.getLLVMContext(),
1840bab0cdab751248ca389a5592bcb70eac5d39260John McCall                                 getPtrDiffTy(), getPtrDiffTy(), NULL);
185875ab10245d3bf37252dd822aa1616bb0a391095John McCall}
186875ab10245d3bf37252dd822aa1616bb0a391095John McCall
187babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall/// In the Itanium and ARM ABIs, method pointers have the form:
188babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall///   struct { ptrdiff_t ptr; ptrdiff_t adj; } memptr;
189babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall///
190babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall/// In the Itanium ABI:
191babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall///  - method pointers are virtual if (memptr.ptr & 1) is nonzero
192babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall///  - the this-adjustment is (memptr.adj)
193babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall///  - the virtual offset is (memptr.ptr - 1)
194babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall///
195babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall/// In the ARM ABI:
196babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall///  - method pointers are virtual if (memptr.adj & 1) is nonzero
197babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall///  - the this-adjustment is (memptr.adj >> 1)
198babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall///  - the virtual offset is (memptr.ptr)
199babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall/// ARM uses 'adj' for the virtual flag because Thumb functions
200babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall/// may be only single-byte aligned.
201babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall///
202babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall/// If the member is virtual, the adjusted 'this' pointer points
203babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall/// to a vtable pointer from which the virtual offset is applied.
204babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall///
205babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall/// If the member is non-virtual, memptr.ptr is the address of
206babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall/// the function to call.
20793d557bc1867b7d7b102f87290194b4be7932c92John McCallllvm::Value *
20893d557bc1867b7d7b102f87290194b4be7932c92John McCallItaniumCXXABI::EmitLoadOfMemberFunctionPointer(CodeGenFunction &CGF,
20993d557bc1867b7d7b102f87290194b4be7932c92John McCall                                               llvm::Value *&This,
21093d557bc1867b7d7b102f87290194b4be7932c92John McCall                                               llvm::Value *MemFnPtr,
21193d557bc1867b7d7b102f87290194b4be7932c92John McCall                                               const MemberPointerType *MPT) {
21293d557bc1867b7d7b102f87290194b4be7932c92John McCall  CGBuilderTy &Builder = CGF.Builder;
21393d557bc1867b7d7b102f87290194b4be7932c92John McCall
21493d557bc1867b7d7b102f87290194b4be7932c92John McCall  const FunctionProtoType *FPT =
21593d557bc1867b7d7b102f87290194b4be7932c92John McCall    MPT->getPointeeType()->getAs<FunctionProtoType>();
21693d557bc1867b7d7b102f87290194b4be7932c92John McCall  const CXXRecordDecl *RD =
21793d557bc1867b7d7b102f87290194b4be7932c92John McCall    cast<CXXRecordDecl>(MPT->getClass()->getAs<RecordType>()->getDecl());
21893d557bc1867b7d7b102f87290194b4be7932c92John McCall
21993d557bc1867b7d7b102f87290194b4be7932c92John McCall  const llvm::FunctionType *FTy =
22093d557bc1867b7d7b102f87290194b4be7932c92John McCall    CGM.getTypes().GetFunctionType(CGM.getTypes().getFunctionInfo(RD, FPT),
22193d557bc1867b7d7b102f87290194b4be7932c92John McCall                                   FPT->isVariadic());
22293d557bc1867b7d7b102f87290194b4be7932c92John McCall
2230bab0cdab751248ca389a5592bcb70eac5d39260John McCall  const llvm::IntegerType *ptrdiff = getPtrDiffTy();
224babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall  llvm::Constant *ptrdiff_1 = llvm::ConstantInt::get(ptrdiff, 1);
22593d557bc1867b7d7b102f87290194b4be7932c92John McCall
226babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall  llvm::BasicBlock *FnVirtual = CGF.createBasicBlock("memptr.virtual");
227babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall  llvm::BasicBlock *FnNonVirtual = CGF.createBasicBlock("memptr.nonvirtual");
228babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall  llvm::BasicBlock *FnEnd = CGF.createBasicBlock("memptr.end");
229babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall
230d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  // Extract memptr.adj, which is in the second field.
231d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  llvm::Value *RawAdj = Builder.CreateExtractValue(MemFnPtr, 1, "memptr.adj");
232babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall
233babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall  // Compute the true adjustment.
234babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall  llvm::Value *Adj = RawAdj;
235babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall  if (IsARM)
236babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall    Adj = Builder.CreateAShr(Adj, ptrdiff_1, "memptr.adj.shifted");
23793d557bc1867b7d7b102f87290194b4be7932c92John McCall
23893d557bc1867b7d7b102f87290194b4be7932c92John McCall  // Apply the adjustment and cast back to the original struct type
23993d557bc1867b7d7b102f87290194b4be7932c92John McCall  // for consistency.
240babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall  llvm::Value *Ptr = Builder.CreateBitCast(This, Builder.getInt8PtrTy());
241babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall  Ptr = Builder.CreateInBoundsGEP(Ptr, Adj);
242babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall  This = Builder.CreateBitCast(Ptr, This->getType(), "this.adjusted");
24393d557bc1867b7d7b102f87290194b4be7932c92John McCall
24493d557bc1867b7d7b102f87290194b4be7932c92John McCall  // Load the function pointer.
245d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  llvm::Value *FnAsInt = Builder.CreateExtractValue(MemFnPtr, 0, "memptr.ptr");
24693d557bc1867b7d7b102f87290194b4be7932c92John McCall
24793d557bc1867b7d7b102f87290194b4be7932c92John McCall  // If the LSB in the function pointer is 1, the function pointer points to
24893d557bc1867b7d7b102f87290194b4be7932c92John McCall  // a virtual function.
249babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall  llvm::Value *IsVirtual;
250babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall  if (IsARM)
251babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall    IsVirtual = Builder.CreateAnd(RawAdj, ptrdiff_1);
252babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall  else
253babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall    IsVirtual = Builder.CreateAnd(FnAsInt, ptrdiff_1);
254babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall  IsVirtual = Builder.CreateIsNotNull(IsVirtual, "memptr.isvirtual");
25593d557bc1867b7d7b102f87290194b4be7932c92John McCall  Builder.CreateCondBr(IsVirtual, FnVirtual, FnNonVirtual);
25693d557bc1867b7d7b102f87290194b4be7932c92John McCall
25793d557bc1867b7d7b102f87290194b4be7932c92John McCall  // In the virtual path, the adjustment left 'This' pointing to the
25893d557bc1867b7d7b102f87290194b4be7932c92John McCall  // vtable of the correct base subobject.  The "function pointer" is an
259babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall  // offset within the vtable (+1 for the virtual flag on non-ARM).
26093d557bc1867b7d7b102f87290194b4be7932c92John McCall  CGF.EmitBlock(FnVirtual);
26193d557bc1867b7d7b102f87290194b4be7932c92John McCall
26293d557bc1867b7d7b102f87290194b4be7932c92John McCall  // Cast the adjusted this to a pointer to vtable pointer and load.
26393d557bc1867b7d7b102f87290194b4be7932c92John McCall  const llvm::Type *VTableTy = Builder.getInt8PtrTy();
26493d557bc1867b7d7b102f87290194b4be7932c92John McCall  llvm::Value *VTable = Builder.CreateBitCast(This, VTableTy->getPointerTo());
265babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall  VTable = Builder.CreateLoad(VTable, "memptr.vtable");
26693d557bc1867b7d7b102f87290194b4be7932c92John McCall
26793d557bc1867b7d7b102f87290194b4be7932c92John McCall  // Apply the offset.
268babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall  llvm::Value *VTableOffset = FnAsInt;
269babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall  if (!IsARM) VTableOffset = Builder.CreateSub(VTableOffset, ptrdiff_1);
270babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall  VTable = Builder.CreateGEP(VTable, VTableOffset);
27193d557bc1867b7d7b102f87290194b4be7932c92John McCall
27293d557bc1867b7d7b102f87290194b4be7932c92John McCall  // Load the virtual function to call.
27393d557bc1867b7d7b102f87290194b4be7932c92John McCall  VTable = Builder.CreateBitCast(VTable, FTy->getPointerTo()->getPointerTo());
274babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall  llvm::Value *VirtualFn = Builder.CreateLoad(VTable, "memptr.virtualfn");
27593d557bc1867b7d7b102f87290194b4be7932c92John McCall  CGF.EmitBranch(FnEnd);
27693d557bc1867b7d7b102f87290194b4be7932c92John McCall
27793d557bc1867b7d7b102f87290194b4be7932c92John McCall  // In the non-virtual path, the function pointer is actually a
27893d557bc1867b7d7b102f87290194b4be7932c92John McCall  // function pointer.
27993d557bc1867b7d7b102f87290194b4be7932c92John McCall  CGF.EmitBlock(FnNonVirtual);
28093d557bc1867b7d7b102f87290194b4be7932c92John McCall  llvm::Value *NonVirtualFn =
281babc9a9ecc3fbc04edaac5a1f4fb3e869815b25cJohn McCall    Builder.CreateIntToPtr(FnAsInt, FTy->getPointerTo(), "memptr.nonvirtualfn");
28293d557bc1867b7d7b102f87290194b4be7932c92John McCall
28393d557bc1867b7d7b102f87290194b4be7932c92John McCall  // We're done.
