Loki/test/SmartPtr/strong.cpp
rich_sposato cc0392d433 Added tests for StrongPtr comparison operators.
git-svn-id: svn://svn.code.sf.net/p/loki-lib/code/trunk@805 7ec92016-0320-0410-acc4-a06ded1c099a
2007-01-13 01:47:23 +00:00

1064 lines
33 KiB
C++

////////////////////////////////////////////////////////////////////////////////
// Test program for The Loki Library
// Copyright (c) 2006 Richard Sposato
// 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 authors make no representations about the
// suitability of this software for any purpose. It is provided "as is"
// without express or implied warranty.
////////////////////////////////////////////////////////////////////////////////
// $Id$
// ----------------------------------------------------------------------------
#include <loki/StrongPtr.h>
#include <iostream>
#include <cassert>
#include "base.h"
// ----------------------------------------------------------------------------
using namespace std;
using namespace Loki;
// ----------------------------------------------------------------------------
/// Used to check if SmartPtr can be used with a forward-reference.
class Thingy;
typedef Loki::StrongPtr< Thingy, true, TwoRefCounts, DisallowConversion,
AssertCheck, CantResetWithStrong, DeleteSingle, DontPropagateConst >
Thingy_DeleteSingle_ptr;
typedef Loki::StrongPtr< Thingy, true, TwoRefCounts, DisallowConversion,
AssertCheck, CantResetWithStrong, DeleteUsingFree, DontPropagateConst >
Thingy_DeleteUsingFree_ptr;
typedef Loki::StrongPtr< Thingy, true, TwoRefCounts, DisallowConversion,
AssertCheck, CantResetWithStrong, DeleteNothing, DontPropagateConst >
Thingy_DeleteNothing_ptr;
// ----------------------------------------------------------------------------
class Earth;
class Moon;
typedef Loki::StrongPtr< Earth, false, TwoRefCounts, DisallowConversion,
AssertCheck, CantResetWithStrong, DeleteSingle, DontPropagateConst >
Earth_WeakPtr;
typedef Loki::StrongPtr< Earth, true, TwoRefCounts, DisallowConversion,
AssertCheck, AllowReset, DeleteSingle, DontPropagateConst >
Earth_StrongPtr;
typedef Loki::StrongPtr< Moon, false, TwoRefCounts, DisallowConversion,
AssertCheck, CantResetWithStrong, DeleteSingle, DontPropagateConst >
Moon_WeakPtr;
typedef Loki::StrongPtr< Moon, true, TwoRefCounts, DisallowConversion,
AssertCheck, AllowReset, DeleteSingle, DontPropagateConst >
Moon_StrongPtr;
// ----------------------------------------------------------------------------
class Earth
{
public:
Earth( void ) : m_moon()
{
s_constructions++;
}
~Earth( void )
{
s_destructions++;
}
void SetMoon( const Moon_StrongPtr & p );
void SetMoon( const Moon_WeakPtr & p );
static inline bool AllDestroyed( void )
{
return ( s_constructions == s_destructions );
}
static inline bool ExtraConstructions( void )
{
return ( s_constructions > s_destructions );
}
static inline bool ExtraDestructions( void )
{
return ( s_constructions < s_destructions );
}
static inline unsigned int GetCtorCount( void )
{
return s_constructions;
}
static inline unsigned int GetDtorCount( void )
{
return s_destructions;
}
private:
/// Not implemented.
Earth( const Earth & );
/// Not implemented.
Earth & operator = ( const Earth & );
static unsigned int s_constructions;
static unsigned int s_destructions;
Moon_WeakPtr m_moon;
};
unsigned int Earth::s_constructions = 0;
unsigned int Earth::s_destructions = 0;
// ----------------------------------------------------------------------------
class Moon
{
public:
Moon( void ) : m_earth()
{
s_constructions++;
}
~Moon( void )
{
s_destructions++;
}
void SetEarth( const Earth_WeakPtr & p );
void SetEarth( const Earth_StrongPtr & p );
static inline bool AllDestroyed( void )
{
return ( s_constructions == s_destructions );
}
static inline bool ExtraConstructions( void )
{
return ( s_constructions > s_destructions );
}
static inline bool ExtraDestructions( void )
{
return ( s_constructions < s_destructions );
}
static inline unsigned int GetCtorCount( void )
{
return s_constructions;
}
static inline unsigned int GetDtorCount( void )
{
return s_destructions;
}
private:
/// Not implemented.
Moon( const Moon & );
/// Not implemented.
