diff --git a/Plugins/org.mitk.gui.qt.matchpoint.algorithm.control/src/internal/QmitkMatchPoint.cpp b/Plugins/org.mitk.gui.qt.matchpoint.algorithm.control/src/internal/QmitkMatchPoint.cpp
index 6c3a9535a4..ac789e0d98 100644
--- a/Plugins/org.mitk.gui.qt.matchpoint.algorithm.control/src/internal/QmitkMatchPoint.cpp
+++ b/Plugins/org.mitk.gui.qt.matchpoint.algorithm.control/src/internal/QmitkMatchPoint.cpp
@@ -1,878 +1,879 @@
/*============================================================================
The Medical Imaging Interaction Toolkit (MITK)
Copyright (c) German Cancer Research Center (DKFZ)
All rights reserved.
Use of this source code is governed by a 3-clause BSD license that can be
found in the LICENSE file.
============================================================================*/
#include "org_mitk_gui_qt_matchpoint_algorithmcontrol_Activator.h"
// Blueberry
#include <berryISelectionService.h>
#include <berryIWorkbenchWindow.h>
#include <berryISelectionProvider.h>
#include <berryQModelIndexObject.h>
// Mitk
#include <mitkStatusBar.h>
#include <mitkPointSet.h>
#include <mitkImageTimeSelector.h>
#include <mitkMAPAlgorithmInfoSelection.h>
#include <mitkRegistrationHelper.h>
#include <mitkMAPAlgorithmHelper.h>
#include <mitkResultNodeGenerationHelper.h>
#include <mitkNodePredicateDataType.h>
#include <mitkNodePredicateOr.h>
#include <mitkNodePredicateAnd.h>
#include <mitkNodePredicateProperty.h>
#include <mitkNodePredicateDimension.h>
// Qmitk
#include "QmitkMatchPoint.h"
#include <QmitkRegistrationJob.h>
#include <QmitkMappingJob.h>
// Qt
#include <QMessageBox>
#include <QFileDialog>
#include <QErrorMessage>
#include <QThreadPool>
#include <QDateTime>
// MatchPoint
#include <mapImageRegistrationAlgorithmInterface.h>
#include <mapPointSetRegistrationAlgorithmInterface.h>
#include <mapRegistrationAlgorithmInterface.h>
#include <mapMaskedRegistrationAlgorithmInterface.h>
#include <mapAlgorithmEvents.h>
#include <mapAlgorithmWrapperEvent.h>
#include <mapExceptionObjectMacros.h>
#include <mapConvert.h>
#include <mapDeploymentDLLAccess.h>
const std::string QmitkMatchPoint::VIEW_ID = "org.mitk.views.matchpoint.algorithm.control";
QmitkMatchPoint::QmitkMatchPoint()
: m_Parent(nullptr), m_LoadedDLLHandle(nullptr), m_LoadedAlgorithm(nullptr)
{
m_CanLoadAlgorithm = false;
m_ValidInputs = false;
m_Working = false;
m_spSelectedTargetData = nullptr;
m_spSelectedMovingData = nullptr;
m_spSelectedTargetMaskData = nullptr;
m_spSelectedMovingMaskData = nullptr;
}
QmitkMatchPoint::~QmitkMatchPoint()
{
// remove selection service
berry::ISelectionService* s = this->GetSite()->GetWorkbenchWindow()->GetSelectionService();
if (s)
{
s->RemoveSelectionListener(m_AlgorithmSelectionListener.data());
}
}
void QmitkMatchPoint::SetFocus()
{
}
void QmitkMatchPoint::CreateConnections()
{
connect(m_Controls.targetNodeSelector, &QmitkAbstractNodeSelectionWidget::CurrentSelectionChanged, this, &QmitkMatchPoint::OnNodeSelectionChanged);
connect(m_Controls.movingNodeSelector, &QmitkAbstractNodeSelectionWidget::CurrentSelectionChanged, this, &QmitkMatchPoint::OnNodeSelectionChanged);
connect(m_Controls.targetMaskNodeSelector, &QmitkAbstractNodeSelectionWidget::CurrentSelectionChanged, this, &QmitkMatchPoint::OnNodeSelectionChanged);
connect(m_Controls.movingMaskNodeSelector, &QmitkAbstractNodeSelectionWidget::CurrentSelectionChanged, this, &QmitkMatchPoint::OnNodeSelectionChanged);
// ------
// Tab 1 - Shared library loading interface
// ------
connect(m_Controls.m_pbLoadSelected, SIGNAL(clicked()), this, SLOT(OnLoadAlgorithmButtonPushed()));
// -----
// Tab 2 - Execution
// -----
connect(m_Controls.m_pbStartReg, SIGNAL(clicked()), this, SLOT(OnStartRegBtnPushed()));
connect(m_Controls.m_pbStopReg, SIGNAL(clicked()), this, SLOT(OnStopRegBtnPushed()));
connect(m_Controls.m_pbSaveLog, SIGNAL(clicked()), this, SLOT(OnSaveLogBtnPushed()));
}
const map::deployment::DLLInfo* QmitkMatchPoint::GetSelectedAlgorithmDLL() const
{
return m_SelectedAlgorithmInfo;
}
void QmitkMatchPoint::OnSelectedAlgorithmChanged()
{
std::stringstream descriptionString;
::map::deployment::DLLInfo::ConstPointer currentItemInfo = GetSelectedAlgorithmDLL();
if (!currentItemInfo)
{
Error(QStringLiteral("No valid algorithm is selected. ABORTING."));
return;
}
m_Controls.m_teAlgorithmDetails->updateInfo(currentItemInfo);
m_Controls.m_lbSelectedAlgorithm->setText(QString::fromStdString(
currentItemInfo->getAlgorithmUID().getName()));
// enable loading
m_CanLoadAlgorithm = true;
this->AdaptFolderGUIElements();
}
void QmitkMatchPoint::OnLoadAlgorithmButtonPushed()
{
map::deployment::DLLInfo::ConstPointer dllInfo = GetSelectedAlgorithmDLL();
if (!dllInfo)
{
Error(QStringLiteral("No valid algorithm is selected. Cannot load algorithm. ABORTING."));
return;
}
::map::deployment::DLLHandle::Pointer tempDLLHandle = ::map::deployment::openDeploymentDLL(
dllInfo->getLibraryFilePath());
::map::algorithm::RegistrationAlgorithmBase::Pointer tempAlgorithm
= ::map::deployment::getRegistrationAlgorithm(tempDLLHandle);
if (tempAlgorithm.IsNull())
{
Error(QStringLiteral("Error. Cannot load selected algorithm."));
return;
}
this->m_LoadedAlgorithm = tempAlgorithm;
this->m_LoadedDLLHandle = tempDLLHandle;
this->m_Controls.m_AlgoConfigurator->setAlgorithm(m_LoadedAlgorithm);
typedef ::map::algorithm::facet::MaskedRegistrationAlgorithmInterface<3, 3> MaskRegInterface;
const MaskRegInterface* pMaskReg = dynamic_cast<const MaskRegInterface*>
(m_LoadedAlgorithm.GetPointer());
if (!pMaskReg)
{
m_spSelectedTargetMaskData = nullptr;
m_spSelectedTargetMaskNode = nullptr;
m_spSelectedMovingMaskData = nullptr;
m_spSelectedMovingMaskNode = nullptr;
m_Controls.targetMaskNodeSelector->SetCurrentSelection(QmitkAbstractNodeSelectionWidget::NodeList());
m_Controls.movingMaskNodeSelector->SetCurrentSelection(QmitkAbstractNodeSelectionWidget::NodeList());
}
this->AdaptFolderGUIElements();
this->ConfigureNodeSelectors();
this->CheckInputs();
this->ConfigureRegistrationControls();
this->ConfigureProgressInfos();
this->m_Controls.m_tabs->setCurrentIndex(1);
this->m_Controls.m_teLog->clear();
}
void QmitkMatchPoint::Error(QString msg)
{
mitk::StatusBar::GetInstance()->DisplayErrorText(msg.toLatin1());
MITK_ERROR << msg.toStdString().c_str();
m_Controls.m_teLog->append(QStringLiteral("<font color='red'><b>") + msg + QStringLiteral("</b></font>"));