28493d557bc1867b7d7b102f87290194b4be7932c92John McCall  CGF.EmitBlock(FnEnd);
285bbf3bacb3e0c1ebb3e8a4a8b1330404a7e379315Jay Foad  llvm::PHINode *Callee = Builder.CreatePHI(FTy->getPointerTo(), 2);
28693d557bc1867b7d7b102f87290194b4be7932c92John McCall  Callee->addIncoming(VirtualFn, FnVirtual);
28793d557bc1867b7d7b102f87290194b4be7932c92John McCall  Callee->addIncoming(NonVirtualFn, FnNonVirtual);
28893d557bc1867b7d7b102f87290194b4be7932c92John McCall  return Callee;
28993d557bc1867b7d7b102f87290194b4be7932c92John McCall}
2903023def6bea3af6dbb51eea51f8cb8ea892d26cfJohn McCall
2916c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall/// Compute an l-value by applying the given pointer-to-member to a
2926c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall/// base object.
2936c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCallllvm::Value *ItaniumCXXABI::EmitMemberDataPointerAddress(CodeGenFunction &CGF,
2946c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall                                                         llvm::Value *Base,
2956c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall                                                         llvm::Value *MemPtr,
2966c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall                                           const MemberPointerType *MPT) {
2976c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall  assert(MemPtr->getType() == getPtrDiffTy());
2986c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall
2996c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall  CGBuilderTy &Builder = CGF.Builder;
3006c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall
3016c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall  unsigned AS = cast<llvm::PointerType>(Base->getType())->getAddressSpace();
3026c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall
3036c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall  // Cast to char*.
3046c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall  Base = Builder.CreateBitCast(Base, Builder.getInt8Ty()->getPointerTo(AS));
3056c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall
3066c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall  // Apply the offset, which we assume is non-null.
3076c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall  llvm::Value *Addr = Builder.CreateInBoundsGEP(Base, MemPtr, "memptr.offset");
3086c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall
3096c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall  // Cast the address to the appropriate pointer type, adopting the
3106c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall  // address space of the base pointer.
311eede61a83e90f3cb03ef8665b67d648dccd6ce42Douglas Gregor  const llvm::Type *PType
312eede61a83e90f3cb03ef8665b67d648dccd6ce42Douglas Gregor    = CGF.ConvertTypeForMem(MPT->getPointeeType())->getPointerTo(AS);
3136c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall  return Builder.CreateBitCast(Addr, PType);
3146c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall}
3156c2ab1d578c6cc1f3ddcc948532cd625f1092ef2John McCall
3163023def6bea3af6dbb51eea51f8cb8ea892d26cfJohn McCall/// Perform a derived-to-base or base-to-derived member pointer conversion.
3170bab0cdab751248ca389a5592bcb70eac5d39260John McCall///
3180bab0cdab751248ca389a5592bcb70eac5d39260John McCall/// Obligatory offset/adjustment diagram:
3190bab0cdab751248ca389a5592bcb70eac5d39260John McCall///         <-- offset -->          <-- adjustment -->
3200bab0cdab751248ca389a5592bcb70eac5d39260John McCall///   |--------------------------|----------------------|--------------------|
3210bab0cdab751248ca389a5592bcb70eac5d39260John McCall///   ^Derived address point     ^Base address point    ^Member address point
3220bab0cdab751248ca389a5592bcb70eac5d39260John McCall///
3230bab0cdab751248ca389a5592bcb70eac5d39260John McCall/// So when converting a base member pointer to a derived member pointer,
3240bab0cdab751248ca389a5592bcb70eac5d39260John McCall/// we add the offset to the adjustment because the address point has
3250bab0cdab751248ca389a5592bcb70eac5d39260John McCall/// decreased;  and conversely, when converting a derived MP to a base MP
3260bab0cdab751248ca389a5592bcb70eac5d39260John McCall/// we subtract the offset from the adjustment because the address point
3270bab0cdab751248ca389a5592bcb70eac5d39260John McCall/// has increased.
3280bab0cdab751248ca389a5592bcb70eac5d39260John McCall///
3290bab0cdab751248ca389a5592bcb70eac5d39260John McCall/// The standard forbids (at compile time) conversion to and from
3300bab0cdab751248ca389a5592bcb70eac5d39260John McCall/// virtual bases, which is why we don't have to consider them here.
3310bab0cdab751248ca389a5592bcb70eac5d39260John McCall///
3320bab0cdab751248ca389a5592bcb70eac5d39260John McCall/// The standard forbids (at run time) casting a derived MP to a base
3330bab0cdab751248ca389a5592bcb70eac5d39260John McCall/// MP when the derived MP does not point to a member of the base.
3340bab0cdab751248ca389a5592bcb70eac5d39260John McCall/// This is why -1 is a reasonable choice for null data member
3350bab0cdab751248ca389a5592bcb70eac5d39260John McCall/// pointers.
336d608cdb7c044365cf4e8764ade1e11e99c176078John McCallllvm::Value *
3370bab0cdab751248ca389a5592bcb70eac5d39260John McCallItaniumCXXABI::EmitMemberPointerConversion(CodeGenFunction &CGF,
3380bab0cdab751248ca389a5592bcb70eac5d39260John McCall                                           const CastExpr *E,
3390bab0cdab751248ca389a5592bcb70eac5d39260John McCall                                           llvm::Value *Src) {
3402de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall  assert(E->getCastKind() == CK_DerivedToBaseMemberPointer ||
3412de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall         E->getCastKind() == CK_BaseToDerivedMemberPointer);
3423023def6bea3af6dbb51eea51f8cb8ea892d26cfJohn McCall
343d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  if (isa<llvm::Constant>(Src))
3440bab0cdab751248ca389a5592bcb70eac5d39260John McCall    return EmitMemberPointerConversion(cast<llvm::Constant>(Src), E);
345d608cdb7c044365cf4e8764ade1e11e99c176078John McCall
3463023def6bea3af6dbb51eea51f8cb8ea892d26cfJohn McCall  CGBuilderTy &Builder = CGF.Builder;
3473023def6bea3af6dbb51eea51f8cb8ea892d26cfJohn McCall
3483023def6bea3af6dbb51eea51f8cb8ea892d26cfJohn McCall  const MemberPointerType *SrcTy =
3493023def6bea3af6dbb51eea51f8cb8ea892d26cfJohn McCall    E->getSubExpr()->getType()->getAs<MemberPointerType>();
3503023def6bea3af6dbb51eea51f8cb8ea892d26cfJohn McCall  const MemberPointerType *DestTy = E->getType()->getAs<MemberPointerType>();
3513023def6bea3af6dbb51eea51f8cb8ea892d26cfJohn McCall
3523023def6bea3af6dbb51eea51f8cb8ea892d26cfJohn McCall  const CXXRecordDecl *SrcDecl = SrcTy->getClass()->getAsCXXRecordDecl();
3533023def6bea3af6dbb51eea51f8cb8ea892d26cfJohn McCall  const CXXRecordDecl *DestDecl = DestTy->getClass()->getAsCXXRecordDecl();
3543023def6bea3af6dbb51eea51f8cb8ea892d26cfJohn McCall
3553023def6bea3af6dbb51eea51f8cb8ea892d26cfJohn McCall  bool DerivedToBase =
3562de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall    E->getCastKind() == CK_DerivedToBaseMemberPointer;
3573023def6bea3af6dbb51eea51f8cb8ea892d26cfJohn McCall
358dec0984fce504a39a7f085774fb67cfd9957be58Jeffrey Yasskin  const CXXRecordDecl *DerivedDecl;
3593023def6bea3af6dbb51eea51f8cb8ea892d26cfJohn McCall  if (DerivedToBase)
360dec0984fce504a39a7f085774fb67cfd9957be58Jeffrey Yasskin    DerivedDecl = SrcDecl;
3613023def6bea3af6dbb51eea51f8cb8ea892d26cfJohn McCall  else
362dec0984fce504a39a7f085774fb67cfd9957be58Jeffrey Yasskin    DerivedDecl = DestDecl;
3633023def6bea3af6dbb51eea51f8cb8ea892d26cfJohn McCall
364d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  llvm::Constant *Adj =
365d608cdb7c044365cf4e8764ade1e11e99c176078John McCall    CGF.CGM.GetNonVirtualBaseClassOffset(DerivedDecl,
366d608cdb7c044365cf4e8764ade1e11e99c176078John McCall                                         E->path_begin(),
367d608cdb7c044365cf4e8764ade1e11e99c176078John McCall                                         E->path_end());
368d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  if (!Adj) return Src;
369875ab10245d3bf37252dd822aa1616bb0a391095John McCall
3700bab0cdab751248ca389a5592bcb70eac5d39260John McCall  // For member data pointers, this is just a matter of adding the
3710bab0cdab751248ca389a5592bcb70eac5d39260John McCall  // offset if the source is non-null.
3720bab0cdab751248ca389a5592bcb70eac5d39260John McCall  if (SrcTy->isMemberDataPointer()) {
3730bab0cdab751248ca389a5592bcb70eac5d39260John McCall    llvm::Value *Dst;
3740bab0cdab751248ca389a5592bcb70eac5d39260John McCall    if (DerivedToBase)
3750bab0cdab751248ca389a5592bcb70eac5d39260John McCall      Dst = Builder.CreateNSWSub(Src, Adj, "adj");
3760bab0cdab751248ca389a5592bcb70eac5d39260John McCall    else
3770bab0cdab751248ca389a5592bcb70eac5d39260John McCall      Dst = Builder.CreateNSWAdd(Src, Adj, "adj");
3780bab0cdab751248ca389a5592bcb70eac5d39260John McCall
3790bab0cdab751248ca389a5592bcb70eac5d39260John McCall    // Null check.
3800bab0cdab751248ca389a5592bcb70eac5d39260John McCall    llvm::Value *Null = llvm::Constant::getAllOnesValue(Src->getType());
3810bab0cdab751248ca389a5592bcb70eac5d39260John McCall    llvm::Value *IsNull = Builder.CreateICmpEQ(Src, Null, "memptr.isnull");
3820bab0cdab751248ca389a5592bcb70eac5d39260John McCall    return Builder.CreateSelect(IsNull, Src, Dst);
3830bab0cdab751248ca389a5592bcb70eac5d39260John McCall  }
3840bab0cdab751248ca389a5592bcb70eac5d39260John McCall
385d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  // The this-adjustment is left-shifted by 1 on ARM.
