diff --git a/Plugins/org.mitk.gui.qt.matchpoint.visualizer/src/internal/QmitkMatchPointRegistrationVisualizer.cpp b/Plugins/org.mitk.gui.qt.matchpoint.visualizer/src/internal/QmitkMatchPointRegistrationVisualizer.cpp index b9cba1d251..b5ab8e4c07 100644 --- a/Plugins/org.mitk.gui.qt.matchpoint.visualizer/src/internal/QmitkMatchPointRegistrationVisualizer.cpp +++ b/Plugins/org.mitk.gui.qt.matchpoint.visualizer/src/internal/QmitkMatchPointRegistrationVisualizer.cpp @@ -1,846 +1,846 @@ /*=================================================================== The Medical Imaging Interaction Toolkit (MITK) Copyright (c) German Cancer Research Center, Division of Medical and Biological Informatics. All rights reserved. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See LICENSE.txt or http://www.mitk.org for details. ===================================================================*/ #include "org_mitk_gui_qt_matchpoint_visualizer_Activator.h" // Blueberry #include #include // Mitk #include #include #include #include #include "mitkRegVisDirectionProperty.h" #include "mitkRegVisStyleProperty.h" #include "mitkRegVisColorStyleProperty.h" #include "mitkRegVisPropertyTags.h" #include "mitkRegVisHelper.h" #include "mitkMatchPointPropertyTags.h" #include "mitkRegistrationHelper.h" // Qmitk #include "QmitkMatchPointRegistrationVisualizer.h" // Qt #include #include const std::string QmitkMatchPointRegistrationVisualizer::VIEW_ID = "org.mitk.views.matchpoint.visualizer"; QmitkMatchPointRegistrationVisualizer::QmitkMatchPointRegistrationVisualizer() : m_Parent(nullptr), m_internalUpdateGuard(false), m_spSelectedFOVRefNode(nullptr), m_spSelectedRegNode(nullptr) { } void QmitkMatchPointRegistrationVisualizer::SetFocus() { //m_Controls->buttonPerformImageProcessing->setFocus(); } void QmitkMatchPointRegistrationVisualizer::CreateConnections() { // show first page connect(m_Controls->m_pbLockReg, SIGNAL(clicked()), this, SLOT(OnLockRegButtonPushed())); connect(m_Controls->m_pbStyleGrid, SIGNAL(clicked()), this, SLOT(OnStyleButtonPushed())); connect(m_Controls->m_pbStyleGlyph, SIGNAL(clicked()), this, SLOT(OnStyleButtonPushed())); connect(m_Controls->m_pbStylePoints, SIGNAL(clicked()), this, SLOT(OnStyleButtonPushed())); connect(m_Controls->m_comboDirection, SIGNAL(currentIndexChanged(int)), this, SLOT(OnDirectionChanged(int))); connect(m_Controls->m_pbUpdateViz, SIGNAL(clicked()), this, SLOT(OnUpdateBtnPushed())); connect(m_Controls->m_pbUseFOVRef, SIGNAL(clicked()), this, SLOT(OnUseFOVRefBtnPushed())); connect(m_Controls->radioColorUni, SIGNAL(toggled(bool)), m_Controls->btnUniColor, SLOT(setEnabled(bool))); connect(m_Controls->radioColorVecMag, SIGNAL(toggled(bool)), m_Controls->groupColorCoding, SLOT(setEnabled(bool))); connect(m_Controls->m_pbStyleGrid, SIGNAL(toggled(bool)), m_Controls->tabGrid, SLOT(setEnabled(bool))); connect(m_Controls->cbVevMagInterlolate, SIGNAL(toggled(bool)), this, SLOT(OnColorInterpolationChecked(bool))); } void QmitkMatchPointRegistrationVisualizer::Error(QString msg) { mitk::StatusBar::GetInstance()->DisplayErrorText(msg.toLatin1()); MITK_ERROR << msg.toStdString().c_str(); } void QmitkMatchPointRegistrationVisualizer::CreateQtPartControl(QWidget* parent) { m_Controls = new Ui::MatchPointRegVisControls; // create GUI widgets from the Qt Designer's .ui file m_Controls->setupUi(parent); m_Parent = parent; this->m_Controls->btnVecMagColorSmall->setDisplayColorName(false); this->m_Controls->btnVecMagColorMedium->setDisplayColorName(false); this->m_Controls->btnVecMagColorLarge->setDisplayColorName(false); this->m_Controls->btnVecMagColorNeg->setDisplayColorName(false); this->m_Controls->btnUniColor->setDisplayColorName(false); this->m_Controls->btnStartGridColor->setDisplayColorName(false); this->CreateConnections(); this->m_Controls->radioColorUni->setChecked(false); this->m_Controls->radioColorVecMag->setChecked(true); this->CheckInputs(); this->LoadStateFromNode(); this->ConfigureVisualizationControls(); } mitk::MAPRegistrationWrapper* QmitkMatchPointRegistrationVisualizer::GetCurrentRegistration() { mitk::MAPRegistrationWrapper* result = nullptr; if (this->m_spSelectedRegNode.IsNotNull()) { result = dynamic_cast(this->m_spSelectedRegNode->GetData()); assert(result); } return result; } mitk::DataNode::Pointer QmitkMatchPointRegistrationVisualizer::GetSelectedRegNode() const { mitk::DataNode::Pointer spResult = nullptr; typedef QList NodeListType; NodeListType nodes = this->GetDataManagerSelection(); for (NodeListType::iterator pos = nodes.begin(); pos != nodes.end(); ++pos) { if (mitk::MITKRegistrationHelper::IsRegNode(*pos)) { spResult = *pos; break; } } return spResult; } mitk::DataNode::Pointer QmitkMatchPointRegistrationVisualizer::GetRefNodeOfReg(bool target) const { mitk::DataNode::Pointer spResult = nullptr; if (this->m_spSelectedRegNode.IsNotNull() && m_spSelectedRegNode->GetData()) { std::string nodeName; mitk::BaseProperty* uidProp; if (target) { uidProp = m_spSelectedRegNode->GetData()->GetProperty(mitk::Prop_RegAlgTargetData); } else { uidProp = m_spSelectedRegNode->GetData()->GetProperty(mitk::Prop_RegAlgMovingData); } if (uidProp) { //search for the target node mitk::NodePredicateDataProperty::Pointer predicate = mitk::NodePredicateDataProperty::New(mitk::Prop_UID, uidProp); spResult = this->GetDataStorage()->GetNode(predicate); } } return spResult; } mitk::DataNode::Pointer QmitkMatchPointRegistrationVisualizer::GetSelectedDataNode() { typedef QList NodeListType; NodeListType nodes = this->GetDataManagerSelection(); mitk::DataNode::Pointer result; for (NodeListType::iterator pos = nodes.begin(); pos != nodes.end(); ++pos) { if (!mitk::MITKRegistrationHelper::IsRegNode(*pos) && (*pos)->GetData() && (*pos)->GetData()->GetGeometry()) { result = *pos; break; } } return result; } void QmitkMatchPointRegistrationVisualizer::CheckInputs() { mitk::DataNode::Pointer regNode = this->GetSelectedRegNode(); if (!m_Controls->m_pbLockReg->isChecked()) { this->m_spSelectedRegNode = regNode; } this->InitRegNode(); mitk::DataNode::Pointer fovNode = this->GetSelectedDataNode(); if (!m_Controls->m_pbLockFOVRef->isChecked()) { this->m_spSelectedFOVRefNode = fovNode; } } void QmitkMatchPointRegistrationVisualizer::ConfigureVisualizationControls() { if (!m_internalUpdateGuard) { m_internalUpdateGuard = true; m_Controls->groupViz->setVisible(this->m_spSelectedRegNode.IsNotNull()); m_Controls->m_pbUpdateViz->setEnabled(this->m_spSelectedRegNode.IsNotNull()); m_Controls->m_boxSettings->setEnabled(this->m_spSelectedRegNode.IsNotNull()); m_Controls->m_boxStyles->setEnabled(this->m_spSelectedRegNode.IsNotNull()); this->ActualizeRegInfo(this->GetCurrentRegistration()); if (this->m_spSelectedRegNode.IsNull()) { m_Controls->m_lbRegistrationName->setText( QString("no registration selected!")); } else { m_Controls->m_lbRegistrationName->setText(QString::fromStdString( this->m_spSelectedRegNode->GetName())); } this->m_Controls->m_pbLockReg->setEnabled(this->m_spSelectedRegNode.IsNotNull()); this->m_Controls->m_pbUseFOVRef->setEnabled(this->m_spSelectedRegNode.IsNotNull() && this->m_spSelectedFOVRefNode.IsNotNull()); this->m_Controls->m_checkUseRefSize->setEnabled(this->m_spSelectedRegNode.IsNotNull() && this->m_spSelectedFOVRefNode.IsNotNull()); this->m_Controls->m_checkUseRefOrigin->setEnabled(this->m_spSelectedRegNode.IsNotNull() && this->m_spSelectedFOVRefNode.IsNotNull()); this->m_Controls->m_checkUseRefSpacing->setEnabled(this->m_spSelectedRegNode.IsNotNull() && this->m_spSelectedFOVRefNode.IsNotNull()); this->m_Controls->m_pbLockFOVRef->setEnabled(this->m_spSelectedFOVRefNode.IsNotNull()); if (this->m_spSelectedFOVRefNode.IsNull()) { m_Controls->m_lbFOVRef->setText(QString("no valid reference selected!")); } else { m_Controls->m_lbFOVRef->setText(QString::fromStdString(this->m_spSelectedFOVRefNode->GetName())); } m_internalUpdateGuard = false; } } void QmitkMatchPointRegistrationVisualizer::StoreStateInNode() { if (this->m_spSelectedRegNode.IsNotNull()) { //general this->m_spSelectedRegNode->SetProperty(mitk::nodeProp_RegVisDirection, mitk::RegVisDirectionProperty::New(this->m_Controls->m_comboDirection->currentIndex())); this->m_spSelectedRegNode->SetBoolProperty(mitk::nodeProp_RegVisGrid, this->m_Controls->m_pbStyleGrid->isChecked()); this->m_spSelectedRegNode->SetBoolProperty(mitk::nodeProp_RegVisGlyph, this->m_Controls->m_pbStyleGlyph->isChecked()); this->m_spSelectedRegNode->SetBoolProperty(mitk::nodeProp_RegVisPoints, this->m_Controls->m_pbStylePoints->isChecked()); //Visualization if (this->m_Controls->radioColorUni->isChecked()) { this->m_spSelectedRegNode->SetProperty(mitk::nodeProp_RegVisColorStyle, mitk::RegVisColorStyleProperty::New(0)); } else { this->m_spSelectedRegNode->SetProperty(mitk::nodeProp_RegVisColorStyle, mitk::RegVisColorStyleProperty::New(1)); } float tmpColor[3]; tmpColor[0] = this->m_Controls->btnUniColor->color().redF(); tmpColor[1] = this->m_Controls->btnUniColor->color().greenF(); tmpColor[2] = this->m_Controls->btnUniColor->color().blueF(); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisColorUni, mitk::ColorProperty::New(tmpColor), nullptr, true); tmpColor[0] = this->m_Controls->btnVecMagColorNeg->color().redF(); tmpColor[1] = this->m_Controls->btnVecMagColorNeg->color().greenF(); tmpColor[2] = this->m_Controls->btnVecMagColorNeg->color().blueF(); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisColor1Value, mitk::ColorProperty::New(tmpColor), nullptr, true); tmpColor[0] = this->m_Controls->btnVecMagColorSmall->color().redF(); tmpColor[1] = this->m_Controls->btnVecMagColorSmall->color().greenF(); tmpColor[2] = this->m_Controls->btnVecMagColorSmall->color().blueF(); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisColor2Value, mitk::ColorProperty::New(tmpColor), nullptr, true); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisColor2Magnitude, mitk::DoubleProperty::New(this->m_Controls->sbVecMagSmall->value()), nullptr, true); tmpColor[0] = this->m_Controls->btnVecMagColorMedium->color().redF(); tmpColor[1] = this->m_Controls->btnVecMagColorMedium->color().greenF(); tmpColor[2] = this->m_Controls->btnVecMagColorMedium->color().blueF(); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisColor3Value, mitk::ColorProperty::New(tmpColor), nullptr, true); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisColor3Magnitude, mitk::DoubleProperty::New(this->m_Controls->sbVecMagMedium->value()), nullptr, true); tmpColor[0] = this->m_Controls->btnVecMagColorLarge->color().redF(); tmpColor[1] = this->m_Controls->btnVecMagColorLarge->color().greenF(); tmpColor[2] = this->m_Controls->btnVecMagColorLarge->color().blueF(); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisColor4Value, mitk::ColorProperty::New(tmpColor), nullptr, true); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisColor4Magnitude, mitk::DoubleProperty::New(this->m_Controls->sbVecMagLarge->value()), nullptr, true); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisColorInterpolate, mitk::BoolProperty::New(this->m_Controls->cbVevMagInterlolate->isChecked()), nullptr, true); //Grid Settings