diff --git a/Modules/ContourModel/Rendering/mitkContourModelGLMapper2DBase.cpp b/Modules/ContourModel/Rendering/mitkContourModelGLMapper2DBase.cpp index 357c69b567..3a8b002349 100644 --- a/Modules/ContourModel/Rendering/mitkContourModelGLMapper2DBase.cpp +++ b/Modules/ContourModel/Rendering/mitkContourModelGLMapper2DBase.cpp @@ -1,367 +1,370 @@ /*=================================================================== 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 "mitkContourModelSetGLMapper2D.h" #include "mitkColorProperty.h" #include "mitkContourModelSet.h" #include "mitkPlaneGeometry.h" #include "mitkProperties.h" #include #include "mitkBaseRenderer.h" #include "mitkContourModel.h" #include "mitkOverlayManager.h" #include "mitkTextOverlay2D.h" #include "mitkGL.h" mitk::ContourModelGLMapper2DBase::ContourModelGLMapper2DBase() { m_PointNumbersOverlay = mitk::TextOverlay2D::New(); m_ControlPointNumbersOverlay = mitk::TextOverlay2D::New(); } mitk::ContourModelGLMapper2DBase::~ContourModelGLMapper2DBase() { } void mitk::ContourModelGLMapper2DBase::DrawContour(mitk::ContourModel *renderingContour, mitk::BaseRenderer *renderer) { if (std::find(m_RendererList.begin(), m_RendererList.end(), renderer) == m_RendererList.end()) { m_RendererList.push_back(renderer); } renderer->GetOverlayManager()->AddOverlay(m_PointNumbersOverlay.GetPointer(), renderer); - m_PointNumbersOverlay->SetVisibility(false, renderer); + m_PointNumbersOverlay->SetVisibility(false); renderer->GetOverlayManager()->AddOverlay(m_ControlPointNumbersOverlay.GetPointer(), renderer); - m_ControlPointNumbersOverlay->SetVisibility(false, renderer); + m_ControlPointNumbersOverlay->SetVisibility(false); InternalDrawContour(renderingContour, renderer); } void mitk::ContourModelGLMapper2DBase::InternalDrawContour(mitk::ContourModel *renderingContour, mitk::BaseRenderer *renderer) { if (!renderingContour) return; mitk::DataNode *dataNode = this->GetDataNode(); renderingContour->UpdateOutputInformation(); unsigned int timestep = renderer->GetTimeStep(); if (!renderingContour->IsEmptyTimeStep(timestep)) { // apply color and opacity read from the PropertyList ApplyColorAndOpacityProperties(renderer); mitk::ColorProperty::Pointer colorprop = dynamic_cast(dataNode->GetProperty("contour.color", renderer)); float opacity = 0.5; dataNode->GetFloatProperty("opacity", opacity, renderer); if (colorprop) { // set the color of the contour double red = colorprop->GetColor().GetRed(); double green = colorprop->GetColor().GetGreen(); double blue = colorprop->GetColor().GetBlue(); glColor4f(red, green, blue, opacity); } mitk::ColorProperty::Pointer selectedcolor = dynamic_cast(dataNode->GetProperty("contour.points.color", renderer)); if (!selectedcolor) { selectedcolor = mitk::ColorProperty::New(1.0, 0.0, 0.1); } vtkLinearTransform *transform = dataNode->GetVtkTransform(); // ContourModel::OutputType point; mitk::Point3D point; mitk::Point3D p; float vtkp[3]; float lineWidth = 3.0; bool drawit = false; bool isHovering = false; dataNode->GetBoolProperty("contour.hovering", isHovering); if (isHovering) dataNode->GetFloatProperty("contour.hovering.width", lineWidth); else dataNode->GetFloatProperty("contour.width", lineWidth); bool showSegments = false; dataNode->GetBoolProperty("contour.segments.show", showSegments); bool showControlPoints = false; dataNode->GetBoolProperty("contour.controlpoints.show", showControlPoints); bool showPoints = false; dataNode->GetBoolProperty("contour.points.show", showPoints); bool showPointsNumbers = false; dataNode->GetBoolProperty("contour.points.text", showPointsNumbers); bool showControlPointsNumbers = false; dataNode->GetBoolProperty("contour.controlpoints.text", showControlPointsNumbers); bool projectmode = false; dataNode->GetVisibility(projectmode, renderer, "contour.project-onto-plane"); mitk::ContourModel::VertexIterator pointsIt = renderingContour->IteratorBegin(timestep); Point2D pt2d; // projected_p in display coordinates Point2D lastPt2d; int index = 0; mitk::ScalarType maxDiff = 0.25; while (pointsIt != renderingContour->IteratorEnd(timestep)) { lastPt2d = pt2d; point = (*pointsIt)->Coordinates; itk2vtk(point, vtkp); transform->TransformPoint(vtkp, vtkp); vtk2itk(vtkp, p); renderer->WorldToDisplay(p, pt2d); ScalarType scalardiff = fabs(renderer->GetCurrentWorldPlaneGeometry()->SignedDistance(p)); // project to plane if (projectmode) { drawit = true; } else if (scalardiff < maxDiff) // point is close enough to be drawn { drawit = true; } else { drawit = false; } // draw line if (drawit) { if (showSegments) { // lastPt2d is not valid in first step if (!(pointsIt == renderingContour->IteratorBegin(timestep))) { glLineWidth(lineWidth); glBegin(GL_LINES); glVertex2f(pt2d[0], pt2d[1]); glVertex2f(lastPt2d[0], lastPt2d[1]); glEnd(); glLineWidth(1); } } if (showControlPoints) { // draw ontrol points if ((*pointsIt)->IsControlPoint) { float pointsize = 4; Point2D tmp; Vector2D horz, vert; horz[1] = 0; vert[0] = 0; horz[0] = pointsize; vert[1] = pointsize; glColor3f(selectedcolor->GetColor().GetRed(), selectedcolor->GetColor().GetBlue(), selectedcolor->GetColor().GetGreen()); glLineWidth(1); // a rectangle around the point with the selected color glBegin(GL_LINE_LOOP); tmp = pt2d - horz; glVertex2dv(&tmp[0]); tmp = pt2d + vert; glVertex2dv(&tmp[0]); tmp = pt2d + horz; glVertex2dv(&tmp[0]); tmp = pt2d - vert; glVertex2dv(&tmp[0]); glEnd(); glLineWidth(1); // the actual point in the specified color to see the usual color of the point glColor3f( colorprop->GetColor().GetRed(), colorprop->GetColor().GetGreen(), colorprop->GetColor().GetBlue()); glPointSize(1); glBegin(GL_POINTS); tmp = pt2d; glVertex2dv(&tmp[0]); glEnd(); } } if (showPoints) { float pointsize = 3; Point2D tmp; Vector2D horz, vert; horz[1] = 0; vert[0] = 0; horz[0] = pointsize; vert[1] = pointsize; glColor3f(0.0, 0.0, 0.0); glLineWidth(1); // a rectangle around the point with the selected color glBegin(GL_LINE_LOOP); tmp = pt2d - horz; glVertex2dv(&tmp[0]); tmp = pt2d + vert; glVertex2dv(&tmp[0]); tmp = pt2d + horz; glVertex2dv(&tmp[0]); tmp = pt2d - vert; glVertex2dv(&tmp[0]); glEnd(); glLineWidth(1); // the actual point in the specified color to see the usual color of the point glColor3f(colorprop->GetColor().GetRed(), colorprop->GetColor().GetGreen(), colorprop->GetColor().GetBlue()); glPointSize(1); glBegin(GL_POINTS); tmp = pt2d; glVertex2dv(&tmp[0]); glEnd(); } if (showPointsNumbers) { std::string l; std::stringstream ss; ss << index; l.append(ss.str()); float rgb[3]; rgb[0] = 0.0; rgb[1] = 0.0; rgb[2] = 0.0; WriteTextWithOverlay(m_PointNumbersOverlay, l.c_str(), rgb, pt2d, renderer); } if (showControlPointsNumbers && (*pointsIt)->IsControlPoint) { std::string l; std::stringstream ss; ss << index; l.append(ss.str()); float rgb[3]; rgb[0] = 1.0; rgb[1] = 1.0; rgb[2] = 0.0; WriteTextWithOverlay(m_ControlPointNumbersOverlay, l.c_str(), rgb, pt2d, renderer); } index++; } pointsIt++; } // end while iterate over controlpoints // close contour if necessary if (renderingContour->IsClosed(timestep) && drawit && showSegments) { lastPt2d = pt2d; point = renderingContour->GetVertexAt(0, timestep)->Coordinates; itk2vtk(point, vtkp); transform->TransformPoint(vtkp, vtkp); vtk2itk(vtkp, p); renderer->WorldToDisplay(p, pt2d); glLineWidth(lineWidth); glBegin(GL_LINES); glVertex2f(lastPt2d[0], lastPt2d[1]); glVertex2f(pt2d[0], pt2d[1]); glEnd(); glLineWidth(1); } // draw selected vertex if exists if (renderingContour->GetSelectedVertex()) { // transform selected vertex point = renderingContour->GetSelectedVertex()->Coordinates; itk2vtk(point, vtkp); transform->TransformPoint(vtkp, vtkp); vtk2itk(vtkp, p); renderer->WorldToDisplay(p, pt2d); ScalarType scalardiff = fabs(renderer->GetCurrentWorldPlaneGeometry()->SignedDistance(p)); //---------------------------------- // draw point if close to plane if (scalardiff < maxDiff) { float pointsize = 5; Point2D tmp; glColor3f(0.0, 1.0, 0.0); glLineWidth(1); // a diamond around the point glBegin(GL_LINE_LOOP); // begin from upper left corner and paint clockwise tmp[0] = pt2d[0] - pointsize; tmp[1] = pt2d[1] + pointsize; glVertex2dv(&tmp[0]); tmp[0] = pt2d[0] + pointsize; tmp[1] = pt2d[1] + pointsize; glVertex2dv(&tmp[0]); tmp[0] = pt2d[0] + pointsize; tmp[1] = pt2d[1] - pointsize; glVertex2dv(&tmp[0]); tmp[0] = pt2d[0] - pointsize; tmp[1] = pt2d[1] - pointsize; glVertex2dv(&tmp[0]); glEnd(); } //------------------------------------ } } } -void mitk::ContourModelGLMapper2DBase::WriteTextWithOverlay( - TextOverlayPointerType textOverlay, const char *text, float rgb[3], Point2D /*pt2d*/, mitk::BaseRenderer *renderer) +void mitk::ContourModelGLMapper2DBase::WriteTextWithOverlay(TextOverlayPointerType textOverlay, + const char *text, + float rgb[3], + Point2D /*pt2d*/, + mitk::BaseRenderer * /*renderer*/) { textOverlay->SetText(text); textOverlay->SetColor(rgb); textOverlay->SetOpacity(1); textOverlay->SetFontSize(16); textOverlay->SetBoolProperty("drawShadow", false); - textOverlay->SetVisibility(true, renderer); + textOverlay->SetVisibility(true); } diff --git a/Modules/ContourModel/Rendering/mitkContourModelGLMapper2DBase.h b/Modules/ContourModel/Rendering/mitkContourModelGLMapper2DBase.h index 4e7bb4170c..a53ad1ae07 100644 --- a/Modules/ContourModel/Rendering/mitkContourModelGLMapper2DBase.h +++ b/Modules/ContourModel/Rendering/mitkContourModelGLMapper2DBase.h @@ -1,64 +1,64 @@ /*=================================================================== 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. ===================================================================*/ #ifndef MITK_ContourModelGLMapper2DBase_H_ #define MITK_ContourModelGLMapper2DBase_H_ #include "mitkCommon.h" #include "mitkGLMapper.h" #include "mitkTextOverlay2D.h" #include namespace mitk { class BaseRenderer; class ContourModel; /** * @brief Base class for OpenGL based 2D mappers. * Provides functionality to draw a contour. * * @ingroup MitkContourModelModule */ class MITKCONTOURMODEL_EXPORT ContourModelGLMapper2DBase : public GLMapper { public: mitkClassMacro(ContourModelGLMapper2DBase, GLMapper); protected: typedef TextOverlay2D::Pointer TextOverlayPointerType; ContourModelGLMapper2DBase(); virtual ~ContourModelGLMapper2DBase(); void DrawContour(mitk::ContourModel *contour, mitk::BaseRenderer *renderer); void WriteTextWithOverlay( - TextOverlayPointerType textOverlay, const char *text, float rgb[3], Point2D pt2d, mitk::BaseRenderer *renderer); + TextOverlayPointerType textOverlay, const char *text, float rgb[3], Point2D pt2d, mitk::BaseRenderer *); virtual void InternalDrawContour(mitk::ContourModel *renderingContour, mitk::BaseRenderer *renderer); TextOverlayPointerType m_PointNumbersOverlay; TextOverlayPointerType m_ControlPointNumbersOverlay; typedef std::vector RendererListType; RendererListType m_RendererList; }; } // namespace mitk #endif diff --git a/Modules/Core/include/mitkOverlay.h b/Modules/Core/include/mitkOverlay.h index 3b41b1a4ef..e8a5e516c3 100644 --- a/Modules/Core/include/mitkOverlay.h +++ b/Modules/Core/include/mitkOverlay.h @@ -1,413 +1,415 @@ /*=================================================================== 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. ===================================================================*/ #ifndef OVERLAY_H #define OVERLAY_H #include #include #include namespace mitk { class AbstractOverlayLayouter; /** \brief Base class for all overlays */ /** This class is to be implemented in order to create overlays which are managed by the OverlayManager and can be placed by a AbstractOverlayLayouter. This class contains an internal Propertylist, and another PropertyList for each BaseRenderer. A property that is specified for a specific renderer always overrides the general internal property of the same name. AddOverlay, RemoveOverlay and UpdateOverlay methods have to be implemented.*/ class MITKCORE_EXPORT Overlay : public itk::Object { friend class AbstractOverlayLayouter; public: /** \brief Container for position and size on the display.*/ struct Bounds { itk::Point Position; itk::Point Size; }; /** \brief Base class for mapper specific rendering ressources. */ class MITKCORE_EXPORT BaseLocalStorage { public: bool IsGenerateDataRequired(mitk::BaseRenderer *renderer, mitk::Overlay *overlay); inline void UpdateGenerateDataTime() { m_LastGenerateDataTime.Modified(); } inline itk::TimeStamp &GetLastGenerateDataTime() { return m_LastGenerateDataTime; } protected: /** \brief timestamp of last update of stored data */ itk::TimeStamp m_LastGenerateDataTime; }; /** * @brief Set the property (instance of BaseProperty) with key @a propertyKey in the PropertyList * of the @a renderer (if NULL, use BaseRenderer-independent PropertyList). This is set-by-value. * * @warning Change in semantics since Aug 25th 2006. Check your usage of this method if you do * more with properties than just call SetProperty( "key", new SomeProperty("value") ). * * @sa GetProperty * @sa m_PropertyList * @sa m_MapOfPropertyLists */ void SetProperty(const std::string &propertyKey, const BaseProperty::Pointer &property); /** * @brief Replace the property (instance of BaseProperty) with key @a propertyKey in the PropertyList * of the @a renderer (if NULL, use BaseRenderer-independent PropertyList). This is set-by-reference. * * If @a renderer is @a NULL the property is set in the BaseRenderer-independent * PropertyList of this Overlay. * @sa GetProperty * @sa m_PropertyList * @sa m_MapOfPropertyLists */ void ReplaceProperty(const std::string &propertyKey, const BaseProperty::Pointer &property); /** * @brief Add the property (instance of BaseProperty) if it does * not exist (or always if \a overwrite is \a true) * with key @a propertyKey in the PropertyList * of the @a renderer (if NULL, use BaseRenderer-independent * PropertyList). This is set-by-value. * * For \a overwrite == \a false the property is \em not changed * if it already exists. For \a overwrite == \a true the method * is identical to SetProperty. * * @sa SetProperty * @sa GetProperty * @sa m_PropertyList * @sa m_MapOfPropertyLists */ void AddProperty(const std::string &propertyKey, const BaseProperty::Pointer &property, bool overwrite = false); /** * @brief Add values from another PropertyList. * * Overwrites values in m_PropertyList only when possible (i.e. when types are compatible). * If