/usr/include/root/RtypesCint.h is in libroot-core-dev 5.34.19+dfsg-1.2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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/*************************************************************************
* 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. *
*************************************************************************/
#ifndef ROOT_RtypesCint
#define ROOT_RtypesCint
#if !defined(__CINT__) || defined(__MAKECINT)
#error This header file can only be used in interpreted code.
#endif
// The definition of ClassDef is used only for files loaded via the interpreter
#define ClassDef(name,id) \
private: \
static TClass *fgIsA; \
public: \
static TClass *Class() { return fgIsA ? fgIsA : (fgIsA = TClass::GetClass(#name)); } \
static const char *Class_Name() { return #name; } \
static Version_t Class_Version() { return id; } \
static void Dictionary(); \
virtual TClass *IsA() const { return name::Class(); } \
virtual void ShowMembers(TMemberInspector &insp, char *parent) { \
Class()->InterpretedShowMembers(this, insp, parent); } \
virtual void Streamer(TBuffer &b); \
void StreamerNVirtual(TBuffer &b) { name::Streamer(b); } \
static const char *DeclFileName() { return __FILE__; } \
static const char *ImplFileName(); \
static int ImplFileLine(); \
static int DeclFileLine() { return __LINE__; }
#define ClassDefT(name,id) ClassDef(name,id)
// Obsolete macros
#define ClassDefT2(name,Tmpl)
#define ClassDef2T2(name,Tmpl1,Tmpl2)
#define ClassImp2T(name,Tmpl1,Tmpl2) templateClassImp(name)
#define ClassDef3T2(name,Tmpl1,Tmpl2,Tmpl3)
#define ClassImp3T(name,Tmpl1,Tmpl2,Tmpl3) templateClassImp(name)
// Macro not useful (yet?) in CINT
#define ClassImp(X)
#define ClassImpUnique(name,key)
#define RootClassVersion(name,VersionNumber)
//////////////////////////////////////////////////////////////////////////
//
// Wrapper class around the replacement for the gPad pointer.
//
//////////////////////////////////////////////////////////////////////////
class TVirtualPad;
class TPad;
struct TPadThreadLocal
{
operator TVirtualPad*() { return TVirtualPad::Pad(); }
operator TPad*() { return (TPad*)TVirtualPad::Pad(); }
operator bool() { return 0!=TVirtualPad::Pad(); }
// Emulate the pointer behavior
TVirtualPad* operator->() { return TVirtualPad::Pad(); }
TVirtualPad*& operator=(TVirtualPad *other) { return (TVirtualPad::Pad() = other); }
bool operator!=(const TVirtualPad *other) const { return (TVirtualPad::Pad() != other); }
bool operator!=(TVirtualPad *other) const { return (TVirtualPad::Pad() != other); }
bool operator==(const TVirtualPad *other) const { return (TVirtualPad::Pad() == other); }
bool operator==(TVirtualPad *other) const { return (TVirtualPad::Pad() == other); }
};
// Pretty printing routine for CINT
int G__ateval(TPadThreadLocal &) {
TVirtualPad *pad = TVirtualPad::Pad();
if (pad) {
printf("(class TVirtualPad*)%p\n",(void*)pad);
} else {
printf("(class TVirtualPad*)0x0\n",(void*)pad);
}
return 1;
}
TPadThreadLocal gPad;
//////////////////////////////////////////////////////////////////////////
//
// Wrapper class around the replacement for the gDirectory pointer.
//
//////////////////////////////////////////////////////////////////////////
class TDirectory;
class TFile;
struct TDirectoryThreadLocal
{
operator TDirectory*() { return TDirectory::CurrentDirectory(); }
operator bool() { return 0!=TDirectory::CurrentDirectory(); }
// This is needed to support (TFile*)gDirectory
operator TFile*() { return (TFile*)(TDirectory::CurrentDirectory()); }
// The following 2 are needed to remove ambiguity introduced by the operator TFile*
operator void*() { return TDirectory::CurrentDirectory(); }
// Emulate the pointer behavior
TDirectory* operator->() { return TDirectory::CurrentDirectory(); }
TDirectory*& operator=(TDirectory *other) { return (TDirectory::CurrentDirectory() = other); }
bool operator!=(const TDirectory *other) const { return (TDirectory::CurrentDirectory() != other); }
bool operator!=(TDirectory *other) const { return (TDirectory::CurrentDirectory() != other); }
bool operator==(const TDirectory *other) const { return (TDirectory::CurrentDirectory() == other); }
bool operator==(TDirectory *other) const { return (TDirectory::CurrentDirectory() == other); }
};
// Pretty printing routine for CINT
int G__ateval(TDirectoryThreadLocal &) {
TDirectory *dir = TDirectory::CurrentDirectory();
if (dir) {
printf("(class TDirectory*)%p\n",(void*)dir);
} else {
printf("(class TDirectory*)0x0\n",(void*)dir);
}
return 1;
}
TDirectoryThreadLocal gDirectory;
//////////////////////////////////////////////////////////////////////////
//
// Wrapper class around the replacement for the gFile pointer.