386d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  if (IsARM) {
387d608cdb7c044365cf4e8764ade1e11e99c176078John McCall    uint64_t Offset = cast<llvm::ConstantInt>(Adj)->getZExtValue();
388d608cdb7c044365cf4e8764ade1e11e99c176078John McCall    Offset <<= 1;
389d608cdb7c044365cf4e8764ade1e11e99c176078John McCall    Adj = llvm::ConstantInt::get(Adj->getType(), Offset);
390d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  }
391d608cdb7c044365cf4e8764ade1e11e99c176078John McCall
392e14add4a275318e7a9cafd3a01f79fb15a5a08bcJohn McCall  llvm::Value *SrcAdj = Builder.CreateExtractValue(Src, 1, "src.adj");
393d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  llvm::Value *DstAdj;
394d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  if (DerivedToBase)
3950bab0cdab751248ca389a5592bcb70eac5d39260John McCall    DstAdj = Builder.CreateNSWSub(SrcAdj, Adj, "adj");
396d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  else
3970bab0cdab751248ca389a5592bcb70eac5d39260John McCall    DstAdj = Builder.CreateNSWAdd(SrcAdj, Adj, "adj");
398d608cdb7c044365cf4e8764ade1e11e99c176078John McCall
399e14add4a275318e7a9cafd3a01f79fb15a5a08bcJohn McCall  return Builder.CreateInsertValue(Src, DstAdj, 1);
4003023def6bea3af6dbb51eea51f8cb8ea892d26cfJohn McCall}
401cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall
402cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCallllvm::Constant *
4030bab0cdab751248ca389a5592bcb70eac5d39260John McCallItaniumCXXABI::EmitMemberPointerConversion(llvm::Constant *C,
4040bab0cdab751248ca389a5592bcb70eac5d39260John McCall                                           const CastExpr *E) {
405cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall  const MemberPointerType *SrcTy =
406cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall    E->getSubExpr()->getType()->getAs<MemberPointerType>();
407cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall  const MemberPointerType *DestTy =
408cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall    E->getType()->getAs<MemberPointerType>();
409cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall
410cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall  bool DerivedToBase =
4112de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall    E->getCastKind() == CK_DerivedToBaseMemberPointer;
412cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall
413cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall  const CXXRecordDecl *DerivedDecl;
414cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall  if (DerivedToBase)
415cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall    DerivedDecl = SrcTy->getClass()->getAsCXXRecordDecl();
416cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall  else
417cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall    DerivedDecl = DestTy->getClass()->getAsCXXRecordDecl();
418cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall
419cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall  // Calculate the offset to the base class.
420cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall  llvm::Constant *Offset =
421cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall    CGM.GetNonVirtualBaseClassOffset(DerivedDecl,
422cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall                                     E->path_begin(),
423cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall                                     E->path_end());
424cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall  // If there's no offset, we're done.
425cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall  if (!Offset) return C;
426cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall
4270bab0cdab751248ca389a5592bcb70eac5d39260John McCall  // If the source is a member data pointer, we have to do a null
4280bab0cdab751248ca389a5592bcb70eac5d39260John McCall  // check and then add the offset.  In the common case, we can fold
4290bab0cdab751248ca389a5592bcb70eac5d39260John McCall  // away the offset.
4300bab0cdab751248ca389a5592bcb70eac5d39260John McCall  if (SrcTy->isMemberDataPointer()) {
4310bab0cdab751248ca389a5592bcb70eac5d39260John McCall    assert(C->getType() == getPtrDiffTy());
4320bab0cdab751248ca389a5592bcb70eac5d39260John McCall
4330bab0cdab751248ca389a5592bcb70eac5d39260John McCall    // If it's a constant int, just create a new constant int.
4340bab0cdab751248ca389a5592bcb70eac5d39260John McCall    if (llvm::ConstantInt *CI = dyn_cast<llvm::ConstantInt>(C)) {
4350bab0cdab751248ca389a5592bcb70eac5d39260John McCall      int64_t Src = CI->getSExtValue();
4360bab0cdab751248ca389a5592bcb70eac5d39260John McCall
4370bab0cdab751248ca389a5592bcb70eac5d39260John McCall      // Null converts to null.
4380bab0cdab751248ca389a5592bcb70eac5d39260John McCall      if (Src == -1) return CI;
4390bab0cdab751248ca389a5592bcb70eac5d39260John McCall
4400bab0cdab751248ca389a5592bcb70eac5d39260John McCall      // Otherwise, just add the offset.
4410bab0cdab751248ca389a5592bcb70eac5d39260John McCall      int64_t OffsetV = cast<llvm::ConstantInt>(Offset)->getSExtValue();
4420bab0cdab751248ca389a5592bcb70eac5d39260John McCall      int64_t Dst = (DerivedToBase ? Src - OffsetV : Src + OffsetV);
4430bab0cdab751248ca389a5592bcb70eac5d39260John McCall      return llvm::ConstantInt::get(CI->getType(), Dst, /*signed*/ true);
4440bab0cdab751248ca389a5592bcb70eac5d39260John McCall    }
4450bab0cdab751248ca389a5592bcb70eac5d39260John McCall
4460bab0cdab751248ca389a5592bcb70eac5d39260John McCall    // Otherwise, we have to form a constant select expression.
4470bab0cdab751248ca389a5592bcb70eac5d39260John McCall    llvm::Constant *Null = llvm::Constant::getAllOnesValue(C->getType());
4480bab0cdab751248ca389a5592bcb70eac5d39260John McCall
4490bab0cdab751248ca389a5592bcb70eac5d39260John McCall    llvm::Constant *IsNull =
4500bab0cdab751248ca389a5592bcb70eac5d39260John McCall      llvm::ConstantExpr::getICmp(llvm::ICmpInst::ICMP_EQ, C, Null);
4510bab0cdab751248ca389a5592bcb70eac5d39260John McCall
4520bab0cdab751248ca389a5592bcb70eac5d39260John McCall    llvm::Constant *Dst;
4530bab0cdab751248ca389a5592bcb70eac5d39260John McCall    if (DerivedToBase)
4540bab0cdab751248ca389a5592bcb70eac5d39260John McCall      Dst = llvm::ConstantExpr::getNSWSub(C, Offset);
4550bab0cdab751248ca389a5592bcb70eac5d39260John McCall    else
4560bab0cdab751248ca389a5592bcb70eac5d39260John McCall      Dst = llvm::ConstantExpr::getNSWAdd(C, Offset);
4570bab0cdab751248ca389a5592bcb70eac5d39260John McCall
4580bab0cdab751248ca389a5592bcb70eac5d39260John McCall    return llvm::ConstantExpr::getSelect(IsNull, Null, Dst);
4590bab0cdab751248ca389a5592bcb70eac5d39260John McCall  }
4600bab0cdab751248ca389a5592bcb70eac5d39260John McCall
461875ab10245d3bf37252dd822aa1616bb0a391095John McCall  // The this-adjustment is left-shifted by 1 on ARM.
462875ab10245d3bf37252dd822aa1616bb0a391095John McCall  if (IsARM) {
4630bab0cdab751248ca389a5592bcb70eac5d39260John McCall    int64_t OffsetV = cast<llvm::ConstantInt>(Offset)->getSExtValue();
464875ab10245d3bf37252dd822aa1616bb0a391095John McCall    OffsetV <<= 1;
465875ab10245d3bf37252dd822aa1616bb0a391095John McCall    Offset = llvm::ConstantInt::get(Offset->getType(), OffsetV);
466875ab10245d3bf37252dd822aa1616bb0a391095John McCall  }
467875ab10245d3bf37252dd822aa1616bb0a391095John McCall
468cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall  llvm::ConstantStruct *CS = cast<llvm::ConstantStruct>(C);
469cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall
4700bab0cdab751248ca389a5592bcb70eac5d39260John McCall  llvm::Constant *Values[2] = { CS->getOperand(0), 0 };
4710bab0cdab751248ca389a5592bcb70eac5d39260John McCall  if (DerivedToBase)
4720bab0cdab751248ca389a5592bcb70eac5d39260John McCall    Values[1] = llvm::ConstantExpr::getSub(CS->getOperand(1), Offset);
4730bab0cdab751248ca389a5592bcb70eac5d39260John McCall  else
4740bab0cdab751248ca389a5592bcb70eac5d39260John McCall    Values[1] = llvm::ConstantExpr::getAdd(CS->getOperand(1), Offset);
4750bab0cdab751248ca389a5592bcb70eac5d39260John McCall
476cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall  return llvm::ConstantStruct::get(CGM.getLLVMContext(), Values, 2,
477cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall                                   /*Packed=*/false);
478cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall}
479cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall
480cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall
481cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCallllvm::Constant *
4820bab0cdab751248ca389a5592bcb70eac5d39260John McCallItaniumCXXABI::EmitNullMemberPointer(const MemberPointerType *MPT) {
4830bab0cdab751248ca389a5592bcb70eac5d39260John McCall  const llvm::Type *ptrdiff_t = getPtrDiffTy();
4840bab0cdab751248ca389a5592bcb70eac5d39260John McCall
4850bab0cdab751248ca389a5592bcb70eac5d39260John McCall  // Itanium C++ ABI 2.3:
4860bab0cdab751248ca389a5592bcb70eac5d39260John McCall  //   A NULL pointer is represented as -1.