Moon & operator = ( const Moon & );
static unsigned int s_constructions;
static unsigned int s_destructions;
Earth_WeakPtr m_earth;
};
unsigned int Moon::s_constructions = 0;
unsigned int Moon::s_destructions = 0;
// ----------------------------------------------------------------------------
void Moon::SetEarth( const Earth_WeakPtr & p )
{
m_earth = p;
}
// ----------------------------------------------------------------------------
void Moon::SetEarth( const Earth_StrongPtr & p )
{
m_earth = p;
}
// ----------------------------------------------------------------------------
void Earth::SetMoon( const Moon_WeakPtr & p )
{
m_moon = p;
}
// ----------------------------------------------------------------------------
void Earth::SetMoon( const Moon_StrongPtr & p )
{
m_moon = p;
}
// ----------------------------------------------------------------------------
typedef Loki::StrongPtr< BaseClass, false, TwoRefCounts, DisallowConversion,
AssertCheck, CantResetWithStrong, DeleteSingle, DontPropagateConst >
NonConstBase_WeakCount_NoConvert_Assert_NoPropagate_ptr;
typedef Loki::StrongPtr< BaseClass, true, TwoRefCounts, DisallowConversion,
NoCheck, CantResetWithStrong, DeleteSingle, DontPropagateConst >
NonConstBase_StrongCount_NoConvert_NoCheck_NoPropagate_ptr;
typedef Loki::StrongPtr< BaseClass, false, TwoRefLinks, DisallowConversion,
AssertCheck, CantResetWithStrong, DeleteSingle, DontPropagateConst >
NonConstBase_WeakLink_NoConvert_Assert_NoPropagate_ptr;
typedef Loki::StrongPtr< BaseClass, true, TwoRefLinks, DisallowConversion,
NoCheck, CantResetWithStrong, DeleteSingle, DontPropagateConst >
NonConstBase_StrongLink_NoConvert_NoCheck_NoPropagate_ptr;
typedef Loki::StrongPtr< BaseClass, false, TwoRefCounts, DisallowConversion,
AssertCheck, AllowReset, DeleteSingle, DontPropagateConst >
NonConstBase_WeakCount_NoConvert_Assert_Reset_NoPropagate_ptr;
typedef Loki::StrongPtr< BaseClass, true, TwoRefCounts, DisallowConversion,
NoCheck, AllowReset, DeleteSingle, DontPropagateConst >
NonConstBase_StrongCount_NoConvert_NoCheck_Reset_NoPropagate_ptr;
/// @note Used for const propagation tests.
typedef Loki::StrongPtr< const BaseClass, true, TwoRefCounts, DisallowConversion,
NoCheck, CantResetWithStrong, DeleteSingle, PropagateConst >
ConstBase_StrongCount_NoConvert_NoCheck_Propagate_ptr;
typedef Loki::StrongPtr< const BaseClass, false, TwoRefCounts, DisallowConversion,
AssertCheck, CantResetWithStrong, DeleteSingle, PropagateConst >
ConstBase_WeakCount_NoConvert_Assert_Propagate_ptr;
// ----------------------------------------------------------------------------
void DoStrongRefCountTests( void )
{
BaseClass * pNull = NULL; (void)pNull;
const unsigned int ctorCount = BaseClass::GetCtorCount(); (void)ctorCount;
const unsigned int dtorCount = BaseClass::GetDtorCount(); (void)dtorCount;
assert( BaseClass::GetCtorCount() == BaseClass::GetDtorCount() );
{
NonConstBase_WeakCount_NoConvert_Assert_NoPropagate_ptr w0;
NonConstBase_StrongCount_NoConvert_NoCheck_NoPropagate_ptr s0;
NonConstBase_WeakCount_NoConvert_Assert_NoPropagate_ptr w1( w0 );
// Copy from weak to strong is available.
NonConstBase_StrongCount_NoConvert_NoCheck_NoPropagate_ptr s1( w0 );
// Assignment from weak to strong is available.
s1 = w1;
// Converting from strong to weak is available.
NonConstBase_WeakCount_NoConvert_Assert_NoPropagate_ptr w2( s0 );
// Assignment from strong to weak is available.
