replace implementation with a auto-create and propagating-const wrapper for smart pointers which auto delete the holded pointer on destruction

git-svn-id: svn://svn.code.sf.net/p/loki-lib/code/trunk@522 7ec92016-0320-0410-acc4-a06ded1c099a
This commit is contained in:
syntheticpp 2006-01-28 20:13:57 +00:00
parent 698214fb58
commit 147eca6930
6 changed files with 294 additions and 654 deletions

View file

@ -12,11 +12,6 @@
#ifndef LOKI_PIMPL_H
#define LOKI_PIMPL_H
#include <loki/TypeTraits.h>
#include <loki/SmartPtr.h>
#include <exception>
#include <memory>
#ifndef LOKI_INHERITED_PIMPL_NAME
#define LOKI_INHERITED_PIMPL_NAME d
@ -28,356 +23,147 @@
namespace Loki
{
/////////////////////
// template for the implementations
/////////////////////
template<class T>
struct Impl;
//////////////////////////////////////////
// simple const propagating pointer
//////////////////////////////////////////
template<class T>
struct ConstPropPtr
{
explicit ConstPropPtr(T* p) : ptr_(p){}
~ConstPropPtr()
{
typedef char T_must_be_defined[sizeof(T) ? 1 : -1 ];
delete ptr_;
ptr_ = 0;
}
T* operator->() {return ptr_;}
T& operator*() {return *ptr_;}
const T* operator->() const {return ptr_;}
const T& operator*() const {return *ptr_;}
private:
ConstPropPtr();
ConstPropPtr(const ConstPropPtr&);
ConstPropPtr& operator=(const ConstPropPtr&);
T* ptr_;
};
/////////////////////
// creation policies
// Pimpl
/////////////////////
// hard coded creation preferred
template
<
class T,
typename Pointer = ConstPropPtr<T>
>
class Pimpl
{
public:
/////////////////////
// destroy policies
/////////////////////
template<class T>
struct AutoDeletePimpl
{
static void Destroy(T ptr)
{
typedef char T_must_be_defined[
sizeof(typename TypeTraits<T>::PointeeType) ? 1 : -1 ];
delete ptr;
ptr = 0;
}
};
typedef T Impl;
template<class T>
struct DontDeletePimpl
{
static void Destroy(T)
Pimpl() : ptr_(new T)
{}
};
/////////////////////
// error handling
/////////////////////
template<class T>
struct ExceptionOnPimplError
{
struct Exception : public std::exception
T* operator->()
{
const char* what() const throw() { return "error in loki/Pimpl.h"; }
};
static void PimplError()
{
throw Exception();
return ptr_.operator->();
}
T& operator*()
{
return ptr_.operator*();
}
const T* operator->() const
{
return ptr_.operator->();
}
const T& operator*() const
{
return ptr_.operator*();
}
Pointer& wrapped()
{
return ptr_;
}
const Pointer& wrapped() const
{
return ptr_;
}
private:
Pimpl(const Pimpl&);
Pimpl& operator=(const Pimpl&);
Pointer ptr_;
};
template<class T>
struct IgnorPimplError
{
static void PimplError()
{}
};
/////////////////////
// Helper class AutoPtrHolder to manage pimpl lifetime
/////////////////////
namespace Private
{
// does not work with std::auto_ptr
template
<
class Impl,
class Ptr,
template<class> class Del
>
struct AutoPtrHolder
{
AutoPtrHolder() : ptr(Ptr())
{}
// defined in #include<loki/PimplDef.h>
~AutoPtrHolder();
Ptr Create()
{
ptr = Ptr( new Impl );