4870bab0cdab751248ca389a5592bcb70eac5d39260John McCall  if (MPT->isMemberDataPointer())
4880bab0cdab751248ca389a5592bcb70eac5d39260John McCall    return llvm::ConstantInt::get(ptrdiff_t, -1ULL, /*isSigned=*/true);
489d608cdb7c044365cf4e8764ade1e11e99c176078John McCall
490d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  llvm::Constant *Zero = llvm::ConstantInt::get(ptrdiff_t, 0);
491d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  llvm::Constant *Values[2] = { Zero, Zero };
492d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  return llvm::ConstantStruct::get(CGM.getLLVMContext(), Values, 2,
493d608cdb7c044365cf4e8764ade1e11e99c176078John McCall                                   /*Packed=*/false);
494cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall}
495cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall
4965808ce43f8d7e71f5acacc9ca320268c4f37565aJohn McCallllvm::Constant *
4975808ce43f8d7e71f5acacc9ca320268c4f37565aJohn McCallItaniumCXXABI::EmitMemberDataPointer(const MemberPointerType *MPT,
4985808ce43f8d7e71f5acacc9ca320268c4f37565aJohn McCall                                     CharUnits offset) {
4990bab0cdab751248ca389a5592bcb70eac5d39260John McCall  // Itanium C++ ABI 2.3:
5000bab0cdab751248ca389a5592bcb70eac5d39260John McCall  //   A pointer to data member is an offset from the base address of
5010bab0cdab751248ca389a5592bcb70eac5d39260John McCall  //   the class object containing it, represented as a ptrdiff_t
5025808ce43f8d7e71f5acacc9ca320268c4f37565aJohn McCall  return llvm::ConstantInt::get(getPtrDiffTy(), offset.getQuantity());
5030bab0cdab751248ca389a5592bcb70eac5d39260John McCall}
5040bab0cdab751248ca389a5592bcb70eac5d39260John McCall
505755d8497e39071aa24acc173ff07083e3256b8f8John McCallllvm::Constant *ItaniumCXXABI::EmitMemberPointer(const CXXMethodDecl *MD) {
506d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  assert(MD->isInstance() && "Member function must not be static!");
507d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  MD = MD->getCanonicalDecl();
508875ab10245d3bf37252dd822aa1616bb0a391095John McCall
509d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  CodeGenTypes &Types = CGM.getTypes();
5100bab0cdab751248ca389a5592bcb70eac5d39260John McCall  const llvm::Type *ptrdiff_t = getPtrDiffTy();
511875ab10245d3bf37252dd822aa1616bb0a391095John McCall
512d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  // Get the function pointer (or index if this is a virtual function).
513d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  llvm::Constant *MemPtr[2];
514d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  if (MD->isVirtual()) {
515d608cdb7c044365cf4e8764ade1e11e99c176078John McCall    uint64_t Index = CGM.getVTables().getMethodVTableIndex(MD);
516875ab10245d3bf37252dd822aa1616bb0a391095John McCall
5171246ba6f6801390ffc0e1d4b83a2b45e72283b8fKen Dyck    const ASTContext &Context = getContext();
5181246ba6f6801390ffc0e1d4b83a2b45e72283b8fKen Dyck    CharUnits PointerWidth =
5191246ba6f6801390ffc0e1d4b83a2b45e72283b8fKen Dyck      Context.toCharUnitsFromBits(Context.Target.getPointerWidth(0));
5201246ba6f6801390ffc0e1d4b83a2b45e72283b8fKen Dyck    uint64_t VTableOffset = (Index * PointerWidth.getQuantity());
521d608cdb7c044365cf4e8764ade1e11e99c176078John McCall
522d608cdb7c044365cf4e8764ade1e11e99c176078John McCall    if (IsARM) {
523d608cdb7c044365cf4e8764ade1e11e99c176078John McCall      // ARM C++ ABI 3.2.1:
524d608cdb7c044365cf4e8764ade1e11e99c176078John McCall      //   This ABI specifies that adj contains twice the this
525d608cdb7c044365cf4e8764ade1e11e99c176078John McCall      //   adjustment, plus 1 if the member function is virtual. The
526d608cdb7c044365cf4e8764ade1e11e99c176078John McCall      //   least significant bit of adj then makes exactly the same
527d608cdb7c044365cf4e8764ade1e11e99c176078John McCall      //   discrimination as the least significant bit of ptr does for
528d608cdb7c044365cf4e8764ade1e11e99c176078John McCall      //   Itanium.
529d608cdb7c044365cf4e8764ade1e11e99c176078John McCall      MemPtr[0] = llvm::ConstantInt::get(ptrdiff_t, VTableOffset);
530d608cdb7c044365cf4e8764ade1e11e99c176078John McCall      MemPtr[1] = llvm::ConstantInt::get(ptrdiff_t, 1);
531d608cdb7c044365cf4e8764ade1e11e99c176078John McCall    } else {
532d608cdb7c044365cf4e8764ade1e11e99c176078John McCall      // Itanium C++ ABI 2.3:
533d608cdb7c044365cf4e8764ade1e11e99c176078John McCall      //   For a virtual function, [the pointer field] is 1 plus the
534d608cdb7c044365cf4e8764ade1e11e99c176078John McCall      //   virtual table offset (in bytes) of the function,
535d608cdb7c044365cf4e8764ade1e11e99c176078John McCall      //   represented as a ptrdiff_t.
536d608cdb7c044365cf4e8764ade1e11e99c176078John McCall      MemPtr[0] = llvm::ConstantInt::get(ptrdiff_t, VTableOffset + 1);
537d608cdb7c044365cf4e8764ade1e11e99c176078John McCall      MemPtr[1] = llvm::ConstantInt::get(ptrdiff_t, 0);
538d608cdb7c044365cf4e8764ade1e11e99c176078John McCall    }
539d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  } else {
540755d8497e39071aa24acc173ff07083e3256b8f8John McCall    QualType fnType = MD->getType();
541755d8497e39071aa24acc173ff07083e3256b8f8John McCall    const FunctionProtoType *FPT = MD->getType()->castAs<FunctionProtoType>();
542755d8497e39071aa24acc173ff07083e3256b8f8John McCall    const llvm::Type *Ty;
543755d8497e39071aa24acc173ff07083e3256b8f8John McCall    // Check whether the function has a computable LLVM signature.
544755d8497e39071aa24acc173ff07083e3256b8f8John McCall    if (!CodeGenTypes::VerifyFuncTypeComplete(FPT)) {
545755d8497e39071aa24acc173ff07083e3256b8f8John McCall      // The function has a computable LLVM signature; use the correct type.
546755d8497e39071aa24acc173ff07083e3256b8f8John McCall      Ty = Types.GetFunctionType(Types.getFunctionInfo(MD),
547755d8497e39071aa24acc173ff07083e3256b8f8John McCall                                 FPT->isVariadic());
548d608cdb7c044365cf4e8764ade1e11e99c176078John McCall    } else {
549755d8497e39071aa24acc173ff07083e3256b8f8John McCall      // Use an arbitrary non-function type to tell GetAddrOfFunction that the
550755d8497e39071aa24acc173ff07083e3256b8f8John McCall      // function type is incomplete.
551755d8497e39071aa24acc173ff07083e3256b8f8John McCall      Ty = ptrdiff_t;
552d608cdb7c044365cf4e8764ade1e11e99c176078John McCall    }
553755d8497e39071aa24acc173ff07083e3256b8f8John McCall    llvm::Constant *addr = CGM.GetAddrOfFunction(MD, Ty);
554d608cdb7c044365cf4e8764ade1e11e99c176078John McCall
555379b5155b4566f63679e1da6b0ceb5fdfa2aec6dJohn McCall    MemPtr[0] = llvm::ConstantExpr::getPtrToInt(addr, ptrdiff_t);
556d608cdb7c044365cf4e8764ade1e11e99c176078John McCall    MemPtr[1] = llvm::ConstantInt::get(ptrdiff_t, 0);
557d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  }
558d608cdb7c044365cf4e8764ade1e11e99c176078John McCall
559d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  return llvm::ConstantStruct::get(CGM.getLLVMContext(),
560d608cdb7c044365cf4e8764ade1e11e99c176078John McCall                                   MemPtr, 2, /*Packed=*/false);
561875ab10245d3bf37252dd822aa1616bb0a391095John McCall}
562875ab10245d3bf37252dd822aa1616bb0a391095John McCall
563e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall/// The comparison algorithm is pretty easy: the member pointers are
564e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall/// the same if they're either bitwise identical *or* both null.
565e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall///
566e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall/// ARM is different here only because null-ness is more complicated.
567e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCallllvm::Value *
5680bab0cdab751248ca389a5592bcb70eac5d39260John McCallItaniumCXXABI::EmitMemberPointerComparison(CodeGenFunction &CGF,
5690bab0cdab751248ca389a5592bcb70eac5d39260John McCall                                           llvm::Value *L,
5700bab0cdab751248ca389a5592bcb70eac5d39260John McCall                                           llvm::Value *R,
5710bab0cdab751248ca389a5592bcb70eac5d39260John McCall                                           const MemberPointerType *MPT,
5720bab0cdab751248ca389a5592bcb70eac5d39260John McCall                                           bool Inequality) {
573e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  CGBuilderTy &Builder = CGF.Builder;
574e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall
575e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  llvm::ICmpInst::Predicate Eq;
576e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  llvm::Instruction::BinaryOps And, Or;
577e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  if (Inequality) {
578e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall    Eq = llvm::ICmpInst::ICMP_NE;
579e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall    And = llvm::Instruction::Or;
580e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall    Or = llvm::Instruction::And;
581e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  } else {
582e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall    Eq = llvm::ICmpInst::ICMP_EQ;
583e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall    And = llvm::Instruction::And;
584e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall    Or = llvm::Instruction::Or;
585e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  }
586e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall
5870bab0cdab751248ca389a5592bcb70eac5d39260John McCall  // Member data pointers are easy because there's a unique null
5880bab0cdab751248ca389a5592bcb70eac5d39260John McCall  // value, so it just comes down to bitwise equality.