w1 = s1;
assert( !s0 );
assert( !s1 );
assert( !w0 );
assert( !w1 );
assert( s1 == pNull );
assert( s0 == pNull );
assert( w1 == pNull );
assert( w1 == pNull );
assert( pNull == s0 );
assert( pNull == s1 );
assert( pNull == w0 );
assert( pNull == w1 );
assert( s0 == s0 );
assert( s1 == s1 );
assert( w0 == w0 );
assert( w1 == w1 );
assert( s1 == s0 );
assert( s0 == s1 );
assert( w0 == s0 );
assert( s0 == w0 );
assert( w0 == w1 );
assert( w1 == w0 );
assert( w0 == w1 );
assert( w1 == s1 );
assert( s1 == w1 );
assert( s1 <= s0 );
assert( s1 >= s0 );
assert( s0 <= s1 );
assert( s0 >= s1 );
assert( w0 <= s0 );
assert( w0 >= s0 );
assert( s0 <= w0 );
assert( s0 >= w0 );
assert( w1 <= w0 );
assert( w1 >= w0 );
assert( w0 <= w1 );
assert( w0 >= w1 );
assert( !( s1 < s0 ) );
assert( !( s1 > s0 ) );
assert( !( s0 < s1 ) );
assert( !( s0 > s1 ) );
assert( !( w0 < s0 ) );
assert( !( w0 > s0 ) );
assert( !( s0 < w0 ) );
assert( !( s0 > w0 ) );
assert( !( w1 < w0 ) );
assert( !( w1 > w0 ) );
assert( !( w0 < w1 ) );
assert( !( w0 > w1 ) );
assert( !( w0 < pNull ) );
assert( !( w0 > pNull ) );
assert( !( pNull < w0 ) );
assert( !( pNull > w0 ) );
}
assert( ctorCount == BaseClass::GetCtorCount() );
assert( dtorCount == BaseClass::GetDtorCount() );
{
NonConstBase_WeakCount_NoConvert_Assert_NoPropagate_ptr w1( new BaseClass );
NonConstBase_WeakCount_NoConvert_Assert_NoPropagate_ptr w2( new BaseClass );
assert( w1 != w2 );
assert( w1 );
assert( w2 );
w1 = w2;
assert( w1 == w2 );
assert( w1 );
assert( w2 );
assert( dtorCount + 1 == BaseClass::GetDtorCount() );
}
assert( ctorCount + 2 == BaseClass::GetCtorCount() );
assert( dtorCount + 2 == BaseClass::GetDtorCount() );
{
NonConstBase_StrongCount_NoConvert_NoCheck_NoPropagate_ptr s1( new BaseClass );
NonConstBase_StrongCount_NoConvert_NoCheck_NoPropagate_ptr s2( new BaseClass );
assert( s1 != s2 );
assert( s1 );
assert( s2 );
s1 = s2;
assert( s1 == s2 );
assert( s1 );
assert( s2 );
assert( dtorCount + 3 == BaseClass::GetDtorCount() );
}
assert( ctorCount + 4 == BaseClass::GetCtorCount() );
assert( dtorCount + 4 == BaseClass::GetDtorCount() );
assert( BaseClass::GetCtorCount() == BaseClass::GetDtorCount() );
{
NonConstBase_WeakCount_NoConvert_Assert_NoPropagate_ptr w1( new BaseClass );
NonConstBase_WeakCount_NoConvert_Assert_NoPropagate_ptr w2( new BaseClass );
NonConstBase_StrongCount_NoConvert_NoCheck_NoPropagate_ptr s1( w1 );
NonConstBase_StrongCount_NoConvert_NoCheck_NoPropagate_ptr s2( w2 );
// prove basic stuff.
assert( w1 != w2 );
assert( s1 != s2 );
assert( s1 == w1 );
assert( s2 == w2 );
assert( s1 );
assert( s2 );
assert( w1 );
assert( w2 );
// prove a weak pointer can be re-assigned to another without affecting
// any strong co-pointers. and that no objects were released.
w1 = w2; // w1 == w2 == s2 s1
assert( w1 == w2 );
assert( s1 != s2 );
assert( s1 != w1 );
assert( s1 != w2 );
assert( s2 == w1 );
assert( w1 );
assert( w2 );
assert( s1 );
assert( s2 );
assert( dtorCount + 4 == BaseClass::GetDtorCount() );
// Prove they all point to same thing.
s1 = s2; // w1 == w2 == s2 == s1
// and prove that one of them released the object.
assert( dtorCount + 5 == BaseClass::GetDtorCount() );
assert( w1 == w2 );
assert( s1 == s2 );
assert( s1 == w1 );
assert( s1 == w2 );
assert( s2 == w1 );
assert( w1 );
assert( w2 );
assert( s1 );
assert( s2 );
}
assert( ctorCount + 6 == BaseClass::GetCtorCount() );
assert( dtorCount + 6 == BaseClass::GetDtorCount() );
{
NonConstBase_WeakCount_NoConvert_Assert_NoPropagate_ptr w1( new BaseClass );
NonConstBase_WeakCount_NoConvert_Assert_NoPropagate_ptr w2( new BaseClass );
NonConstBase_StrongCount_NoConvert_NoCheck_NoPropagate_ptr s1( w1 );
NonConstBase_StrongCount_NoConvert_NoCheck_NoPropagate_ptr s2( w2 );
// prove basic stuff. w1 == s1 w2 == s2
assert( w1 != w2 );
assert( s1 != s2 );
assert( s1 == w1 );
assert( s2 == w2 );
assert( s1 );
assert( s2 );
assert( w1 );
assert( w2 );
// prove a strong pointer can be re-assigned to another weak pointer,
// and that any weak co-pointers released the object.