you want to allow for object type changes (replacing a "visible":BoolProperty with "visible":IntProperty, * set the @param replace. * * @param replace true: if @param pList contains a property "visible" of type ColorProperty and our m_PropertyList * also has a "visible" property of a different type (e.g. BoolProperty), change the type, i.e. replace the objects * behind the pointer. * * @sa SetProperty * @sa ReplaceProperty * @sa m_PropertyList */ void ConcatenatePropertyList(PropertyList *pList, bool replace = false); /** * @brief Get the property (instance of BaseProperty) with key @a propertyKey from the PropertyList * of the @a renderer, if available there, otherwise use the BaseRenderer-independent PropertyList. * * If @a renderer is @a NULL or the @a propertyKey cannot be found * in the PropertyList specific to @a renderer or is disabled there, the BaseRenderer-independent * PropertyList of this Overlay is queried. * @sa GetPropertyList * @sa m_PropertyList * @sa m_MapOfPropertyLists */ mitk::BaseProperty *GetProperty(const std::string &propertyKey) const; /** * @brief Get the property of type T with key @a propertyKey from the PropertyList * of the @a renderer, if available there, otherwise use the BaseRenderer-independent PropertyList. * * If @a renderer is @a NULL or the @a propertyKey cannot be found * in the PropertyList specific to @a renderer or is disabled there, the BaseRenderer-independent * PropertyList of this Overlay is queried. * @sa GetPropertyList * @sa m_PropertyList * @sa m_MapOfPropertyLists */ template bool GetProperty(itk::SmartPointer &property, const std::string &propertyKey) const { property = dynamic_cast(GetProperty(propertyKey)); return property.IsNotNull(); } /** * @brief Get the property of type T with key @a propertyKey from the PropertyList * of the @a renderer, if available there, otherwise use the BaseRenderer-independent PropertyList. * * If @a renderer is @a NULL or the @a propertyKey cannot be found * in the PropertyList specific to @a renderer or is disabled there, the BaseRenderer-independent * PropertyList of this Overlay is queried. * @sa GetPropertyList * @sa m_PropertyList * @sa m_MapOfPropertyLists */ template bool GetProperty(T *&property, const std::string &propertyKey) const { property = dynamic_cast(GetProperty(propertyKey)); return property != nullptr; } /** * @brief Convenience access method for GenericProperty properties * (T being the type of the second parameter) * @return @a true property was found */ template bool GetPropertyValue(const std::string &propertyKey, T &value) const { GenericProperty *gp = dynamic_cast *>(GetProperty(propertyKey)); if (gp != nullptr) { value = gp->GetValue(); return true; } return false; } /** * @brief Convenience access method for bool properties (instances of * BoolProperty) * @return @a true property was found */ bool GetBoolProperty(const std::string &propertyKey, bool &boolValue) const; /** * @brief Convenience access method for int properties (instances of * IntProperty) * @return @a true property was found */ bool GetIntProperty(const std::string &propertyKey, int &intValue) const; /** * @brief Convenience access method for float properties (instances of * FloatProperty) * @return @a true property was found */ bool GetFloatProperty(const std::string &propertyKey, float &floatValue) const; /** * @brief Convenience access method for string properties (instances of * StringProperty) * @return @a true property was found */ bool GetStringProperty(const std::string &propertyKey, std::string &string) const; /** * @brief Convenience method for setting int properties (instances of * IntProperty) */ void SetIntProperty(const std::string &propertyKey, int intValue); /** * @brief Convenience method for setting int properties (instances of * IntProperty) */ void SetBoolProperty(const std::string &propertyKey, bool boolValue); /** * @brief Convenience method for setting int properties (instances of * IntProperty) */ void SetFloatProperty(const std::string &propertyKey, float floatValue); /** * @brief Convenience method for setting int properties (instances of * IntProperty) */ void SetStringProperty(const std::string &propertyKey, const std::string &string); /** * @brief Convenience access method for boolean properties (instances * of BoolProperty). Return value is the value of the property. If the property is * not found, the value of @a defaultIsOn is returned. * * Thus, the return value has a different meaning than in the * GetBoolProperty method! * @sa GetBoolProperty */ bool IsOn(const std::string &propertyKey, bool defaultIsOn = true) const { GetBoolProperty(propertyKey, defaultIsOn); return defaultIsOn; } /** * @brief Convenience access method for accessing the name of an object (instance of * StringProperty with property-key "name") * @return @a true property was found */ bool GetName(std::string &nodeName, const std::string &propertyKey = "name") const; /** * @brief Extra convenience access method for accessing the name of an object (instance of * StringProperty with property-key "name"). * * This method does not take the renderer specific * propertylists into account, because the name of an object should never be renderer specific. * @returns a std::string with the name of the object (content of "name" Property). * If there is no "name" Property, an empty string will be returned. */ virtual std::string GetName() const; /** * @brief Extra convenience access method to set the name of an object. * * The name will be stored in the non-renderer-specific PropertyList in a StringProperty named "name". */ virtual void SetName(const std::string &name); /** * @brief Convenience access method for color properties (instances of * ColorProperty) * @return @a true property was found */ bool GetColor(float rgb[], const std::string &propertyKey = "color") const; /** * @brief Convenience method for setting color properties (instances of * ColorProperty) */ void SetColor(const mitk::Color &color, const std::string &propertyKey = "color"); /** * @brief Convenience method for setting color properties (instances of * ColorProperty) */ void SetColor(float red, float green, float blue, const std::string &propertyKey = "color"); /** * @brief Convenience method for setting color properties (instances of * ColorProperty) */ void SetColor(const float rgb[], const std::string &propertyKey = "color"); /** * @brief Convenience access method for opacity properties (instances of * FloatProperty) * @return @a true property was found */ bool GetOpacity(float &opacity, const std::string &propertyKey = "opacity") const; /** * @brief Convenience method for setting opacity properties (instances of * FloatProperty) */ void SetOpacity(float opacity, const std::string &propertyKey = "opacity"); void SetText(std::string text); std::string GetText() const; void SetFontSize(int fontSize); int GetFontSize() const; /** * @brief Convenience access method for visibility properties (instances * of BoolProperty with property-key "visible") * @return @a true property was found * @sa IsVisible */ bool GetVisibility(bool &visible, const std::string &propertyKey = "visible") const; /** * @brief Convenience access method