doc/v630/TClingBaseClassInfo_8cxx_source.html

// @(#)root/core/meta:$Id$

// Author: Paul Russo   30/07/2012


/*************************************************************************

 * Copyright (C) 1995-2000, Rene Brun and Fons Rademakers.               *

 * All rights reserved.                                                  *

 *                                                                       *

 * For the licensing terms see $ROOTSYS/LICENSE.                         *

 * For the list of contributors see $ROOTSYS/README/CREDITS.             *

 *************************************************************************/


/** \class TClingBaseClassInfo


Emulation of the CINT BaseClassInfo class.


The CINT C++ interpreter provides an interface to metadata about

the base classes of a class through the BaseClassInfo class.  This

class provides the same functionality, using an interface as close

as possible to BaseClassInfo but the base class metadata comes from

the Clang C++ compiler, not CINT.

*/


#include "TClingBaseClassInfo.h"


#include "TClingClassInfo.h"

#include "TDictionary.h"

#include "TClingUtils.h"


#include "TError.h"


#include "cling/Interpreter/Interpreter.h"

#include "cling/Interpreter/Transaction.h"


#include "clang/AST/ASTContext.h"

#include "clang/AST/Decl.h"

#include "clang/AST/DeclCXX.h"

#include "clang/AST/PrettyPrinter.h"

#include "clang/AST/RecordLayout.h"

#include "clang/AST/Type.h"

#include "clang/AST/CXXInheritance.h"


#include "llvm/Support/Casting.h"

#include "llvm/Support/raw_ostream.h"

#include "llvm/ExecutionEngine/ExecutionEngine.h"

#include "llvm/IR/Module.h"


#include <string>

#include <sstream>


using namespace llvm;

using namespace clang;

using namespace std;


TClingBaseClassInfo::TClingBaseClassInfo(cling::Interpreter* interp,

                                         TClingClassInfo* ci)

   : fInterp(interp), fClassInfo(nullptr), fFirstTime(true), fDescend(false),

     fDecl(nullptr), fIter(nullptr), fBaseInfo(nullptr), fOffset(0L), fClassInfoOwnership(true)

{

   // Constructs a base class iterator on ci; ci == 0 means global scope (which

   // is meaningless). The derived class info passed in as ci is copied.

   if (!ci) {

      fClassInfo = new TClingClassInfo(interp);

      return;

   }

   fClassInfo = new TClingClassInfo(*ci);

   if (!fClassInfo->GetDecl()) {

      return;

   }

   const clang::CXXRecordDecl* CRD =

      llvm::dyn_cast<clang::CXXRecordDecl>(fClassInfo->GetDecl());

   if (!CRD) {

      // We were initialized with something that is not a class.

      // FIXME: We should prevent this from happening!

      return;

   }

   fDecl = CRD;

   {

      // In particular if the base are templated, this might deserialize.

      cling::Interpreter::PushTransactionRAII RAII(fInterp);

      fIter = CRD->bases_begin();

   }

}


TClingBaseClassInfo::TClingBaseClassInfo(cling::Interpreter* interp,

                                         TClingClassInfo* derived,

                                         TClingClassInfo* base)

   : fInterp(interp), fClassInfo(nullptr), fFirstTime(true), fDescend(false),

     fDecl(nullptr), fIter(nullptr), fBaseInfo(nullptr), fOffset(0L), fClassInfoOwnership(false)

{

   // Constructs a single base class base (no iterator) of derived; derived must be != 0.

   // The derived class info is referenced during the lifetime of the TClingBaseClassInfo.

   if (!derived->GetDecl()) {

      return;

   }

   const clang::CXXRecordDecl* CRD =

      llvm::dyn_cast<clang::CXXRecordDecl>(derived->GetDecl());

   const clang::CXXRecordDecl* BaseCRD =

      llvm::dyn_cast<clang::CXXRecordDecl>(base->GetDecl());

   if (!CRD || !BaseCRD) {

      // We were initialized with something that is not a class.