s1 = w2; // s1 == w2 == s2 w1
assert( w1 != w2 );
assert( s1 == s2 );
assert( s1 != w1 );
assert( s1 == w2 );
assert( s2 != w1 );
assert( !w1 );
assert( w2 );
assert( s1 );
assert( s2 );
assert( dtorCount + 7 == BaseClass::GetDtorCount() );
// Prove that when strong pointer is re-assigned, object
// is not destroyed if another strong co-pointer exists.
s1 = w1; // w1 == s1 w2 == s2
// and prove that none of them released an object.
assert( dtorCount + 7 == BaseClass::GetDtorCount() );
assert( w1 != w2 );
assert( s1 != s2 );
assert( s1 == w1 );
assert( s2 == w2 );
assert( !s1 );
assert( s2 );
assert( !w1 );
assert( w2 );
}
assert( ctorCount + 8 == BaseClass::GetCtorCount() );
assert( dtorCount + 8 == BaseClass::GetDtorCount() );
}
// ----------------------------------------------------------------------------
void DoStrongConstTests( void )
{
const unsigned int ctorCount = BaseClass::GetCtorCount(); (void)ctorCount;
const unsigned int dtorCount = BaseClass::GetDtorCount(); (void)dtorCount;
assert( BaseClass::GetCtorCount() == BaseClass::GetDtorCount() );
{
NonConstBase_WeakCount_NoConvert_Assert_NoPropagate_ptr w1( new BaseClass );
const NonConstBase_WeakCount_NoConvert_Assert_NoPropagate_ptr w2( w1 );
NonConstBase_StrongCount_NoConvert_NoCheck_NoPropagate_ptr s1( w1 );
const NonConstBase_StrongCount_NoConvert_NoCheck_NoPropagate_ptr s2( w2 );
const BaseClass & cbw1 = *w1;
cbw1.DoThat();
const BaseClass & cbw2 = *w2;
cbw2.DoThat();
const BaseClass & cbs1 = *s1;
cbs1.DoThat();
const BaseClass & cbs2 = *s2;
cbs2.DoThat();
BaseClass & bw1 = *w1;
bw1.DoThat();
BaseClass & bw2 = *w2;
bw2.DoThat();
BaseClass & bs1 = *s1;
bs1.DoThat();
BaseClass & bs2 = *s2;
bs2.DoThat();
}
assert( ctorCount + 1 == BaseClass::GetCtorCount() );
assert( dtorCount + 1 == BaseClass::GetDtorCount() );
{
ConstBase_WeakCount_NoConvert_Assert_Propagate_ptr w1( new BaseClass );
const ConstBase_WeakCount_NoConvert_Assert_Propagate_ptr w2( w1 );
ConstBase_StrongCount_NoConvert_NoCheck_Propagate_ptr s1( w1 );
const ConstBase_StrongCount_NoConvert_NoCheck_Propagate_ptr s2( w2 );
const BaseClass & cbw1 = *w1;
cbw1.DoThat();
const BaseClass & cbw2 = *w2;
cbw2.DoThat();
const BaseClass & cbs1 = *s1;
cbs1.DoThat();
const BaseClass & cbs2 = *s2;
cbs2.DoThat();
/** @note These are illegal because constness is propagated by the
StrongPtr's policy. Your compiler should produce error messages if
you attempt to compile these lines.
*/
//BaseClass & bw1 = *w1;
//bw1.DoThat();
//BaseClass & bw2 = *w2;
//bw2.DoThat();
//BaseClass & bs1 = *s1;
//bs1.DoThat();
//BaseClass & bs2 = *s2;
//bs2.DoThat();
}
assert( ctorCount + 2 == BaseClass::GetCtorCount() );
assert( dtorCount + 2 == BaseClass::GetDtorCount() );
}
// ----------------------------------------------------------------------------
void DoStrongReleaseTests( void )
{
BaseClass * pNull = NULL; (void)pNull;
const unsigned int ctorCount = BaseClass::GetCtorCount(); (void)ctorCount;
const unsigned int dtorCount = BaseClass::GetDtorCount(); (void)dtorCount;
assert( BaseClass::GetCtorCount() == BaseClass::GetDtorCount() );
{
// These are tests of pointers that don't allow reset or release if
// there is at least 1 strong pointer. Ironically, this means that
// if only 1 strong pointer holds onto an object, and you call Release
// using that strong pointer, it can't release itself.