this->m_spSelectedRegNode->SetIntProperty(mitk::nodeProp_RegVisGridFrequence, this->m_Controls->m_sbGridFrequency->value()); this->m_spSelectedRegNode->SetBoolProperty(mitk::nodeProp_RegVisGridShowStart, this->m_Controls->m_groupShowStartGrid->isChecked()); tmpColor[0] = this->m_Controls->btnStartGridColor->color().redF(); tmpColor[1] = this->m_Controls->btnStartGridColor->color().greenF(); tmpColor[2] = this->m_Controls->btnStartGridColor->color().blueF(); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisGridStartColor, mitk::ColorProperty::New(tmpColor), nullptr, true); //FOV mitk::Vector3D value; value[0] = this->m_Controls->m_sbFOVSizeX->value(); value[1] = this->m_Controls->m_sbFOVSizeY->value(); value[2] = this->m_Controls->m_sbFOVSizeZ->value(); this->m_spSelectedRegNode->SetProperty(mitk::nodeProp_RegVisFOVSize, mitk::Vector3DProperty::New(value)); value[0] = this->m_Controls->m_sbGridSpX->value(); value[1] = this->m_Controls->m_sbGridSpY->value(); value[2] = this->m_Controls->m_sbGridSpZ->value(); this->m_spSelectedRegNode->SetProperty(mitk::nodeProp_RegVisFOVSpacing, mitk::Vector3DProperty::New(value)); mitk::Point3D origin; origin[0] = this->m_Controls->m_sbFOVOriginX->value(); origin[1] = this->m_Controls->m_sbFOVOriginY->value(); origin[2] = this->m_Controls->m_sbFOVOriginZ->value(); this->m_spSelectedRegNode->SetProperty(mitk::nodeProp_RegVisFOVOrigin, mitk::Point3dProperty::New(origin)); mitk::Vector3D orientationRow1; mitk::Vector3D orientationRow2; mitk::Vector3D orientationRow3; orientationRow1.SetVnlVector(m_FOVRefOrientation.GetVnlMatrix().get_row(0)); orientationRow2.SetVnlVector(m_FOVRefOrientation.GetVnlMatrix().get_row(1)); orientationRow3.SetVnlVector(m_FOVRefOrientation.GetVnlMatrix().get_row(2)); this->m_spSelectedRegNode->SetProperty(mitk::nodeProp_RegVisFOVOrientation1, mitk::Vector3DProperty::New(orientationRow1)); this->m_spSelectedRegNode->SetProperty(mitk::nodeProp_RegVisFOVOrientation2, mitk::Vector3DProperty::New(orientationRow2)); this->m_spSelectedRegNode->SetProperty(mitk::nodeProp_RegVisFOVOrientation3, mitk::Vector3DProperty::New(orientationRow3)); } } void QmitkMatchPointRegistrationVisualizer::LoadStateFromNode() { if (this->m_spSelectedRegNode.IsNotNull()) { mitk::RegVisDirectionProperty* directionProp = nullptr; if (this->m_spSelectedRegNode->GetProperty(directionProp, mitk::nodeProp_RegVisDirection)) { this->m_Controls->m_comboDirection->setCurrentIndex(directionProp->GetValueAsId()); } else { this->Error(QString("Cannot configure plugin controlls correctly. Node property ") + QString( mitk::nodeProp_RegVisDirection) + QString(" has not the assumed type.")); } bool styleActive = false; if (this->m_spSelectedRegNode->GetBoolProperty(mitk::nodeProp_RegVisGrid, styleActive)) { this->m_Controls->m_pbStyleGrid->setChecked(styleActive); this->m_Controls->tabGrid->setEnabled(styleActive); } else { this->Error(QString("Cannot configure plugin controlls correctly. Node property ") + QString( mitk::nodeProp_RegVisGrid) + QString(" has not the assumed type.")); } if (this->m_spSelectedRegNode->GetBoolProperty(mitk::nodeProp_RegVisGlyph, styleActive)) { this->m_Controls->m_pbStyleGlyph->setChecked(styleActive); } else { this->Error(QString("Cannot configure plugin controlls correctly. Node property ") + QString( mitk::nodeProp_RegVisGlyph) + QString(" has not the assumed type.")); } if (this->m_spSelectedRegNode->GetBoolProperty(mitk::nodeProp_RegVisPoints, styleActive)) { this->m_Controls->m_pbStylePoints->setChecked(styleActive); } else { this->Error(QString("Cannot configure plugin controlls correctly. Node property ") + QString( mitk::nodeProp_RegVisPoints) + QString(" has not the assumed type.")); } /////////////////////////////////////////////////////// //visualization