      // FIXME: We should prevent this from happening!

      return;

   }


   fClassInfo = derived;

   fDecl = CRD;

   //CRD->isDerivedFrom(BaseCRD, Paths);

   // Check that base derives from derived.

   clang::CXXBasePaths Paths;


   // CXXRecordDecl::isDerivedFrom can trigger deserialization.

   cling::Interpreter::PushTransactionRAII RAII(fInterp);


   if (!CRD->isDerivedFrom(BaseCRD, Paths)) {

      //Not valid fBaseInfo = 0.

      return;

   }


   fBaseInfo = new TClingClassInfo(*base);

   fIter = CRD->bases_end();

}


TClingBaseClassInfo::TClingBaseClassInfo(const TClingBaseClassInfo& rhs)

   : fInterp(rhs.fInterp), fClassInfo(nullptr), fFirstTime(rhs.fFirstTime),

     fDescend(rhs.fDescend), fDecl(rhs.fDecl), fIter(rhs.fIter), fBaseInfo(nullptr),

     fIterStack(rhs.fIterStack), fOffset(rhs.fOffset), fClassInfoOwnership(true)

{

   // Copies a base class info including the base and derived class infos.

   fClassInfo = new TClingClassInfo(*rhs.fClassInfo);

   fBaseInfo = new TClingClassInfo(*rhs.fBaseInfo);

}


TClingBaseClassInfo& TClingBaseClassInfo::operator=(

   const TClingBaseClassInfo& rhs)

{

   if (this != &rhs) {

      fInterp = rhs.fInterp;

      if (fClassInfoOwnership)

         delete fClassInfo;

      fClassInfo = new TClingClassInfo(*rhs.fClassInfo);

      fFirstTime = rhs.fFirstTime;

      fDescend = rhs.fDescend;

      fDecl = rhs.fDecl;

      fIter = rhs.fIter;

      delete fBaseInfo;

      fBaseInfo = new TClingClassInfo(*rhs.fBaseInfo);

      fIterStack = rhs.fIterStack;

      fOffset = rhs.fOffset;

      fClassInfoOwnership = true;

   }

   return *this;

}


TClingClassInfo *TClingBaseClassInfo::GetBase() const

{

   if (!IsValid()) {

      return nullptr;

   }

   return fBaseInfo;

}


OffsetPtrFunc_t

TClingBaseClassInfo::GenerateBaseOffsetFunction(TClingClassInfo * fromDerivedClass,

                                                TClingClassInfo* toBaseClass,

                                                void* address, bool isDerivedObject) const

{

   // Generate a function at run-time that would calculate the offset

   // from the parameter derived class to the parameter toBase class for the

   // address.


   // rootcling can trigger this, too, and without CodeGen we cannot use any

   // offset calculation function.

   if (fInterp->isInSyntaxOnlyMode())

      return nullptr;


   // Get the dedcls for the two classes.

   const clang::RecordDecl* fromDerivedDecl

      = dyn_cast<clang::RecordDecl>(fromDerivedClass->GetDecl());

   if (!fromDerivedDecl) {

      ::Error("TClingBaseClassInfo::GenerateBaseOffsetFunction",

            "Offset of non-class %s is ill-defined!", fromDerivedClass->Name());

      return nullptr;

   }

   const clang::RecordDecl* toBaseDecl

      = dyn_cast<clang::RecordDecl>(toBaseClass->GetDecl());

   if (!toBaseDecl) {

      ::Error("TClingBaseClassInfo::GenerateBaseOffsetFunction",

            "Offset of non-class %s is ill-defined!", toBaseClass->Name());

      return nullptr;

   }


   // Make the wrapper name.

   string wrapper_name;

   {

      ostringstream buf;

      buf << "h" << fromDerivedDecl;

      buf << '_';

      buf << "h" << toBaseDecl;

      wrapper_name = buf.str();

   }

   string code;

   // Check whether the function was already generated.

   if (!fInterp->getAddressOfGlobal(wrapper_name)) {

      // Get the class or namespace name.

      string fromDerivedClassName;

      clang::QualType QTDerived(fromDerivedClass->GetType(), 0);

      ROOT::TMetaUtils::GetFullyQualifiedTypeName(fromDerivedClassName,

                                                     QTDerived, *fInterp);

      string toBase_class_name;

      clang::QualType QTtoBase(toBaseClass->GetType(), 0);

      ROOT::TMetaUtils::GetFullyQualifiedTypeName(toBase_class_name,

                                                  QTtoBase, *fInterp);

      //  Write the wrapper code.

      llvm::raw_string_ostream buf(code);

      buf << "extern \"C\" ptrdiff_t " + wrapper_name + "(void* address, bool isDerivedObject) {\n"

      // If the object is not derived, will downcast to toBase first.