return ptr;
}
Ptr ptr;
};
// don't compile with std::auto_ptr
template<class Impl,template<class> class Del>
struct AutoPtrHolder<Impl,std::auto_ptr<Impl>,Del>{};
template
<
class Impl,
class Ptr,
template<class> class Del,
template<class> class ErrorPolicy = ExceptionOnPimplError
>
struct AutoPtrHolderChecked : AutoPtrHolder<Impl,Ptr,Del>
{
static bool init_;
AutoPtrHolderChecked()
{
init_ = true;
}
template<class T>
operator T&()
{
// if this throws change the declaration order
// of the DeclaredRimpl construct
if(!init_)
ErrorPolicy<T>::PimplError();
AutoPtrHolder<Impl,Ptr,Del>::Create();
return *AutoPtrHolder<Impl,Ptr,Del>::ptr;
}
};
template
<
class Impl,
class Ptr,
template<class> class Del,
template<class> class Err
>
bool AutoPtrHolderChecked<Impl,Ptr,Del,Err>::init_ = false;
template<class T>
struct HavePtrHolder
{
T ptr;
};
}
/////////////////////
// Pimpl usage policies
/////////////////////
template<class Impl, typename Ptr, template<class> class Del>
class InheritedPimpl : private
Private::HavePtrHolder<Private::AutoPtrHolder<Impl,Ptr,Del> >
template<class T, typename Pointer = ConstPropPtr<T> >
struct PimplOwner
{
typedef Private::HavePtrHolder<Private::AutoPtrHolder<Impl,Ptr,Del> > PtrHolder;
public:
Ptr LOKI_INHERITED_PIMPL_NAME;
protected:
InheritedPimpl() : LOKI_INHERITED_PIMPL_NAME(PtrHolder::ptr.Create())
{}
private:
InheritedPimpl& operator=(const InheritedPimpl&);
};
template<class Impl, typename Ptr, template<class> class Del>
class DeclaredPimpl : private
Private::HavePtrHolder<Private::AutoPtrHolder<Impl,Ptr,Del> >
{
typedef Private::HavePtrHolder<Private::AutoPtrHolder<Impl,Ptr,Del> > PtrHolder;
#if defined(LOKI_DEFAULT_CONSTNESS)
typedef typename LOKI_DEFAULT_CONSTNESS<Ptr>::Type ConstPtr;
typedef typename LOKI_DEFAULT_CONSTNESS<Impl>::Type ConstImpl;
#else // default: enable
typedef const Ptr ConstPtr;
typedef const Impl ConstImpl;
#endif
public:
Ptr operator->()
{
return ptr;
}
Impl& operator*()
{
return *ptr;
}
ConstPtr operator->() const
{
return ptr;
}
ConstImpl& operator*() const
{
return *ptr;
}
protected:
DeclaredPimpl() : ptr(PtrHolder::ptr.Create())
{}
private:
DeclaredPimpl& operator=(const DeclaredPimpl&);
const Ptr ptr;
};
/////////////////////
// Rimpl usage policies
/////////////////////
template<class Impl, typename Ptr, template<class> class Del>
class InheritedRimpl : private
Private::HavePtrHolder<Private::AutoPtrHolder<Impl,Ptr,Del> >
{
typedef Private::HavePtrHolder<Private::AutoPtrHolder<Impl,Ptr,Del> > PtrHolder;
public:
Impl& LOKI_INHERITED_RIMPL_NAME;
protected:
InheritedRimpl() :
LOKI_INHERITED_RIMPL_NAME(*PtrHolder::ptr.Create())
{}
private:
InheritedRimpl& operator=(const InheritedRimpl&);
};
template<class Impl, typename PointerPolicy, template<class> class DeletePolicy>
class DeclaredRimpl : public Impl
{
protected:
DeclaredRimpl()
{}
Pimpl<T,Pointer> LOKI_INHERITED_PIMPL_NAME;
};
/////////////////////
// Wrapper for "pointer to implementation" alias pimpl.