}
void QmitkMatchPoint::AdaptFolderGUIElements()
{
m_Controls.m_pbLoadSelected->setEnabled(m_CanLoadAlgorithm);
}
void QmitkMatchPoint::CreateQtPartControl(QWidget* parent)
{
// create GUI widgets from the Qt Designer's .ui file
m_Controls.setupUi(parent);
m_Parent = parent;
m_Controls.m_tabs->setCurrentIndex(0);
m_Controls.movingNodeSelector->SetDataStorage(this->GetDataStorage());
m_Controls.movingNodeSelector->SetSelectionIsOptional(false);
m_Controls.targetNodeSelector->SetDataStorage(this->GetDataStorage());
m_Controls.targetNodeSelector->SetSelectionIsOptional(false);
m_Controls.movingMaskNodeSelector->SetDataStorage(this->GetDataStorage());
m_Controls.movingMaskNodeSelector->SetSelectionIsOptional(true);
m_Controls.targetMaskNodeSelector->SetDataStorage(this->GetDataStorage());
m_Controls.targetMaskNodeSelector->SetSelectionIsOptional(true);
m_AlgorithmSelectionListener.reset(new berry::SelectionChangedAdapter<QmitkMatchPoint>(this,
&QmitkMatchPoint::OnAlgorithmSelectionChanged));
// register selection listener
GetSite()->GetWorkbenchWindow()->GetSelectionService()->AddSelectionListener(
m_AlgorithmSelectionListener.data());
this->CreateConnections();
this->AdaptFolderGUIElements();
this->CheckInputs();
this->ConfigureProgressInfos();
this->ConfigureRegistrationControls();
this->ConfigureNodeSelectors();
berry::ISelection::ConstPointer selection =
GetSite()->GetWorkbenchWindow()->GetSelectionService()->GetSelection("org.mitk.views.matchpoint.algorithm.browser");
this->UpdateAlgorithmSelection(selection);
}
mitk::Image::Pointer ExtractFirstFrame(const mitk::Image* dynamicImage)
{
mitk::ImageTimeSelector::Pointer imageTimeSelector = mitk::ImageTimeSelector::New();
imageTimeSelector->SetInput(dynamicImage);
imageTimeSelector->SetTimeNr(0);
imageTimeSelector->UpdateLargestPossibleRegion();
return imageTimeSelector->GetOutput();
}
bool QmitkMatchPoint::CheckInputs()
{
if (m_LoadedAlgorithm.IsNull())
{
m_spSelectedMovingNode = nullptr;
m_spSelectedMovingData = nullptr;
m_spSelectedTargetNode = nullptr;
m_spSelectedTargetData = nullptr;
m_spSelectedMovingMaskNode = nullptr;
m_spSelectedMovingMaskData = nullptr;
m_spSelectedTargetMaskNode = nullptr;
m_spSelectedTargetMaskData = nullptr;
}
else
{
if (m_Controls.movingNodeSelector->GetSelectedNode().IsNull())
{
m_spSelectedMovingNode = nullptr;
m_spSelectedMovingData = nullptr;
}
else
{
m_spSelectedMovingNode = m_Controls.movingNodeSelector->GetSelectedNode();
m_spSelectedMovingData = m_spSelectedMovingNode->GetData();
auto movingImage = dynamic_cast<mitk::Image*>(m_spSelectedMovingNode->GetData());
if (movingImage && movingImage->GetDimension() - 1 == m_LoadedAlgorithm->getMovingDimensions()
&& movingImage->GetTimeSteps() > 1)
{
m_spSelectedMovingData = ExtractFirstFrame(movingImage).GetPointer();
m_Controls.m_teLog->append(
QStringLiteral("<font color='gray'><i>Selected moving image has multiple time steps. First time step is used as moving image.</i></font>"));
}
}
if (m_Controls.targetNodeSelector->GetSelectedNode().IsNull())
{
m_spSelectedTargetNode = nullptr;
m_spSelectedTargetData = nullptr;
}
else
{
m_spSelectedTargetNode = m_Controls.targetNodeSelector->GetSelectedNode();
m_spSelectedTargetData = m_spSelectedTargetNode->GetData();
auto targetImage = dynamic_cast<mitk::Image*>(m_spSelectedTargetNode->GetData());
if (targetImage && targetImage->GetDimension() - 1 == m_LoadedAlgorithm->getTargetDimensions()
&& targetImage->GetTimeSteps() > 1)
{
m_spSelectedTargetData = ExtractFirstFrame(targetImage).GetPointer();
m_Controls.m_teLog->append(
QStringLiteral("<font color='gray'><i>Selected target image has multiple time steps. First time step is used as target image.</i></font>"));
}
}
if (m_Controls.movingMaskNodeSelector->GetSelectedNode().IsNull())
{
m_spSelectedMovingMaskNode = nullptr;
m_spSelectedMovingMaskData = nullptr;
}
else
{
m_spSelectedMovingMaskNode = m_Controls.movingMaskNodeSelector->GetSelectedNode();
m_spSelectedMovingMaskData = dynamic_cast<mitk::Image*>(m_spSelectedMovingMaskNode->GetData());
if (m_spSelectedMovingMaskData->GetDimension() - 1 == m_LoadedAlgorithm->getMovingDimensions()
&& m_spSelectedMovingMaskData->GetTimeSteps() > 1)
{
m_spSelectedMovingMaskData = ExtractFirstFrame(m_spSelectedMovingMaskData).GetPointer();
m_Controls.m_teLog->append(
QStringLiteral("<font color='gray'><i>Selected moving mask has multiple time steps. First time step is used as moving mask.</i></font>"));
}
}
if (m_Controls.targetMaskNodeSelector->GetSelectedNode().IsNull())
{
m_spSelectedTargetMaskNode = nullptr;
m_spSelectedTargetMaskData = nullptr;
}
else
{
m_spSelectedTargetMaskNode = m_Controls.targetMaskNodeSelector->GetSelectedNode();
m_spSelectedTargetMaskData = dynamic_cast<mitk::Image*>(m_spSelectedTargetMaskNode->GetData());
if (m_spSelectedTargetMaskData->GetDimension() - 1 == m_LoadedAlgorithm->getTargetDimensions()
&& m_spSelectedTargetMaskData->GetTimeSteps() > 1)
{
m_spSelectedTargetMaskData = ExtractFirstFrame(m_spSelectedTargetMaskData).GetPointer();
m_Controls.m_teLog->append(
QStringLiteral("<font color='gray'><i>Selected target mask has multiple time steps. First time step is used as target mask.</i></font>"));
}
}
}
m_ValidInputs = m_spSelectedMovingData.IsNotNull() && m_spSelectedTargetData.IsNotNull();
return m_ValidInputs;
}
std::string QmitkMatchPoint::GetInputNodeDisplayName(const mitk::DataNode* node) const
{
std::string result = "UNDEFINED/nullptr";
if (node)
{
result = node->GetName();
const mitk::PointSet* pointSet = dynamic_cast<const mitk::PointSet*>(node->GetData());
if (pointSet)
{
mitk::DataStorage::SetOfObjects::ConstPointer sources = this->GetDataStorage()->GetSources(node);
if (sources.IsNotNull() && sources->Size() > 0)
{
result = result + " (" + sources->GetElement(0)->GetName() + ")";
}
}
}
return result;
}
mitk::DataStorage::SetOfObjects::Pointer QmitkMatchPoint::GetRegNodes() const
{
mitk::DataStorage::SetOfObjects::ConstPointer nodes = this->GetDataStorage()->GetAll();
mitk::DataStorage::SetOfObjects::Pointer result = mitk::DataStorage::SetOfObjects::New();
for (mitk::DataStorage::SetOfObjects::const_iterator pos = nodes->begin(); pos != nodes->end();
++pos)
{
if (mitk::MITKRegistrationHelper::IsRegNode(*pos))
{
result->push_back(*pos);
}
}
return result;
}
std::string QmitkMatchPoint::GetDefaultRegJobName() const