mitk::RegVisColorStyleProperty* colorStyleProp = nullptr; if (this->m_spSelectedRegNode->GetProperty(colorStyleProp, mitk::nodeProp_RegVisColorStyle)) { this->m_Controls->radioColorUni->setChecked(colorStyleProp->GetValueAsId() == 0); this->m_Controls->radioColorVecMag->setChecked(colorStyleProp->GetValueAsId() == 1); } else { this->Error(QString("Cannot configure plugin controlls correctly. Node property ") + QString( mitk::nodeProp_RegVisColorStyle) + QString(" has not the assumed type.")); } QColor tmpColor; float colorUni[3] = { 0.0, 0.0, 0.0 }; this->m_spSelectedRegNode->GetColor(colorUni, nullptr, mitk::nodeProp_RegVisColorUni); tmpColor.setRgbF(colorUni[0], colorUni[1], colorUni[2]); this->m_Controls->btnUniColor->setColor(tmpColor); float color1[3] = { 0.0, 0.0, 0.0 }; this->m_spSelectedRegNode->GetColor(color1, nullptr, mitk::nodeProp_RegVisColor1Value); tmpColor.setRgbF(color1[0], color1[1], color1[2]); this->m_Controls->btnVecMagColorNeg->setColor(tmpColor); float color2[3] = { 0.25, 0.25, 0.25 }; this->m_spSelectedRegNode->GetColor(color2, nullptr, mitk::nodeProp_RegVisColor2Value); tmpColor.setRgbF(color2[0], color2[1], color2[2]); this->m_Controls->btnVecMagColorSmall->setColor(tmpColor); float color3[3] = { 0.5, 0.5, 0.5 }; this->m_spSelectedRegNode->GetColor(color3, nullptr, mitk::nodeProp_RegVisColor3Value); tmpColor.setRgbF(color3[0], color3[1], color3[2]); this->m_Controls->btnVecMagColorMedium->setColor(tmpColor); float color4[3] = { 1.0, 1.0, 1.0 }; this->m_spSelectedRegNode->GetColor(color4, nullptr, mitk::nodeProp_RegVisColor4Value); tmpColor.setRgbF(color4[0], color4[1], color4[2]); this->m_Controls->btnVecMagColorLarge->setColor(tmpColor); double mag2 = 0; this->m_spSelectedRegNode->GetPropertyValue(mitk::nodeProp_RegVisColor2Magnitude, mag2); double mag3 = 0; this->m_spSelectedRegNode->GetPropertyValue(mitk::nodeProp_RegVisColor3Magnitude, mag3); double mag4 = 0; this->m_spSelectedRegNode->GetPropertyValue(mitk::nodeProp_RegVisColor4Magnitude, mag4); bool interpolate = true; this->m_spSelectedRegNode->GetBoolProperty(mitk::nodeProp_RegVisColorInterpolate, interpolate); this->m_Controls->sbVecMagSmall->setValue(mag2); this->m_Controls->sbVecMagMedium->setValue(mag3); this->m_Controls->sbVecMagLarge->setValue(mag4); this->m_Controls->cbVevMagInterlolate->setChecked(interpolate); /////////////////////////////////////////////////////// //Grid general bool showStart = false; if (this->m_spSelectedRegNode->GetBoolProperty(mitk::nodeProp_RegVisGridShowStart, showStart)) { this->m_Controls->m_groupShowStartGrid->setChecked(showStart); } else { this->Error(QString("Cannot configure plugin controlls correctly. Node property ") + QString( mitk::nodeProp_RegVisGridShowStart) + QString(" is not correctly defined.")); } int gridFrequ = 5; if (this->m_spSelectedRegNode->GetIntProperty(mitk::nodeProp_RegVisGridFrequence, gridFrequ)) { this->m_Controls->m_sbGridFrequency->setValue(gridFrequ); } else { this->Error(QString("Cannot configure plugin controlls correctly. Node property ") + QString( mitk::nodeProp_RegVisGridFrequence) + QString(" is not correctly defined.")); } float colorStart[3] = { 0.0, 0.0, 0.0 }; this->m_spSelectedRegNode->GetColor(colorStart, nullptr, mitk::nodeProp_RegVisGridStartColor); tmpColor.setRgbF(colorStart[0], colorStart[1], colorStart[2]); this->m_Controls->btnStartGridColor->setColor(tmpColor); /////////////////////////////////////////////////////// //FOV mitk::Vector3DProperty* valueProp = nullptr; if (this->m_spSelectedRegNode->GetProperty(valueProp, mitk::nodeProp_RegVisFOVSize)) { this->m_Controls->m_sbFOVSizeX->setValue(valueProp->GetValue()[0]); this->m_Controls->m_sbFOVSizeY->setValue(valueProp->GetValue()[1]); this->m_Controls->m_sbFOVSizeZ->setValue(valueProp->GetValue()[2]); } else { this->Error(QString("Cannot configure plugin controlls correctly. Node property ") + QString( mitk::nodeProp_RegVisFOVSize) + QString(" is not correctly defined.")); } if (this->m_spSelectedRegNode->GetProperty(valueProp, mitk::nodeProp_RegVisFOVSpacing)) { this->m_Controls->m_sbGridSpX->setValue(valueProp->GetValue()[0]); this->m_Controls->m_sbGridSpY->setValue(valueProp->GetValue()[1]); this->m_Controls->m_sbGridSpZ->setValue(valueProp->GetValue()[2]); } else { this->Error(QString("Cannot configure plugin controlls correctly. Node property ") + QString( mitk::nodeProp_RegVisFOVSpacing) + QString(" is not correctly defined.")); } mitk::Point3dProperty* originProp = nullptr; if (this->m_spSelectedRegNode->GetProperty(originProp, mitk::nodeProp_RegVisFOVOrigin)) { this->m_Controls->m_sbFOVOriginX->setValue(originProp->GetValue()[0]); this->m_Controls->m_sbFOVOriginY->setValue(originProp->GetValue()[1]); this->m_Controls->m_sbFOVOriginZ->setValue(originProp->GetValue()[2]); } else { this->Error(QString("Cannot configure plugin controlls correctly. Node property ") + QString( mitk::nodeProp_RegVisFOVOrigin) + QString(" is not correctly defined.")); } mitk::Vector3DProperty* orientationProp1; mitk::Vector3DProperty* orientationProp2; mitk::Vector3DProperty* orientationProp3; if (this->m_spSelectedRegNode->GetProperty(orientationProp1, mitk::nodeProp_RegVisFOVOrientation1) && this->m_spSelectedRegNode->GetProperty(orientationProp2, mitk::nodeProp_RegVisFOVOrientation2) && this->m_spSelectedRegNode->GetProperty(orientationProp3, mitk::nodeProp_RegVisFOVOrientation3)) { this->m_Controls->m_sbFOVOriginX->setValue(originProp->GetValue()[0]); this->m_Controls->m_sbFOVOriginY->setValue(originProp->GetValue()[1]); this->m_Controls->m_sbFOVOriginZ->setValue(originProp->GetValue()[2]); m_FOVRefOrientation.GetVnlMatrix().set_row(0, orientationProp1->GetValue().GetVnlVector()); m_FOVRefOrientation.GetVnlMatrix().set_row(1, orientationProp2->GetValue().GetVnlVector()); m_FOVRefOrientation.GetVnlMatrix().set_row(2, orientationProp3->GetValue().GetVnlVector()); } else { m_FOVRefOrientation.SetIdentity(); this->Error(QString("Cannot configure plugin controlls correctly. One of the node propertiesy ") + QString(mitk::nodeProp_RegVisFOVOrientation1) + QString(mitk::nodeProp_RegVisFOVOrientation2) + QString(mitk::nodeProp_RegVisFOVOrientation3) + QString(" is not correctly defined.")); } this->UpdateOrientationMatrixWidget(); } } void QmitkMatchPointRegistrationVisualizer::CheckAndSetDefaultFOVRef() { //check if node has a default reference node. mitk::DataNode::Pointer defaultRef = this->GetRefNodeOfReg( this->m_Controls->m_comboDirection->currentIndex() == 1); //direction value 1 = show inverse mapping -> we need the target image used for the registration. //if there is a default node and no m_spSelectedFOVRefNode is set -> set default node and transfer values if (defaultRef.IsNotNull() && this->m_spSelectedFOVRefNode.IsNull() && !(this->m_Controls->m_pbLockFOVRef->isDown())) { //there is a default ref and no ref lock -> select default ref and transfer its values this->m_spSelectedFOVRefNode = defaultRef; this->m_Controls->m_checkUseRefSize->setChecked(true); this->m_Controls->m_checkUseRefOrigin->setChecked(true); this->m_Controls->m_checkUseRefSpacing->setChecked(true); this->m_Controls->m_checkUseRefOrientation->setChecked(true); //auto transfere values this->OnUseFOVRefBtnPushed(); } } void QmitkMatchPointRegistrationVisualizer::OnSelectionChanged( - berry::IWorkbenchPart::Pointer /*source*/, - const QList& nodes) + berry::IWorkbenchPart::Pointer, + const QList&) { this->CheckInputs(); this->LoadStateFromNode(); this->CheckAndSetDefaultFOVRef(); this->ConfigureVisualizationControls(); } void QmitkMatchPointRegistrationVisualizer::ActualizeRegInfo(mitk::MAPRegistrationWrapper* currentReg) { std::stringstream descriptionString; m_Controls->m_teRegInfo->clear(); if (currentReg) { descriptionString << "Moving dimension: " << currentReg->GetMovingDimensions() << "
