Loki/test/Pimpl/main.cpp
syntheticpp fd6b9484ee replace tabs with 4 spaces
git-svn-id: svn://svn.code.sf.net/p/loki-lib/code/trunk@681 7ec92016-0320-0410-acc4-a06ded1c099a
2006-06-19 12:46:22 +00:00

387 lines
7.7 KiB
C++
Executable file

////////////////////////////////////////////////////////////////////////////////
// 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.
////////////////////////////////////////////////////////////////////////////////
// $Header$
#ifdef _MSC_VER
#pragma warning (disable: 4512)
#endif
#define LOKI_INHERITED_PIMPL_NAME d
#define LOKI_INHERITED_RIMPL_NAME d
#include "type.h"
#include "type2.h"
#include <loki/SafeFormat.h>
/////////////////////////////////////////
// Definition of ImplT<A>
/////////////////////////////////////////
namespace Loki // gcc!!
{
template<>
struct ImplT<A> : public SmallObject<> // inherit SmallObj for speed up
{
ImplT() : data(0) {Printf("A created\n");}
~ImplT(){Printf("A destroyed, data=%d\n")(data);}
int data;
};
}
/////////////////////////////////////////
// class A definition
/////////////////////////////////////////
A::A()
{}
void A::foo()
{
(*d).data = 1;
d->data = 111;
}
/////////////////////////////////////////
// Definition of ImplT<B>
/////////////////////////////////////////
namespace Loki // gcc!!
{
template<>
struct ImplT<B> : public SmallObject<> // inherit SmallObj for speed up
{
ImplT() : data(0) {Printf("B created\n");}
~ImplT(){Printf("B destroyed, data=%d\n")(data);}
int data;
};
}
/////////////////////////////////////////
// class B definition
/////////////////////////////////////////
B::B() : Loki::PimplT<B>::Owner()
{}
void B::foo()
{
(*d).data = 2;
d->data = 222;
}
/////////////////////////////////////////
// Definition of ImplT<C>
/////////////////////////////////////////
namespace Loki // gcc!!
{
template<>
struct ImplT<C> : public SmallObject<> // inherit SmallObj for speed up
{
ImplT(): data(0) {Printf("C created\n");}
~ImplT(){Printf("C destroyed, data=%d\n")(data);}
int data;
};
}
/////////////////////////////////////////
// class C definition
/////////////////////////////////////////
C::C() : p(), d(*p)
{}
void C::foo()
{
d.data = 333;
}
/////////////////////////////////////////
// Definition of ImplT<D>
/////////////////////////////////////////
namespace Loki // gcc!!
{
template<>
struct ImplT<D> : public SmallObject<> // inherit SmallObj for speed up
{
ImplT(): data(0) {Printf("D created\n");}
~ImplT(){Printf("D destroyed, data=%d\n")(data);}
int data;
};
}
/////////////////////////////////////////
// class D definition
/////////////////////////////////////////
D::D() : Loki::RimplT<D>::Owner()
{}
void D::foo()
{
d.data = 444;
}
/////////////////////////////////////////
// main
/////////////////////////////////////////
void test_more();
int main()
{
A* a = new A;
B* b = new B;
C* c = new C;
D* d = new D;
a->foo();
b->foo();
c->foo();
d->foo();
delete a;
delete b;
delete c;
delete d;
test_more();
#if defined(__BORLANDC__) || defined(_MSC_VER)
system("PAUSE");
#endif
return 0;
}
////////////////////
// more test code
////////////////////
// incomplete type test
// this must give errors
//Incomplete1 ii; // compiler error
//Incomplete2 i2; // linker error
//Incomplete4 i4; // compiler error
/////////////////////////////////////////
// Definition of ImplT<E>
/////////////////////////////////////////
namespace Loki // gcc!!
{
template<>
struct ImplT<E> : public SmallObject<> // inherit SmallObj for speed up
{
ImplT() : data(0) {Printf("E created\n");}
~ImplT(){Printf("E destroyed, data=%d\n")(data);}
int data;
void foo() {Printf("E foo() \n");}
void foo() const {Printf("E foo() const \n");}
};
}
P1::P1(){d->data = 1;}
P2::P2(){d->data = 2;}
P3::P3(){d->data = 3;}
P4::P4(){d->data = 4;}
P5::P5(){d->data = 5;}
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 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 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(*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 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();}
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()
{
Loki::Printf("\n\nMore tests:\n");
Loki::Printf("\nCreating Pimpls\n");
P1* p1 = new P1;
P2* p2 = new P2;
P3* p3 = new P3;
P4* p4 = new P4;
P5* p5 = new P5;
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();
p2->f();
p3->f();
p4->f();
p5->f();
p6->f();
p7->f();
p8->f();
p9->f();
p10->f();
Loki::Printf("\nDeleting Pimpls\n");
delete p1;
delete p2;
delete p3;
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;
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;
delete r2;
delete r3;
delete r4;
delete r5;
delete r6;
delete r7;
delete r8;
delete r9;
delete r10;
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 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();
cp2->f();
cp3->f();
cp4->f();
cp5->f();
cp6->f();
cp7->f();
cp8->f();
cp9->f();
cp10->f();
Loki::Printf("\nDeleting const Pimpls\n");
delete cp1;
delete cp2;
delete cp3;
delete cp4;
delete cp5;
delete cp6;
delete cp7;
delete cp8;
delete cp9;
delete cp10;
}