for visibility properties (instances * of BoolProperty). Return value is the visibility. Default is * visible==true, i.e., true is returned even if the property (@a * propertyKey) is not found. * * Thus, the return value has a different meaning than in the * GetVisibility method! * @sa GetVisibility * @sa IsOn */ bool IsVisible(const std::string &propertyKey = "visible", bool defaultIsOn = true) const; /** * @brief Convenience method for setting visibility properties (instances * of BoolProperty) * @param visible If set to true, the data will be rendered. If false, the render will skip this data. * @param renderer Specify a renderer if the visibility shall be specific to a renderer * @param propertykey Can be used to specify a user defined name of the visibility propery. */ void SetVisibility(bool visible, const std::string &propertyKey = "visible"); /** \brief Adds the overlay to the specified renderer. Update Overlay should be called soon in order to apply all * properties*/ virtual void AddToBaseRenderer(BaseRenderer *renderer) = 0; /** \brief Adds the overlay to the specified renderer. Update Overlay should be called soon in order to apply all * properties*/ virtual void AddToRenderer(BaseRenderer *renderer, vtkRenderer *vtkrenderer) = 0; /** \brief Removes the overlay from the specified renderer. It is not visible anymore then.*/ virtual void RemoveFromBaseRenderer(BaseRenderer *renderer) = 0; /** \brief Removes the overlay from the specified renderer. It is not visible anymore then.*/ virtual void RemoveFromRenderer(BaseRenderer *renderer, vtkRenderer *vtkrenderer) = 0; /** \brief Applies all properties and should be called before the rendering procedure.*/ virtual void Update(BaseRenderer *renderer) = 0; /** \brief Returns position and size of the overlay on the display.*/ virtual Bounds GetBoundsOnDisplay(BaseRenderer *renderer) const; /** \brief Sets position and size of the overlay on the display.*/ virtual void SetBoundsOnDisplay(BaseRenderer *renderer, const Bounds &); void SetForceInForeground(bool forceForeground); bool IsForceInForeground() const; + PropertyList* GetPropertyList() const; + mitkClassMacroItkParent(Overlay, itk::Object); protected: /** \brief explicit constructor which disallows implicit conversions */ Overlay(); /** \brief virtual destructor in order to derive from this class */ virtual ~Overlay(); /** * @brief BaseRenderer-independent PropertyList * * Properties herein can be overwritten specifically for each BaseRenderer * by the BaseRenderer-specific properties defined in m_MapOfPropertyLists. */ PropertyList::Pointer m_PropertyList; /** * @brief Timestamp of the last change of m_Data */ itk::TimeStamp m_DataReferenceChangedTime; private: /** \brief render this overlay on a foreground renderer */ bool m_ForceInForeground; /** \brief copy constructor */ Overlay(const Overlay &); /** \brief assignment operator */ Overlay &operator=(const Overlay &); /** \brief Reference to the layouter in which this overlay is managed. */ AbstractOverlayLayouter *m_LayoutedBy; }; } // namespace mitk #endif // OVERLAY_H diff --git a/Modules/Core/src/Rendering/mitkOverlay.cpp b/Modules/Core/src/Rendering/mitkOverlay.cpp index 73b1c8170a..b20c4b24cd 100644 --- a/Modules/Core/src/Rendering/mitkOverlay.cpp +++ b/Modules/Core/src/Rendering/mitkOverlay.cpp @@ -1,271 +1,283 @@ /*=================================================================== 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 "mitkOverlay.h" mitk::Overlay::Overlay() : m_LayoutedBy(nullptr) { m_PropertyList = mitk::PropertyList::New(); this->SetName(this->GetNameOfClass()); this->SetVisibility(true); this->SetOpacity(1.0); } mitk::Overlay::~Overlay() { } void mitk::Overlay::SetProperty(const std::string &propertyKey, const BaseProperty::Pointer &propertyValue) { this->m_PropertyList->SetProperty(propertyKey, propertyValue); this->m_PropertyList->Modified(); } void mitk::Overlay::ReplaceProperty(const std::string &propertyKey, const BaseProperty::Pointer &propertyValue) { this->m_PropertyList->ReplaceProperty(propertyKey, propertyValue); this->m_PropertyList->Modified(); } void mitk::Overlay::AddProperty(const std::string &propertyKey, const BaseProperty::Pointer &propertyValue, bool overwrite) { if ((overwrite) || (GetProperty(propertyKey) == NULL)) { SetProperty(propertyKey, propertyValue); } } void mitk::Overlay::ConcatenatePropertyList(PropertyList *pList, bool replace) { m_PropertyList->ConcatenatePropertyList(pList, replace); } mitk::BaseProperty *mitk::Overlay::GetProperty(const std::string &propertyKey) const { mitk::BaseProperty::Pointer property = m_PropertyList->GetProperty(propertyKey); if (property.IsNotNull()) return property; // only to satisfy compiler! return NULL; } bool mitk::Overlay::GetBoolProperty(const std::string &propertyKey, bool &boolValue) const { mitk::BoolProperty::Pointer boolprop = dynamic_cast(GetProperty(propertyKey)); if (boolprop.IsNull()) return false; boolValue = boolprop->GetValue(); return true; } bool mitk::Overlay::GetIntProperty(const std::string &propertyKey, int &intValue) const { mitk::IntProperty::Pointer intprop = dynamic_cast(GetProperty(propertyKey)); if (intprop.IsNull()) return false; intValue = intprop->GetValue(); return true; } bool mitk::Overlay::GetFloatProperty(const std::string &propertyKey, float &floatValue) const { mitk::FloatProperty::Pointer floatprop = dynamic_cast(GetProperty(propertyKey)); if (floatprop.IsNull()) return false; floatValue = floatprop->GetValue(); return true; } bool mitk::Overlay::GetStringProperty(const std::string &propertyKey, std::string &string) const { mitk::StringProperty::Pointer stringProp = dynamic_cast(GetProperty(propertyKey)); if (stringProp.IsNull()) { return false; } else { // memcpy((void*)string, stringProp->GetValue(), strlen(stringProp->GetValue()) + 1 ); // looks dangerous string = stringProp->GetValue(); return true; } } void mitk::Overlay::SetIntProperty(const std::string &propertyKey, int intValue) { this->m_PropertyList->SetProperty(propertyKey, mitk::IntProperty::New(intValue)); Modified(); } void mitk::Overlay::SetBoolProperty(const std::string &propertyKey, bool boolValue) { this->m_PropertyList->SetProperty(propertyKey, mitk::BoolProperty::New(boolValue)); Modified(); } void mitk::Overlay::SetFloatProperty(const std::string &propertyKey, float floatValue) { this->m_PropertyList->SetProperty(propertyKey, mitk::FloatProperty::New(floatValue)); Modified(); } void mitk::Overlay::SetStringProperty(const std::string &propertyKey, const std::string &stringValue) { this->m_PropertyList->SetProperty(propertyKey, mitk::StringProperty::New(stringValue)); Modified(); } std::string mitk::Overlay::GetName() const { mitk::StringProperty *sp = dynamic_cast(this->GetProperty("name")); if (sp == NULL) return ""; return sp->GetValue(); } void mitk::Overlay::SetName(const std::string &name) { this->SetStringProperty("name", name); } bool mitk::Overlay::GetName(std::string &nodeName, const std::string &propertyKey) const { return GetStringProperty(propertyKey, nodeName); } void mitk::Overlay::SetText(std::string text) { SetStringProperty("Text", text.c_str()); } std::string