          << "  " << fromDerivedClassName << " *fromDerived;"

          << "  if (isDerivedObject) {"

          << "    fromDerived = (" << fromDerivedClassName << "*)address;\n"

          << "  } else {\n"

          << "    fromDerived = dynamic_cast<" << fromDerivedClassName << "*>((" << toBase_class_name << "*)address);\n"

          << "  }\n"

          << "  if (!fromDerived) {\n"

          << "    return -1; \n"

          << "  }\n"

          << "  " << toBase_class_name << " *toBase = fromDerived;\n"

          << "  return ((intptr_t)toBase - (intptr_t)fromDerived);\n}\n";

   }


   // If we have a GV then compileFunction will use it; empty code is enough.

   void* f = fInterp->compileFunction(wrapper_name, code, true /*ifUnique*/,

                                      false /*withAccessControl*/);

   if (!f) {

      ::Error("TClingBaseClassInfo::GenerateBaseOffsetFunction",

            "Compilation failed!");

      return nullptr;

   }


   return (OffsetPtrFunc_t) f;

}


bool TClingBaseClassInfo::IsValid() const

{

   return

      // inited with a valid class, and

      fClassInfo->IsValid() &&

      // the base class we are iterating over is valid, and

      fDecl &&

      // our current base has a TClingClassInfo, and

      fBaseInfo &&

      // our current base is a valid class

      fBaseInfo->IsValid();

}


int TClingBaseClassInfo::InternalNext(int onlyDirect)

{

   // Exit early if the iterator is already invalid.

   if (!fDecl || !fIter ||

         (fIter == llvm::dyn_cast<clang::CXXRecordDecl>(fDecl)->bases_end())) {

      return 0;

   }


   // Advance to the next valid base.

   while (1) {

      // Advance the iterator.

      if (fFirstTime) {

         // The cint semantics are strange.

         fFirstTime = false;

      }

      else if (!onlyDirect && fDescend) {

         // We previously processed a base class which itself has bases,

         // now we process the bases of that base class.


         // At least getASTRecordLayout() might deserialize.

         cling::Interpreter::PushTransactionRAII RAII(fInterp);

         fDescend = false;

         const clang::RecordType *Ty = fIter->getType()->

                                       getAs<clang::RecordType>();

         // Note: We made sure this would work when we selected the

         //       base for processing.

         clang::CXXRecordDecl *Base = llvm::cast<clang::CXXRecordDecl>(

                                         Ty->getDecl()->getDefinition());

         clang::ASTContext &Context = Base->getASTContext();

         const clang::RecordDecl *RD = llvm::dyn_cast<clang::RecordDecl>(fDecl);

         const clang::ASTRecordLayout &Layout = Context.getASTRecordLayout(RD);

         int64_t offset = Layout.getBaseClassOffset(Base).getQuantity();

         fOffset += static_cast<ptrdiff_t>(offset);

         fIterStack.push_back(std::make_pair(std::make_pair(fDecl, fIter),

                                             static_cast<ptrdiff_t>(offset)));

         fDecl = Base;

         fIter = Base->bases_begin();

      }

      else {

         // Simple case, move on to the next base class specifier.

         ++fIter;

      }

      // Fix it if we went past the end.

      while (

         (fIter == llvm::dyn_cast<clang::CXXRecordDecl>(fDecl)->bases_end()) &&

         fIterStack.size()

      ) {

         // All done with this base class.

         fDecl = fIterStack.back().first.first;

         fIter = fIterStack.back().first.second;

         fOffset -= fIterStack.back().second;

         fIterStack.pop_back();

         ++fIter;

      }

      // Check for final termination.

      if (fIter == llvm::dyn_cast<clang::CXXRecordDecl>(fDecl)->bases_end()) {

         // We have reached the end of the direct bases, all done.

         delete fBaseInfo;

         fBaseInfo = nullptr;

         // Iterator is now invalid.

         return 0;

      }

      // Check if current base class is a dependent type, that is, an

      // uninstantiated template class.

      const clang::TagType *Ty = fIter->getType()->getAs<clang::TagType>();

      if (!Ty) {

         // A dependent type (uninstantiated template), skip it.

         continue;

      }

      // Check if current base class has a definition.

      const clang::CXXRecordDecl *Base =

         llvm::cast_or_null<clang::CXXRecordDecl>(Ty->getDecl()->

               getDefinition());

      if (!Base) {

         // No definition yet (just forward declared), skip it.

         continue;