// Impl: implementation class
// PointerTypePolicy: arbitrary pointer implementation
// DeletePolicy: delete implementation object on destruction of PtrImpl
// UsagePolicy: how to access the stored pointer, as pointer, checked, unchecked
/////////////////////
template
<
class Impl,
class PointerPolicy = Impl*,
template<class> class DeletePolicy = AutoDeletePimpl,
template<class,class,template<class> class> class UsagePolicy = InheritedPimpl
>
class PtrImpl : public UsagePolicy<Impl,PointerPolicy,DeletePolicy>
{
public:
typedef Impl ImplType;
typedef PointerPolicy PointerType;
PtrImpl() : UsagePolicy<Impl,PointerPolicy,DeletePolicy>()
{}
private:
PtrImpl& operator=(const PtrImpl&);
};
/////////////////////
// Predefined convenience "templated typedef"
/////////////////////
//////////////////////////////////////////
// template for the implementations
//////////////////////////////////////////
template<class T>
struct Pimpl
struct ImplT;
template<class T, template<class> class Ptr = ConstPropPtr>
struct PimplT
{
typedef T Impl;
// declare pimpl
typedef PtrImpl
<
Impl<T>,
Impl<T>*,
AutoDeletePimpl,
DeclaredPimpl
>
Type;
typedef Pimpl<ImplT<T>, Ptr<ImplT<T> > > Type;
// inherit pimpl
typedef PtrImpl
<
Impl<T>,
Impl<T>*,
AutoDeletePimpl,
InheritedPimpl
>
Owner;
};
typedef PimplOwner<ImplT<T>, Ptr<ImplT<T> > > Owner;
};
template<class T>
struct Rimpl
template<class T, class UsedPimpl = typename PimplT<T>::Type >
struct RimplT
{
typedef typename UsedPimpl::Impl & Type;
// declare rimpl
typedef PtrImpl
<
Impl<T>,
Impl<T>*,
DontDeletePimpl,
DeclaredRimpl
>
Ptr;
class Owner
{
UsedPimpl pimpl;
// init declared rimpl
typedef Private::AutoPtrHolderChecked
<
Ptr,
Ptr*,
AutoDeletePimpl
>
Init;
public:
Owner() : LOKI_INHERITED_RIMPL_NAME(*pimpl)
{}
typedef Ptr & Type;
// inherit rimpl
typedef PtrImpl
<
Impl<T>,
Impl<T>*,
AutoDeletePimpl,
InheritedRimpl
>
Owner;
Type LOKI_INHERITED_RIMPL_NAME;
};
};
}
#endif
// $Log$
// Revision 1.15 2006/01/28 20:12:56 syntheticpp
// replace implementation with a auto-create and propagating-const wrapper for smart pointers which auto delete the holded pointer on destruction
//
// Revision 1.14 2006/01/26 14:28:59 syntheticpp
// remove wrong 'typename'
//

View file

@ -1,36 +0,0 @@
////////////////////////////////////////////////////////////////////////////////
// The Loki Library
// Copyright (c) 2006 Peter Kümmel
// Permission to use, copy, modify, distribute and sell this software for any
// purpose is hereby granted without fee, provided that the above copyright
// notice appear in all copies and that both that copyright notice and this
// permission notice appear in supporting documentation.
// The author makes no representations about the
// suitability of this software for any purpose. It is provided "as is"
// without express or implied warranty.
////////////////////////////////////////////////////////////////////////////////
#ifndef LOKI_PIMPLDEF_H
#define LOKI_PIMPLDEF_H
namespace Loki
{
namespace Private
{
template
<
class Impl,
class Ptr,
template<class> class Del
>
AutoPtrHolder<Impl,Ptr,Del>::~AutoPtrHolder()
{
Del<Ptr>::Destroy( ptr );
}
}
}
#endif
// $Log:

View file

@ -226,10 +226,6 @@
RelativePath="..\..\include\loki\Pimpl.h"
>
</File>
<File
RelativePath="..\..\include\loki\PimplDef.h"
>
</File>
<File
RelativePath="..\..\include\loki\SafeFormat.h"
>

View file

@ -24,19 +24,19 @@
#include "type2.h"
#include <loki/SafeFormat.h>
#include <loki/PimplDef.h>
/////////////////////////////////////////
// Definition of Impl<A>
// Definition of ImplT<A>
/////////////////////////////////////////
namespace Loki // gcc!!
{
template<>
struct Impl<A> : public SmallObject<> // inherit SmallObj for speed up
struct ImplT<A> : public SmallObject<> // inherit SmallObj for speed up
{
Impl() : data(0) {Printf("A created\n");}
~Impl(){Printf("A destroyed, data=%d\n")(data);}
ImplT() : data(0) {Printf("A created\n");}
~ImplT(){Printf("A destroyed, data=%d\n")(data);}
int data;
};
}
@ -54,22 +54,22 @@ void A::foo()
/////////////////////////////////////////
// Definition of Impl<B>
// Definition of ImplT<B>
/////////////////////////////////////////
namespace Loki // gcc!!