5890bab0cdab751248ca389a5592bcb70eac5d39260John McCall  if (MPT->isMemberDataPointer())
5900bab0cdab751248ca389a5592bcb70eac5d39260John McCall    return Builder.CreateICmp(Eq, L, R);
5910bab0cdab751248ca389a5592bcb70eac5d39260John McCall
5920bab0cdab751248ca389a5592bcb70eac5d39260John McCall  // For member function pointers, the tautologies are more complex.
5930bab0cdab751248ca389a5592bcb70eac5d39260John McCall  // The Itanium tautology is:
594de719f7131e1ece5c9d6b5ffe21b83286d29f10fJohn McCall  //   (L == R) <==> (L.ptr == R.ptr && (L.ptr == 0 || L.adj == R.adj))
5950bab0cdab751248ca389a5592bcb70eac5d39260John McCall  // The ARM tautology is:
596de719f7131e1ece5c9d6b5ffe21b83286d29f10fJohn McCall  //   (L == R) <==> (L.ptr == R.ptr &&
597de719f7131e1ece5c9d6b5ffe21b83286d29f10fJohn McCall  //                  (L.adj == R.adj ||
598de719f7131e1ece5c9d6b5ffe21b83286d29f10fJohn McCall  //                   (L.ptr == 0 && ((L.adj|R.adj) & 1) == 0)))
5990bab0cdab751248ca389a5592bcb70eac5d39260John McCall  // The inequality tautologies have exactly the same structure, except
6000bab0cdab751248ca389a5592bcb70eac5d39260John McCall  // applying De Morgan's laws.
6010bab0cdab751248ca389a5592bcb70eac5d39260John McCall
6020bab0cdab751248ca389a5592bcb70eac5d39260John McCall  llvm::Value *LPtr = Builder.CreateExtractValue(L, 0, "lhs.memptr.ptr");
6030bab0cdab751248ca389a5592bcb70eac5d39260John McCall  llvm::Value *RPtr = Builder.CreateExtractValue(R, 0, "rhs.memptr.ptr");
6040bab0cdab751248ca389a5592bcb70eac5d39260John McCall
605e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  // This condition tests whether L.ptr == R.ptr.  This must always be
606e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  // true for equality to hold.
607e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  llvm::Value *PtrEq = Builder.CreateICmp(Eq, LPtr, RPtr, "cmp.ptr");
608e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall
609e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  // This condition, together with the assumption that L.ptr == R.ptr,
610e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  // tests whether the pointers are both null.  ARM imposes an extra
611e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  // condition.
612e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  llvm::Value *Zero = llvm::Constant::getNullValue(LPtr->getType());
613e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  llvm::Value *EqZero = Builder.CreateICmp(Eq, LPtr, Zero, "cmp.ptr.null");
614e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall
615e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  // This condition tests whether L.adj == R.adj.  If this isn't
616e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  // true, the pointers are unequal unless they're both null.
617d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  llvm::Value *LAdj = Builder.CreateExtractValue(L, 1, "lhs.memptr.adj");
618d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  llvm::Value *RAdj = Builder.CreateExtractValue(R, 1, "rhs.memptr.adj");
619e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  llvm::Value *AdjEq = Builder.CreateICmp(Eq, LAdj, RAdj, "cmp.adj");
620e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall
621e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  // Null member function pointers on ARM clear the low bit of Adj,
622e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  // so the zero condition has to check that neither low bit is set.
623e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  if (IsARM) {
624e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall    llvm::Value *One = llvm::ConstantInt::get(LPtr->getType(), 1);
625e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall
626e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall    // Compute (l.adj | r.adj) & 1 and test it against zero.
627e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall    llvm::Value *OrAdj = Builder.CreateOr(LAdj, RAdj, "or.adj");
628e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall    llvm::Value *OrAdjAnd1 = Builder.CreateAnd(OrAdj, One);
629e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall    llvm::Value *OrAdjAnd1EqZero = Builder.CreateICmp(Eq, OrAdjAnd1, Zero,
630e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall                                                      "cmp.or.adj");
631e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall    EqZero = Builder.CreateBinOp(And, EqZero, OrAdjAnd1EqZero);
632e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  }
633e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall
634e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  // Tie together all our conditions.
635e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  llvm::Value *Result = Builder.CreateBinOp(Or, EqZero, AdjEq);
636e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  Result = Builder.CreateBinOp(And, PtrEq, Result,
637e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall                               Inequality ? "memptr.ne" : "memptr.eq");
638e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  return Result;
639e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall}
640e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall
641e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCallllvm::Value *
6420bab0cdab751248ca389a5592bcb70eac5d39260John McCallItaniumCXXABI::EmitMemberPointerIsNotNull(CodeGenFunction &CGF,
6430bab0cdab751248ca389a5592bcb70eac5d39260John McCall                                          llvm::Value *MemPtr,
6440bab0cdab751248ca389a5592bcb70eac5d39260John McCall                                          const MemberPointerType *MPT) {
645e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  CGBuilderTy &Builder = CGF.Builder;
6460bab0cdab751248ca389a5592bcb70eac5d39260John McCall
6470bab0cdab751248ca389a5592bcb70eac5d39260John McCall  /// For member data pointers, this is just a check against -1.
6480bab0cdab751248ca389a5592bcb70eac5d39260John McCall  if (MPT->isMemberDataPointer()) {
6490bab0cdab751248ca389a5592bcb70eac5d39260John McCall    assert(MemPtr->getType() == getPtrDiffTy());
6500bab0cdab751248ca389a5592bcb70eac5d39260John McCall    llvm::Value *NegativeOne =
6510bab0cdab751248ca389a5592bcb70eac5d39260John McCall      llvm::Constant::getAllOnesValue(MemPtr->getType());
6520bab0cdab751248ca389a5592bcb70eac5d39260John McCall    return Builder.CreateICmpNE(MemPtr, NegativeOne, "memptr.tobool");
6530bab0cdab751248ca389a5592bcb70eac5d39260John McCall  }
654e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall
655e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  // In Itanium, a member function pointer is null if 'ptr' is null.
656d608cdb7c044365cf4e8764ade1e11e99c176078John McCall  llvm::Value *Ptr = Builder.CreateExtractValue(MemPtr, 0, "memptr.ptr");
657e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall
658e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  llvm::Constant *Zero = llvm::ConstantInt::get(Ptr->getType(), 0);
659e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  llvm::Value *Result = Builder.CreateICmpNE(Ptr, Zero, "memptr.tobool");
660e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall
661e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  // In ARM, it's that, plus the low bit of 'adj' must be zero.
662e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  if (IsARM) {
663e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall    llvm::Constant *One = llvm::ConstantInt::get(Ptr->getType(), 1);
664d608cdb7c044365cf4e8764ade1e11e99c176078John McCall    llvm::Value *Adj = Builder.CreateExtractValue(MemPtr, 1, "memptr.adj");
665e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall    llvm::Value *VirtualBit = Builder.CreateAnd(Adj, One, "memptr.virtualbit");
666e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall    llvm::Value *IsNotVirtual = Builder.CreateICmpEQ(VirtualBit, Zero,
667e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall                                                     "memptr.notvirtual");
668e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall    Result = Builder.CreateAnd(Result, IsNotVirtual);
669e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  }
670e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall
671e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall  return Result;
672e9fd7eb6c67676dc27e84eac429aec4f3be51f26John McCall}
673875ab10245d3bf37252dd822aa1616bb0a391095John McCall
674f16aa103d3afd42fbca2ab346f191bf745cec092John McCall/// The Itanium ABI requires non-zero initialization only for data
675f16aa103d3afd42fbca2ab346f191bf745cec092John McCall/// member pointers, for which '0' is a valid offset.
676f16aa103d3afd42fbca2ab346f191bf745cec092John McCallbool ItaniumCXXABI::isZeroInitializable(const MemberPointerType *MPT) {
677f16aa103d3afd42fbca2ab346f191bf745cec092John McCall  return MPT->getPointeeType()->isFunctionType();
678cf2c85e76fdafe7e634810a292321a6c8322483dJohn McCall}
6794c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
6804c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall/// The generic ABI passes 'this', plus a VTT if it's initializing a
6814c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall/// base subobject.
6824c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCallvoid ItaniumCXXABI::BuildConstructorSignature(const CXXConstructorDecl *Ctor,
6834c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                              CXXCtorType Type,
6844c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                              CanQualType &ResTy,
6854c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                llvm::SmallVectorImpl<CanQualType> &ArgTys) {
6869cb2cee212d708220c52249ceac4cdd9f2b8aeb0John McCall  ASTContext &Context = getContext();
6874c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
6884c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  // 'this' is already there.
6894c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
6904c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  // Check if we need to add a VTT parameter (which has type void **).
6914c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  if (Type == Ctor_Base && Ctor->getParent()->getNumVBases() != 0)
6924c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall    ArgTys.push_back(Context.getPointerType(Context.VoidPtrTy));
6934c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall}
6944c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
6954c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall/// The ARM ABI does the same as the Itanium ABI, but returns 'this'.
6964c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCallvoid ARMCXXABI::BuildConstructorSignature(const CXXConstructorDecl *Ctor,
6974c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                          CXXCtorType Type,
6984c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                          CanQualType &ResTy,
6994c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                llvm::SmallVectorImpl<CanQualType> &ArgTys) {
7004c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  ItaniumCXXABI::BuildConstructorSignature(Ctor, Type, ResTy, ArgTys);
7014c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  ResTy = ArgTys[0];
7024c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall}
7034c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
7044c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall/// The generic ABI passes 'this', plus a VTT if it's destroying a
7054c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall/// base subobject.