      }

      // Now that we are going to return this base, check to see if

      // we need to examine its bases next call.

      if (!onlyDirect && Base->getNumBases()) {

         fDescend = true;

      }

      // Update info for this base class.

      delete fBaseInfo;

      clang::QualType bType = ROOT::TMetaUtils::ReSubstTemplateArg(fIter->getType(),fClassInfo->GetType());

      fBaseInfo = new TClingClassInfo(fInterp, *bType);

      // Iterator is now valid.

      return 1;

   }

}


int TClingBaseClassInfo::Next(int onlyDirect)

{

   return InternalNext(onlyDirect);

}


int TClingBaseClassInfo::Next()

{

   return Next(1);

}


// This function is updating original one on http://clang.llvm.org/doxygen/CGExprCXX_8cpp_source.html#l01647

// To fit the needs.

static clang::CharUnits computeOffsetHint(clang::ASTContext &Context,

                                          const clang::CXXRecordDecl *Src,

                                          const clang::CXXRecordDecl *Dst,

                                          cling::Interpreter* interp)

{

   clang::CXXBasePaths Paths(/*FindAmbiguities=*/true, /*RecordPaths=*/true,

                      /*DetectVirtual=*/false);


   // If Dst is not derived from Src we can skip the whole computation below and

   // return that Src is not a public base of Dst.  Record all inheritance paths.

   if (!Dst->isDerivedFrom(Src, Paths))

     return clang::CharUnits::fromQuantity(-2);


   unsigned NumPublicPaths = 0;

   clang::CharUnits Offset;


   // Now walk all possible inheritance paths.

   for (clang::CXXBasePaths::paths_iterator I = Paths.begin(), E = Paths.end();

        I != E; ++I) {


     ++NumPublicPaths;


     for (clang::CXXBasePath::iterator J = I->begin(), JE = I->end(); J != JE; ++J) {

       // If the path contains a virtual base class we can't give any hint.

       // -1: no hint.

       if (J->Base->isVirtual())

         return clang::CharUnits::fromQuantity(-1);


       if (NumPublicPaths > 1) // Won't use offsets, skip computation.

         continue;


       // Accumulate the base class offsets.

       cling::Interpreter::PushTransactionRAII RAII(interp);

       const clang::ASTRecordLayout &L = Context.getASTRecordLayout(J->Class);

       Offset += L.getBaseClassOffset(J->Base->getType()->getAsCXXRecordDecl());

     }

   }


   // -2: Src is not a public base of Dst.

   if (NumPublicPaths == 0)

     return clang::CharUnits::fromQuantity(-2);


   // -3: Src is a multiple public base type but never a virtual base type.

   if (NumPublicPaths > 1)

     return clang::CharUnits::fromQuantity(-3);


   // Otherwise, the Src type is a unique public nonvirtual base type of Dst.

   // Return the offset of Src from the origin of Dst.

   return Offset;

 }


ptrdiff_t TClingBaseClassInfo::Offset(void * address, bool isDerivedObject) const

{

   // Compute the offset of the derived class to the base class.


   if (!IsValid()) {

      return -1;

   }

   // Check if current base class has a definition.

   const clang::CXXRecordDecl* Base =

      llvm::cast_or_null<clang::CXXRecordDecl>(fBaseInfo->GetDecl());

   if (!Base) {

      // No definition yet (just forward declared), invalid.

      return -1;

   }

   // If the base class has no virtual inheritance.

   if (!(Property() & kIsVirtualBase)) {

      clang::ASTContext& Context = Base->getASTContext();

      const clang::CXXRecordDecl* RD = llvm::dyn_cast<clang::CXXRecordDecl>(fDecl);

      if (!RD) {

         // No RecordDecl for the class.

         return -1;

      }

      long clang_val = computeOffsetHint(Context, Base, RD, fInterp).getQuantity();

      if (clang_val == -2 || clang_val == -3) {

         TString baseName;

         TString derivedName;

         {

            // Need TNormalizedCtxt otherwise...

            // Note: should we really be issuing a message here?  Shouldn't

            // the caller check and issue the message?

            std::string buf;

            PrintingPolicy Policy(fBaseInfo->GetDecl()->getASTContext().