{
mitk::DataStorage::SetOfObjects::ConstPointer nodes = this->GetRegNodes().GetPointer();
mitk::DataStorage::SetOfObjects::ElementIdentifier estimatedIndex = nodes->Size();
bool isUnique = false;
std::string result = "Unnamed Reg";
while (!isUnique)
{
++estimatedIndex;
result = "Reg #" +::map::core::convert::toStr(estimatedIndex);
isUnique = this->GetDataStorage()->GetNamedNode(result) == nullptr;
}
return result;
}
void QmitkMatchPoint::ConfigureRegistrationControls()
{
m_Controls.m_tabSelection->setEnabled(!m_Working);
m_Controls.m_leRegJobName->setEnabled(!m_Working);
m_Controls.groupMasks->setEnabled(!m_Working);
m_Controls.m_pbStartReg->setEnabled(false);
m_Controls.m_pbStopReg->setEnabled(false);
m_Controls.m_pbStopReg->setVisible(false);
if (m_LoadedAlgorithm.IsNotNull())
{
m_Controls.m_tabSettings->setEnabled(!m_Working);
m_Controls.m_tabExecution->setEnabled(true);
m_Controls.m_pbStartReg->setEnabled(m_ValidInputs && !m_Working);
m_Controls.m_leRegJobName->setEnabled(!m_Working);
m_Controls.m_checkMapEntity->setEnabled(!m_Working);
m_Controls.targetNodeSelector->setEnabled(!m_Working);
m_Controls.movingNodeSelector->setEnabled(!m_Working);
m_Controls.targetMaskNodeSelector->setEnabled(!m_Working);
m_Controls.movingMaskNodeSelector->setEnabled(!m_Working);
const IStoppableAlgorithm* pIterativ = dynamic_cast<const IStoppableAlgorithm*>
(m_LoadedAlgorithm.GetPointer());
if (pIterativ)
{
m_Controls.m_pbStopReg->setVisible(pIterativ->isStoppable());
}
typedef ::map::algorithm::facet::MaskedRegistrationAlgorithmInterface<3, 3> MaskRegInterface;
const MaskRegInterface* pMaskReg = dynamic_cast<const MaskRegInterface*>
(m_LoadedAlgorithm.GetPointer());
m_Controls.groupMasks->setVisible(pMaskReg != nullptr);
//if the stop button is set to visible and the algorithm is working ->
//then the algorithm is stoppable, thus enable the button.
m_Controls.m_pbStopReg->setEnabled(m_Controls.m_pbStopReg->isVisible() && m_Working);
this->m_Controls.m_lbLoadedAlgorithmName->setText(
QString::fromStdString(m_LoadedAlgorithm->getUID()->toStr()));
}
else
{
m_Controls.m_tabSettings->setEnabled(false);
m_Controls.m_tabExecution->setEnabled(false);
this->m_Controls.m_lbLoadedAlgorithmName->setText(
QStringLiteral("<font color='red'>no algorithm loaded!</font>"));
m_Controls.groupMasks->setVisible(false);
}
if (!m_Working)
{
this->m_Controls.m_leRegJobName->setText(QString::fromStdString(this->GetDefaultRegJobName()));
}
}
void QmitkMatchPoint::ConfigureNodeSelectors()
{
auto isImage = mitk::MITKRegistrationHelper::ImageNodePredicate();
auto isPointSet = mitk::MITKRegistrationHelper::PointSetNodePredicate();
auto isMask = mitk::MITKRegistrationHelper::MaskNodePredicate();
mitk::NodePredicateBase::Pointer dimensionPredicate = mitk::NodePredicateOr::New(mitk::NodePredicateDimension::New(3), mitk::NodePredicateDimension::New(4)).GetPointer();
m_Controls.movingNodeSelector->setEnabled(m_LoadedAlgorithm.IsNotNull());
m_Controls.targetNodeSelector->setEnabled(m_LoadedAlgorithm.IsNotNull());
m_Controls.movingMaskNodeSelector->setEnabled(m_LoadedAlgorithm.IsNotNull());
m_Controls.targetMaskNodeSelector->setEnabled(m_LoadedAlgorithm.IsNotNull());
if (m_LoadedAlgorithm.IsNotNull())
{
mitk::NodePredicateBase::ConstPointer dataPredicate;
if (m_LoadedAlgorithm->getMovingDimensions() == 2)
{
dimensionPredicate = mitk::NodePredicateDimension::New(2);
}
if (mitk::MAPAlgorithmHelper::HasImageAlgorithmInterface(m_LoadedAlgorithm))
{
dataPredicate = mitk::NodePredicateAnd::New(isImage, dimensionPredicate);
m_Controls.movingNodeSelector->SetInvalidInfo("Select valid moving image.");
m_Controls.movingNodeSelector->SetPopUpTitel("Select moving image.");
m_Controls.movingNodeSelector->SetPopUpHint("Select the moving image that should be registered onto the target image.");
m_Controls.targetNodeSelector->SetInvalidInfo("Select valid target image.");
m_Controls.targetNodeSelector->SetPopUpTitel("Select target image.");
m_Controls.targetNodeSelector->SetPopUpHint("Select the target image that should be used as reference for the registration.");
}
if (mitk::MAPAlgorithmHelper::HasPointSetAlgorithmInterface(m_LoadedAlgorithm))
{
if (dataPredicate.IsNull())
{
dataPredicate = isPointSet;
m_Controls.movingNodeSelector->SetInvalidInfo("Select valid moving point set.");
m_Controls.movingNodeSelector->SetPopUpTitel("Select moving point set.");
m_Controls.movingNodeSelector->SetPopUpHint("Select the moving point set that should be registered onto the target point set.");
m_Controls.targetNodeSelector->SetInvalidInfo("Select valid target point set.");
m_Controls.targetNodeSelector->SetPopUpTitel("Select target point set.");
m_Controls.targetNodeSelector->SetPopUpHint("Select the target point set that should be used as reference for the registration.");
}
else
{
dataPredicate = mitk::NodePredicateOr::New(dataPredicate, isPointSet);
m_Controls.movingNodeSelector->SetInvalidInfo("Select valid moving data.");
m_Controls.movingNodeSelector->SetPopUpTitel("Select moving data.");
m_Controls.movingNodeSelector->SetPopUpHint("Select the moving data that should be registered onto the target data. The algorithm supports images as well as point sets.");
m_Controls.targetNodeSelector->SetInvalidInfo("Select valid target data.");
m_Controls.targetNodeSelector->SetPopUpTitel("Select target data.");
m_Controls.targetNodeSelector->SetPopUpHint("Select the target data that should be used as reference for the registration. The algorithm supports images as well as point sets.");
}
}
mitk::NodePredicateBase::ConstPointer nodePredicate = dataPredicate;
m_Controls.movingNodeSelector->SetNodePredicate(nodePredicate);
m_Controls.targetNodeSelector->SetNodePredicate(nodePredicate);
nodePredicate = mitk::NodePredicateAnd::New(isMask, dimensionPredicate);
m_Controls.movingMaskNodeSelector->SetEmptyInfo("Select moving mask. (optional)");
m_Controls.movingMaskNodeSelector->SetPopUpTitel("Select moving mask");
m_Controls.movingMaskNodeSelector->SetPopUpHint("Select a segmentation that serves as moving mask for the registration.");
m_Controls.targetMaskNodeSelector->SetEmptyInfo("Select target mask. (optional)");
m_Controls.targetMaskNodeSelector->SetPopUpTitel("Select target mask");
m_Controls.targetMaskNodeSelector->SetPopUpHint("Select a segmentation that serves as target mask for the registration.");