7064c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCallvoid ItaniumCXXABI::BuildDestructorSignature(const CXXDestructorDecl *Dtor,
7074c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                             CXXDtorType Type,
7084c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                             CanQualType &ResTy,
7094c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                llvm::SmallVectorImpl<CanQualType> &ArgTys) {
7109cb2cee212d708220c52249ceac4cdd9f2b8aeb0John McCall  ASTContext &Context = getContext();
7114c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
7124c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  // 'this' is already there.
7134c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
7144c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  // Check if we need to add a VTT parameter (which has type void **).
7154c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  if (Type == Dtor_Base && Dtor->getParent()->getNumVBases() != 0)
7164c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall    ArgTys.push_back(Context.getPointerType(Context.VoidPtrTy));
7174c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall}
7184c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
7194c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall/// The ARM ABI does the same as the Itanium ABI, but returns 'this'
7204c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall/// for non-deleting destructors.
7214c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCallvoid ARMCXXABI::BuildDestructorSignature(const CXXDestructorDecl *Dtor,
7224c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                         CXXDtorType Type,
7234c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                         CanQualType &ResTy,
7244c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                llvm::SmallVectorImpl<CanQualType> &ArgTys) {
7254c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  ItaniumCXXABI::BuildDestructorSignature(Dtor, Type, ResTy, ArgTys);
7264c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
7274c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  if (Type != Dtor_Deleting)
7284c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall    ResTy = ArgTys[0];
7294c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall}
7304c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
7314c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCallvoid ItaniumCXXABI::BuildInstanceFunctionParams(CodeGenFunction &CGF,
7324c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                                QualType &ResTy,
7334c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                                FunctionArgList &Params) {
7344c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  /// Create the 'this' variable.
7354c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  BuildThisParam(CGF, Params);
7364c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
7374c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  const CXXMethodDecl *MD = cast<CXXMethodDecl>(CGF.CurGD.getDecl());
7384c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  assert(MD->isInstance());
7394c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
7404c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  // Check if we need a VTT parameter as well.
7414c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  if (CodeGenVTables::needsVTTParameter(CGF.CurGD)) {
7429cb2cee212d708220c52249ceac4cdd9f2b8aeb0John McCall    ASTContext &Context = getContext();
7434c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
7444c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall    // FIXME: avoid the fake decl
7454c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall    QualType T = Context.getPointerType(Context.VoidPtrTy);
7464c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall    ImplicitParamDecl *VTTDecl
7474c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall      = ImplicitParamDecl::Create(Context, 0, MD->getLocation(),
7484c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                  &Context.Idents.get("vtt"), T);
749d26bc76c98006609002d9930f8840490e88ac5b5John McCall    Params.push_back(VTTDecl);
7504c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall    getVTTDecl(CGF) = VTTDecl;
7514c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  }
7524c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall}
7534c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
7544c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCallvoid ARMCXXABI::BuildInstanceFunctionParams(CodeGenFunction &CGF,
7554c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                            QualType &ResTy,
7564c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                            FunctionArgList &Params) {
7574c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  ItaniumCXXABI::BuildInstanceFunctionParams(CGF, ResTy, Params);
7584c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
7594c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  // Return 'this' from certain constructors and destructors.
7604c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  if (HasThisReturn(CGF.CurGD))
761d26bc76c98006609002d9930f8840490e88ac5b5John McCall    ResTy = Params[0]->getType();
7624c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall}
7634c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
7644c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCallvoid ItaniumCXXABI::EmitInstanceFunctionProlog(CodeGenFunction &CGF) {
7654c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  /// Initialize the 'this' slot.
7664c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  EmitThisParam(CGF);
7674c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
7684c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  /// Initialize the 'vtt' slot if needed.
7694c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  if (getVTTDecl(CGF)) {
7704c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall    getVTTValue(CGF)
7714c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall      = CGF.Builder.CreateLoad(CGF.GetAddrOfLocalVar(getVTTDecl(CGF)),
7724c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                               "vtt");
7734c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  }
7744c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall}
7754c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
7764c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCallvoid ARMCXXABI::EmitInstanceFunctionProlog(CodeGenFunction &CGF) {
7774c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  ItaniumCXXABI::EmitInstanceFunctionProlog(CGF);
7784c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
7794c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  /// Initialize the return slot to 'this' at the start of the
7804c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  /// function.
7814c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  if (HasThisReturn(CGF.CurGD))
7824c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall    CGF.Builder.CreateStore(CGF.LoadCXXThis(), CGF.ReturnValue);
7834c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall}
7844c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
7854c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCallvoid ARMCXXABI::EmitReturnFromThunk(CodeGenFunction &CGF,
7864c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall                                    RValue RV, QualType ResultType) {
7874c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  if (!isa<CXXDestructorDecl>(CGF.CurGD.getDecl()))
7884c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall    return ItaniumCXXABI::EmitReturnFromThunk(CGF, RV, ResultType);
7894c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall
7904c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  // Destructor thunks in the ARM ABI have indeterminate results.
7914c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  const llvm::Type *T =
7924c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall    cast<llvm::PointerType>(CGF.ReturnValue->getType())->getElementType();
7934c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  RValue Undef = RValue::get(llvm::UndefValue::get(T));
7944c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall  return ItaniumCXXABI::EmitReturnFromThunk(CGF, Undef, ResultType);
7954c40d98ab7acf5f27fa89b17bd8fc0ef7683df37John McCall}
7961e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
7971e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall/************************** Array allocation cookies **************************/
7981e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
7996ec278d1a354517e20f13a877481453ee7940c78John McCallbool ItaniumCXXABI::NeedsArrayCookie(const CXXNewExpr *expr) {
8006ec278d1a354517e20f13a877481453ee7940c78John McCall  // If the class's usual deallocation function takes two arguments,
8016ec278d1a354517e20f13a877481453ee7940c78John McCall  // it needs a cookie.
8026ec278d1a354517e20f13a877481453ee7940c78John McCall  if (expr->doesUsualArrayDeleteWantSize())
8036ec278d1a354517e20f13a877481453ee7940c78John McCall    return true;
8046ec278d1a354517e20f13a877481453ee7940c78John McCall
8056ec278d1a354517e20f13a877481453ee7940c78John McCall  // Otherwise, if the class has a non-trivial destructor, it always
8066ec278d1a354517e20f13a877481453ee7940c78John McCall  // needs a cookie.
8076ec278d1a354517e20f13a877481453ee7940c78John McCall  const CXXRecordDecl *record =
8086ec278d1a354517e20f13a877481453ee7940c78John McCall    expr->getAllocatedType()->getBaseElementTypeUnsafe()->getAsCXXRecordDecl();
8096ec278d1a354517e20f13a877481453ee7940c78John McCall  return (record && !record->hasTrivialDestructor());
8106ec278d1a354517e20f13a877481453ee7940c78John McCall}
8111e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
8126ec278d1a354517e20f13a877481453ee7940c78John McCallbool ItaniumCXXABI::NeedsArrayCookie(const CXXDeleteExpr *expr,
8136ec278d1a354517e20f13a877481453ee7940c78John McCall                                     QualType elementType) {
8141e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  // If the class's usual deallocation function takes two arguments,
8156ec278d1a354517e20f13a877481453ee7940c78John McCall  // it needs a cookie.
8166ec278d1a354517e20f13a877481453ee7940c78John McCall  if (expr->doesUsualArrayDeleteWantSize())
8176ec278d1a354517e20f13a877481453ee7940c78John McCall    return true;
8186ec278d1a354517e20f13a877481453ee7940c78John McCall
8196ec278d1a354517e20f13a877481453ee7940c78John McCall  // Otherwise, if the class has a non-trivial destructor, it always
8206ec278d1a354517e20f13a877481453ee7940c78John McCall  // needs a cookie.
8216ec278d1a354517e20f13a877481453ee7940c78John McCall  const CXXRecordDecl *record =
8226ec278d1a354517e20f13a877481453ee7940c78John McCall    elementType->getBaseElementTypeUnsafe()->getAsCXXRecordDecl();
8236ec278d1a354517e20f13a877481453ee7940c78John McCall  return (record && !record->hasTrivialDestructor());
8241e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall}
8251e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
8266ec278d1a354517e20f13a877481453ee7940c78John McCallCharUnits ItaniumCXXABI::GetArrayCookieSize(const CXXNewExpr *expr) {
8276ec278d1a354517e20f13a877481453ee7940c78John McCall  if (!NeedsArrayCookie(expr))
8281e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall    return CharUnits::Zero();
8291e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
8306ec278d1a354517e20f13a877481453ee7940c78John McCall  // Padding is the maximum of sizeof(size_t) and alignof(elementType)
8319cb2cee212d708220c52249ceac4cdd9f2b8aeb0John McCall  ASTContext &Ctx = getContext();
8321e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  return std::max(Ctx.getTypeSizeInChars(Ctx.getSizeType()),
8336ec278d1a354517e20f13a877481453ee7940c78John McCall                  Ctx.getTypeAlignInChars(expr->getAllocatedType()));
8341e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall}
8351e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
8361e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCallllvm::Value *ItaniumCXXABI::InitializeArrayCookie(CodeGenFunction &CGF,
8371e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                                  llvm::Value *NewPtr,
8381e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                                  llvm::Value *NumElements,
8396ec278d1a354517e20f13a877481453ee7940c78John McCall                                                  const CXXNewExpr *expr,
8401e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                                  QualType ElementType) {
8416ec278d1a354517e20f13a877481453ee7940c78John McCall  assert(NeedsArrayCookie(expr));
8421e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
8431e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  unsigned AS = cast<llvm::PointerType>(NewPtr->getType())->getAddressSpace();
8441e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
8459cb2cee212d708220c52249ceac4cdd9f2b8aeb0John McCall  ASTContext &Ctx = getContext();
8461e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  QualType SizeTy = Ctx.getSizeType();
8471e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  CharUnits SizeSize = Ctx.getTypeSizeInChars(SizeTy);
8481e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
8491e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  // The size of the cookie.