NonConstBase_WeakCount_NoConvert_Assert_NoPropagate_ptr w1( new BaseClass );
NonConstBase_WeakCount_NoConvert_Assert_NoPropagate_ptr w2( new BaseClass );
NonConstBase_StrongCount_NoConvert_NoCheck_NoPropagate_ptr s1( w1 );
NonConstBase_StrongCount_NoConvert_NoCheck_NoPropagate_ptr s2( w2 );
// Prove that neither weak nor strong pointers can be
// released if any co-pointer is strong.
bool released = ReleaseAll( w2, pNull );
assert( !released );
released = ReleaseAll( w1, pNull );
assert( !released );
released = ReleaseAll( s1, pNull );
assert( !released );
released = ReleaseAll( s2, pNull );
assert( !released );
// Prove that weak and strong pointers can be reset only
// if stored pointer matches parameter pointer - or there
// are no strong co-pointers.
bool reset = ResetAll( w2, pNull );
assert( !reset );
reset = ResetAll( w1, pNull );
assert( !reset );
reset = ResetAll( s1, pNull );
assert( !reset );
reset = ResetAll( s2, pNull );
assert( !reset );
s2 = pNull;
assert( dtorCount + 1 == BaseClass::GetDtorCount() );
reset = ResetAll( w2, pNull );
assert( reset );
reset = ResetAll( w1, pNull );
assert( !reset );
reset = ResetAll( s1, pNull );
assert( !reset );
reset = ResetAll( s2, pNull );
assert( reset );
}
assert( ctorCount + 2 == BaseClass::GetCtorCount() );
assert( dtorCount + 2 == BaseClass::GetDtorCount() );
{
// These are tests of pointers that do allow reset and release even
// if a strong pointer exists.
NonConstBase_WeakCount_NoConvert_Assert_Reset_NoPropagate_ptr w1( new BaseClass );
NonConstBase_StrongCount_NoConvert_NoCheck_Reset_NoPropagate_ptr w2( new BaseClass );
NonConstBase_WeakCount_NoConvert_Assert_Reset_NoPropagate_ptr s1( w1 );
NonConstBase_StrongCount_NoConvert_NoCheck_Reset_NoPropagate_ptr s2( w2 );
BaseClass * thing = NULL;
bool released = ReleaseAll( w2, thing );
assert( released );
assert( NULL != thing );
delete thing;
assert( dtorCount + 3 == BaseClass::GetDtorCount() );
released = ReleaseAll( s1, thing );
assert( released );
assert( NULL != thing );
delete thing;
assert( dtorCount + 4 == BaseClass::GetDtorCount() );
released = ReleaseAll( w1, thing );
assert( released );
assert( NULL == thing );
released = ReleaseAll( s2, thing );
assert( released );
assert( NULL == thing );
// Prove that weak and strong pointers can be reset
// only if stored pointer matches parameter pointer
// - even if there are strong co-pointers.
bool reset = ResetAll( w2, pNull );
assert( reset );
reset = ResetAll( w1, pNull );
assert( reset );
reset = ResetAll( s1, pNull );
assert( reset );
reset = ResetAll( s2, pNull );
assert( reset );
assert( ctorCount + 4 == BaseClass::GetCtorCount() );
assert( dtorCount + 4 == BaseClass::GetDtorCount() );
s2 = new BaseClass;
s1 = new BaseClass;
reset = ResetAll( w2, pNull );
assert( reset );
reset = ResetAll( w1, pNull );
assert( reset );
}
assert( ctorCount + 6 == BaseClass::GetCtorCount() );
assert( dtorCount + 6 == BaseClass::GetDtorCount() );
}
// ----------------------------------------------------------------------------
void DoStrongRefLinkTests( void )
{
BaseClass * pNull = NULL; (void)pNull;
const unsigned int ctorCount = BaseClass::GetCtorCount(); (void)ctorCount;
const unsigned int dtorCount = BaseClass::GetDtorCount(); (void)dtorCount;
assert( BaseClass::GetCtorCount() == BaseClass::GetDtorCount() );
{
NonConstBase_WeakLink_NoConvert_Assert_NoPropagate_ptr w0;
NonConstBase_WeakLink_NoConvert_Assert_NoPropagate_ptr w1;
NonConstBase_StrongLink_NoConvert_NoCheck_NoPropagate_ptr s0;
NonConstBase_StrongLink_NoConvert_NoCheck_NoPropagate_ptr s1;
