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LUMIERA.clone/tests/library/scoped-holder-transfer-test.cpp
Ichthyostega 974c670d41 fix **** in doxygen comments 
to make them stand out more prominently, some entity comments
where started with a line of starts. Unfortunately, doxygen
(and javadoc) only recogise comments which are started exactly
with /**

This caused quite some comments to be ignored by doxygen.
Credits to Hendrik Boom for spotting this problem!

A workaround is to end the line of stars with *//**
2013-10-24 23:06:36 +02:00

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/*
ScopedHolderTransfer(Test) - managing noncopyable objects within a growing vector
Copyright (C) Lumiera.org
2008, Hermann Vosseler <Ichthyostega@web.de>
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2 of
the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
* *****************************************************/
#include "lib/test/run.hpp"
#include "lib/util.hpp"
#include "lib/scoped-holder.hpp"
#include "lib/scoped-holder-transfer.hpp"
#include "lib/test/testdummy.hpp"
#include <iostream>
#include <vector>
namespace lib {
namespace test {
using ::Test;
using util::isnil;
using std::vector;
using std::cout;
namespace { // extending the Dummy for our special purpose....
bool throw_in_transfer = false;
class FixedDummy
: public Dummy
{
public:
FixedDummy()
{
TRACE (test, "CTOR FixedDummy() --> this=%p val=%d", this, getVal());
}
~FixedDummy()
{
TRACE (test, "DTOR ~FixedDummy() this=%p val=%d", this, getVal());
}
friend void
transfer_control (FixedDummy& from, FixedDummy& to)
{
TRACE (test, "TRANSFER target=%p <-- source=%p (%d,%d)", &to,&from, to.getVal(),from.getVal());
if (throw_in_transfer)
throw to.getVal();
swap (from,to);
from.setVal(0); // remove the old Dummy from accounting (checksum)
}
};
typedef ScopedHolder<FixedDummy> HolderD;
typedef ScopedPtrHolder<FixedDummy> PtrHolderD;
template<class HOL>
struct Table
{
typedef Allocator_TransferNoncopyable<HOL> Allo;
typedef typename std::vector<HOL,Allo> Type;
};
}//(End) test helpers
/******************************************************************************//**
* @test growing a vector containing noncopyable objects wrapped into ScopedHolder
* instances. This requires the use of a custom allocator, invoking a
* \c transfer_control() function to be provided for the concrete
* noncopyable class type, being invoked when the vector
* needs to reallocate.
*/
class ScopedHolderTransfer_test : public Test
{
virtual void
run (Arg)
{
cout << "checking ScopedHolder<Dummy>...\n";
buildVector<HolderD>();
growVector<HolderD>();
checkErrorHandling<HolderD>();
cout << "checking ScopedPtrHolder<Dummy>...\n";
buildVector<PtrHolderD>();
growVector<PtrHolderD>();
checkErrorHandling<PtrHolderD>();
}
void create_contained_object (HolderD& holder) { holder.create(); }
void create_contained_object (PtrHolderD& holder) { holder.reset(new FixedDummy()); }
template<class HO>
void
buildVector()
{
CHECK (0 == Dummy::checksum());
{
typedef typename Table<HO>::Type Vect;
Vect table(50);
CHECK (0 == Dummy::checksum());
for (uint i=0; i<10; ++i)
create_contained_object (table[i]);
CHECK (0 < Dummy::checksum());
CHECK ( table[9]);
CHECK (!table[10]);
Dummy *rawP = table[5].get();
CHECK (rawP);
CHECK (table[5]);
CHECK (rawP == &(*table[5]));
CHECK (rawP->acc(-555) == table[5]->acc(-555));
}
CHECK (0 == Dummy::checksum());
}
template<class HO>
void
growVector()
{
CHECK (0 == Dummy::checksum());
{
typedef typename Table<HO>::Type Vect;
Vect table;
table.reserve(2);
CHECK (0 == Dummy::checksum());
cout << ".\n..install one element at index[0]\n";
table.push_back(HO());
CHECK (0 == Dummy::checksum());
create_contained_object (table[0]); // switches into "managed" state
CHECK (0 < Dummy::checksum());
int theSum = Dummy::checksum();
cout << ".\n..*** resize table to 16 elements\n";
for (uint i=0; i<15; ++i)
table.push_back(HO());
CHECK (theSum == Dummy::checksum());
}
CHECK (0 == Dummy::checksum());
}
template<class HO>
void
checkErrorHandling()
{
CHECK (0 == Dummy::checksum());
{
typedef typename Table<HO>::Type Vect;
Vect table(5);
table.reserve(5);
CHECK (0 == Dummy::checksum());
create_contained_object (table[2]);
create_contained_object (table[4]);
CHECK (0 < Dummy::checksum());
int theSum = Dummy::checksum();
cout << ".\n.throw some exceptions...\n";
Dummy::activateCtorFailure();
try
{
create_contained_object (table[3]);
NOTREACHED ("ctor should throw");
}
catch (int val)
{
CHECK (theSum < Dummy::checksum());
Dummy::checksum() -= val;
CHECK (theSum == Dummy::checksum());
}
CHECK ( table[2]);
CHECK (!table[3]); // not created because of exception
CHECK ( table[4]);
Dummy::activateCtorFailure(false);
throw_in_transfer=true; // can do this only when using ScopedHolder
try
{
table.resize(10);
}
catch (int val)
{
CHECK ( table.size() < 10);
}
CHECK (theSum == Dummy::checksum());
throw_in_transfer=false;
}
CHECK (0 == Dummy::checksum());
}
};
LAUNCHER (ScopedHolderTransfer_test, "unit common");
}} // namespace lib::test
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