                                  getPrintingPolicy());

            llvm::raw_string_ostream stream(buf);

            ((const clang::NamedDecl*)fBaseInfo->GetDecl())

               ->getNameForDiagnostic(stream, Policy, /*Qualified=*/true);

            stream.flush();

            baseName = buf;


            buf.clear();

            ((const clang::NamedDecl*)fClassInfo->GetDecl())

               ->getNameForDiagnostic(stream, Policy, /*Qualified=*/true);

            stream.flush();

            derivedName = buf;

         }

         if (clang_val == -2) {

            ::Error("TClingBaseClassInfo::Offset",

                  "The class %s does not derive from the base %s.",

                  derivedName.Data(), baseName.Data());

         } else {

            // clang_val == -3

            ::Error("TClingBaseClassInfo::Offset",

                  "There are multiple paths from derived class %s to base class %s.",

                  derivedName.Data(), baseName.Data());

         }

         clang_val = -1;

      }

      fClassInfo->AddBaseOffsetValue(fBaseInfo->GetDecl(), clang_val);

      return clang_val;

   }

   // Verify the address of the instantiated object

   if (!address) {

      ::Error("TClingBaseClassInfo::Offset", "The address of the object for virtual base offset calculation is not valid.");

      return -1;

   }


   // Virtual inheritance case

   OffsetPtrFunc_t executableFunc = GenerateBaseOffsetFunction(fClassInfo, fBaseInfo, address, isDerivedObject);

   if (executableFunc) {

      fClassInfo->AddBaseOffsetFunction(fBaseInfo->GetDecl(), executableFunc);

      return (*executableFunc)(address, isDerivedObject);

   }


   return -1;

}


long TClingBaseClassInfo::Property() const

{

   if (!IsValid()) {

      return 0L;

   }

   long property = 0L;


   if (fDecl == fClassInfo->GetDecl()) {

      property |= kIsDirectInherit;

   }


   const clang::CXXRecordDecl* CRD

      = llvm::dyn_cast<CXXRecordDecl>(fDecl);

   const clang::CXXRecordDecl* BaseCRD

      = llvm::dyn_cast<CXXRecordDecl>(fBaseInfo->GetDecl());

   if (!CRD || !BaseCRD) {

      ::Error("TClingBaseClassInfo::Property",

            "The derived class or the base class do not have a CXXRecordDecl.");

      return property;

   }


   clang::CXXBasePaths Paths(/*FindAmbiguities=*/false, /*RecordPaths=*/true,

                             /*DetectVirtual=*/true);

   if (!CRD->isDerivedFrom(BaseCRD, Paths)) {

      // Error really unexpected here, because construction / iteration guarantees

      //inheritance;

      ::Error("TClingBaseClassInfo", "Class not derived from given base.");

   }

   if (Paths.getDetectedVirtual()) {

      property |= kIsVirtualBase;

   }


   clang::AccessSpecifier AS = clang::AS_public;

   // Derived: public Mid; Mid : protected Base: Derived inherits protected Base?

   for (clang::CXXBasePaths::const_paths_iterator IB = Paths.begin(), EB = Paths.end();

        AS != clang::AS_private && IB != EB; ++IB) {

      switch (IB->Access) {

         // keep AS unchanged?

         case clang::AS_public: break;

         case clang::AS_protected: AS = clang::AS_protected; break;

         case clang::AS_private: AS = clang::AS_private; break;

         case clang::AS_none: break;

      }

   }

   switch (AS) {

      case clang::AS_public:

         property |= kIsPublic;

         break;

      case clang::AS_protected:

         property |= kIsProtected;

         break;

      case clang::AS_private:

         property |= kIsPrivate;

         break;

      case clang::AS_none:

         // IMPOSSIBLE

         assert(false && "Unexpected value for the access property value in Clang");

         break;

      default:

         assert(false && "Unexpected value for the access property value in Clang");

         break;

   }

   return property;

}


long TClingBaseClassInfo::Tagnum() const

{

   if (!IsValid()) {

      return -1L;

   }

   return fBaseInfo->Tagnum();

}


void TClingBaseClassInfo::FullName(std::string &output, const ROOT::TMetaUtils::TNormalizedCtxt &normCtxt) const

{

   if (!IsValid()) {

      output.clear();

      return;

   }

   fBaseInfo->FullName(output,normCtxt);

}


const char* TClingBaseClassInfo::Name() const

{

   if (!IsValid()) {

      return nullptr;

   }

   return fBaseInfo->Name();

}


const char* TClingBaseClassInfo::TmpltName() const

{

   if (!IsValid()) {

      return nullptr;