assert( !s0 );
assert( !s1 );
assert( s0 == s1 );
assert( s1 == pNull );
assert( s0 == pNull );
assert( pNull == s0 );
assert( pNull == s1 );
assert( s1 == s0 );
assert( s1 == s1 );
assert( s0 == s0 );
assert( s0 == s1 );
assert( s1 <= s0 );
assert( s1 >= s0 );
assert( s0 <= s1 );
assert( s0 >= s1 );
assert( !( s1 < s0 ) );
assert( !( s1 > s0 ) );
assert( !( s0 < s1 ) );
assert( !( s0 > s1 ) );
assert( !w0 );
assert( !w1 );
assert( w0 == pNull );
assert( s0 == pNull );
assert( pNull == s0 );
assert( pNull == w0 );
assert( w0 == s0 );
assert( w0 == w0 );
assert( s0 == s0 );
assert( s0 == w0 );
assert( w0 <= s0 );
assert( w0 >= s0 );
assert( s0 <= w0 );
assert( s0 >= w0 );
assert( !( w0 < s0 ) );
assert( !( w0 > s0 ) );
assert( !( s0 < w0 ) );
assert( !( s0 > w0 ) );
assert( w0 == w1 );
assert( w1 == pNull );
assert( w0 == pNull );
assert( pNull == w0 );
assert( pNull == w1 );
assert( w1 == w0 );
assert( w1 == w1 );
assert( w0 == w0 );
assert( w0 == w1 );
assert( w1 <= w0 );
assert( w1 >= w0 );
assert( w0 <= w1 );
assert( w0 >= w1 );
assert( !( w1 < w0 ) );
assert( !( w1 > w0 ) );
assert( !( w0 < w1 ) );
assert( !( w0 > w1 ) );
}
assert( ctorCount == BaseClass::GetCtorCount() );
assert( dtorCount == BaseClass::GetDtorCount() );
{
NonConstBase_WeakLink_NoConvert_Assert_NoPropagate_ptr w3( new BaseClass );
NonConstBase_WeakLink_NoConvert_Assert_NoPropagate_ptr w4( new BaseClass );
assert( w3 != w4 );
assert( w3 );
assert( w4 );
w3 = w4;
assert( w3 == w4 );
assert( w3 );
assert( w4 );
assert( dtorCount + 1 == BaseClass::GetDtorCount() );
}
assert( ctorCount + 2 == BaseClass::GetCtorCount() );
assert( dtorCount + 2 == BaseClass::GetDtorCount() );
{
NonConstBase_StrongLink_NoConvert_NoCheck_NoPropagate_ptr s3( new BaseClass );
NonConstBase_StrongLink_NoConvert_NoCheck_NoPropagate_ptr s4( new BaseClass );
assert( s3 != s4 );
assert( s3 );
assert( s4 );
s3 = s4;
assert( s3 == s4 );
assert( s3 );
assert( s4 );
assert( dtorCount + 3 == BaseClass::GetDtorCount() );
}
assert( ctorCount + 4 == BaseClass::GetCtorCount() );
assert( dtorCount + 4 == BaseClass::GetDtorCount() );
assert( BaseClass::GetCtorCount() == BaseClass::GetDtorCount() );
}
// ----------------------------------------------------------------------------
void DoWeakCycleTests( void )
{
const unsigned int ctorCountMoon = Moon::GetCtorCount(); (void)ctorCountMoon;
const unsigned int dtorCountMoon = Moon::GetDtorCount(); (void)dtorCountMoon;
assert( Moon::AllDestroyed() );
const unsigned int ctorCountEarth = Earth::GetCtorCount(); (void)ctorCountEarth;
const unsigned int dtorCountEarth = Earth::GetDtorCount(); (void)dtorCountEarth;
assert( Earth::AllDestroyed() );
{
Earth_WeakPtr ew0;
Moon_WeakPtr mw0;
}
assert( Moon::AllDestroyed() );
assert( Moon::GetCtorCount() == ctorCountMoon );
assert( Moon::GetDtorCount() == dtorCountMoon );
assert( Earth::AllDestroyed() );
assert( Earth::GetCtorCount() == ctorCountEarth );
assert( Earth::GetDtorCount() == dtorCountEarth );
{
Earth_WeakPtr ew1( new Earth );
}
assert( Earth::AllDestroyed() );
assert( Earth::GetCtorCount() == ctorCountEarth+1 );
assert( Earth::GetDtorCount() == dtorCountEarth+1 );
{
Moon_WeakPtr mw1( new Moon );
}
assert( Moon::AllDestroyed() );
assert( Moon::GetCtorCount() == ctorCountMoon+1 );
assert( Moon::GetDtorCount() == dtorCountMoon+1 );
{
Earth_WeakPtr ew1( new Earth );
Moon_WeakPtr mw1( new Moon );
ew1->SetMoon( mw1 );
}
assert( Moon::AllDestroyed() );
assert( Moon::GetCtorCount() == ctorCountMoon+2 );
assert( Moon::GetDtorCount() == dtorCountMoon+2 );
assert( Earth::AllDestroyed() );