"; descriptionString << "Target dimension: " << currentReg->GetTargetDimensions() << "
"; descriptionString << "Limited moving representation: " << currentReg->HasLimitedMovingRepresentation() << "
"; descriptionString << "Limited target representation: " << currentReg->HasLimitedTargetRepresentation() << "
"; mitk::MAPRegistrationWrapper::TagMapType tagMap = currentReg->GetTags(); descriptionString << "
Tags:
"; for (mitk::MAPRegistrationWrapper::TagMapType::const_iterator pos = tagMap.begin(); pos != tagMap.end(); ++pos) { descriptionString << pos->first << " : " << pos->second << "
"; } } else { descriptionString << "no registration selected!"; } m_Controls->m_teRegInfo->insertHtml(QString::fromStdString(descriptionString.str())); } -void QmitkMatchPointRegistrationVisualizer::OnDirectionChanged(int index) +void QmitkMatchPointRegistrationVisualizer::OnDirectionChanged(int) { this->CheckAndSetDefaultFOVRef(); this->ConfigureVisualizationControls(); }; void QmitkMatchPointRegistrationVisualizer::OnLockRegButtonPushed() { if (this->m_Controls->m_pbLockReg->isChecked()) { if (this->m_spSelectedRegNode.IsNotNull()) { this->m_spSelectedRegNode->SetSelected(false); this->GetDataStorage()->Modified(); } } this->CheckInputs(); this->ConfigureVisualizationControls(); } void QmitkMatchPointRegistrationVisualizer::OnUpdateBtnPushed() { this->StoreStateInNode(); mitk::Geometry3D::Pointer gridDesc; unsigned int gridFrequ = 5; mitk::GetGridGeometryFromNode(this->m_spSelectedRegNode, gridDesc, gridFrequ); this->GetCurrentRegistration()->SetGeometry(gridDesc); mitk::RenderingManager::GetInstance()->ForceImmediateUpdateAll(); } void QmitkMatchPointRegistrationVisualizer::OnStyleButtonPushed() { } void QmitkMatchPointRegistrationVisualizer::OnColorInterpolationChecked(bool checked) { if (checked) { this->m_Controls->labelVecMagSmall->setText(QString("=")); this->m_Controls->labelVecMagMedium->setText(QString("=")); this->m_Controls->labelVecMagLarge->setText(QString("=")); } else { this->m_Controls->labelVecMagSmall->setText(QString(">")); this->m_Controls->labelVecMagMedium->setText(QString(">")); this->m_Controls->labelVecMagLarge->setText(QString(">")); } }; mitk::ScalarType QmitkMatchPointRegistrationVisualizer::GetSaveSpacing(mitk::ScalarType gridRes, mitk::ScalarType spacing, unsigned int maxGridRes) const { mitk::ScalarType newSpacing = spacing; mitk::ScalarType scaling = gridRes / maxGridRes; if (scaling > 1.0) { newSpacing = spacing * scaling; } return newSpacing; } void QmitkMatchPointRegistrationVisualizer::OnUseFOVRefBtnPushed() { if (this->m_spSelectedFOVRefNode.IsNotNull()) { assert(this->m_spSelectedFOVRefNode->GetData()); assert(this->m_spSelectedFOVRefNode->GetData()->GetGeometry()); mitk::BaseGeometry* gridRef = this->m_spSelectedFOVRefNode->GetData()->GetGeometry(); mitk::Vector3D spacing = gridRef->GetSpacing(); mitk::Point3D origin = gridRef->GetOrigin(); mitk::Geometry3D::BoundsArrayType bounds = gridRef->GetBounds(); mitk::AffineTransform3D::ConstPointer fovTransform = gridRef->GetIndexToWorldTransform(); if (this->m_Controls->m_checkUseRefSize->isChecked()) { this->m_Controls->m_sbFOVSizeX->setValue((bounds[1] - bounds[0])*spacing[0]); this->m_Controls->m_sbFOVSizeY->setValue((bounds[3] - bounds[2])*spacing[1]); this->m_Controls->m_sbFOVSizeZ->setValue((bounds[5] - bounds[4])*spacing[2]); } if (this->m_Controls->m_checkUseRefSpacing->isChecked()) { this->m_Controls->m_sbGridSpX->setValue(GetSaveSpacing((bounds[1] - bounds[0]), spacing[0], 20)); this->m_Controls->m_sbGridSpY->setValue(GetSaveSpacing((bounds[3] - bounds[2]), spacing[1], 20)); this->m_Controls->m_sbGridSpZ->setValue(GetSaveSpacing((bounds[5] - bounds[4]), spacing[2], 20)); } if (this->m_Controls->m_checkUseRefOrigin->isChecked()) { this->m_Controls->m_sbFOVOriginX->setValue(origin[0]); this->m_Controls->m_sbFOVOriginY->setValue(origin[1]); this->m_Controls->m_sbFOVOriginZ->setValue(origin[2]); } if (this->m_Controls->m_checkUseRefOrientation->isChecked()) { this->m_FOVRefOrientation = fovTransform->GetMatrix(); this->UpdateOrientationMatrixWidget(); } } } void QmitkMatchPointRegistrationVisualizer::UpdateOrientationMatrixWidget() { for (unsigned int r = 0; r < 3; ++r) { for (unsigned int c = 0; c < 3; ++c) { this->m_Controls->m_tableOrientation->item(r, c)->setText(QString::number(this->m_FOVRefOrientation.GetVnlMatrix().get(r, c))); } } } void QmitkMatchPointRegistrationVisualizer::InitRegNode() { if (this->m_spSelectedRegNode.IsNotNull()) { this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisGrid, mitk::BoolProperty::New(true)); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisGlyph, mitk::BoolProperty::New(false)); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisPoints, mitk::BoolProperty::New(false)); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisDirection, mitk::RegVisDirectionProperty::New()); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisColorStyle, mitk::RegVisColorStyleProperty::New(1)); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisColorUni, mitk::ColorProperty::New(0, 0.5, 0)); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisGridFrequence, mitk::IntProperty::New(3)); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisGridShowStart, mitk::BoolProperty::New(false)); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisGridStartColor, mitk::ColorProperty::New(0.5, 0, 0)); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisFOVSize, mitk::Vector3DProperty::New(mitk::Vector3D(100.0))); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisFOVSpacing, mitk::Vector3DProperty::New(mitk::Vector3D(5.0))); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisColor1Value, mitk::ColorProperty::New(0, 0, 0.5)); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisColor2Value, mitk::ColorProperty::New(0, 0.7, 0)); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisColor2Magnitude, mitk::DoubleProperty::New(1)); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisColor3Value, mitk::ColorProperty::New(1, 1, 0)); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisColor3Magnitude, mitk::DoubleProperty::New(5)); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisColor4Value, mitk::ColorProperty::New(1, 0, 0)); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisColor4Magnitude, mitk::DoubleProperty::New(15)); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisColorInterpolate, mitk::BoolProperty::New(true)); mitk::Point3D origin; origin.Fill(0.0); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisFOVOrigin, mitk::Point3dProperty::New(mitk::Point3D(origin))); mitk::Vector3D vec(0.0); vec.SetElement(0, 1.0); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisFOVOrientation1, mitk::Vector3DProperty::New(vec)); vec.Fill(0.0); vec.SetElement(1, 1.0); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisFOVOrientation2, mitk::Vector3DProperty::New(vec)); vec.Fill(0.0); vec.SetElement(2, 1.0); this->m_spSelectedRegNode->AddProperty(mitk::nodeProp_RegVisFOVOrientation3, mitk::Vector3DProperty::New(vec)); } }