{
template<>
struct Impl<B> : public SmallObject<> // inherit SmallObj for speed up
struct ImplT<B> : public SmallObject<> // inherit SmallObj for speed up
{
Impl() : data(0) {Printf("B created\n");}
~Impl(){Printf("B destroyed, data=%d\n")(data);}
ImplT() : data(0) {Printf("B created\n");}
~ImplT(){Printf("B destroyed, data=%d\n")(data);}
int data;
};
}
/////////////////////////////////////////
// class B definition
/////////////////////////////////////////
B::B() : Loki::Pimpl<B>::Owner()
B::B() : Loki::PimplT<B>::Owner()
{}
void B::foo()
@ -80,22 +80,22 @@ void B::foo()
/////////////////////////////////////////
// Definition of Impl<C>
// Definition of ImplT<C>
/////////////////////////////////////////
namespace Loki // gcc!!
{
template<>
struct Impl<C> : public SmallObject<> // inherit SmallObj for speed up
struct ImplT<C> : public SmallObject<> // inherit SmallObj for speed up
{
Impl(): data(0) {Printf("C created\n");}
~Impl(){Printf("C destroyed, data=%d\n")(data);}
ImplT(): data(0) {Printf("C created\n");}
~ImplT(){Printf("C destroyed, data=%d\n")(data);}
int data;
};
}
/////////////////////////////////////////
// class C definition
/////////////////////////////////////////
C::C() : d(rinit)
C::C() : p(), d(*p)
{}
void C::foo()
@ -106,22 +106,23 @@ void C::foo()
/////////////////////////////////////////
// Definition of Impl<D>
// Definition of ImplT<D>
/////////////////////////////////////////
namespace Loki // gcc!!
{
template<>
struct Impl<D> : public SmallObject<> // inherit SmallObj for speed up
struct ImplT<D> : public SmallObject<> // inherit SmallObj for speed up
{
Impl(): data(0) {Printf("D created\n");}
~Impl(){Printf("D destroyed, data=%d\n")(data);}
ImplT(): data(0) {Printf("D created\n");}
~ImplT(){Printf("D destroyed, data=%d\n")(data);}
int data;
};
}
/////////////////////////////////////////
// class D definition
/////////////////////////////////////////
D::D() : Loki::Rimpl<D>::Owner()
D::D() : Loki::RimplT<D>::Owner()
{}
void D::foo()
@ -133,45 +134,11 @@ void D::foo()
/////////////////////////////////////////
// main
/////////////////////////////////////////
void test_more();
//#define MSVC_DETECT_MEMORY_LEAKS
#ifdef MSVC_DETECT_MEMORY_LEAKS
#include <crtdbg.h>
#include <cassert>
void heap_debug()
{
int tmpFlag = _CrtSetDbgFlag( _CRTDBG_REPORT_FLAG );
// Turn on leak-checking bit
tmpFlag |= _CRTDBG_LEAK_CHECK_DF;
//tmpFlag |= _CRTDBG_CHECK_ALWAYS_DF;
// Turn off CRT block checking bit
tmpFlag &= ~_CRTDBG_CHECK_CRT_DF;
// Set flag to the new value
_CrtSetDbgFlag( tmpFlag );
}
#else
void heap_debug()
{
}
#endif
int main()
{
heap_debug();
A* a = new A;
B* b = new B;
C* c = new C;
@ -200,15 +167,15 @@ int main()
////////////////////
/////////////////////////////////////////
// Definition of Impl<E>
// Definition of ImplT<E>
/////////////////////////////////////////
namespace Loki // gcc!!