assert( Earth::GetCtorCount() == ctorCountEarth+2 );
assert( Earth::GetDtorCount() == dtorCountEarth+2 );
{
Earth_WeakPtr ew1( new Earth );
Moon_WeakPtr mw1( new Moon );
mw1->SetEarth( ew1 );
}
assert( Moon::AllDestroyed() );
assert( Moon::GetCtorCount() == ctorCountMoon+3 );
assert( Moon::GetDtorCount() == dtorCountMoon+3 );
assert( Earth::AllDestroyed() );
assert( Earth::GetCtorCount() == ctorCountEarth+3 );
assert( Earth::GetDtorCount() == dtorCountEarth+3 );
{
Earth_WeakPtr ew1( new Earth );
Moon_WeakPtr mw1( new Moon );
ew1->SetMoon( mw1 );
mw1->SetEarth( ew1 );
}
assert( Moon::AllDestroyed() );
assert( Moon::GetCtorCount() == ctorCountMoon+4 );
assert( Moon::GetDtorCount() == dtorCountMoon+4 );
assert( Earth::AllDestroyed() );
assert( Earth::GetCtorCount() == ctorCountEarth+4 );
assert( Earth::GetDtorCount() == dtorCountEarth+4 );
{
Earth_StrongPtr es1( new Earth );
Moon_StrongPtr ms1( new Moon );
}
assert( Moon::AllDestroyed() );
assert( Moon::GetCtorCount() == ctorCountMoon+5 );
assert( Moon::GetDtorCount() == dtorCountMoon+5 );
assert( Earth::AllDestroyed() );
assert( Earth::GetCtorCount() == ctorCountEarth+5 );
assert( Earth::GetDtorCount() == dtorCountEarth+5 );
{
Earth_StrongPtr es1( new Earth );
Moon_StrongPtr ms1( new Moon );
es1->SetMoon( ms1 );
ms1->SetEarth( es1 );
}
assert( Moon::AllDestroyed() );
assert( Moon::GetCtorCount() == ctorCountMoon+6 );
assert( Moon::GetDtorCount() == dtorCountMoon+6 );
assert( Earth::AllDestroyed() );
assert( Earth::GetCtorCount() == ctorCountEarth+6 );
assert( Earth::GetDtorCount() == dtorCountEarth+6 );
{
Earth_StrongPtr es1( new Earth );
Moon_StrongPtr ms1( new Moon );
{
Earth_WeakPtr ew1( es1 );
Moon_WeakPtr mw1( ms1 );
ew1->SetMoon( mw1 );
mw1->SetEarth( ew1 );
}
// Note that dtor counts have not changed from previous test.
assert( Moon::GetCtorCount() == ctorCountMoon+7 );
assert( Moon::GetDtorCount() == dtorCountMoon+6 );
assert( Earth::GetCtorCount() == ctorCountEarth+7 );
assert( Earth::GetDtorCount() == dtorCountEarth+6 );
}
assert( Moon::AllDestroyed() );
assert( Moon::GetCtorCount() == ctorCountMoon+7 );
assert( Moon::GetDtorCount() == dtorCountMoon+7 );
assert( Earth::AllDestroyed() );
assert( Earth::GetCtorCount() == ctorCountEarth+7 );
assert( Earth::GetDtorCount() == dtorCountEarth+7 );
{
Earth_StrongPtr es1;
Moon_StrongPtr ms1;
{
Earth_WeakPtr ew1( new Earth );
Moon_WeakPtr mw1( new Moon );
ew1->SetMoon( mw1 );
mw1->SetEarth( ew1 );
es1 = ew1;
ms1 = mw1;
}
// Note that dtor counts have not changed from previous test.
assert( Moon::GetCtorCount() == ctorCountMoon+8 );
assert( Moon::GetDtorCount() == dtorCountMoon+7 );
assert( Earth::GetCtorCount() == ctorCountEarth+8 );
assert( Earth::GetDtorCount() == dtorCountEarth+7 );
}
assert( Moon::AllDestroyed() );
assert( Moon::GetCtorCount() == ctorCountMoon+8 );
assert( Moon::GetDtorCount() == dtorCountMoon+8 );
assert( Earth::AllDestroyed() );
assert( Earth::GetCtorCount() == ctorCountEarth+8 );
assert( Earth::GetDtorCount() == dtorCountEarth+8 );
}
// ----------------------------------------------------------------------------
void DoStrongForwardReferenceTest( void )
{
/** @note These lines should cause the compiler to make a warning message
about attempting to delete an undefined type. They should also cause
an error message about a negative subscript since
*/
//Thingy_DeleteSingle_ptr p1;
//Thingy_DeleteSingle_ptr p2( p1 );
//Thingy_DeleteSingle_ptr p3;
//p3 = p1;
/** @note These lines should cause the compiler to make an error message
about attempting to call the destructor for an undefined type.