   }

   return fBaseInfo->TmpltName();

}


f
#define f(i)
Definition RSha256.hxx:104

computeOffsetHint
static clang::CharUnits computeOffsetHint(clang::ASTContext &Context, const clang::CXXRecordDecl *Src, const clang::CXXRecordDecl *Dst, cling::Interpreter *interp)
Definition TClingBaseClassInfo.cxx:360

TClingBaseClassInfo.h

TClingClassInfo.h

OffsetPtrFunc_t
ptrdiff_t(* OffsetPtrFunc_t)(void *, bool)
Definition TClingClassInfo.h:57

TClingUtils.h

TDictionary.h

kIsPublic
@ kIsPublic
Definition TDictionary.h:75

kIsPrivate
@ kIsPrivate
Definition TDictionary.h:77

kIsProtected
@ kIsProtected
Definition TDictionary.h:76

kIsVirtualBase
@ kIsVirtualBase
Definition TDictionary.h:89

kIsDirectInherit
@ kIsDirectInherit
Definition TDictionary.h:83

TError.h

Error
void Error(const char *location, const char *msgfmt,...)
Use this function in case an error occurred.
Definition TError.cxx:185

offset
Option_t Option_t TPoint TPoint const char GetTextMagnitude GetFillStyle GetLineColor GetLineWidth GetMarkerStyle GetTextAlign GetTextColor GetTextSize void char Point_t Rectangle_t WindowAttributes_t Float_t Float_t Float_t Int_t Int_t UInt_t UInt_t Rectangle_t Int_t Int_t Window_t TString Int_t GCValues_t GetPrimarySelectionOwner GetDisplay GetScreen GetColormap GetNativeEvent const char const char dpyName wid window const char font_name cursor keysym reg const char only_if_exist regb h Point_t winding char text const char depth char const char Int_t count const char ColorStruct_t color const char Pixmap_t Pixmap_t PictureAttributes_t attr const char char ret_data h unsigned char height h offset
Definition TGWin32VirtualXProxy.cxx:245

property
Option_t Option_t TPoint TPoint const char GetTextMagnitude GetFillStyle GetLineColor GetLineWidth GetMarkerStyle GetTextAlign GetTextColor GetTextSize void char Point_t Rectangle_t WindowAttributes_t Float_t Float_t Float_t Int_t Int_t UInt_t UInt_t Rectangle_t Int_t Int_t Window_t TString Int_t GCValues_t GetPrimarySelectionOwner GetDisplay GetScreen GetColormap GetNativeEvent const char const char dpyName wid window const char font_name cursor keysym reg const char only_if_exist regb h Point_t winding char text const char depth char const char Int_t count const char ColorStruct_t color const char Pixmap_t Pixmap_t PictureAttributes_t attr const char char ret_data h unsigned char height h Atom_t Int_t ULong_t ULong_t unsigned char prop_list Atom_t Atom_t Atom_t Time_t property
Definition TGWin32VirtualXProxy.cxx:249

ROOT::TMetaUtils::TNormalizedCtxt
Definition TClingUtils.h:138

TClingBaseClassInfo
Emulation of the CINT BaseClassInfo class.
Definition TClingBaseClassInfo.h:43

TClingBaseClassInfo::TmpltName
const char * TmpltName() const
Definition TClingBaseClassInfo.cxx:578

TClingBaseClassInfo::fFirstTime
bool fFirstTime
Definition TClingBaseClassInfo.h:49

TClingBaseClassInfo::Name
const char * Name() const
Definition TClingBaseClassInfo.cxx:570

TClingBaseClassInfo::fDecl
const clang::Decl * fDecl
Definition TClingBaseClassInfo.h:51

TClingBaseClassInfo::Offset
ptrdiff_t Offset(void *address=0, bool isDerivedObject=true) const
Definition TClingBaseClassInfo.cxx:411

TClingBaseClassInfo::fBaseInfo
TClingClassInfo * fBaseInfo
Definition TClingBaseClassInfo.h:53

TClingBaseClassInfo::fClassInfo
TClingClassInfo * fClassInfo
Definition TClingBaseClassInfo.h:48

TClingBaseClassInfo::IsValid
bool IsValid() const
Definition TClingBaseClassInfo.cxx:244

TClingBaseClassInfo::fIterStack
std::vector< std::pair< std::pair< const clang::Decl *, clang::CXXRecordDecl::base_class_const_iterator >, ptrdiff_t > > fIterStack
Definition TClingBaseClassInfo.h:54