//
//////////////////////////////////////////////////////////////////////////
class TFile;
struct TFileThreadLocal
{
operator TFile*() { return TFile::CurrentFile(); }
operator bool() { return 0!=TFile::CurrentFile(); }
// Emulate the pointer behavior
TFile* operator->() { return TFile::CurrentFile(); }
TFile*& operator=(TFile *other) { return (TFile::CurrentFile() = other); }
bool operator!=(const TFile *other) const { return (TFile::CurrentFile() != other); }
bool operator!=(TFile *other) const { return (TFile::CurrentFile() != other); }
bool operator==(const TFile *other) const { return (TFile::CurrentFile() == other); }
bool operator==(TFile *other) const { return (TFile::CurrentFile() == other); }
};
// Pretty printing routine for CINT
int G__ateval(TFileThreadLocal &) {
TFile *dir = TFile::CurrentFile();
if (dir) {
printf("(class TFile*)%p\n",(void*)dir);
} else {
printf("(class TFile*)0x0\n",(void*)dir);
}
return 1;
}
TFileThreadLocal gFile;
//////////////////////////////////////////////////////////////////////////
//
// Wrapper class around the replacement for the gInterpreter pointer.
//
//////////////////////////////////////////////////////////////////////////
class TInterpreter;
struct TInterpreterWrapper
{
operator TInterpreter*() { return TInterpreter::Instance(); }
operator bool() { return 0!=TInterpreter::Instance(); }
// Emulate the pointer behavior
TInterpreter* operator->() { return TInterpreter::Instance(); }
TInterpreter*& operator=(TInterpreter *other) { return (TInterpreter::Instance() = other); }
bool operator!=(const TInterpreter *other) const { return (TInterpreter::Instance() != other); }
bool operator!=(TInterpreter *other) const { return (TInterpreter::Instance() != other); }
bool operator==(const TInterpreter *other) const { return (TInterpreter::Instance() == other); }
bool operator==(TInterpreter *other) const { return (TInterpreter::Instance() == other); }
};
// Pretty printing routine for CINT
int G__ateval(TInterpreterWrapper &) {
TInterpreter *interpreter = TInterpreter::Instance();
if (interpreter) {
printf("(class TInterpreter*)%p\n",(void*)interpreter);
} else {
printf("(class TInterpreter*)0x0\n",(void*)interpreter);
}
return 1;
}
TInterpreterWrapper gInterpreter;
//////////////////////////////////////////////////////////////////////////
//
// Wrapper class around the replacement for the gVirtualX pointer.
//
//////////////////////////////////////////////////////////////////////////
class TVirtualX;
struct TVirtualXWrapper
{
operator TVirtualX*() { return TVirtualX::Instance(); }
operator bool() { return 0!=TVirtualX::Instance(); }
// Emulate the pointer behavior
TVirtualX* operator->() { return TVirtualX::Instance(); }
TVirtualX*& operator=(TVirtualX *other) { return (TVirtualX::Instance() = other); }
bool operator!=(const TVirtualX *other) const { return (TVirtualX::Instance() != other); }
bool operator!=(TVirtualX *other) const { return (TVirtualX::Instance() != other); }
bool operator==(const TVirtualX *other) const { return (TVirtualX::Instance() == other); }
bool operator==(TVirtualX *other) const { return (TVirtualX::Instance() == other); }
};
// Pretty printing routine for CINT
int G__ateval(TVirtualXWrapper &) {
TVirtualX *VirtualX = TDirectory::Instance();
if (VirtualX) {
printf("(class TVirtualX*)%p\n",(void*)VirtualX);
} else {
printf("(class TVirtualX*)0x0\n",(void*)VirtualX);
}
return 1;
}
TVirtualXWrapper gVirtualX;
#endif
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