/usr/include/root/TGenCollectionProxy.h is in libroot-io-dev 5.34.19+dfsg-1.2.
This file is owned by root:root, with mode 0o644.
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// Author: Markus Frank 28/10/04
/*************************************************************************
* Copyright (C) 1995-2004, 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_TGenCollectionProxy
#define ROOT_TGenCollectionProxy
//////////////////////////////////////////////////////////////////////////
// //
// TGenCollectionProxy
//
// Proxy around an arbitrary container, which implements basic
// functionality and iteration.
//
// In particular this is used to implement splitting and abstract
// element access of any container. Access to compiled code is necessary
// to implement the abstract iteration sequence and functionality like
// size(), clear(), resize(). resize() may be a void operation.
//
//////////////////////////////////////////////////////////////////////////
#ifndef ROOT_TVirtualCollectionProxy
#include "TVirtualCollectionProxy.h"
#endif
#ifndef ROOT_TCollectionProxyInfo
#include "TCollectionProxyInfo.h"
#endif
#include <typeinfo>
#include <string>
#include <map>
#ifndef __CINT__
#include <stdlib.h>
#endif
class TObjArray;
class TCollectionProxyFactory;
class TGenCollectionProxy
: public TVirtualCollectionProxy
{
// Friend declaration
friend class TCollectionProxyFactory;
public:
#ifdef R__HPUX
typedef const type_info& Info_t;
#else
typedef const std::type_info& Info_t;
#endif
enum {
// Those 'bits' are used in conjunction with CINT's bit to store the 'type'
// info into one int
kBIT_ISSTRING = 0x20000000, // We can optimized a value operation when the content are strings
kBIT_ISTSTRING = 0x40000000,
kBOOL_t = 21
};
/** @class TGenCollectionProxy::Value TGenCollectionProxy.h TGenCollectionProxy.h
*
* Small helper to describe the Value_type or the key_type
* of an STL container.
*
* @author M.Frank
* @version 1.0
* @date 10/10/2004
*/
struct Value {
ROOT::NewFunc_t fCtor; // Method cache for containee constructor
ROOT::DesFunc_t fDtor; // Method cache for containee destructor
ROOT::DelFunc_t fDelete; // Method cache for containee delete
UInt_t fCase; // type of data of Value_type
UInt_t fProperties; // Additional properties of the value type (kNeedDelete)
TClassRef fType; // TClass reference of Value_type in collection
EDataType fKind; // kind of ROOT-fundamental type
size_t fSize; // fSize of the contained object
// Default copy constructor has the correct implementation.
// Initializing constructor
Value(const std::string& info, Bool_t silent);
// Delete individual item from STL container
void DeleteItem(void* ptr);
Bool_t IsValid();
};
/**@class StreamHelper
*
* Helper class to facilitate I/O
*
* @author M.Frank
* @version 1.0
* @date 10/10/2004
*/
union StreamHelper {
Bool_t boolean;
Char_t s_char;
Short_t s_short;
Int_t s_int;
Long_t s_long;
Long64_t s_longlong;
Float_t flt;
Double_t dbl;
UChar_t u_char;
UShort_t u_short;
UInt_t u_int;
ULong_t u_long;
ULong64_t u_longlong;
void* p_void;
void** pp_void;
char* kchar;
TString* tstr;
void* ptr() {
return *(&this->p_void);
}
std::string* str() {
return (std::string*)this;
}
const char* c_str() {
return ((std::string*)this)->c_str();
}
const char* c_pstr() {
return (*(std::string**)this)->c_str();
}
void set(void* p) {
*(&this->p_void) = p;
}
void read_std_string(TBuffer& b) {
TString s;
s.Streamer(b);
((std::string*)this)->assign(s.Data());
}
void* read_tstring(TBuffer& b) {
*((TString*)this) = "";
((TString*)this)->Streamer(b);
return this;
}
void read_std_string_pointer(TBuffer& b) {
TString s;
std::string* str2 = (std::string*)ptr();
if (!str2) str2 = new std::string();
s.Streamer(b);
*str2 = s;