TClingBaseClassInfo::Next
int Next()
Definition TClingBaseClassInfo.cxx:353

TClingBaseClassInfo::GenerateBaseOffsetFunction
OffsetPtrFunc_t GenerateBaseOffsetFunction(TClingClassInfo *derivedClass, TClingClassInfo *targetClass, void *address, bool isDerivedObject) const
Definition TClingBaseClassInfo.cxx:165

TClingBaseClassInfo::Tagnum
long Tagnum() const
Definition TClingBaseClassInfo.cxx:553

TClingBaseClassInfo::Property
long Property() const
Definition TClingBaseClassInfo.cxx:488

TClingBaseClassInfo::TClingBaseClassInfo
TClingBaseClassInfo(cling::Interpreter *, TClingClassInfo *)
Definition TClingBaseClassInfo.cxx:56

TClingBaseClassInfo::fDescend
bool fDescend
Definition TClingBaseClassInfo.h:50

TClingBaseClassInfo::FullName
void FullName(std::string &output, const ROOT::TMetaUtils::TNormalizedCtxt &normCtxt) const
Definition TClingBaseClassInfo.cxx:561

TClingBaseClassInfo::operator=
TClingBaseClassInfo & operator=(const TClingBaseClassInfo &)
Definition TClingBaseClassInfo.cxx:135

TClingBaseClassInfo::fInterp
cling::Interpreter * fInterp
Definition TClingBaseClassInfo.h:47

TClingBaseClassInfo::fOffset
ptrdiff_t fOffset
Definition TClingBaseClassInfo.h:55

TClingBaseClassInfo::fClassInfoOwnership
bool fClassInfoOwnership
Definition TClingBaseClassInfo.h:56

TClingBaseClassInfo::InternalNext
int InternalNext(int onlyDirect)
Definition TClingBaseClassInfo.cxx:257

TClingBaseClassInfo::fIter
clang::CXXRecordDecl::base_class_const_iterator fIter
Definition TClingBaseClassInfo.h:52

TClingBaseClassInfo::GetBase
TClingClassInfo * GetBase() const
Definition TClingBaseClassInfo.cxx:156

TClingClassInfo
Emulation of the CINT ClassInfo class.
Definition TClingClassInfo.h:59

TClingClassInfo::FullName
void FullName(std::string &output, const ROOT::TMetaUtils::TNormalizedCtxt &normCtxt) const
Definition TClingClassInfo.cxx:1372

TClingClassInfo::TmpltName
const char * TmpltName() const
Definition TClingClassInfo.cxx:1434

TClingClassInfo::AddBaseOffsetValue
void AddBaseOffsetValue(const clang::Decl *decl, ptrdiff_t offset)
Definition TClingClassInfo.cxx:131

TClingClassInfo::GetType
const clang::Type * GetType() const
Definition TClingClassInfo.h:161

TClingClassInfo::Tagnum
Longptr_t Tagnum() const
Definition TClingClassInfo.cxx:1354

TClingClassInfo::AddBaseOffsetFunction
void AddBaseOffsetFunction(const clang::Decl *decl, OffsetPtrFunc_t func)
Definition TClingClassInfo.h:118

TClingDeclInfo::Name
virtual const char * Name() const
Definition TClingDeclInfo.cxx:29

TClingDeclInfo::IsValid
virtual bool IsValid() const
Definition TClingDeclInfo.h:42

TClingDeclInfo::GetDecl
virtual const clang::Decl * GetDecl() const
Definition TClingDeclInfo.h:38

TString
Basic string class.
Definition TString.h:139

TString::Data
const char * Data() const
Definition TString.h:380

I
#define I(x, y, z)

Dst
#define Dst
Definition mesh.h:158

ROOT::TMetaUtils::ReSubstTemplateArg
clang::QualType ReSubstTemplateArg(clang::QualType input, const clang::Type *instance)
Check if 'input' or any of its template parameter was substituted when instantiating the class templa...
Definition TClingUtils.cxx:4559

ROOT::TMetaUtils::GetFullyQualifiedTypeName
void GetFullyQualifiedTypeName(std::string &name, const clang::QualType &type, const cling::Interpreter &interpreter)
Definition TClingUtils.cxx:3451

clang
Definition BaseSelectionRule.h:29

llvm
Definition TString.h:849

output
static void output()