*/
//Thingy_DeleteUsingFree_ptr p4;
//Thingy_DeleteUsingFree_ptr p5( p4 );
//Thingy_DeleteUsingFree_ptr p6;
//p6 = p4;
/** @note These lines should cause the compiler to make neither a warning
nor an error message even though the type is undefined.
*/
Thingy_DeleteNothing_ptr p7;
Thingy_DeleteNothing_ptr p8( p7 );
Thingy_DeleteNothing_ptr p9;
p9 = p7;
}
// ----------------------------------------------------------------------------
#include <algorithm>
struct Foo
{
};
typedef Loki::StrongPtr
<
BaseClass, false, TwoRefCounts, DisallowConversion,
AssertCheck, CantResetWithStrong, DeleteSingle, DontPropagateConst
>
Ptr;
bool Compare( const Ptr&, const Ptr&)
{
return true;
}
void friend_handling2()
{
// http://sourceforge.net/tracker/index.php?func=detail&aid=1570582&group_id=29557&atid=396644
// friend injection
// see http://gcc.gnu.org/bugzilla/show_bug.cgi?id=28597
std::vector<Ptr> vec;
std::sort( vec.begin(), vec.end(), Compare );
std::nth_element( vec.begin(), vec.begin(), vec.end(), Compare );
std::search( vec.begin(), vec.end(),
vec.begin(), vec.end(), Compare );
Ptr a, b;
Compare( a, b );
// http://gcc.gnu.org/bugzilla/show_bug.cgi?id=29486
BaseClass * pNull ;
Ptr w1( new BaseClass );
ReleaseAll( w1, pNull );
}
// ----------------------------------------------------------------------------
void DoStrongCompareTests( void )
{
Earth * p1 = new Earth;
Earth * p2 = new Earth;
Earth_StrongPtr sp1( p1 );
Earth_StrongPtr sp2( p2 );
const bool isOneLess = ( p1 < p2 );
if ( isOneLess )
{
assert( sp1 < p2 );
assert( sp1 < sp2 );
assert( sp1 <= p2 );
assert( sp1 <= sp2 );
assert( sp1 <= p1 );
assert( sp1 == p1 );
assert( sp1 == sp1 );
assert( sp1 != p2 );
assert( sp1 != sp2 );
assert( sp2 > p1 );
assert( sp2 > sp1 );
assert( sp2 >= p1 );
assert( sp2 >= sp1 );
assert( sp2 >= p2 );
assert( sp2 == p2 );
assert( sp2 == sp2 );
assert( sp2 != p1 );
assert( sp2 != sp1 );
assert( p1 < p2 );
assert( p1 < sp2 );
assert( p1 <= p2 );
assert( p1 <= sp2 );
assert( p1 <= sp1 );
assert( p1 == p1 );
assert( p1 == sp1 );
assert( p1 != p2 );
assert( p1 != sp2 );
assert( p2 > p1 );
assert( p2 > sp1 );
assert( p2 >= p1 );
assert( p2 >= sp1 );
assert( p2 >= sp2 );
assert( p2 == p2 );
assert( p2 == sp2 );
assert( p2 != p1 );
assert( p2 != sp1 );
}
else
{
assert( sp2 < p1 );
assert( sp2 < sp1 );
assert( sp2 <= p1 );
assert( sp2 <= p2 );
assert( sp2 <= sp1 );
assert( sp2 == p2 );
assert( sp2 == sp2 );
assert( sp2 != p1 );
assert( sp2 != sp1 );
assert( sp1 > p2 );
assert( sp1 > sp2 );
assert( sp1 >= p2 );
assert( sp1 >= p1 );
assert( sp1 >= sp2 );
assert( sp1 == p1 );
assert( sp1 == sp1 );
assert( sp1 != p2 );
assert( sp1 != sp2 );
assert( p2 < p1 );
assert( p2 < sp1 );
assert( p2 <= p1 );
assert( p2 <= sp1 );
assert( p2 <= sp2 );
assert( p2 == p2 );
assert( p2 == sp2 );
assert( p2 != p1 );
assert( p2 != sp1 );
assert( p1 > p2 );
assert( p1 > sp2 );
assert( p1 >= p2 );
assert( p1 >= sp2 );
assert( p1 >= sp1 );
assert( p1 == p1 );
assert( p1 == sp1 );
assert( p1 != p2 );
assert( p1 != sp2 );
}
}
// ----------------------------------------------------------------------------