set(str2);
}
void write_std_string_pointer(TBuffer& b) {
const char* c;
if (ptr()) {
std::string* strptr = (*(std::string**)this);
c = (const char*)(strptr->c_str());
} else c = "";
TString(c).Streamer(b);
}
void read_any_object(Value* v, TBuffer& b) {
void* p = ptr();
if ( p ) {
if ( v->fDelete ) { // Compiled content: call Destructor
(*v->fDelete)(p);
}
else if ( v->fType ) { // Emulated content: call TClass::Delete
v->fType->Destructor(p);
}
else if ( v->fDtor ) {
(*v->fDtor)(p);
::operator delete(p);
}
else {
::operator delete(p);
}
}
set( b.ReadObjectAny(v->fType) );
}
void read_tstring_pointer(Bool_t vsn3, TBuffer& b) {
TString* s = (TString*)ptr();
if ( vsn3 ) {
if ( !s ) s = new TString();
else s->Clear();
s->Streamer(b);
set(s);
return;
}
if ( s ) delete s;
set( b.ReadObjectAny(TString::Class()) );
}
void write_tstring_pointer(TBuffer& b) {
b.WriteObjectAny(ptr(), TString::Class());
}
};
/** @class TGenCollectionProxy::Method TGenCollectionProxy.h TGenCollectionProxy.h
*
* Small helper to execute (compiler) generated function for the
* access to STL or other containers.
*
* @author M.Frank
* @version 1.0
* @date 10/10/2004
*/
class Method {
public:
typedef void* (*Call_t)(void*);
Call_t call;
Method() : call(0) { }
Method(Call_t c) : call(c) { }
Method(const Method& m) : call(m.call) { }
Method &operator=(const Method& m) { call = m.call; return *this; }
void* invoke(void* obj) const { return (*call)(obj); }
};
/** @class TGenCollectionProxy::Method TGenCollectionProxy.h TGenCollectionProxy.h
*
* Small helper to execute (compiler) generated function for the
* access to STL or other containers.
*
* @author M.Frank
* @version 1.0
* @date 10/10/2004
*/
class Method0 {
public:
typedef void* (*Call_t)();
Call_t call;
Method0() : call(0) { }
Method0(Call_t c) : call(c) { }
Method0(const Method0& m) : call(m.call) { }
Method0 &operator=(const Method0& m) { call = m.call; return *this; }
void* invoke() const { return (*call)(); }
};
/** @class TGenCollectionProxy::TStaging
*
* Small helper to stage the content of an associative
* container when reading and before inserting it in the
* actual collection.
*
* @author Ph.Canal
* @version 1.0
* @date 20/08/2010
*/
class TStaging {
void *fTarget; // Pointer to the collection we are staging for.
void *fContent; // Pointer to the content
size_t fReserved; // Amount of space already reserved.
size_t fSize; // Number of elements
size_t fSizeOf; // size of each elements
TStaging(const TStaging&); // Not implemented.
TStaging &operator=(const TStaging&); // Not implemented.
public:
TStaging(size_t size, size_t size_of) : fTarget(0), fContent(0), fReserved(0), fSize(size), fSizeOf(size_of)
{
// Usual constructor. Reserves the required number of elements.
fReserved = fSize;
fContent = ::malloc(fReserved * fSizeOf);
}
~TStaging() {
// Usual destructor
::free(fContent);
}
void *GetContent() {
// Return the location of the array of content.
return fContent;
}
void *GetEnd() {
// Return the 'end' of the array of content.
return ((char*)fContent) + fSize*fSizeOf;
}
size_t GetSize() {
// Return the number of elements.
return fSize;
}
void *GetTarget() {
// Get the address of the collection we are staging for.
return fTarget;
}
void Resize(size_t nelement) {
if (fReserved < nelement) {
fReserved = nelement;
fContent = ::realloc(fContent,fReserved * fSizeOf);
}
fSize = nelement;
}
void SetTarget(void *target) {
// Set the collection we are staging for.
fTarget = target;
}
};
protected:
typedef ROOT::TCollectionProxyInfo::Environ<char[64]> Env_t;
typedef ROOT::TCollectionProxyInfo::EnvironBase EnvironBase_t;
typedef std::vector<TStaging*> Staged_t; // Collection of pre-allocated staged array for associative containers.