m_Controls.movingMaskNodeSelector->SetNodePredicate(nodePredicate);
m_Controls.targetMaskNodeSelector->SetNodePredicate(nodePredicate);
}
}
void QmitkMatchPoint::ConfigureProgressInfos()
{
const IIterativeAlgorithm* pIterative = dynamic_cast<const IIterativeAlgorithm*>
(m_LoadedAlgorithm.GetPointer());
const IMultiResAlgorithm* pMultiRes = dynamic_cast<const IMultiResAlgorithm*>
(m_LoadedAlgorithm.GetPointer());
m_Controls.m_progBarIteration->setVisible(pIterative);
m_Controls.m_lbProgBarIteration->setVisible(pIterative);
if (pIterative)
{
QString format = "%p% (%v/%m)";
if (!pIterative->hasMaxIterationCount())
{
format = "%v";
m_Controls.m_progBarIteration->setMaximum(0);
}
else
{
m_Controls.m_progBarIteration->setMaximum(pIterative->getMaxIterations());
}
m_Controls.m_progBarIteration->setFormat(format);
}
m_Controls.m_progBarLevel->setVisible(pMultiRes);
m_Controls.m_lbProgBarLevel->setVisible(pMultiRes);
if (pMultiRes)
{
m_Controls.m_progBarLevel->setMaximum(pMultiRes->getResolutionLevels());
}
else
{
m_Controls.m_progBarLevel->setMaximum(1);
}
m_Controls.m_progBarIteration->reset();
m_Controls.m_progBarLevel->reset();
}
void QmitkMatchPoint::OnNodeSelectionChanged(QList<mitk::DataNode::Pointer> /*nodes*/)
{
if (!m_Working)
{
CheckInputs();
ConfigureRegistrationControls();
}
}
void QmitkMatchPoint::OnStartRegBtnPushed()
{
this->m_Working = true;
////////////////////////////////
//configure GUI
this->ConfigureProgressInfos();
m_Controls.m_progBarIteration->reset();
m_Controls.m_progBarLevel->reset();
this->ConfigureRegistrationControls();
if (m_Controls.m_checkClearLog->checkState() == Qt::Checked)
{
this->m_Controls.m_teLog->clear();
}
/////////////////////////
//create job and put it into the thread pool
QmitkRegistrationJob* pJob = new QmitkRegistrationJob(m_LoadedAlgorithm);
pJob->setAutoDelete(true);
pJob->m_spTargetData = m_spSelectedTargetData;
pJob->m_spMovingData = m_spSelectedMovingData;
pJob->m_TargetDataUID = mitk::EnsureUID(this->m_spSelectedTargetNode->GetData());
pJob->m_MovingDataUID = mitk::EnsureUID(this->m_spSelectedMovingNode->GetData());
if (m_spSelectedTargetMaskData.IsNotNull())
{
pJob->m_spTargetMask = m_spSelectedTargetMaskData;
pJob->m_TargetMaskDataUID = mitk::EnsureUID(this->m_spSelectedTargetMaskNode->GetData());
}
if (m_spSelectedMovingMaskData.IsNotNull())
{
pJob->m_spMovingMask = m_spSelectedMovingMaskData;
pJob->m_MovingMaskDataUID = mitk::EnsureUID(this->m_spSelectedMovingMaskNode->GetData());
}
pJob->m_JobName = m_Controls.m_leRegJobName->text().toStdString();
pJob->m_StoreReg = true;
connect(pJob, SIGNAL(Error(QString)), this, SLOT(OnRegJobError(QString)));
connect(pJob, SIGNAL(Finished()), this, SLOT(OnRegJobFinished()));
connect(pJob, SIGNAL(RegResultIsAvailable(mitk::MAPRegistrationWrapper::Pointer,
const QmitkRegistrationJob*)), this,
SLOT(OnRegResultIsAvailable(mitk::MAPRegistrationWrapper::Pointer, const QmitkRegistrationJob*)),
Qt::BlockingQueuedConnection);
connect(pJob, SIGNAL(AlgorithmInfo(QString)), this, SLOT(OnAlgorithmInfo(QString)));
connect(pJob, SIGNAL(AlgorithmStatusChanged(QString)), this,
SLOT(OnAlgorithmStatusChanged(QString)));
connect(pJob, SIGNAL(AlgorithmIterated(QString, bool, unsigned long)), this,
SLOT(OnAlgorithmIterated(QString, bool, unsigned long)));
connect(pJob, SIGNAL(LevelChanged(QString, bool, unsigned long)), this, SLOT(OnLevelChanged(QString,
bool, unsigned long)));
QThreadPool* threadPool = QThreadPool::globalInstance();
threadPool->start(pJob);
}
void QmitkMatchPoint::OnStopRegBtnPushed()
{
if (m_LoadedAlgorithm.IsNotNull())
{
IStoppableAlgorithm* pIterativ = dynamic_cast<IStoppableAlgorithm*>(m_LoadedAlgorithm.GetPointer());
if (pIterativ && pIterativ->isStoppable())
{
if (pIterativ->stopAlgorithm())
{
}
else
{
}
m_Controls.m_pbStopReg->setEnabled(false);
}
else
{
}
}
}
void QmitkMatchPoint::OnSaveLogBtnPushed()
{
QDateTime currentTime = QDateTime::currentDateTime();
QString fileName = tr("registration_log_") + currentTime.toString(tr("yyyy-MM-dd_hh-mm-ss")) +
tr(".txt");
fileName = QFileDialog::getSaveFileName(nullptr, tr("Save registration log"), fileName,
tr("Text files (*.txt)"));
if (fileName.isEmpty())
{
QMessageBox::critical(nullptr, tr("No file selected!"),
tr("Cannot save registration log file. Please selected a file."));
}
else
{
std::ofstream file;
std::ios_base::openmode iOpenFlag = std::ios_base::out | std::ios_base::trunc;
file.open(fileName.toStdString().c_str(), iOpenFlag);
if (!file.is_open())
{
mitkThrow() << "Cannot open or create specified file to save. File path: "
<< fileName.toStdString();
}
file << this->m_Controls.m_teLog->toPlainText().toStdString() << std::endl;
file.close();
}
}
void QmitkMatchPoint::OnRegJobError(QString err)
{
Error(err);
}
void QmitkMatchPoint::OnRegJobFinished()
{
this->m_Working = false;
auto* renderWindowPart = this->GetRenderWindowPart();
if (nullptr != renderWindowPart)
renderWindowPart->RequestUpdate();
this->CheckInputs();
this->ConfigureRegistrationControls();
this->ConfigureProgressInfos();
}
void QmitkMatchPoint::OnRegResultIsAvailable(mitk::MAPRegistrationWrapper::Pointer
spResultRegistration, const QmitkRegistrationJob* pRegJob)
{
mitk::DataNode::Pointer spResultRegistrationNode = mitk::generateRegistrationResultNode(
pRegJob->m_JobName, spResultRegistration, pRegJob->GetLoadedAlgorithm()->getUID()->toStr(),
pRegJob->m_MovingDataUID, pRegJob->m_TargetDataUID);
if (pRegJob->m_StoreReg)
{
m_Controls.m_teLog->append(
QStringLiteral("<b><font color='blue'> Storing registration object in data manager ... </font></b>"));
this->GetDataStorage()->Add(spResultRegistrationNode);
auto* renderWindowPart = this->GetRenderWindowPart();
if (nullptr != renderWindowPart)
renderWindowPart->RequestUpdate();
}
if (m_Controls.m_checkMapEntity->checkState() == Qt::Checked)
{
QmitkMappingJob* pMapJob = new QmitkMappingJob();
pMapJob->setAutoDelete(true);
pMapJob->m_spInputData = pRegJob->m_spMovingData;
pMapJob->m_InputDataUID = pRegJob->m_MovingDataUID;
pMapJob->m_spRegNode = spResultRegistrationNode;
pMapJob->m_doGeometryRefinement = false;
pMapJob->m_spRefGeometry = pRegJob->m_spTargetData->GetGeometry()->Clone().GetPointer();
pMapJob->m_MappedName = pRegJob->m_JobName + std::string(" mapped moving data");
pMapJob->m_allowUndefPixels = true;
pMapJob->m_paddingValue = 100;