mitk::Overlay::GetText() const { std::string text; GetStringProperty("Text", text); return text; } void mitk::Overlay::SetFontSize(int fontSize) { SetIntProperty("FontSize", fontSize); } int mitk::Overlay::GetFontSize() const { int fontSize = 1; GetIntProperty("FontSize", fontSize); return fontSize; } bool mitk::Overlay::GetVisibility(bool &visible, const std::string &propertyKey) const { return GetBoolProperty(propertyKey, visible); } bool mitk::Overlay::IsVisible(const std::string &propertyKey, bool defaultIsOn) const { return IsOn(propertyKey, defaultIsOn); } bool mitk::Overlay::GetColor(float rgb[], const std::string &propertyKey) const { mitk::ColorProperty::Pointer colorprop = dynamic_cast(GetProperty(propertyKey)); if (colorprop.IsNull()) return false; memcpy(rgb, colorprop->GetColor().GetDataPointer(), 3 * sizeof(float)); return true; } void mitk::Overlay::SetColor(const mitk::Color &color, const std::string &propertyKey) { mitk::ColorProperty::Pointer prop; prop = mitk::ColorProperty::New(color); this->m_PropertyList->SetProperty(propertyKey, prop); } void mitk::Overlay::SetColor(float red, float green, float blue, const std::string &propertyKey) { float color[3]; color[0] = red; color[1] = green; color[2] = blue; SetColor(color, propertyKey); } void mitk::Overlay::SetColor(const float rgb[], const std::string &propertyKey) { mitk::ColorProperty::Pointer prop; prop = mitk::ColorProperty::New(rgb); this->m_PropertyList->SetProperty(propertyKey, prop); } bool mitk::Overlay::GetOpacity(float &opacity, const std::string &propertyKey) const { mitk::FloatProperty::Pointer opacityprop = dynamic_cast(GetProperty(propertyKey)); if (opacityprop.IsNull()) return false; opacity = opacityprop->GetValue(); return true; } void mitk::Overlay::SetOpacity(float opacity, const std::string &propertyKey) { mitk::FloatProperty::Pointer prop; prop = mitk::FloatProperty::New(opacity); this->m_PropertyList->SetProperty(propertyKey, prop); } void mitk::Overlay::SetVisibility(bool visible, const std::string &propertyKey) { mitk::BoolProperty::Pointer prop; prop = mitk::BoolProperty::New(visible); this->m_PropertyList->SetProperty(propertyKey, prop); } - bool mitk::Overlay::BaseLocalStorage::IsGenerateDataRequired(mitk::BaseRenderer * renderer, mitk::Overlay * overlay) - { - if (m_LastGenerateDataTime < overlay->GetMTime()) - return true; +bool mitk::Overlay::BaseLocalStorage::IsGenerateDataRequired(mitk::BaseRenderer *renderer, mitk::Overlay *overlay) +{ + if (m_LastGenerateDataTime < overlay->GetMTime()) + return true; - if (m_LastGenerateDataTime < overlay->GetPropertyList()->GetMTime()) - return true; + if (m_LastGenerateDataTime < overlay->GetPropertyList()->GetMTime()) + return true; - if (m_LastGenerateDataTime < overlay->GetPropertyList(renderer)->GetMTime()) - return true; + if (renderer && m_LastGenerateDataTime < renderer->GetTimeStepUpdateTime()) + return true; - if (renderer && m_LastGenerateDataTime < renderer->GetTimeStepUpdateTime()) - return true; + return false; +} - return false; - } +mitk::Overlay::Bounds mitk::Overlay::GetBoundsOnDisplay(mitk::BaseRenderer *) const +{ + mitk::Overlay::Bounds bounds; + bounds.Position[0] = bounds.Position[1] = bounds.Size[0] = bounds.Size[1] = 0; + return bounds; +} - mitk::Overlay::Bounds mitk::Overlay::GetBoundsOnDisplay(mitk::BaseRenderer *) const - { - mitk::Overlay::Bounds bounds; - bounds.Position[0] = bounds.Position[1] = bounds.Size[0] = bounds.Size[1] = 0; - return bounds; - } +void mitk::Overlay::SetBoundsOnDisplay(mitk::BaseRenderer *, const mitk::Overlay::Bounds &) +{ +} + +void mitk::Overlay::SetForceInForeground(bool forceForeground) +{ + m_ForceInForeground = forceForeground; +} - void mitk::Overlay::SetBoundsOnDisplay(mitk::BaseRenderer *, const mitk::Overlay::Bounds &) {} - void mitk::Overlay::SetForceInForeground(bool forceForeground) { m_ForceInForeground = forceForeground; } - bool mitk::Overlay::IsForceInForeground() const { return m_ForceInForeground; } +bool mitk::Overlay::IsForceInForeground() const +{ + return m_ForceInForeground; +} + +mitk::PropertyList *mitk::Overlay::GetPropertyList() const +{ + return m_PropertyList; +} diff --git a/Modules/Overlays/include/mitkLogoOverlay.h b/Modules/Overlays/include/mitkLogoOverlay.h index 57528421d0..e76e657765 100644 --- a/Modules/Overlays/include/mitkLogoOverlay.h +++ b/Modules/Overlays/include/mitkLogoOverlay.h @@ -1,102 +1,102 @@ /*=================================================================== 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. ===================================================================*/ #ifndef LOGOOVERLAY_H #define LOGOOVERLAY_H #include "MitkOverlaysExports.h" #include #include #include class mitkVtkLogoRepresentation; class vtkImageData; class vtkImageReader2Factory; class vtkImageImport; namespace mitk { /** \brief Displays a logo on the renderwindow */ class MITKOVERLAYS_EXPORT LogoOverlay : public mitk::VtkOverlay { public: class LocalStorage : public mitk::Overlay::BaseLocalStorage { public: /** \brief Actor of a 2D render window. */ vtkSmartPointer m_LogoImage; vtkSmartPointer m_LogoRep; /** \brief Timestamp of last update of stored data. */ itk::TimeStamp m_LastUpdateTime; /** \brief Default constructor of the local storage. */ LocalStorage(); /** \brief Default deconstructor of the local storage. */ ~LocalStorage(); }; mitkClassMacro(LogoOverlay, mitk::VtkOverlay); itkFactorylessNewMacro(Self) itkCloneMacro(Self) vtkSmartPointer m_readerFactory; void SetLogoImagePath(std::string text); std::string GetLogoImagePath() const; /** \brief The relative offset to the corner position */ - void SetOffsetVector(const Point2D &OffsetVector, BaseRenderer *renderer = NULL); - Point2D GetOffsetVector(mitk::BaseRenderer *renderer = NULL) const; + void SetOffsetVector(const Point2D &OffsetVector); + Point2D GetOffsetVector() const; /** \brief The corner where the logo is displayed. 0 = Bottom left 1 = Bottom right 2 = Top right 3 = Top left 4 = Center*/ - void SetCornerPosition(const int &corner, BaseRenderer *renderer = NULL); - int GetCornerPosition(mitk::BaseRenderer *renderer = NULL) const; + void SetCornerPosition(const int &corner); + int GetCornerPosition() const; - void SetRelativeSize(const float &size, BaseRenderer *renderer = NULL); - float GetRelativeSize(mitk::BaseRenderer *renderer = NULL) const; + void SetRelativeSize(const float &size); + float GetRelativeSize() const; protected: /** \brief The LocalStorageHandler holds all LocalStorages for the render windows. */ mutable mitk::LocalStorageHandler m_LSH; virtual vtkProp *GetVtkProp(BaseRenderer *renderer) const override; void UpdateVtkOverlay(mitk::BaseRenderer *renderer) override; vtkImageData *CreateMbiLogo(); /** \brief explicit constructor which disallows implicit conversions */ explicit LogoOverlay(); /** \brief virtual destructor in order to derive from this class */ virtual ~LogoOverlay(); private: vtkSmartPointer m_VtkImageImport; /** \brief copy constructor */ LogoOverlay(const LogoOverlay &); /** \brief assignment operator */ LogoOverlay &operator=(const LogoOverlay &); }; } // namespace mitk #endif // LOGOOVERLAY_H diff --git a/Modules/Overlays/include/mitkVtkOverlay2D.h