8501e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  CharUnits CookieSize =
8511e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall    std::max(SizeSize, Ctx.getTypeAlignInChars(ElementType));
8521e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
8531e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  // Compute an offset to the cookie.
8541e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  llvm::Value *CookiePtr = NewPtr;
8551e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  CharUnits CookieOffset = CookieSize - SizeSize;
8561e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  if (!CookieOffset.isZero())
8571e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall    CookiePtr = CGF.Builder.CreateConstInBoundsGEP1_64(CookiePtr,
8581e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                                 CookieOffset.getQuantity());
8591e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
8601e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  // Write the number of elements into the appropriate slot.
8611e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  llvm::Value *NumElementsPtr
8621e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall    = CGF.Builder.CreateBitCast(CookiePtr,
8631e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                CGF.ConvertType(SizeTy)->getPointerTo(AS));
8641e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  CGF.Builder.CreateStore(NumElements, NumElementsPtr);
8651e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
8661e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  // Finally, compute a pointer to the actual data buffer by skipping
8671e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  // over the cookie completely.
8681e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  return CGF.Builder.CreateConstInBoundsGEP1_64(NewPtr,
8691e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                                CookieSize.getQuantity());
8701e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall}
8711e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
8721e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCallvoid ItaniumCXXABI::ReadArrayCookie(CodeGenFunction &CGF,
8731e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                    llvm::Value *Ptr,
8746ec278d1a354517e20f13a877481453ee7940c78John McCall                                    const CXXDeleteExpr *expr,
8751e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                    QualType ElementType,
8761e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                    llvm::Value *&NumElements,
8771e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                    llvm::Value *&AllocPtr,
8781e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                    CharUnits &CookieSize) {
8791e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  // Derive a char* in the same address space as the pointer.
8801e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  unsigned AS = cast<llvm::PointerType>(Ptr->getType())->getAddressSpace();
8811e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  const llvm::Type *CharPtrTy = CGF.Builder.getInt8Ty()->getPointerTo(AS);
8821e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
8831e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  // If we don't need an array cookie, bail out early.
8846ec278d1a354517e20f13a877481453ee7940c78John McCall  if (!NeedsArrayCookie(expr, ElementType)) {
8851e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall    AllocPtr = CGF.Builder.CreateBitCast(Ptr, CharPtrTy);
8861e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall    NumElements = 0;
8871e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall    CookieSize = CharUnits::Zero();
8881e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall    return;
8891e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  }
8901e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
8919cb2cee212d708220c52249ceac4cdd9f2b8aeb0John McCall  QualType SizeTy = getContext().getSizeType();
8929cb2cee212d708220c52249ceac4cdd9f2b8aeb0John McCall  CharUnits SizeSize = getContext().getTypeSizeInChars(SizeTy);
8931e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  const llvm::Type *SizeLTy = CGF.ConvertType(SizeTy);
8941e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
8951e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  CookieSize
8969cb2cee212d708220c52249ceac4cdd9f2b8aeb0John McCall    = std::max(SizeSize, getContext().getTypeAlignInChars(ElementType));
8971e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
8981e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  CharUnits NumElementsOffset = CookieSize - SizeSize;
8991e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
9001e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  // Compute the allocated pointer.
9011e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  AllocPtr = CGF.Builder.CreateBitCast(Ptr, CharPtrTy);
9021e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  AllocPtr = CGF.Builder.CreateConstInBoundsGEP1_64(AllocPtr,
9031e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                                    -CookieSize.getQuantity());
9041e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
9051e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  llvm::Value *NumElementsPtr = AllocPtr;
9061e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  if (!NumElementsOffset.isZero())
9071e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall    NumElementsPtr =
9081e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall      CGF.Builder.CreateConstInBoundsGEP1_64(NumElementsPtr,
9091e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                             NumElementsOffset.getQuantity());
9101e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  NumElementsPtr =
9111e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall    CGF.Builder.CreateBitCast(NumElementsPtr, SizeLTy->getPointerTo(AS));
9121e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  NumElements = CGF.Builder.CreateLoad(NumElementsPtr);
9131e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall}
9141e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
9156ec278d1a354517e20f13a877481453ee7940c78John McCallCharUnits ARMCXXABI::GetArrayCookieSize(const CXXNewExpr *expr) {
9166ec278d1a354517e20f13a877481453ee7940c78John McCall  if (!NeedsArrayCookie(expr))
9171e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall    return CharUnits::Zero();
9181e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
9191e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  // On ARM, the cookie is always:
9201e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  //   struct array_cookie {
9211e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  //     std::size_t element_size; // element_size != 0
9221e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  //     std::size_t element_count;
9231e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  //   };
9241e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  // TODO: what should we do if the allocated type actually wants
9251e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  // greater alignment?
9261e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  return getContext().getTypeSizeInChars(getContext().getSizeType()) * 2;
9271e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall}
9281e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
9291e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCallllvm::Value *ARMCXXABI::InitializeArrayCookie(CodeGenFunction &CGF,
9301e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                              llvm::Value *NewPtr,
9311e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                              llvm::Value *NumElements,
9326ec278d1a354517e20f13a877481453ee7940c78John McCall                                              const CXXNewExpr *expr,
9331e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                              QualType ElementType) {
9346ec278d1a354517e20f13a877481453ee7940c78John McCall  assert(NeedsArrayCookie(expr));
9351e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
9361e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  // NewPtr is a char*.
9371e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
9381e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  unsigned AS = cast<llvm::PointerType>(NewPtr->getType())->getAddressSpace();
9391e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
9409cb2cee212d708220c52249ceac4cdd9f2b8aeb0John McCall  ASTContext &Ctx = getContext();
9411e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  CharUnits SizeSize = Ctx.getTypeSizeInChars(Ctx.getSizeType());
9421e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  const llvm::IntegerType *SizeTy =
9431e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall    cast<llvm::IntegerType>(CGF.ConvertType(Ctx.getSizeType()));
9441e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
9451e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  // The cookie is always at the start of the buffer.
9461e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  llvm::Value *CookiePtr = NewPtr;
9471e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
9481e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  // The first element is the element size.
9491e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  CookiePtr = CGF.Builder.CreateBitCast(CookiePtr, SizeTy->getPointerTo(AS));
9501e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  llvm::Value *ElementSize = llvm::ConstantInt::get(SizeTy,
9511e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                          Ctx.getTypeSizeInChars(ElementType).getQuantity());
9521e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  CGF.Builder.CreateStore(ElementSize, CookiePtr);
9531e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
9541e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  // The second element is the element count.
9551e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  CookiePtr = CGF.Builder.CreateConstInBoundsGEP1_32(CookiePtr, 1);
9561e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  CGF.Builder.CreateStore(NumElements, CookiePtr);
9571e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
9581e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  // Finally, compute a pointer to the actual data buffer by skipping
9591e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  // over the cookie completely.
9601e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  CharUnits CookieSize = 2 * SizeSize;
9611e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  return CGF.Builder.CreateConstInBoundsGEP1_64(NewPtr,
9621e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                                CookieSize.getQuantity());
9631e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall}
9641e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
9651e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCallvoid ARMCXXABI::ReadArrayCookie(CodeGenFunction &CGF,
9661e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                llvm::Value *Ptr,
9676ec278d1a354517e20f13a877481453ee7940c78John McCall                                const CXXDeleteExpr *expr,
9681e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                QualType ElementType,
9691e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                llvm::Value *&NumElements,
9701e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                llvm::Value *&AllocPtr,
9711e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                CharUnits &CookieSize) {
9721e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  // Derive a char* in the same address space as the pointer.
9731e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  unsigned AS = cast<llvm::PointerType>(Ptr->getType())->getAddressSpace();
9741e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  const llvm::Type *CharPtrTy = CGF.Builder.getInt8Ty()->getPointerTo(AS);
9751e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
9761e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  // If we don't need an array cookie, bail out early.
9776ec278d1a354517e20f13a877481453ee7940c78John McCall  if (!NeedsArrayCookie(expr, ElementType)) {
9781e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall    AllocPtr = CGF.Builder.CreateBitCast(Ptr, CharPtrTy);
9791e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall    NumElements = 0;
9801e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall    CookieSize = CharUnits::Zero();
9811e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall    return;
9821e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  }
9831e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
9849cb2cee212d708220c52249ceac4cdd9f2b8aeb0John McCall  QualType SizeTy = getContext().getSizeType();
9859cb2cee212d708220c52249ceac4cdd9f2b8aeb0John McCall  CharUnits SizeSize = getContext().getTypeSizeInChars(SizeTy);
9861e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  const llvm::Type *SizeLTy = CGF.ConvertType(SizeTy);
9871e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
9881e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  // The cookie size is always 2 * sizeof(size_t).
9891e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  CookieSize = 2 * SizeSize;
9901e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
9911e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  // The allocated pointer is the input ptr, minus that amount.
9921e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  AllocPtr = CGF.Builder.CreateBitCast(Ptr, CharPtrTy);
9931e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  AllocPtr = CGF.Builder.CreateConstInBoundsGEP1_64(AllocPtr,
9941e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                               -CookieSize.getQuantity());
9951e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
9961e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  // The number of elements is at offset sizeof(size_t) relative to that.