{
template<>
struct Impl<E> : public SmallObject<> // inherit SmallObj for speed up
struct ImplT<E> : public SmallObject<> // inherit SmallObj for speed up
{
Impl() : data(0) {Printf("E created\n");}
~Impl(){Printf("E destroyed, data=%d\n")(data);}
ImplT() : data(0) {Printf("E created\n");}
~ImplT(){Printf("E destroyed, data=%d\n")(data);}
int data;
void foo() {Printf("E foo() \n");}
@ -223,43 +190,77 @@ P2::P2(){d->data = 2;}
P3::P3(){d->data = 3;}
P4::P4(){d->data = 4;}
P5::P5(){d->data = 5;}
P6::P6(){d->data = 6;}
PO1::PO1(){d->data = 6;}
PO2::PO2(){d->data = 7;}
PO3::PO3(){d->data = 8;}
PO4::PO4(){d->data = 9;}
PO5::PO5(){d->data = 10;}
void P1::f(){d->foo();}
void P2::f(){d->foo();}
void P3::f(){d->foo();}
void P4::f(){d->foo();}
void P5::f(){d->foo();}
void P6::f(){d->foo();}
void PO1::f(){d->foo();}
void PO2::f(){d->foo();}
void PO3::f(){d->foo();}
void PO4::f(){d->foo();}
void PO5::f(){d->foo();}
void P1::f()const{d->foo();}
void P2::f()const{d->foo();}
void P3::f()const{d->foo();}
void P4::f()const{d->foo();}
void P5::f()const{d->foo();}
void P6::f()const{d->foo();}
void PO1::f()const{d->foo();}
void PO2::f()const{d->foo();}
void PO3::f()const{d->foo();}
void PO4::f()const{d->foo();}
void PO5::f()const{d->foo();}
R1::R1(){d.data = 11;}
R2::R2(){d.data = 22;}
R3::R3(){d.data = 33;}
R4::R4():d(rinit){d.data = 44;}
R5::R5():d(rinit){d.data = 55;}
R6::R6():d(rinit){d.data = 66;}
R1::R1():d(*p){d.data = 11;}
R2::R2():d(*p){d.data = 22;}
R3::R3():d(*p){d.data = 33;}
R4::R4():d(*p){d.data = 44;}
R5::R5():d(*p){d.data = 55;}
void R1::f(){d.foo();}
void R2::f(){d.foo();}
void R3::f(){d.foo();}
void R4::f(){d.foo();}
void R5::f(){d.foo();}
void R6::f(){d.foo();}
void R1::f()const{d.foo();}
void R2::f()const{d.foo();}
void R3::f()const{d.foo();}
void R4::f()const{d.foo();}
void R5::f()const{d.foo();}
void R6::f()const{d.foo();}
RO1::RO1(){d.data = 66;}
RO2::RO2(){d.data = 77;}
RO3::RO3(){d.data = 88;}
RO4::RO4(){d.data = 99;}
RO5::RO5(){d.data = 1010;}
void RO1::f(){d.foo();}
void RO2::f(){d.foo();}
void RO3::f(){d.foo();}
void RO4::f(){d.foo();}
void RO5::f(){d.foo();}
void RO1::f()const{d.foo();}
void RO2::f()const{d.foo();}
void RO3::f()const{d.foo();}
void RO4::f()const{d.foo();}
void RO5::f()const{d.foo();}
void test_more()
@ -267,12 +268,16 @@ void test_more()
Loki::Printf("\n\nMore tests:\n");
Loki::Printf("\nCreating Pimpls\n");
P1* p1 = new P1;
P1* p1 = new P1;
P2* p2 = new P2;
P3* p3 = new P3;
P4* p4 = new P4;
P5* p5 = new P5;
P6* p6 = new P6;
PO1* p6 = new PO1;
PO2* p7 = new PO2;
PO3* p8 = new PO3;
PO4* p9 = new PO4;
PO5* p10 = new PO5;
Loki::Printf("\nConst check\n");
p1->f();
@ -280,7 +285,11 @@ void test_more()
p3->f();
p4->f();
p5->f();
p6->f();
p6->f();
p7->f();
p8->f();
p9->f();
p10->f();
Loki::Printf("\nDeleting Pimpls\n");
delete p1;
@ -289,22 +298,35 @@ void test_more()
delete p4;
delete p5;
delete p6;
delete p7;
delete p8;
delete p9;
delete p10;