b/Modules/Overlays/include/mitkVtkOverlay2D.h index 04f6be06bc..9f6eda19ce 100644 --- a/Modules/Overlays/include/mitkVtkOverlay2D.h +++ b/Modules/Overlays/include/mitkVtkOverlay2D.h @@ -1,69 +1,69 @@ /*=================================================================== 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. ===================================================================*/ #ifndef VTKOVERLAY2D_H #define VTKOVERLAY2D_H #include "mitkVtkOverlay.h" #include #include class vtkActor2D; class vtkProperty2D; namespace mitk { /** * @brief The VtkOverlay2D class is the basis for all VTK based Overlays which create * a vtkActor2D element that will be drawn on the renderer. */ class MITKCORE_EXPORT VtkOverlay2D : public VtkOverlay { public: mitkClassMacro(VtkOverlay2D, VtkOverlay); virtual Overlay::Bounds GetBoundsOnDisplay(BaseRenderer *renderer) const override; virtual void SetBoundsOnDisplay(BaseRenderer *renderer, const Bounds &bounds) override; - void SetPosition2D(const Point2D &position2D, mitk::BaseRenderer *renderer = NULL); + void SetPosition2D(const Point2D& position2D); - Point2D GetPosition2D(mitk::BaseRenderer *renderer = NULL) const; + Point2D GetPosition2D() const; - void SetOffsetVector(const Point2D &OffsetVector, BaseRenderer *renderer = NULL); + void SetOffsetVector(const Point2D& OffsetVector); - Point2D GetOffsetVector(mitk::BaseRenderer *renderer = NULL) const; + Point2D GetOffsetVector() const; protected: virtual vtkProp *GetVtkProp(BaseRenderer *renderer) const override; virtual void UpdateVtkOverlay(BaseRenderer *renderer) override; virtual void UpdateVtkOverlay2D(BaseRenderer *renderer) = 0; virtual vtkActor2D *GetVtkActor2D(BaseRenderer *renderer) const = 0; /** \brief explicit constructor which disallows implicit conversions */ explicit VtkOverlay2D(); /** \brief virtual destructor in order to derive from this class */ virtual ~VtkOverlay2D(); private: /** \brief copy constructor */ VtkOverlay2D(const VtkOverlay2D &); /** \brief assignment operator */ VtkOverlay2D &operator=(const VtkOverlay2D &); }; } // namespace mitk #endif // VTKOVERLAY2D_H diff --git a/Modules/Overlays/src/mitkLabelOverlay3D.cpp b/Modules/Overlays/src/mitkLabelOverlay3D.cpp index 68882570fa..53383c63af 100644 --- a/Modules/Overlays/src/mitkLabelOverlay3D.cpp +++ b/Modules/Overlays/src/mitkLabelOverlay3D.cpp @@ -1,163 +1,163 @@ /*=================================================================== 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 "mitkLabelOverlay3D.h" #include #include #include #include #include #include #include #include #include #include #include mitk::LabelOverlay3D::LabelOverlay3D() : m_PointSetModifiedObserverTag(0) { } mitk::LabelOverlay3D::~LabelOverlay3D() { if (m_LabelCoordinates.IsNotNull()) m_LabelCoordinates->RemoveObserver(m_PointSetModifiedObserverTag); } mitk::LabelOverlay3D::LocalStorage::~LocalStorage() { } mitk::LabelOverlay3D::LocalStorage::LocalStorage() { m_Points = vtkSmartPointer::New(); // Add label array. m_Labels = vtkSmartPointer::New(); m_Labels->SetNumberOfValues(0); m_Labels->SetName("labels"); // Add priority array. m_Sizes = vtkSmartPointer::New(); m_Sizes->SetNumberOfValues(0); m_Sizes->SetName("sizes"); m_Points->GetPointData()->AddArray(m_Sizes); m_Points->GetPointData()->AddArray(m_Labels); m_PointSetToLabelHierarchyFilter = vtkSmartPointer::New(); m_PointSetToLabelHierarchyFilter->SetInputData(m_Points); m_PointSetToLabelHierarchyFilter->SetLabelArrayName("labels"); m_PointSetToLabelHierarchyFilter->SetPriorityArrayName("sizes"); m_PointSetToLabelHierarchyFilter->Update(); m_LabelMapper = vtkSmartPointer::New(); m_LabelMapper->SetInputConnection(m_PointSetToLabelHierarchyFilter->GetOutputPort()); m_LabelsActor = vtkSmartPointer::New(); m_LabelsActor->SetMapper(m_LabelMapper); } void mitk::LabelOverlay3D::UpdateVtkOverlay(mitk::BaseRenderer *renderer) { if (m_LabelCoordinates.IsNull()) { MITK_WARN << "No pointset defined to print labels!"; return; } LocalStorage *ls = this->m_LSH.GetLocalStorage(renderer); if (ls->IsGenerateDataRequired(renderer, this)) { vtkSmartPointer points = vtkSmartPointer::New(); size_t pointsetsize = (size_t)m_LabelCoordinates->GetSize(); ls->m_Labels->SetNumberOfValues(pointsetsize); ls->m_Sizes->SetNumberOfValues(pointsetsize); for (size_t i = 0; i < pointsetsize; i++) { mitk::Point3D coordinate = m_LabelCoordinates->GetPoint(i); - points->InsertNextPoint(coordinate[0] + GetOffsetVector(renderer)[0], - coordinate[1] + GetOffsetVector(renderer)[1], - coordinate[2] + GetOffsetVector(renderer)[2]); + points->InsertNextPoint(coordinate[0] + GetOffsetVector()[0], + coordinate[1] + GetOffsetVector()[1], + coordinate[2] + GetOffsetVector()[2]); if (m_LabelVector.size() > i) ls->m_Labels->SetValue(i, m_LabelVector[i]); else ls->m_Labels->SetValue(i, ""); if (m_PriorityVector.size() > i) ls->m_Sizes->SetValue(i, m_PriorityVector[i]); else ls->m_Sizes->SetValue(i, 1); } ls->m_Points->SetPoints(points); ls->m_PointSetToLabelHierarchyFilter->Update(); ls->m_LabelMapper->Update(); float color[3] = {1, 1, 1}; float opacity = 1.0; - GetColor(color, renderer); - GetOpacity(opacity, renderer); + GetColor(color); + GetOpacity(opacity); ls->m_LabelsActor->GetProperty()->SetColor(color[0], color[1], color[2]); ls->m_LabelsActor->GetProperty()->SetOpacity(opacity); ls->UpdateGenerateDataTime(); } } vtkProp *mitk::LabelOverlay3D::GetVtkProp(BaseRenderer *renderer) const { LocalStorage *ls = this->m_LSH.GetLocalStorage(renderer); return ls->m_LabelsActor; } void mitk::LabelOverlay3D::SetLabelVector(const std::vector &LabelVector) { m_LabelVector = LabelVector; this->Modified(); } void mitk::LabelOverlay3D::SetPriorityVector(const std::vector &PriorityVector) { m_PriorityVector = PriorityVector; this->Modified(); } void mitk::LabelOverlay3D::SetLabelCoordinates(mitk::PointSet::Pointer LabelCoordinates) { if (m_LabelCoordinates.IsNotNull()) { m_LabelCoordinates->RemoveObserver(m_PointSetModifiedObserverTag); m_PointSetModifiedObserverTag = 0; m_LabelCoordinates = NULL; } if (LabelCoordinates.IsNull()) { return; } m_LabelCoordinates = LabelCoordinates; itk::MemberCommand::Pointer _PropertyListModifiedCommand = itk::MemberCommand::New(); _PropertyListModifiedCommand->SetCallbackFunction(this, &mitk::LabelOverlay3D::PointSetModified); m_PointSetModifiedObserverTag = m_LabelCoordinates->AddObserver(itk::ModifiedEvent(), _PropertyListModifiedCommand); this->Modified(); } void mitk::LabelOverlay3D::PointSetModified(const itk::Object * /*caller*/, const itk::EventObject &) { this->Modified(); } diff --git a/Modules/Overlays/src/mitkLogoOverlay.cpp b/Modules/Overlays/src/mitkLogoOverlay.cpp index 3c5d6ae241..48cb28e438 100644 --- a/Modules/Overlays/src/mitkLogoOverlay.cpp +++ b/Modules/Overlays/src/mitkLogoOverlay.cpp @@ -1,196 +1,196 @@ /*=================================================================== 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 "mitkLogoOverlay.h" #include "vtkUnicodeString.