pMapJob->m_allowUnregPixels = true;
pMapJob->m_errorValue = 200;
pMapJob->m_InterpolatorLabel = "Linear Interpolation";
pMapJob->m_InterpolatorType = mitk::ImageMappingInterpolator::Linear;
connect(pMapJob, SIGNAL(Error(QString)), this, SLOT(OnMapJobError(QString)));
connect(pMapJob, SIGNAL(MapResultIsAvailable(mitk::BaseData::Pointer, const QmitkMappingJob*)),
this, SLOT(OnMapResultIsAvailable(mitk::BaseData::Pointer, const QmitkMappingJob*)),
Qt::BlockingQueuedConnection);
connect(pMapJob, SIGNAL(AlgorithmInfo(QString)), this, SLOT(OnAlgorithmInfo(QString)));
m_Controls.m_teLog->append(
QStringLiteral("<b><font color='blue'>Started mapping input data...</font></b>"));
QThreadPool* threadPool = QThreadPool::globalInstance();
threadPool->start(pMapJob);
}
}
void QmitkMatchPoint::OnMapJobError(QString err)
{
Error(err);
}
void QmitkMatchPoint::OnMapResultIsAvailable(mitk::BaseData::Pointer spMappedData,
const QmitkMappingJob* job)
{
m_Controls.m_teLog->append(QStringLiteral("<b><font color='blue'>Mapped entity stored. Name: ") +
QString::fromStdString(job->m_MappedName) + QStringLiteral("</font></b>"));
mitk::DataNode::Pointer spMappedNode = mitk::generateMappedResultNode(job->m_MappedName,
spMappedData, job->GetRegistration()->getRegistrationUID(), job->m_InputDataUID,
job->m_doGeometryRefinement, job->m_InterpolatorLabel);
this->GetDataStorage()->Add(spMappedNode);
auto* renderWindowPart = this->GetRenderWindowPart();
if (nullptr != renderWindowPart)
renderWindowPart->RequestUpdate();
}
void QmitkMatchPoint::OnAlgorithmIterated(QString info, bool hasIterationCount,
unsigned long currentIteration)
{
if (hasIterationCount)
{
m_Controls.m_progBarIteration->setValue(currentIteration);
}
m_Controls.m_teLog->append(info);
}
void QmitkMatchPoint::OnLevelChanged(QString info, bool hasLevelCount, unsigned long currentLevel)
{
if (hasLevelCount)
{
m_Controls.m_progBarLevel->setValue(currentLevel);
}
m_Controls.m_teLog->append(QStringLiteral("<b><font color='green'>") + info + QStringLiteral("</font></b>"));
}
void QmitkMatchPoint::OnAlgorithmStatusChanged(QString info)
{
m_Controls.m_teLog->append(QStringLiteral("<b><font color='blue'>") + info + QStringLiteral(" </font></b>"));
}
void QmitkMatchPoint::OnAlgorithmInfo(QString info)
{
m_Controls.m_teLog->append(QStringLiteral("<font color='gray'><i>") + info + QStringLiteral("</i></font>"));
}
void QmitkMatchPoint::OnAlgorithmSelectionChanged(const berry::IWorkbenchPart::Pointer& sourcepart,
const berry::ISelection::ConstPointer& selection)
{
// check for null selection
if (selection.IsNull())
{
return;
}
if (sourcepart != this)
{
UpdateAlgorithmSelection(selection);
}
}
void QmitkMatchPoint::UpdateAlgorithmSelection(berry::ISelection::ConstPointer selection)
{
mitk::MAPAlgorithmInfoSelection::ConstPointer currentSelection =
selection.Cast<const mitk::MAPAlgorithmInfoSelection>();
if (currentSelection)
{
mitk::MAPAlgorithmInfoSelection::AlgorithmInfoVectorType infoVector =
currentSelection->GetSelectedAlgorithmInfo();
if (!infoVector.empty())
{
// only the first selection is of interest, the rest will be skipped.
this->m_SelectedAlgorithmInfo = infoVector[0];
}
+
+ this->OnSelectedAlgorithmChanged();
}
- this->OnSelectedAlgorithmChanged();
}
diff --git a/Plugins/org.mitk.gui.qt.matchpoint.framereg/src/internal/QmitkMatchPointFrameCorrection.cpp b/Plugins/org.mitk.gui.qt.matchpoint.framereg/src/internal/QmitkMatchPointFrameCorrection.cpp
index c94f8f78ad..3f723975ff 100644
--- a/Plugins/org.mitk.gui.qt.matchpoint.framereg/src/internal/QmitkMatchPointFrameCorrection.cpp
+++ b/Plugins/org.mitk.gui.qt.matchpoint.framereg/src/internal/QmitkMatchPointFrameCorrection.cpp
@@ -1,724 +1,724 @@
/*============================================================================
The Medical Imaging Interaction Toolkit (MITK)
Copyright (c) German Cancer Research Center (DKFZ)
All rights reserved.
Use of this source code is governed by a 3-clause BSD license that can be
found in the LICENSE file.
============================================================================*/
#include "org_mitk_gui_qt_matchpoint_framereg_Activator.h"
// Blueberry
#include <berryISelectionService.h>
#include <berryIWorkbenchWindow.h>
#include <berryISelectionProvider.h>
#include <berryQModelIndexObject.h>
// Mitk
#include <mitkStatusBar.h>
#include <mitkPointSet.h>
#include <mitkImageTimeSelector.h>
#include <mitkNodePredicateDataType.h>
#include <mitkNodePredicateOr.h>
#include <mitkNodePredicateAnd.h>
#include <mitkNodePredicateProperty.h>
#include <mitkNodePredicateDimension.h>
#include <mitkNodePredicateGeometry.h>
#include <mitkMAPAlgorithmInfoSelection.h>
#include <mitkRegistrationHelper.h>
#include <mitkResultNodeGenerationHelper.h>
// Qmitk
#include "QmitkMatchPointFrameCorrection.h"
#include <QmitkRegistrationJob.h>
#include <QmitkMappingJob.h>
// Qt
#include <QMessageBox>
#include <QFileDialog>
#include <QErrorMessage>
#include <QThreadPool>
#include <QDateTime>
// MatchPoint
#include <mapImageRegistrationAlgorithmInterface.h>
#include <mapPointSetRegistrationAlgorithmInterface.h>
#include <mapRegistrationAlgorithmInterface.h>
#include <mapMaskedRegistrationAlgorithmInterface.h>
#include <mapAlgorithmEvents.h>
#include <mapAlgorithmWrapperEvent.h>
#include <mapExceptionObjectMacros.h>
#include <mapConvert.h>
#include <mapDeploymentDLLAccess.h>
const std::string QmitkMatchPointFrameCorrection::VIEW_ID =
"org.mitk.views.matchpoint.algorithm.framereg";
QmitkMatchPointFrameCorrection::QmitkMatchPointFrameCorrection()
: m_Parent(nullptr), m_LoadedDLLHandle(nullptr), m_LoadedAlgorithm(nullptr), m_CanLoadAlgorithm(false), m_Working(false)
{
m_spSelectedTargetData = nullptr;
m_spSelectedTargetMaskData = nullptr;
}
QmitkMatchPointFrameCorrection::~QmitkMatchPointFrameCorrection()
{
// remove selection service
berry::ISelectionService* s = this->GetSite()->GetWorkbenchWindow()->GetSelectionService();
if (s)
{
s->RemoveSelectionListener(m_AlgorithmSelectionListener.data());
}
}
void QmitkMatchPointFrameCorrection::SetFocus()
{
}
void QmitkMatchPointFrameCorrection::CreateConnections()
{
connect(m_Controls.imageNodeSelector, &QmitkAbstractNodeSelectionWidget::CurrentSelectionChanged, this, &QmitkMatchPointFrameCorrection::OnNodeSelectionChanged);