Loki::Printf("\nCreating Rimpls\n");
R1* r1 = new R1;
R2* r2 = new R2;
R3* r3 = new R3;
R4* r4 = new R4;
R5* r5 = new R5;
R6* r6 = new R6;
Loki::Printf("\nConst check\n");
r1->f();
RO1* r6 = new RO1;
RO2* r7 = new RO2;
RO3* r8 = new RO3;
RO4* r9 = new RO4;
RO5* r10 = new RO5;
r1->f();
r2->f();
r3->f();
r4->f();
r5->f();
r6->f();
r7->f();
r8->f();
r9->f();
r10->f();
Loki::Printf("\nDeleting Rimpls\n");
delete r1;
@ -313,14 +335,24 @@ void test_more()
delete r4;
delete r5;
delete r6;
delete r7;
delete r8;
delete r9;
delete r10;
Loki::Printf("\nCreating Pimpls\n");
Loki::Printf("\nCreating const Pimpls\n");
const P1* cp1 = new P1;
const P2* cp2 = new P2;
const P3* cp3 = new P3;
const P4* cp4 = new P4;
const P5* cp5 = new P5;
const P6* cp6 = new P6;
const PO1* cp6 = new PO1;
const PO2* cp7 = new PO2;
const PO3* cp8 = new PO3;
const PO4* cp9 = new PO4;
const PO5* cp10 = new PO5;
Loki::Printf("\nConst check\n");
cp1->f();
@ -329,38 +361,20 @@ void test_more()
cp4->f();
cp5->f();
cp6->f();
cp7->f();
cp8->f();
cp9->f();
cp10->f();
Loki::Printf("\nDeleting Rimpls\n");
Loki::Printf("\nDeleting const Pimpls\n");
delete cp1;
delete cp2;
delete cp3;
delete cp4;
delete cp5;
delete cp6;
Loki::Printf("\nCreating Rimpls\n");
const R1* cr1 = new R1;
const R2* cr2 = new R2;
const R3* cr3 = new R3;
const R4* cr4 = new R4;
const R5* cr5 = new R5;
const R6* cr6 = new R6;
Loki::Printf("\nConst check\n");
cr1->f();
cr2->f();
cr3->f();
cr4->f();
cr5->f();
cr6->f();
Loki::Printf("\nDeleting Rimpls\n");
delete cr1;
delete cr2;
delete cr3;
delete cr4;
delete cr5;
delete cr6;
delete cp6;
delete cp7;
delete cp8;
delete cp9;
delete cp10;
}

View file

@ -12,9 +12,6 @@
// $Header:
//#define LOKI_DEFAULT_CONSTNESS DeepConstness //default
//#define LOKI_DEFAULT_CONSTNESS FlatConstness
#include <loki/Pimpl.h>
@ -22,12 +19,11 @@
#ifdef TEST_WITH_BOOST
#include <boost/shared_ptr.hpp>
#endif
#include <loki/SmartPtr.h>
#include <loki/SmallObj.h>
using Loki::Pimpl;
using Loki::Rimpl;
using namespace Loki;
/////////////////////////////////////////
// class A declaration
@ -40,7 +36,7 @@ public:
void foo();
private:
Pimpl<A>::Type d;
PimplT<A>::Type d;
};
@ -48,7 +44,7 @@ private:
// class B declaration
/////////////////////////////////////////
class B : private Pimpl<B>::Owner
class B : private PimplT<B>::Owner
{
public:
B();
@ -67,8 +63,8 @@ public:
void foo();
private:
Rimpl<C>::Init rinit;
Rimpl<C>::Type d;
PimplT<C>::Type p;
RimplT<C>::Type d;
};
@ -76,7 +72,7 @@ private:
// class D declaration
/////////////////////////////////////////
class D : private Rimpl<D>::Owner
class D : private RimplT<D>::Owner
{
public:
D();
@ -92,190 +88,78 @@ public:
struct E;
typedef SmartPtr<ImplT<E> > LokiPtr;
typedef ConstPropPtr<ImplT<E> > CPropPtr;
typedef std::auto_ptr<ImplT<E> > StdAutoPtr;
#ifdef TEST_WITH_BOOST
typedef boost::shared_ptr<ImplT<E> > BoostPtr;
#else
typedef LokiPtr BoostPtr;
#endif
// Pimpl
typedef Loki::PtrImpl
