bool CQTrajectoryWidget::loadTask()
{
CTrajectoryTask * pTask =
dynamic_cast< CTrajectoryTask * >(mpTask);
if (!pTask) return false;
loadCommon();
loadMethod();
showUnits();
CTrajectoryProblem* TrajectoryProblem =
dynamic_cast<CTrajectoryProblem *>(pTask->getProblem());
assert(TrajectoryProblem);
pdelete(mpTrajectoryProblem);
mpTrajectoryProblem = new CTrajectoryProblem(*TrajectoryProblem, NO_PARENT);
//numbers
mpEditIntervalSize->setText(QString::number(TrajectoryProblem->getStepSize()));
mpEditIntervals->setText(QString::number(TrajectoryProblem->getStepNumber()));
mpEditDuration->setText(QString::number(TrajectoryProblem->getDuration()));
mpCheckAutomaticInterval->setChecked(TrajectoryProblem->getAutomaticStepSize());
assert(CCopasiRootContainer::getDatamodelList()->size() > 0);
C_FLOAT64 InitialTime = CCopasiRootContainer::getDatamodelList()->operator[](0).getModel()->getInitialTime();
bool Delayed;
if (TrajectoryProblem->getStepSize() > 0.0)
Delayed = (TrajectoryProblem->getOutputStartTime() - InitialTime) > std::numeric_limits< C_FLOAT64 >::min();
else
Delayed = (InitialTime - TrajectoryProblem->getOutputStartTime()) > std::numeric_limits< C_FLOAT64 >::min();
mpCheckDelay->setChecked(Delayed);
mpEditDelay->setEnabled(Delayed);
mpEditDelay->setText(QString::number(TrajectoryProblem->getOutputStartTime()));
mpCheckOutputEvent->setChecked(TrajectoryProblem->getOutputEvent());
mpCheckContinueEvents->setChecked(TrajectoryProblem->getContinueSimultaneousEvents());
mpCheckStartInSteadyState->setChecked(TrajectoryProblem->getStartInSteadyState());
//store time series checkbox
mpCheckSave->setChecked(TrajectoryProblem->timeSeriesRequested());
checkTimeSeries();
updateIntervals();
mpValidatorDuration->saved();
mpValidatorIntervalSize->saved();
mpValidatorIntervals->saved();
mpValidatorDelay->saved();
return true;
}
bool CQTrajectoryWidget::loadTask()
{
CTrajectoryTask * pTask =
dynamic_cast< CTrajectoryTask * >(mpTask);
if (!pTask) return false;
loadCommon();
loadMethod();
showUnits();
CTrajectoryProblem* trajectoryproblem =
dynamic_cast<CTrajectoryProblem *>(pTask->getProblem());
assert(trajectoryproblem);
pdelete(mpTrajectoryProblem);
mpTrajectoryProblem = new CTrajectoryProblem(*trajectoryproblem);
//numbers
mpEditIntervalSize->setText(QString::number(trajectoryproblem->getStepSize()));
mpEditIntervals->setText(QString::number(trajectoryproblem->getStepNumber()));
mpEditDuration->setText(QString::number(trajectoryproblem->getDuration()));
assert(CCopasiRootContainer::getDatamodelList()->size() > 0);
C_FLOAT64 InitialTime = (*CCopasiRootContainer::getDatamodelList())[0]->getModel()->getInitialTime();
bool Delayed;
if (trajectoryproblem->getStepSize() > 0.0)
Delayed = (trajectoryproblem->getOutputStartTime() - InitialTime) > DBL_MIN;
else
Delayed = (InitialTime - trajectoryproblem->getOutputStartTime()) > DBL_MIN;
mpCheckDelay->setChecked(Delayed);
mpEditDelay->setEnabled(Delayed);
mpEditDelay->setText(QString::number(trajectoryproblem->getOutputStartTime()));
//store time series checkbox
mpCheckSave->setChecked(trajectoryproblem->timeSeriesRequested());
checkTimeSeries();
updateIntervals();
mpValidatorDuration->saved();
mpValidatorIntervalSize->saved();
mpValidatorIntervals->saved();
mpValidatorDelay->saved();
return true;
}
bool CQTrajectoryWidget::saveTask()
{
CTrajectoryTask * pTask =
dynamic_cast< CTrajectoryTask * >(mpTask);
if (!pTask) return false;
saveCommon();
saveMethod();
CTrajectoryProblem* trajectoryproblem =
dynamic_cast<CTrajectoryProblem *>(pTask->getProblem());
assert(trajectoryproblem);
//numbers
if (mpEditIntervalSize->hasAcceptableInput() &&
trajectoryproblem->getStepSize() != mpEditIntervalSize->text().toDouble())
{
trajectoryproblem->setStepSize(mpEditIntervalSize->text().toDouble());
mChanged = true;
}
else if (mpEditIntervals->hasAcceptableInput() &&
trajectoryproblem->getStepNumber() != mpEditIntervals->text().toULong())
{
trajectoryproblem->setStepNumber(mpEditIntervals->text().toLong());
mChanged = true;
}
if (mpEditDuration->hasAcceptableInput() &&
trajectoryproblem->getDuration() != mpEditDuration->text().toDouble())
{
trajectoryproblem->setDuration(mpEditDuration->text().toDouble());
mChanged = true;
}
C_FLOAT64 StartTime = mpEditDelay->text().toDouble();
if (mpCheckDelay->isChecked())
{
if (mpEditDelay->hasAcceptableInput() &&
StartTime != trajectoryproblem->getOutputStartTime())
{
trajectoryproblem->setOutputStartTime(StartTime);
mChanged = true;
}
}
else
{
assert(CCopasiRootContainer::getDatamodelList()->size() > 0);
C_FLOAT64 InitialTime =
(*CCopasiRootContainer::getDatamodelList())[0]->getModel()->getInitialTime();
if (trajectoryproblem->getStepSize() > 0.0)
{
if (StartTime > InitialTime)
{
trajectoryproblem->setOutputStartTime(InitialTime);
mChanged = true;
}
}
else
{
if (StartTime < InitialTime)
{
trajectoryproblem->setOutputStartTime(InitialTime);
mChanged = true;
}
}
}
if (trajectoryproblem->timeSeriesRequested() != mpCheckSave->isChecked())
{
trajectoryproblem->setTimeSeriesRequested(mpCheckSave->isChecked());
mChanged = true;
}
mpValidatorDuration->saved();
mpValidatorIntervalSize->saved();
mpValidatorIntervals->saved();
mpValidatorDelay->saved();
return true;
}