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LUMIERA.clone/tests/library/scoped-holder-transfer-test.cpp
Ichthyostega ada5cefaaf re-arrange tests according to layer structure 
the buildsystem will now pick up and link
all test cases according to the layer, e.g.
backend tests will automatically be linked
against the backend + library solely.
2013-01-07 05:43:01 +01:00

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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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