<
Loki::Impl<E>
>
Pimpl1;
typedef Pimpl<ImplT<E> > Pimpl1;
typedef Pimpl<ImplT<E>, CPropPtr> Pimpl2;
typedef Pimpl<ImplT<E>, LokiPtr> Pimpl3;
typedef Pimpl<ImplT<E>, BoostPtr> Pimpl4;
typedef Pimpl<ImplT<E>, StdAutoPtr> Pimpl5;
struct P1 {Pimpl1 d; P1();void f();void f()const;};
struct P2 {Pimpl2 d; P2();void f();void f()const;};
struct P3 {Pimpl3 d; P3();void f();void f()const;};
struct P4 {Pimpl4 d; P4();void f();void f()const;};
struct P5 {Pimpl5 d; P5();void f();void f()const;};
// PimplOwner
typedef Loki::PtrImpl
<
Loki::Impl<E>,
Loki::SmartPtr<Loki::Impl<E> >,
Loki::DontDeletePimpl
>
Pimpl2;
typedef PimplOwner<ImplT<E> > PimplOwner1;
typedef PimplOwner<ImplT<E>, CPropPtr> PimplOwner2;
typedef PimplOwner<ImplT<E>, LokiPtr> PimplOwner3;
typedef PimplOwner<ImplT<E>, BoostPtr> PimplOwner4;
typedef PimplOwner<ImplT<E>, StdAutoPtr>PimplOwner5;
struct PO1 : private PimplOwner1 {PO1();void f();void f()const;};
struct PO2 : private PimplOwner2 {PO2();void f();void f()const;};
struct PO3 : private PimplOwner3 {PO3();void f();void f()const;};
struct PO4 : private PimplOwner4 {PO4();void f();void f()const;};
struct PO5 : private PimplOwner5 {PO5();void f();void f()const;};
typedef Loki::PtrImpl
<
Loki::Impl<E>,
#ifdef TEST_WITH_BOOST
boost::shared_ptr<Loki::Impl<E> >,
#else
Loki::SmartPtr<Loki::Impl<E> >,
#endif
Loki::DontDeletePimpl
>
Pimpl3;
typedef Loki::PtrImpl
<
Loki::Impl<E>,
Loki::SmartPtr<Loki::Impl<E> >,
Loki::DontDeletePimpl,
Loki::DeclaredPimpl
>
Pimpl4;
typedef Loki::PtrImpl
<
Loki::Impl<E>,
#ifdef TEST_WITH_BOOST
boost::shared_ptr<Loki::Impl<E> >,
#else
Loki::SmartPtr<Loki::Impl<E> >,
#endif
Loki::DontDeletePimpl,
Loki::DeclaredPimpl
>
Pimpl5;
typedef Loki::PtrImpl
<
Loki::Impl<E>,
Loki::Impl<E>*,
Loki::AutoDeletePimpl,
Loki::DeclaredPimpl
>
Pimpl6;
// Rimpl
typedef Loki::PtrImpl
<
Loki::Impl<E>,
Loki::Impl<E>*,
Loki::AutoDeletePimpl,
Loki::InheritedRimpl
typedef RimplT<ImplT<E>,Pimpl1> Rimpl1;
typedef RimplT<ImplT<E>,Pimpl2> Rimpl2;
typedef RimplT<ImplT<E>,Pimpl3> Rimpl3;
typedef RimplT<ImplT<E>,Pimpl4> Rimpl4;
typedef RimplT<ImplT<E>,Pimpl5> Rimpl5;
>
Rimpl1;
struct R1 {Pimpl1 p; Rimpl1::Type d; R1();void f();void f()const;};
struct R2 {Pimpl2 p; Rimpl2::Type d; R2();void f();void f()const;};
struct R3 {Pimpl3 p; Rimpl3::Type d; R3();void f();void f()const;};
struct R4 {Pimpl4 p; Rimpl4::Type d; R4();void f();void f()const;};
struct R5 {Pimpl5 p; Rimpl5::Type d; R5();void f();void f()const;};
// RimplOwner
typedef RimplT<ImplT<E>,Pimpl1>::Owner RimplO1;
typedef RimplT<ImplT<E>,Pimpl2>::Owner RimplO2;
typedef RimplT<ImplT<E>,Pimpl3>::Owner RimplO3;
typedef RimplT<ImplT<E>,Pimpl4>::Owner RimplO4;
typedef RimplT<ImplT<E>,Pimpl5>::Owner RimplO5;
struct RO1 : private RimplO1 {RO1();void f();void f()const;};
struct RO2 : private RimplO2 {RO2();void f();void f()const;};
struct RO3 : private RimplO3 {RO3();void f();void f()const;};