connect(m_Controls.maskNodeSelector, &QmitkAbstractNodeSelectionWidget::CurrentSelectionChanged, this, &QmitkMatchPointFrameCorrection::OnNodeSelectionChanged);
// ------
// Tab 1 - Shared library loading interface
// ------
connect(m_Controls.m_pbLoadSelected, SIGNAL(clicked()), this, SLOT(OnLoadAlgorithmButtonPushed()));
// -----
// Tab 2 - Execution
// -----
connect(m_Controls.m_pbStartReg, SIGNAL(clicked()), this, SLOT(OnStartRegBtnPushed()));
connect(m_Controls.m_pbSaveLog, SIGNAL(clicked()), this, SLOT(OnSaveLogBtnPushed()));
// -----
// Tab 4 - Frames
// -----
connect(m_Controls.m_btnFrameSelAll, SIGNAL(clicked()), this, SLOT(OnFramesSelectAllPushed()));
connect(m_Controls.m_btnFrameDeSelAll, SIGNAL(clicked()), this, SLOT(OnFramesDeSelectAllPushed()));
connect(m_Controls.m_btnFrameInvert, SIGNAL(clicked()), this, SLOT(OnFramesInvertPushed()));
}
const map::deployment::DLLInfo* QmitkMatchPointFrameCorrection::GetSelectedAlgorithmDLL() const
{
return m_SelectedAlgorithmInfo;
}
void QmitkMatchPointFrameCorrection::OnSelectedAlgorithmChanged()
{
std::stringstream descriptionString;
::map::deployment::DLLInfo::ConstPointer currentItemInfo = GetSelectedAlgorithmDLL();
if (!currentItemInfo)
{
return;
}
m_Controls.m_teAlgorithmDetails->updateInfo(currentItemInfo);
m_Controls.m_lbSelectedAlgorithm->setText(QString::fromStdString(
currentItemInfo->getAlgorithmUID().getName()));
// enable loading
m_CanLoadAlgorithm = true;
this->AdaptFolderGUIElements();
}
void QmitkMatchPointFrameCorrection::OnLoadAlgorithmButtonPushed()
{
map::deployment::DLLInfo::ConstPointer dllInfo = GetSelectedAlgorithmDLL();
if (!dllInfo)
{
Error(QStringLiteral("No valid algorithm is selected. Cannot load algorithm. ABORTING."));
return;
}
::map::deployment::DLLHandle::Pointer tempDLLHandle = ::map::deployment::openDeploymentDLL(
dllInfo->getLibraryFilePath());
::map::algorithm::RegistrationAlgorithmBase::Pointer tempAlgorithm
= ::map::deployment::getRegistrationAlgorithm(tempDLLHandle);
if (tempAlgorithm.IsNull())
{
Error(QStringLiteral("Error. Cannot load selected algorithm."));
return;
}
this->m_LoadedAlgorithm = tempAlgorithm;
this->m_LoadedDLLHandle = tempDLLHandle;
this->m_Controls.m_AlgoConfigurator->setAlgorithm(m_LoadedAlgorithm);
this->AdaptFolderGUIElements();
this->ConfigureNodeSelectorPredicates();
this->CheckInputs();
this->ConfigureRegistrationControls();
this->ConfigureProgressInfos();
this->m_Controls.m_tabs->setCurrentIndex(1);
}
void QmitkMatchPointFrameCorrection::Error(QString msg)
{
mitk::StatusBar::GetInstance()->DisplayErrorText(msg.toLatin1());
MITK_ERROR << msg.toStdString().c_str();
m_Controls.m_teLog->append(QString("<font color='red'><b>") + msg + QString("</b></font>"));
}
void QmitkMatchPointFrameCorrection::AdaptFolderGUIElements()
{
m_Controls.m_pbLoadSelected->setEnabled(m_CanLoadAlgorithm);
}
void QmitkMatchPointFrameCorrection::CreateQtPartControl(QWidget* parent)
{
// create GUI widgets from the Qt Designer's .ui file
m_Controls.setupUi(parent);
m_Parent = parent;
this->m_Controls.imageNodeSelector->SetDataStorage(this->GetDataStorage());
this->m_Controls.imageNodeSelector->SetSelectionIsOptional(false);
this->m_Controls.maskNodeSelector->SetDataStorage(this->GetDataStorage());
this->m_Controls.maskNodeSelector->SetSelectionIsOptional(true);
this->m_Controls.imageNodeSelector->SetInvalidInfo("Select dymamic image.");
this->m_Controls.imageNodeSelector->SetPopUpTitel("Select dynamic image.");
this->m_Controls.imageNodeSelector->SetPopUpHint("Select a dynamic image (time resolved) that should be frame corrected.");
this->m_Controls.maskNodeSelector->SetInvalidInfo("Select target mask.");
this->m_Controls.maskNodeSelector->SetPopUpTitel("Select target mask.");
this->m_Controls.maskNodeSelector->SetPopUpHint("Select a target mask (mask of the target/first frame).");
m_Controls.m_tabs->setCurrentIndex(0);
m_Controls.m_mapperSettings->AllowSampling(false);
m_AlgorithmSelectionListener.reset(new
berry::SelectionChangedAdapter<QmitkMatchPointFrameCorrection>(this,
&QmitkMatchPointFrameCorrection::OnAlgorithmSelectionChanged));
// register selection listener
GetSite()->GetWorkbenchWindow()->GetSelectionService()->AddSelectionListener(
m_AlgorithmSelectionListener.data());
this->ConfigureNodeSelectorPredicates();
this->CreateConnections();
this->AdaptFolderGUIElements();
this->CheckInputs();
this->ConfigureProgressInfos();
this->ConfigureRegistrationControls();
berry::ISelection::ConstPointer selection =
GetSite()->GetWorkbenchWindow()->GetSelectionService()->GetSelection("org.mitk.views.matchpoint.algorithm.browser");
this->UpdateAlgorithmSelection(selection);
}
void QmitkMatchPointFrameCorrection::ConfigureNodeSelectorPredicates()
{
auto isImage = mitk::MITKRegistrationHelper::ImageNodePredicate();
mitk::NodePredicateBase::Pointer maskDimensionPredicate = mitk::NodePredicateOr::New(mitk::NodePredicateDimension::New(3), mitk::NodePredicateDimension::New(4)).GetPointer();
mitk::NodePredicateDimension::Pointer imageDimensionPredicate = mitk::NodePredicateDimension::New(4);
m_Controls.imageNodeSelector->setEnabled(m_LoadedAlgorithm.IsNotNull());
m_Controls.maskNodeSelector->setEnabled(m_LoadedAlgorithm.IsNotNull());
m_Controls.imageNodeSelector->SetNodePredicate(mitk::NodePredicateAnd::New(isImage, imageDimensionPredicate));
mitk::NodePredicateAnd::Pointer maskPredicate = mitk::NodePredicateAnd::New(mitk::MITKRegistrationHelper::MaskNodePredicate(), maskDimensionPredicate);
if (m_spSelectedTargetData != nullptr)
{
auto hasSameGeometry = mitk::NodePredicateGeometry::New(m_spSelectedTargetData->GetGeometry());
hasSameGeometry->SetCheckPrecision(1e-10);
maskPredicate = mitk::NodePredicateAnd::New(maskPredicate, hasSameGeometry);
}
m_Controls.maskNodeSelector->SetNodePredicate(maskPredicate);
}
void QmitkMatchPointFrameCorrection::CheckInputs()
{
mitk::DataNode::Pointer oldTargetNode = m_spSelectedTargetNode;
m_spSelectedTargetNode = nullptr;
m_spSelectedTargetData = nullptr;
m_spSelectedTargetMaskNode = nullptr;
m_spSelectedTargetMaskData = nullptr;
if (m_LoadedAlgorithm.IsNull())
{
m_Controls.m_lbLoadedAlgorithmName->setText(
QStringLiteral("<font color='red'>No algorithm selected!</font>"));
}
else
{
m_spSelectedTargetNode = m_Controls.imageNodeSelector->GetSelectedNode();
if (m_spSelectedTargetNode.IsNotNull())
{
m_spSelectedTargetData = m_spSelectedTargetNode->GetData();
}