9971e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  llvm::Value *NumElementsPtr
9981e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall    = CGF.Builder.CreateConstInBoundsGEP1_64(AllocPtr,
9991e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall                                             SizeSize.getQuantity());
10001e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  NumElementsPtr =
10011e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall    CGF.Builder.CreateBitCast(NumElementsPtr, SizeLTy->getPointerTo(AS));
10021e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall  NumElements = CGF.Builder.CreateLoad(NumElementsPtr);
10031e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall}
10041e7fe751466ea82665fd21e9162fd7cc9c5f412dJohn McCall
10055cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall/*********************** Static local initialization **************************/
10065cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
10075cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCallstatic llvm::Constant *getGuardAcquireFn(CodeGenModule &CGM,
10085cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall                                         const llvm::PointerType *GuardPtrTy) {
10095cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  // int __cxa_guard_acquire(__guard *guard_object);
10105cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
10115cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  std::vector<const llvm::Type*> Args(1, GuardPtrTy);
10125cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  const llvm::FunctionType *FTy =
10135cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    llvm::FunctionType::get(CGM.getTypes().ConvertType(CGM.getContext().IntTy),
10145cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall                            Args, /*isVarArg=*/false);
10155cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
10165cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  return CGM.CreateRuntimeFunction(FTy, "__cxa_guard_acquire");
10175cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall}
10185cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
10195cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCallstatic llvm::Constant *getGuardReleaseFn(CodeGenModule &CGM,
10205cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall                                         const llvm::PointerType *GuardPtrTy) {
10215cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  // void __cxa_guard_release(__guard *guard_object);
10225cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
10235cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  std::vector<const llvm::Type*> Args(1, GuardPtrTy);
10245cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
10255cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  const llvm::FunctionType *FTy =
10265cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    llvm::FunctionType::get(llvm::Type::getVoidTy(CGM.getLLVMContext()),
10275cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall                            Args, /*isVarArg=*/false);
10285cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
10295cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  return CGM.CreateRuntimeFunction(FTy, "__cxa_guard_release");
10305cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall}
10315cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
10325cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCallstatic llvm::Constant *getGuardAbortFn(CodeGenModule &CGM,
10335cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall                                       const llvm::PointerType *GuardPtrTy) {
10345cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  // void __cxa_guard_abort(__guard *guard_object);
10355cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
10365cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  std::vector<const llvm::Type*> Args(1, GuardPtrTy);
10375cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
10385cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  const llvm::FunctionType *FTy =
10395cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    llvm::FunctionType::get(llvm::Type::getVoidTy(CGM.getLLVMContext()),
10405cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall                            Args, /*isVarArg=*/false);
10415cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
10425cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  return CGM.CreateRuntimeFunction(FTy, "__cxa_guard_abort");
10435cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall}
10445cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
10455cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCallnamespace {
10465cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  struct CallGuardAbort : EHScopeStack::Cleanup {
10475cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    llvm::GlobalVariable *Guard;
10485cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    CallGuardAbort(llvm::GlobalVariable *Guard) : Guard(Guard) {}
10495cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
10505cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    void Emit(CodeGenFunction &CGF, bool IsForEH) {
10515cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall      CGF.Builder.CreateCall(getGuardAbortFn(CGF.CGM, Guard->getType()), Guard)
10525cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall        ->setDoesNotThrow();
10535cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    }
10545cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  };
10555cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall}
10565cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
10575cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall/// The ARM code here follows the Itanium code closely enough that we
10585cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall/// just special-case it at particular places.
10593030eb82593097502469a8b3fc26112c79c75605John McCallvoid ItaniumCXXABI::EmitGuardedInit(CodeGenFunction &CGF,
10603030eb82593097502469a8b3fc26112c79c75605John McCall                                    const VarDecl &D,
10613030eb82593097502469a8b3fc26112c79c75605John McCall                                    llvm::GlobalVariable *GV) {
10625cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  CGBuilderTy &Builder = CGF.Builder;
10633030eb82593097502469a8b3fc26112c79c75605John McCall
10643030eb82593097502469a8b3fc26112c79c75605John McCall  // We only need to use thread-safe statics for local variables;
10653030eb82593097502469a8b3fc26112c79c75605John McCall  // global initialization is always single-threaded.
10663030eb82593097502469a8b3fc26112c79c75605John McCall  bool ThreadsafeStatics = (getContext().getLangOptions().ThreadsafeStatics &&
10673030eb82593097502469a8b3fc26112c79c75605John McCall                            D.isLocalVarDecl());
10685cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
10695cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  // Guard variables are 64 bits in the generic ABI and 32 bits on ARM.
10705cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  const llvm::IntegerType *GuardTy
10715cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    = (IsARM ? Builder.getInt32Ty() : Builder.getInt64Ty());
10725cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  const llvm::PointerType *GuardPtrTy = GuardTy->getPointerTo();
10735cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
10745cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  // Create the guard variable.
10755cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  llvm::SmallString<256> GuardVName;
1076f0be979bddb8baa28e77693a3dc931e487b2a9f2Rafael Espindola  llvm::raw_svector_ostream Out(GuardVName);
1077f0be979bddb8baa28e77693a3dc931e487b2a9f2Rafael Espindola  getMangleContext().mangleItaniumGuardVariable(&D, Out);
1078f0be979bddb8baa28e77693a3dc931e487b2a9f2Rafael Espindola  Out.flush();
1079112c967bd5c862a0f5d7913aa06700c048807db8John McCall
10803030eb82593097502469a8b3fc26112c79c75605John McCall  // Just absorb linkage and visibility from the variable.
10815cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  llvm::GlobalVariable *GuardVariable =
10825cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    new llvm::GlobalVariable(CGM.getModule(), GuardTy,
10833030eb82593097502469a8b3fc26112c79c75605John McCall                             false, GV->getLinkage(),
10845cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall                             llvm::ConstantInt::get(GuardTy, 0),
10855cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall                             GuardVName.str());
1086112c967bd5c862a0f5d7913aa06700c048807db8John McCall  GuardVariable->setVisibility(GV->getVisibility());
10875cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
10885cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  // Test whether the variable has completed initialization.
10895cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  llvm::Value *IsInitialized;
10905cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
10915cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  // ARM C++ ABI 3.2.3.1:
10925cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  //   To support the potential use of initialization guard variables
10935cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  //   as semaphores that are the target of ARM SWP and LDREX/STREX
10945cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  //   synchronizing instructions we define a static initialization
10955cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  //   guard variable to be a 4-byte aligned, 4- byte word with the
10965cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  //   following inline access protocol.
10975cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  //     #define INITIALIZED 1
10985cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  //     if ((obj_guard & INITIALIZED) != INITIALIZED) {
10995cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  //       if (__cxa_guard_acquire(&obj_guard))
11005cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  //         ...
11015cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  //     }
11025cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  if (IsARM) {
11035cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    llvm::Value *V = Builder.CreateLoad(GuardVariable);
11045cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    V = Builder.CreateAnd(V, Builder.getInt32(1));
11055cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    IsInitialized = Builder.CreateIsNull(V, "guard.uninitialized");
11065cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
11075cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  // Itanium C++ ABI 3.3.2:
11085cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  //   The following is pseudo-code showing how these functions can be used:
11095cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  //     if (obj_guard.first_byte == 0) {
11105cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  //       if ( __cxa_guard_acquire (&obj_guard) ) {
11115cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  //         try {
11125cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  //           ... initialize the object ...;
11135cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  //         } catch (...) {
11145cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  //            __cxa_guard_abort (&obj_guard);
11155cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  //            throw;
11165cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  //         }
11175cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  //         ... queue object destructor with __cxa_atexit() ...;
11185cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  //         __cxa_guard_release (&obj_guard);
11195cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  //       }
11205cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  //     }
11215cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  } else {
11225cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    // Load the first byte of the guard variable.
11235cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    const llvm::Type *PtrTy = Builder.getInt8PtrTy();
11245cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    llvm::Value *V =
11255cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall      Builder.CreateLoad(Builder.CreateBitCast(GuardVariable, PtrTy), "tmp");
11265cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
11275cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    IsInitialized = Builder.CreateIsNull(V, "guard.uninitialized");
11285cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  }
11295cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
11305cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  llvm::BasicBlock *InitCheckBlock = CGF.createBasicBlock("init.check");
11315cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  llvm::BasicBlock *EndBlock = CGF.createBasicBlock("init.end");
11325cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
11335cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  // Check if the first byte of the guard variable is zero.
11345cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  Builder.CreateCondBr(IsInitialized, InitCheckBlock, EndBlock);
11355cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
11365cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  CGF.EmitBlock(InitCheckBlock);
11375cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
11385cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  // Variables used when coping with thread-safe statics and exceptions.
11395cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  if (ThreadsafeStatics) {
11405cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    // Call __cxa_guard_acquire.
11415cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    llvm::Value *V
11425cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall      = Builder.CreateCall(getGuardAcquireFn(CGM, GuardPtrTy), GuardVariable);
11435cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
11445cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    llvm::BasicBlock *InitBlock = CGF.createBasicBlock("init");
11455cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
11465cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    Builder.CreateCondBr(Builder.CreateIsNotNull(V, "tobool"),
11475cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall                         InitBlock, EndBlock);
11485cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
11495cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    // Call __cxa_guard_abort along the exceptional edge.
11505cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    CGF.EHStack.pushCleanup<CallGuardAbort>(EHCleanup, GuardVariable);
11515cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
11525cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    CGF.EmitBlock(InitBlock);
11535cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  }
11545cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
11555cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  // Emit the initializer and add a global destructor if appropriate.
11565cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  CGF.EmitCXXGlobalVarDeclInit(D, GV);
11575cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
11585cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  if (ThreadsafeStatics) {
11595cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    // Pop the guard-abort cleanup if we pushed one.
11605cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    CGF.PopCleanupBlock();
11615cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
11625cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    // Call __cxa_guard_release.  This cannot throw.
11635cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    Builder.CreateCall(getGuardReleaseFn(CGM, GuardPtrTy), GuardVariable);
11645cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  } else {
11655cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall    Builder.CreateStore(llvm::ConstantInt::get(GuardTy, 1), GuardVariable);
11665cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  }
11675cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall
11685cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall  CGF.EmitBlock(EndBlock);
11695cd91b513455fd7753e8815b54f0a49bbca6602dJohn McCall}
1170