typedef std::vector<EnvironBase_t*> Proxies_t;
mutable TObjArray *fReadMemberWise; //Array of bundle of TStreamerInfoActions to stream out (read)
mutable std::map<std::string, TObjArray*> *fConversionReadMemberWise; //Array of bundle of TStreamerInfoActions to stream out (read) derived from another class.
mutable TStreamerInfoActions::TActionSequence *fWriteMemberWise;
typedef void (*Sizing_t)(void *obj, size_t size);
typedef void* (*Feedfunc_t)(void *from, void *to, size_t size);
typedef void* (*Collectfunc_t)(void *from, void *to);
typedef void* (*ArrIterfunc_t)(void *from, size_t size);
std::string fName; // Name of the class being proxied.
Bool_t fPointers; // Flag to indicate if containee has pointers (key or value)
Method fClear; // Method cache for container accessors: clear container
Method fSize; // Container accessors: size of container
Sizing_t fResize; // Container accessors: resize container
Method fFirst; // Container accessors: generic iteration: first
Method fNext; // Container accessors: generic iteration: next
ArrIterfunc_t fConstruct; // Container accessors: block construct
Sizing_t fDestruct; // Container accessors: block destruct
Feedfunc_t fFeed; // Container accessors: block feed
Collectfunc_t fCollect; // Method to collect objects from container
Method0 fCreateEnv; // Method to allocate an Environment holder.
Value* fValue; // Descriptor of the container value type
Value* fVal; // Descriptor of the Value_type
Value* fKey; // Descriptor of the key_type
EnvironBase_t*fEnv; // Address of the currently proxied object
int fValOffset; // Offset from key to value (in maps)
int fValDiff; // Offset between two consecutive value_types (memory layout).
Proxies_t fProxyList; // Stack of recursive proxies
Proxies_t fProxyKept; // Optimization: Keep proxies once they were created
Staged_t fStaged; // Optimization: Keep staged array once they were created
int fSTL_type; // STL container type
Info_t fTypeinfo; // Type information
TClass* fOnFileClass; // On file class
CreateIterators_t fFunctionCreateIterators;
CopyIterator_t fFunctionCopyIterator;
Next_t fFunctionNextIterator;
DeleteIterator_t fFunctionDeleteIterator;
DeleteTwoIterators_t fFunctionDeleteTwoIterators;
// Late initialization of collection proxy
TGenCollectionProxy* Initialize(Bool_t silent) const;
// Some hack to avoid const-ness.
virtual TGenCollectionProxy* InitializeEx(Bool_t silent);
// Call to delete/destruct individual contained item.
virtual void DeleteItem(Bool_t force, void* ptr) const;
// Allow to check function pointers.
void CheckFunctions() const;
private:
TGenCollectionProxy(); // not implemented on purpose.
public:
// Virtual copy constructor.
virtual TVirtualCollectionProxy* Generate() const;
// Copy constructor.
TGenCollectionProxy(const TGenCollectionProxy& copy);
private:
// Assignment operator
TGenCollectionProxy &operator=(const TGenCollectionProxy&); // Not Implemented
public:
// Initializing constructor
TGenCollectionProxy(Info_t typ, size_t iter_size);
TGenCollectionProxy(const ROOT::TCollectionProxyInfo &info, TClass *cl);
// Standard destructor.
virtual ~TGenCollectionProxy();
// Return a pointer to the TClass representing the container.
virtual TClass *GetCollectionClass() const;
// Return the type of collection see TClassEdit::ESTLType
virtual Int_t GetCollectionType() const;
// Return the offset between two consecutive value_types (memory layout).
virtual ULong_t GetIncrement() const;
// Return the sizeof the collection object.
virtual UInt_t Sizeof() const;
// Push new proxy environment.
virtual void PushProxy(void *objstart);
// Pop old proxy environment.
virtual void PopProxy();
// Return true if the content is of type 'pointer to'.
virtual Bool_t HasPointers() const;
// Return a pointer to the TClass representing the content.
virtual TClass *GetValueClass() const;
// Set pointer to the TClass representing the content.
virtual void SetValueClass(TClass *newcl);
// If the content is a simple numerical value, return its type (see TDataType).