m_spSelectedTargetMaskNode = m_Controls.maskNodeSelector->GetSelectedNode();
if (m_spSelectedTargetMaskNode.IsNotNull())
{
m_spSelectedTargetMaskData = dynamic_cast<mitk::Image*>(m_spSelectedTargetMaskNode->GetData());
}
}
if (oldTargetNode != m_spSelectedTargetNode)
{
ConfigureFrameList();
}
}
mitk::DataStorage::SetOfObjects::Pointer QmitkMatchPointFrameCorrection::GetRegNodes() const
{
mitk::DataStorage::SetOfObjects::ConstPointer nodes = this->GetDataStorage()->GetAll();
mitk::DataStorage::SetOfObjects::Pointer result = mitk::DataStorage::SetOfObjects::New();
for (mitk::DataStorage::SetOfObjects::const_iterator pos = nodes->begin(); pos != nodes->end();
++pos)
{
if (mitk::MITKRegistrationHelper::IsRegNode(*pos))
{
result->push_back(*pos);
}
}
return result;
}
std::string QmitkMatchPointFrameCorrection::GetDefaultJobName() const
{
mitk::DataStorage::SetOfObjects::ConstPointer nodes = this->GetRegNodes().GetPointer();
mitk::DataStorage::SetOfObjects::ElementIdentifier newIndex = 0;
bool isUnique = false;
std::string baseName = "corrected #";
if (m_spSelectedTargetNode.IsNotNull())
{
baseName = m_spSelectedTargetNode->GetName() + "corrected #";
}
std::string result = baseName;
while (!isUnique)
{
++newIndex;
result = baseName + ::map::core::convert::toStr(newIndex);
isUnique = this->GetDataStorage()->GetNamedNode(result) == nullptr;
}
return result;
}
void QmitkMatchPointFrameCorrection::ConfigureRegistrationControls()
{
m_Controls.m_tabSelection->setEnabled(!m_Working);
m_Controls.m_leRegJobName->setEnabled(!m_Working);
m_Controls.m_pbStartReg->setEnabled(false);
m_Controls.imageNodeSelector->setEnabled(!m_Working);
m_Controls.maskNodeSelector->setEnabled(!m_Working);
if (m_LoadedAlgorithm.IsNotNull())
{
m_Controls.m_tabSettings->setEnabled(!m_Working);
m_Controls.m_tabExclusion->setEnabled(!m_Working);
m_Controls.m_tabExecution->setEnabled(true);
m_Controls.m_pbStartReg->setEnabled(m_spSelectedTargetNode.IsNotNull() && !m_Working);
m_Controls.m_leRegJobName->setEnabled(!m_Working);
typedef ::map::algorithm::facet::MaskedRegistrationAlgorithmInterface<3, 3> MaskRegInterface;
const MaskRegInterface* pMaskReg = dynamic_cast<const MaskRegInterface*>
(m_LoadedAlgorithm.GetPointer());
m_Controls.maskNodeSelector->setVisible(pMaskReg != nullptr);
m_Controls.label_TargetMask->setVisible(pMaskReg != nullptr);
if (!pMaskReg)
{
m_Controls.maskNodeSelector->SetCurrentSelection(QmitkSingleNodeSelectionWidget::NodeList());
}
this->m_Controls.m_lbLoadedAlgorithmName->setText(
QString::fromStdString(m_LoadedAlgorithm->getUID()->toStr()));
}
else
{
m_Controls.m_tabSettings->setEnabled(false);
m_Controls.m_tabExclusion->setEnabled(false);
m_Controls.m_tabExecution->setEnabled(false);
this->m_Controls.m_lbLoadedAlgorithmName->setText(
QStringLiteral("<font color='red'>no algorithm loaded!</font>"));
m_Controls.maskNodeSelector->setVisible(false);
m_Controls.label_TargetMask->setVisible(false);
}
if (!m_Working)
{
this->m_Controls.m_leRegJobName->setText(QString::fromStdString(this->GetDefaultJobName()));
}
}
void QmitkMatchPointFrameCorrection::ConfigureProgressInfos()
{
const IIterativeAlgorithm* pIterative = dynamic_cast<const IIterativeAlgorithm*>
(m_LoadedAlgorithm.GetPointer());
const IMultiResAlgorithm* pMultiRes = dynamic_cast<const IMultiResAlgorithm*>
(m_LoadedAlgorithm.GetPointer());
m_Controls.m_progBarIteration->setVisible(pIterative);
m_Controls.m_lbProgBarIteration->setVisible(pIterative);
if (pIterative)
{
QString format = "%p% (%v/%m)";
if (!pIterative->hasMaxIterationCount())
{
format = "%v";
m_Controls.m_progBarIteration->setMaximum(0);
}
else
{
m_Controls.m_progBarIteration->setMaximum(pIterative->getMaxIterations());
}
m_Controls.m_progBarIteration->setFormat(format);
}
if (pMultiRes)
{
m_Controls.m_progBarLevel->setMaximum(pMultiRes->getResolutionLevels());
}
else
{
m_Controls.m_progBarLevel->setMaximum(1);
}
m_Controls.m_progBarIteration->reset();
m_Controls.m_progBarLevel->reset();
m_Controls.m_progBarFrame->reset();
}
void QmitkMatchPointFrameCorrection::ConfigureFrameList()
{
m_Controls.m_listFrames->clear();
if (m_spSelectedTargetData.IsNotNull())
{
mitk::TimeGeometry::ConstPointer tg = m_spSelectedTargetData->GetTimeGeometry();
for (unsigned int i = 1; i < tg->CountTimeSteps(); ++i)
{
QString lable = "Timepoint #" + QString::number(i) + QString(" (") + QString::number(
tg->GetMinimumTimePoint(i)) + QString(" ms - " + QString::number(tg->GetMaximumTimePoint(
i)) + QString(" ms)"));
QListWidgetItem* item = new QListWidgetItem(lable, m_Controls.m_listFrames);
item->setFlags(Qt::ItemIsUserCheckable | Qt::ItemIsEnabled);
item->setCheckState(Qt::Checked);
}
}
}
void QmitkMatchPointFrameCorrection::OnFramesSelectAllPushed()
{
for (int row = 0; row < m_Controls.m_listFrames->count(); row++)
{
QListWidgetItem* item = m_Controls.m_listFrames->item(row);
item->setCheckState(Qt::Checked);
}
};
void QmitkMatchPointFrameCorrection::OnFramesDeSelectAllPushed()
{
for (int row = 0; row < m_Controls.m_listFrames->count(); row++)
{
QListWidgetItem* item = m_Controls.m_listFrames->item(row);
item->setCheckState(Qt::Unchecked);
}
};
void QmitkMatchPointFrameCorrection::OnFramesInvertPushed()
{
for (int row = 0; row < m_Controls.m_listFrames->count(); row++)
{
QListWidgetItem* item = m_Controls.m_listFrames->item(row);
if (item->checkState() == Qt::Unchecked)
{
item->setCheckState(Qt::Checked);
}
else
{
item->setCheckState(Qt::Unchecked);
}
}
};
mitk::TimeFramesRegistrationHelper::IgnoreListType
QmitkMatchPointFrameCorrection::GenerateIgnoreList() const
{
mitk::TimeFramesRegistrationHelper::IgnoreListType result;
for (int row = 0; row < m_Controls.m_listFrames->count(); row++)
{
QListWidgetItem* item = m_Controls.m_listFrames->item(row);
if (item->checkState() == Qt::Unchecked)
{
result.push_back(row + 1);
}
}
return result;
}
void QmitkMatchPointFrameCorrection::OnNodeSelectionChanged(QList<mitk::DataNode::Pointer> /*nodes*/)
{
if (!m_Working)
{
ConfigureNodeSelectorPredicates();
CheckInputs();
ConfigureRegistrationControls();
}
}
void QmitkMatchPointFrameCorrection::OnStartRegBtnPushed()
{
this->m_Working = true;
////////////////////////////////
//configure GUI
this->ConfigureProgressInfos();
m_Controls.m_progBarIteration->reset();
m_Controls.m_progBarLevel->reset();
this->ConfigureRegistrationControls();
if (m_Controls.m_checkClearLog->checkState() == Qt::Checked)