struct RO4 : private RimplO4 {RO4();void f();void f()const;};
struct RO5 : private RimplO5 {RO5();void f();void f()const;};
typedef Loki::PtrImpl
<
Loki::Impl<E>,
Loki::SmartPtr<Loki::Impl<E> >,
Loki::DontDeletePimpl,
Loki::InheritedRimpl
>
Rimpl2;
typedef Loki::PtrImpl
<
Loki::Impl<E>,
#ifdef TEST_WITH_BOOST
boost::shared_ptr<Loki::Impl<E> >,
#else
Loki::SmartPtr<Loki::Impl<E> >,
#endif
Loki::DontDeletePimpl,
Loki::InheritedRimpl
>
Rimpl3;
typedef Loki::PtrImpl
<
Loki::Impl<E>,
Loki::Impl<E>*,
Loki::AutoDeletePimpl,
Loki::DeclaredRimpl
>
Rimpl4;
typedef Loki::PtrImpl
<
Loki::Impl<E>,
Loki::SmartPtr<Loki::Impl<E> >,
Loki::DontDeletePimpl,
Loki::DeclaredRimpl
>
Rimpl5;
typedef Loki::PtrImpl
<
Loki::Impl<E>,
#ifdef TEST_WITH_BOOST
boost::shared_ptr<Loki::Impl<E> >,
#else
Loki::SmartPtr<Loki::Impl<E> >,
#endif
Loki::DontDeletePimpl,
Loki::DeclaredRimpl
>
Rimpl6;
typedef Loki::PtrImpl
<
Loki::Impl<E>,
//Loki::Impl<E>*,
Loki::SmartPtr<Loki::Impl<E> >,
//boost::shared_ptr<Loki::Impl<E> >,
//Loki::AutoDeletePimpl, // compiler error when used with smart pointers, this is o.k.
Loki::DontDeletePimpl,
Loki::DeclaredPimpl
//Loki::InheritedPimpl,
>
Pimpl8;
template<class T>
struct R
{
typedef Loki::Private::AutoPtrHolderChecked
<
T,
T*,
Loki::AutoDeletePimpl
>
Init;
};
struct P1 : private Pimpl1 {P1();void f();void f()const;};
struct P2 : private Pimpl2 {P2();void f();void f()const;};
struct P3 : private Pimpl3 {P3();void f();void f()const;};
struct P4 {Pimpl4 d; P4();void f();void f()const;};
struct P5 {Pimpl5 d; P5();void f();void f()const;};
struct P6 {Pimpl6 d; P6();void f();void f()const;};
struct R1 : private Rimpl1 {R1();void f();void f()const;};
struct R2 : private Rimpl2 {R2();void f();void f()const;};
struct R3 : private Rimpl3 {R3();void f();void f()const;};
struct R4 {R<Rimpl4>::Init rinit; Rimpl4& d; R4();void f();void f()const;};
struct R5 {R<Rimpl5>::Init rinit; Rimpl5& d; R5();void f();void f()const;};
struct R6 {R<Rimpl6>::Init rinit; Rimpl6& d; R6();void f();void f()const;};

View file

@ -15,10 +15,6 @@
#include <loki/Pimpl.h>
using Loki::Pimpl;
using Loki::Rimpl;
/////////////////////////////////////////
// class A2 declaration
/////////////////////////////////////////
@ -30,7 +26,7 @@ public:
void foo();
private:
Pimpl<A2>::Type d;
PimplT<A2> d;
};
@ -38,7 +34,7 @@ private:
// class B2 declaration
/////////////////////////////////////////
class B2 : private Pimpl<B2>::Owner
class B2 : private PimplT<B2>::Owner
{
public:
B2();
@ -46,6 +42,7 @@ public:
};
/////////////////////////////////////////
// class C2 declaration
/////////////////////////////////////////
@ -57,8 +54,8 @@ public:
void foo();
private:
Rimpl<C2>::Init rint;
Rimpl<C2>::Type d;
PimplT<C2>::Type rint;
RimplT<C2>::Type d;
};
@ -66,10 +63,9 @@ private:
// class D2 declaration
/////////////////////////////////////////
class D2 : private Rimpl<D2>::Owner
class D2 : private RimplT<D2>::Owner
{
public:
D2();
void foo();
};