virtual EDataType GetType() const;
// Return the address of the value at index 'idx'.
virtual void *At(UInt_t idx);
// Clear the container.
virtual void Clear(const char *opt = "");
// Resize the container.
virtual void Resize(UInt_t n, Bool_t force_delete);
// Return the current size of the container.
virtual UInt_t Size() const;
// Block allocation of containees.
virtual void* Allocate(UInt_t n, Bool_t forceDelete);
// Block commit of containees.
virtual void Commit(void* env);
// Streamer function.
virtual void Streamer(TBuffer &refBuffer);
// Streamer I/O overload.
virtual void Streamer(TBuffer &refBuffer, void *pObject, int siz);
// TClassStreamer I/O overload.
virtual void operator()(TBuffer &refBuffer, void *pObject);
// Routine to read the content of the buffer into 'obj'.
virtual void ReadBuffer(TBuffer &b, void *obj);
virtual void ReadBuffer(TBuffer &b, void *obj, const TClass *onfileClass);
virtual void SetOnFileClass( TClass* cl ) { fOnFileClass = cl; }
virtual TClass* GetOnFileClass() const { return fOnFileClass; }
// MemberWise actions
virtual TStreamerInfoActions::TActionSequence *GetConversionReadMemberWiseActions(TClass *oldClass, Int_t version);
virtual TStreamerInfoActions::TActionSequence *GetReadMemberWiseActions(Int_t version);
virtual TStreamerInfoActions::TActionSequence *GetWriteMemberWiseActions();
// Set of functions to iterate easily throught the collection
virtual CreateIterators_t GetFunctionCreateIterators(Bool_t read = kTRUE);
// typedef void (*CreateIterators_t)(void *collection, void **begin_arena, void **end_arena);
// begin_arena and end_arena should contain the location of a memory arena of size fgIteratorSize.
// If the collection iterator are of that size or less, the iterators will be constructed in place in those location (new with placement)
// Otherwise the iterators will be allocated via a regular new and their address returned by modifying the value of begin_arena and end_arena.
virtual CopyIterator_t GetFunctionCopyIterator(Bool_t read = kTRUE);
// typedef void* (*CopyIterator_t)(void **dest, const void *source);
// Copy the iterator source, into dest. dest should contain the location of a memory arena of size fgIteratorSize.
// If the collection iterator is of that size or less, the iterator will be constructed in place in this location (new with placement)
// Otherwise the iterator will be allocated via a regular new.
// The actual address of the iterator is returned in both case.
virtual Next_t GetFunctionNext(Bool_t read = kTRUE);
// typedef void* (*Next_t)(void *iter, const void *end);
// iter and end should be pointers to respectively an iterator to be incremented and the result of collection.end()
// If the iterator has not reached the end of the collection, 'Next' increment the iterator 'iter' and return 0 if
// the iterator reached the end.
// If the end was not reached, 'Next' returns the address of the content pointed to by the iterator before the
// incrementation ; if the collection contains pointers, 'Next' will return the value of the pointer.
virtual DeleteIterator_t GetFunctionDeleteIterator(Bool_t read = kTRUE);
virtual DeleteTwoIterators_t GetFunctionDeleteTwoIterators(Bool_t read = kTRUE);
// typedef void (*DeleteIterator_t)(void *iter);
// typedef void (*DeleteTwoIterators_t)(void *begin, void *end);
// If the size of the iterator is greater than fgIteratorArenaSize, call delete on the addresses,
// Otherwise just call the iterator's destructor.
};
template <typename T>
struct AnyCollectionProxy : public TGenCollectionProxy {
AnyCollectionProxy()
: TGenCollectionProxy(typeid(T::Cont_t),sizeof(T::Iter_t))
{
// Constructor.
fValDiff = sizeof(T::Value_t);
fValOffset = T::value_offset();
fSize.call = T::size;
fResize = T::resize;
fNext.call = T::next;
fFirst.call = T::first;
fClear.call = T::clear;
fConstruct = T::construct;
fDestruct = T::destruct;
fFeed = T::feed;
CheckFunctions();
}
virtual ~AnyCollectionProxy() { }
};
#endif
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