{
this->m_Controls.m_teLog->clear();
}
/////////////////////////
//create job and put it into the thread pool
QmitkFramesRegistrationJob* pJob = new QmitkFramesRegistrationJob(m_LoadedAlgorithm);
pJob->setAutoDelete(true);
pJob->m_spTargetData = m_spSelectedTargetData;
pJob->m_TargetDataUID = mitk::EnsureUID(this->m_spSelectedTargetNode->GetData());
pJob->m_IgnoreList = this->GenerateIgnoreList();
if (m_spSelectedTargetMaskData.IsNotNull())
{
pJob->m_spTargetMask = m_spSelectedTargetMaskData;
pJob->m_TargetMaskDataUID = mitk::EnsureUID(this->m_spSelectedTargetMaskNode->GetData());
}
pJob->m_MappedName = m_Controls.m_leRegJobName->text().toStdString();
m_Controls.m_mapperSettings->ConfigureJobSettings(pJob);
connect(pJob, SIGNAL(Error(QString)), this, SLOT(OnRegJobError(QString)));
connect(pJob, SIGNAL(Finished()), this, SLOT(OnRegJobFinished()));
connect(pJob, SIGNAL(ResultIsAvailable(mitk::Image::Pointer, const QmitkFramesRegistrationJob*)),
this, SLOT(OnMapResultIsAvailable(mitk::Image::Pointer, const QmitkFramesRegistrationJob*)),
Qt::BlockingQueuedConnection);
connect(pJob, SIGNAL(AlgorithmInfo(QString)), this, SLOT(OnAlgorithmInfo(QString)));
connect(pJob, SIGNAL(AlgorithmStatusChanged(QString)), this,
SLOT(OnAlgorithmStatusChanged(QString)));
connect(pJob, SIGNAL(AlgorithmIterated(QString, bool, unsigned long)), this,
SLOT(OnAlgorithmIterated(QString, bool, unsigned long)));
connect(pJob, SIGNAL(LevelChanged(QString, bool, unsigned long)), this, SLOT(OnLevelChanged(QString,
bool, unsigned long)));
connect(pJob, SIGNAL(FrameRegistered(double)), this, SLOT(OnFrameRegistered(double)));
connect(pJob, SIGNAL(FrameMapped(double)), this, SLOT(OnFrameMapped(double)));
connect(pJob, SIGNAL(FrameProcessed(double)), this, SLOT(OnFrameProcessed(double)));
QThreadPool* threadPool = QThreadPool::globalInstance();
threadPool->start(pJob);
}
void QmitkMatchPointFrameCorrection::OnSaveLogBtnPushed()
{
QDateTime currentTime = QDateTime::currentDateTime();
QString fileName = tr("registration_log_") + currentTime.toString(tr("yyyy-MM-dd_hh-mm-ss")) +
tr(".txt");
fileName = QFileDialog::getSaveFileName(nullptr, tr("Save registration log"), fileName,
tr("Text files (*.txt)"));
if (fileName.isEmpty())
{
QMessageBox::critical(nullptr, tr("No file selected!"),
tr("Cannot save registration log file. Please selected a file."));
}
else
{
std::ofstream file;
std::ios_base::openmode iOpenFlag = std::ios_base::out | std::ios_base::trunc;
file.open(fileName.toStdString().c_str(), iOpenFlag);
if (!file.is_open())
{
mitkThrow() << "Cannot open or create specified file to save. File path: "
<< fileName.toStdString();
}
file << this->m_Controls.m_teLog->toPlainText().toStdString() << std::endl;
file.close();
}
}
void QmitkMatchPointFrameCorrection::OnRegJobError(QString err)
{
Error(err);
};
void QmitkMatchPointFrameCorrection::OnRegJobFinished()
{
this->m_Working = false;
auto* renderWindowPart = this->GetRenderWindowPart();
if (nullptr != renderWindowPart)
renderWindowPart->RequestUpdate();
this->CheckInputs();
this->ConfigureRegistrationControls();
this->ConfigureProgressInfos();
};
void QmitkMatchPointFrameCorrection::OnMapResultIsAvailable(mitk::Image::Pointer spMappedData,
const QmitkFramesRegistrationJob* job)
{
m_Controls.m_teLog->append(QString("<b><font color='blue'>Corrected image stored. Name: ") +
QString::fromStdString(job->m_MappedName) + QString("</font></b>"));
mitk::DataNode::Pointer spResultNode = mitk::generateMappedResultNode(job->m_MappedName,
spMappedData.GetPointer(), "", job->m_TargetDataUID, false, job->m_InterpolatorLabel);
this->GetDataStorage()->Add(spResultNode, this->m_spSelectedTargetNode);
auto* renderWindowPart = this->GetRenderWindowPart();
if (nullptr != renderWindowPart)
renderWindowPart->RequestUpdate();
};
void QmitkMatchPointFrameCorrection::OnMapJobError(QString err)
{
Error(err);
};
void QmitkMatchPointFrameCorrection::OnAlgorithmIterated(QString info, bool hasIterationCount,
unsigned long currentIteration)
{
if (hasIterationCount)
{
m_Controls.m_progBarIteration->setValue(currentIteration);
}
m_Controls.m_teLog->append(info);
};
void QmitkMatchPointFrameCorrection::OnLevelChanged(QString info, bool hasLevelCount,
unsigned long currentLevel)
{
if (hasLevelCount)
{
m_Controls.m_progBarLevel->setValue(currentLevel);
}
m_Controls.m_teLog->append(QString("<b><font color='green'>") + info + QString("</font></b>"));
};
void QmitkMatchPointFrameCorrection::OnAlgorithmStatusChanged(QString info)
{
m_Controls.m_teLog->append(QString("<b><font color='blue'>") + info + QString(" </font></b>"));
};
void QmitkMatchPointFrameCorrection::OnAlgorithmInfo(QString info)
{
m_Controls.m_teLog->append(QString("<font color='gray'><i>") + info + QString("</i></font>"));
};
void QmitkMatchPointFrameCorrection::OnFrameProcessed(double progress)
{
m_Controls.m_teLog->append(QStringLiteral("<b><font color='blue'>Frame processed...</font></b>"));
m_Controls.m_progBarFrame->setValue(100 * progress);
};
void QmitkMatchPointFrameCorrection::OnFrameRegistered(double progress)
{
m_Controls.m_teLog->append(QStringLiteral("<b><font color='blue'>Frame registered...</font></b>"));
m_Controls.m_progBarFrame->setValue(100 * progress);
};
void QmitkMatchPointFrameCorrection::OnFrameMapped(double progress)
{
m_Controls.m_teLog->append(QStringLiteral("<b><font color='blue'>Frame mapped...</font></b>"));
m_Controls.m_progBarFrame->setValue(100 * progress);
};
void QmitkMatchPointFrameCorrection::OnAlgorithmSelectionChanged(const
berry::IWorkbenchPart::Pointer& sourcepart,
const berry::ISelection::ConstPointer& selection)
{
// check for null selection
if (selection.IsNull())
{
return;
}
if (sourcepart != this)
{
UpdateAlgorithmSelection(selection);
}
}
void QmitkMatchPointFrameCorrection::UpdateAlgorithmSelection(berry::ISelection::ConstPointer
selection)
{
mitk::MAPAlgorithmInfoSelection::ConstPointer currentSelection =
selection.Cast<const mitk::MAPAlgorithmInfoSelection>();
if (currentSelection)
{
mitk::MAPAlgorithmInfoSelection::AlgorithmInfoVectorType infoVector =
currentSelection->GetSelectedAlgorithmInfo();
if (!infoVector.empty())
{
// only the first selection is of interest, the rest will be skipped.
this->m_SelectedAlgorithmInfo = infoVector[0];
}
+ this->OnSelectedAlgorithmChanged();
}
- this->OnSelectedAlgorithmChanged();
};