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// //////////////////////////////////////////////////////////////////////////
// Implementation file TestRunnerModel.cpp for class TestRunnerModel
// (c)Copyright 2000, Baptiste Lepilleur.
// Created: 2001/09/20
// //////////////////////////////////////////////////////////////////////////
#include <cppunit/TestResult.h>
#include "TestRunnerFailureEvent.h"
#include "TestRunnerModel.h"
#include "TestRunnerTestCaseRunEvent.h"
#include "TestRunnerThread.h"
#include "TestRunnerThreadFinishedEvent.h"
TestRunnerModel::TestRunnerModel( CPPUNIT_NS::Test *rootTest ) :
_rootTest( rootTest ),
_runnerThread( NULL ),
_result( NULL )
{
}
TestRunnerModel::~TestRunnerModel()
{
delete _runnerThread;
}
CPPUNIT_NS::Test *
TestRunnerModel::rootTest()
{
return _rootTest;
}
void
TestRunnerModel::resetTestReportCounterFor( CPPUNIT_NS::Test *testToRun )
{
if ( isTestRunning() )
return;
{
LockGuard guard( _lock );
_numberOfTestCase = testToRun->countTestCases();
_numberOfTestCaseRun =0;
_numberOfTestCaseFailure =0;
_failures.clear();
}
emit failuresCleared();
emit numberOfTestCaseChanged( _numberOfTestCase );
emit numberOfTestCaseRunChanged( _numberOfTestCaseRun );
emit numberOfTestCaseFailureChanged( _numberOfTestCaseFailure );
}
int
TestRunnerModel::numberOfTestCase()
{
LockGuard guard( _lock );
return _numberOfTestCase;
}
int
TestRunnerModel::numberOfTestCaseFailure()
{
LockGuard guard( _lock );
return _numberOfTestCaseFailure;
}
int
TestRunnerModel::numberOfTestCaseRun()
{
LockGuard guard( _lock );
return _numberOfTestCaseRun;
}
TestFailureInfo *
TestRunnerModel::failureAt( int index )
{
LockGuard guard( _lock );
return _failures.at( index );
}
void
TestRunnerModel::runTest( CPPUNIT_NS::Test *testToRun )
{
if ( isTestRunning() )
return;
resetTestReportCounterFor( testToRun );
{
LockGuard guard( _lock );
delete _result;
_result = new CPPUNIT_NS::TestResult();
_result->addListener( this );
}
emit testRunStarted( testToRun, _result );
LockGuard guard( _lock );
_runnerThread = new TestRunnerThread( testToRun,
_result,
this,
new TestRunnerThreadFinishedEvent() );
}
bool
TestRunnerModel::isTestRunning()
{
LockGuard guard( _lock );
return _runnerThread != NULL && _runnerThread->running();
}
void
TestRunnerModel::stopRunningTest()
{
{
LockGuard guard( _lock );
if ( _result == NULL )
return;
}
if ( isTestRunning() )
{
LockGuard guard( _lock );
_result->stop();
}
}
// Called from the TestRunnerThread.
void
TestRunnerModel::startTest( CPPUNIT_NS::Test * /*test*/ )
{
}
// Called from the TestRunnerThread.
void
TestRunnerModel::addFailure( const CPPUNIT_NS::TestFailure &failure )
{
addFailureInfo( new TestFailureInfo( failure.failedTest(),
failure.thrownException(),
failure.isError() ) );
}
// Called from the TestRunnerThread.
void
TestRunnerModel::endTest( CPPUNIT_NS::Test * /*test*/ )
{
int numberOfTestCaseRun;
{
LockGuard guard( _lock );
numberOfTestCaseRun = ++_numberOfTestCaseRun;
}
// emit signal asynchronously
QThread::postEvent( this,
new TestRunnerTestCaseRunEvent( numberOfTestCaseRun ) );
}
// Called from the TestRunnerThread.
void
TestRunnerModel::addFailureInfo( TestFailureInfo *failure )
{
int numberOfTestCaseFailure;
{
LockGuard guard( _lock );
_failures.append( failure );
numberOfTestCaseFailure = ++_numberOfTestCaseFailure;
}
// emit signals asynchronously
QThread::postEvent( this,
new TestRunnerFailureEvent( failure,
numberOfTestCaseFailure ) );
}
bool
TestRunnerModel::event( QEvent *event )
{
if ( event->type() != QEvent::User )
return false;
TestRunnerThreadEvent *threadEvent = (TestRunnerThreadEvent *)event;
threadEvent->process( this );
return true;
}
void
TestRunnerModel::eventNewFailure( TestFailureInfo *failure,
int numberOfFailure )
{
emit numberOfTestCaseFailureChanged( numberOfFailure );
emit failureAdded( failure );
}
void
TestRunnerModel::eventNumberOfTestRunChanged( int numberOfRun )
{
emit numberOfTestCaseRunChanged( numberOfRun );
}
void
TestRunnerModel::eventTestRunnerThreadFinished()
{
emit testRunFinished();
}
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