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include mitk::LogoOverlay::LogoOverlay() { m_readerFactory = vtkSmartPointer::New(); mitk::Point2D offset; offset.Fill(0.03); SetOffsetVector(offset); SetRelativeSize(0.2); SetCornerPosition(3); m_VtkImageImport = vtkSmartPointer::New(); } mitk::LogoOverlay::~LogoOverlay() { } mitk::LogoOverlay::LocalStorage::~LocalStorage() { } mitk::LogoOverlay::LocalStorage::LocalStorage() { m_LogoRep = vtkSmartPointer::New(); } void mitk::LogoOverlay::UpdateVtkOverlay(mitk::BaseRenderer *renderer) { LocalStorage *ls = this->m_LSH.GetLocalStorage(renderer); if (ls->IsGenerateDataRequired(renderer, this)) { if (GetLogoImagePath().empty()) { ls->m_LogoRep->SetVisibility(0); return; } vtkImageReader2 *imageReader = m_readerFactory->CreateImageReader2(GetLogoImagePath().c_str()); if (imageReader) { imageReader->SetFileName(GetLogoImagePath().c_str()); imageReader->Update(); ls->m_LogoImage = imageReader->GetOutput(); imageReader->Delete(); } else { ls->m_LogoImage = CreateMbiLogo(); } ls->m_LogoRep->SetImage(ls->m_LogoImage); ls->m_LogoRep->SetDragable(false); ls->m_LogoRep->SetMoving(false); ls->m_LogoRep->SetPickable(false); ls->m_LogoRep->SetShowBorder(true); ls->m_LogoRep->SetRenderer(renderer->GetVtkRenderer()); - float size = GetRelativeSize(renderer); + float size = GetRelativeSize(); ls->m_LogoRep->SetPosition2(size, size); - int corner = GetCornerPosition(renderer); + int corner = GetCornerPosition(); ls->m_LogoRep->SetCornerPosition(corner); - mitk::Point2D offset = GetOffsetVector(renderer); + mitk::Point2D offset = GetOffsetVector(); ls->m_LogoRep->SetPosition(offset[0], offset[1]); float opacity = 1.0; - GetOpacity(opacity, renderer); + GetOpacity(opacity); ls->m_LogoRep->GetImageProperty()->SetOpacity(opacity); ls->m_LogoRep->BuildRepresentation(); ls->UpdateGenerateDataTime(); } } vtkImageData *mitk::LogoOverlay::CreateMbiLogo() { m_VtkImageImport->SetDataScalarTypeToUnsignedChar(); m_VtkImageImport->SetNumberOfScalarComponents(mbiLogo_NumberOfScalars); m_VtkImageImport->SetWholeExtent(0, mbiLogo_Width - 1, 0, mbiLogo_Height - 1, 0, 1 - 1); m_VtkImageImport->SetDataExtentToWholeExtent(); char *ImageData; // flip mbi logo around y axis and change color order ImageData = new char[mbiLogo_Height * mbiLogo_Width * mbiLogo_NumberOfScalars]; unsigned int column, row; char *dest = ImageData; char *source = (char *)&mbiLogo_Data[0]; ; char r, g, b, a; for (column = 0; column < mbiLogo_Height; column++) for (row = 0; row < mbiLogo_Width; row++) { // change r with b b = *source++; g = *source++; r = *source++; a = *source++; *dest++ = r; *dest++ = g; *dest++ = b; *dest++ = a; } m_VtkImageImport->SetImportVoidPointer(ImageData); m_VtkImageImport->Modified(); m_VtkImageImport->Update(); return m_VtkImageImport->GetOutput(); } void mitk::LogoOverlay::SetLogoImagePath(std::string path) { SetStringProperty("Overlay.LogoImagePath", path.c_str()); Modified(); } std::string mitk::LogoOverlay::GetLogoImagePath() const { std::string path; GetPropertyList()->GetStringProperty("Overlay.LogoImagePath", path); return path; } -void mitk::LogoOverlay::SetOffsetVector(const Point2D &OffsetVector, mitk::BaseRenderer *renderer) +void mitk::LogoOverlay::SetOffsetVector(const Point2D &OffsetVector) { mitk::Point2dProperty::Pointer OffsetVectorProperty = mitk::Point2dProperty::New(OffsetVector); - SetProperty("Overlay.OffsetVector", OffsetVectorProperty.GetPointer(), renderer); + SetProperty("Overlay.OffsetVector", OffsetVectorProperty.GetPointer()); Modified(); } -mitk::Point2D mitk::LogoOverlay::GetOffsetVector(mitk::BaseRenderer *renderer) const +mitk::Point2D mitk::LogoOverlay::GetOffsetVector() const { mitk::Point2D OffsetVector; OffsetVector.Fill(0); - GetPropertyValue("Overlay.OffsetVector", OffsetVector, renderer); + GetPropertyValue("Overlay.OffsetVector", OffsetVector); return OffsetVector; } -void mitk::LogoOverlay::SetCornerPosition(const int &corner, mitk::BaseRenderer *renderer) +void mitk::LogoOverlay::SetCornerPosition(const int &corner) { - SetIntProperty("Overlay.CornerPosition", corner, renderer); + SetIntProperty("Overlay.CornerPosition", corner); Modified(); } -int mitk::LogoOverlay::GetCornerPosition(mitk::BaseRenderer *renderer) const +int mitk::LogoOverlay::GetCornerPosition() const { int corner = 0; - GetIntProperty("Overlay.CornerPosition", corner, renderer); + GetIntProperty("Overlay.CornerPosition", corner); return corner; } -void mitk::LogoOverlay::SetRelativeSize(const float &size, mitk::BaseRenderer *renderer) +void mitk::LogoOverlay::SetRelativeSize(const float &size) { - SetFloatProperty("Overlay.RelativeSize", size, renderer); + SetFloatProperty("Overlay.RelativeSize", size); Modified(); } -float mitk::LogoOverlay::GetRelativeSize(mitk::BaseRenderer *renderer) const +float mitk::LogoOverlay::GetRelativeSize() const { float size = 0; - GetFloatProperty("Overlay.RelativeSize", size, renderer); + GetFloatProperty("Overlay.RelativeSize", size); return size; } vtkProp *mitk::LogoOverlay::GetVtkProp(BaseRenderer *renderer) const { LocalStorage *ls = this->m_LSH.GetLocalStorage(renderer); return ls->m_LogoRep; } diff --git a/Modules/Overlays/src/mitkTextOverlay2D.cpp b/Modules/Overlays/src/mitkTextOverlay2D.cpp index b1807b2d5f..dab6ddf232 100644 --- a/Modules/Overlays/src/mitkTextOverlay2D.cpp +++ b/Modules/Overlays/src/mitkTextOverlay2D.cpp @@ -1,152 +1,152 @@ /*=================================================================== 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 "mitkTextOverlay2D.h" #include "vtkUnicodeString.h" #include #include #include mitk::TextOverlay2D::TextOverlay2D() { mitk::Point2D position; position[0] = position[1] = 0; this->SetPosition2D(position); this->SetOffsetVector(position); this->SetText(""); this->SetFontSize(20); this->SetColor(1.0, 1.0, 1.0); this->SetStringProperty("font.family", "Arial"); this->SetBoolProperty("font.bold", false); this->SetBoolProperty("font.italic", false); this->SetBoolProperty("drawShadow", false); } mitk::TextOverlay2D::~TextOverlay2D() { } mitk::Overlay::Bounds mitk::TextOverlay2D::GetBoundsOnDisplay(mitk::BaseRenderer *renderer) const { LocalStorage *ls = this->m_LSH.GetLocalStorage(renderer); mitk::Overlay::Bounds bounds; bounds.Position = ls->m_TextActor->GetPosition(); double size[2]; ls->m_TextActor->GetSize(renderer->GetVtkRenderer(), size); bounds.Size[0] = size[0]; bounds.Size[1] = size[1]; return bounds; } void mitk::TextOverlay2D::SetBoundsOnDisplay(mitk::BaseRenderer *renderer, const mitk::Overlay::Bounds &bounds) { LocalStorage *ls = this->m_LSH.GetLocalStorage(renderer); mitk::Point2D posT, posS; posT[0] = bounds.Position[0]; posT[1] = bounds.Position[1]; posS[0] = posT[0] + 1; posS[1] = posT[1] - 1; ls->m_TextActor->SetDisplayPosition(posT[0], posT[1]); ls->m_STextActor->SetDisplayPosition(posS[0], posS[1]); } mitk::TextOverlay2D::LocalStorage::~LocalStorage() { } mitk::TextOverlay2D::LocalStorage::LocalStorage() { m_TextActor = vtkSmartPointer::New(); m_TextProp = vtkSmartPointer::New(); m_STextActor = vtkSmartPointer::New(); m_STextProp = vtkSmartPointer::New(); m_TextActor->SetTextProperty(m_TextProp); m_STextActor->SetTextProperty(m_STextProp); m_Assembly = vtkSmartPointer::New(); m_Assembly->AddPart(m_STextActor); m_Assembly->AddPart(m_TextActor); } void mitk::TextOverlay2D::UpdateVtkOverlay2D(mitk::BaseRenderer *renderer) { LocalStorage *ls = this->m_LSH.GetLocalStorage(renderer); if (ls->IsGenerateDataRequired(renderer, this)) { float color[3] = {0.0, 1.0, 0.0}; float opacity = 1.0; - GetColor(color, renderer); - GetOpacity(opacity, renderer); + GetColor(color); + GetOpacity(opacity); ls->m_TextProp->SetColor(color[0], color[1], color[2]); ls->m_STextProp->SetColor(0, 0, 0); ls->m_TextProp->SetFontSize(GetFontSize()); ls->m_TextProp->SetOpacity(opacity); ls->m_STextProp->SetFontSize(GetFontSize()); ls->m_STextProp->SetOpacity(opacity); std::string fontFamilyAsString; if (GetStringProperty("font.family", fontFamilyAsString) == false) { fontFamilyAsString = "Arial"; } ls->m_TextProp->SetFontFamilyAsString(fontFamilyAsString.c_str()); ls->m_STextProp->SetFontFamilyAsString(fontFamilyAsString.c_str()); bool boldFont(false); GetBoolProperty("font.bold", boldFont); ls->m_TextProp->SetBold(boldFont); ls->m_STextProp->SetBold(boldFont); bool italicFont(false); GetBoolProperty("font.italic", italicFont); ls->m_TextProp->SetBold(italicFont); ls->m_STextProp->SetBold(italicFont); bool drawShadow; GetBoolProperty("drawShadow", drawShadow); ls->m_TextProp->SetShadow(false); ls->m_STextProp->SetShadow(false); ls->m_STextActor->SetVisibility(drawShadow); ls->m_TextActor->SetInput(GetText().c_str()); ls->m_STextActor->SetInput(GetText().c_str()); mitk::Point2D posT, posS; - posT[0] = GetPosition2D(renderer)[0] + GetOffsetVector(renderer)[0]; - posT[1] = GetPosition2D(renderer)[1] + GetOffsetVector(renderer)[1]; + posT[0] = GetPosition2D()[0] + GetOffsetVector()[0]; + posT[1] = GetPosition2D()[1] + GetOffsetVector()[1]; posS[0] = posT[0] + 1; posS[1] = posT[1] - 1; ls->m_TextActor->SetDisplayPosition(posT[0], posT[1]); ls->m_STextActor->SetDisplayPosition(posS[0], posS[1]); ls->UpdateGenerateDataTime(); } } vtkProp *mitk::TextOverlay2D::GetVtkProp(mitk::BaseRenderer *renderer) const { LocalStorage *ls = this->m_LSH.GetLocalStorage(renderer); return ls->m_Assembly; } vtkActor2D *mitk::TextOverlay2D::GetVtkActor2D(BaseRenderer *renderer) const { LocalStorage *ls = this->m_LSH.GetLocalStorage(renderer); return ls->m_TextActor; } diff --git a/Modules/Overlays/src/mitkTextOverlay3D.cpp b/Modules/Overlays/src/mitkTextOverlay3D.cpp index 71cdb11cae..7598f58857 100644 --- a/Modules/Overlays/src/mitkTextOverlay3D.cpp +++ b/Modules/Overlays/src/mitkTextOverlay3D.cpp @@ -1,105 +1,105 @@ /*=================================================================== 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 "mitkTextOverlay3D.h" #include #include #include #include #include #include #include #include mitk::TextOverlay3D::TextOverlay3D() { mitk::Point3D position; position.Fill(0); this->SetPosition3D(position); this->SetOffsetVector(position); this->SetText(""); this->SetFontSize(20); this->SetColor(1.0, 1.0, 1.0); } mitk::TextOverlay3D::~TextOverlay3D() { } mitk::TextOverlay3D::LocalStorage::~LocalStorage() { } mitk::TextOverlay3D::LocalStorage::LocalStorage() { // Create some text m_textSource = vtkSmartPointer::New(); // Create a mapper vtkSmartPointer mapper = vtkSmartPointer::New(); mapper->SetInputConnection(m_textSource->GetOutputPort()); // Create a subclass of vtkActor: a vtkFollower that remains facing the camera m_follower = vtkSmartPointer::New(); m_follower->SetMapper(mapper); m_follower->GetProperty()->SetColor(1, 0, 0); // red m_follower->SetScale(1); } void mitk::TextOverlay3D::UpdateVtkOverlay(mitk::BaseRenderer *renderer) { LocalStorage *ls = this->m_LSH.GetLocalStorage(renderer); if (ls->IsGenerateDataRequired(renderer, this)) { - Point3D pos3d = GetPosition3D(renderer); + Point3D pos3d = GetPosition3D(); vtkRenderer *vtkRender = renderer->GetVtkRenderer(); if (vtkRender) { vtkCamera *camera = vtkRender->GetActiveCamera(); ls->m_follower->SetCamera(camera); if (camera != nullptr) { // calculate the offset relative to the camera's view direction - Point3D offset = GetOffsetVector(renderer); + Point3D offset = GetOffsetVector(); Vector3D viewUp; camera->GetViewUp(viewUp.GetDataPointer()); Vector3D cameraDirection; camera->GetDirectionOfProjection(cameraDirection.GetDataPointer()); Vector3D viewRight; vtkMath::Cross(cameraDirection.GetDataPointer(), viewUp.GetDataPointer(), viewRight.GetDataPointer()); pos3d = pos3d + viewRight * offset[0] + viewUp * offset[1] + cameraDirection * offset[2]; } } ls->m_follower->SetPosition(pos3d.GetDataPointer()); ls->m_textSource->SetText(GetText().c_str()); float color[3] = {1, 1, 1}; float opacity = 1.0; - GetColor(color, renderer); - GetOpacity(opacity, renderer); + GetColor(color); + GetOpacity(opacity); ls->m_follower->GetProperty()->SetColor(color[0], color[1], color[2]); ls->m_follower->GetProperty()->SetOpacity(opacity); ls->m_follower->SetScale(this->GetFontSize()); ls->UpdateGenerateDataTime(); } } vtkProp *mitk::TextOverlay3D::GetVtkProp(BaseRenderer *renderer) const { LocalStorage *ls = this->m_LSH.GetLocalStorage(renderer); return ls->m_follower; } diff --git a/Modules/Overlays/src/mitkVtkOverlay.cpp b/Modules/Overlays/src/mitkVtkOverlay.cpp index 3ea51f2241..4b0619043c 100644 --- a/Modules/Overlays/src/mitkVtkOverlay.cpp +++ b/Modules/Overlays/src/mitkVtkOverlay.cpp @@ -1,87 +1,87 @@ /*=================================================================== 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 "mitkVtkOverlay.h" #include #include mitk::VtkOverlay::VtkOverlay() { } mitk::VtkOverlay::~VtkOverlay() { } void mitk::VtkOverlay::Update(mitk::BaseRenderer *renderer) { vtkSmartPointer prop = GetVtkProp(renderer); - if (!IsVisible(renderer)) + if(!IsVisible()) { prop->SetVisibility(false); return; } else { prop->SetVisibility(true); UpdateVtkOverlay(renderer); } } void mitk::VtkOverlay::AddToBaseRenderer(mitk::BaseRenderer *renderer) { if (!renderer) return; AddToRenderer(renderer, renderer->GetVtkRenderer()); } void mitk::VtkOverlay::AddToRenderer(mitk::BaseRenderer *renderer, vtkRenderer *vtkrenderer) { if (!renderer || !vtkrenderer) return; Update(renderer); vtkSmartPointer vtkProp = GetVtkProp(renderer); if (renderer && vtkrenderer && !vtkrenderer->HasViewProp(vtkProp)) { vtkrenderer->AddViewProp(vtkProp); mitk::RenderingManager::GetInstance()->RequestUpdate(vtkrenderer->GetRenderWindow()); } } void mitk::VtkOverlay::RemoveFromBaseRenderer(mitk::BaseRenderer *renderer) { if (!renderer) return; RemoveFromRenderer(renderer, renderer->GetVtkRenderer()); } void mitk::VtkOverlay::RemoveFromRenderer(mitk::BaseRenderer *renderer, vtkRenderer *vtkrenderer) { if (!renderer || !vtkrenderer) return; vtkSmartPointer vtkProp = GetVtkProp(renderer); if (vtkrenderer->HasViewProp(vtkProp)) { vtkrenderer->RemoveViewProp(vtkProp); mitk::RenderingManager::GetInstance()->RequestUpdate(vtkrenderer->GetRenderWindow()); } } void mitk::VtkOverlay::Paint(BaseRenderer *renderer) { GetVtkProp(renderer)->RenderOpaqueGeometry(renderer->GetVtkRenderer()); GetVtkProp(renderer)->RenderOverlay(renderer->GetVtkRenderer()); } diff --git a/Modules/Overlays/src/mitkVtkOverlay2D.cpp b/Modules/Overlays/src/mitkVtkOverlay2D.cpp index 1f3fa7cbfc..8bf43bb83c 100644 --- a/Modules/Overlays/src/mitkVtkOverlay2D.cpp +++ b/Modules/Overlays/src/mitkVtkOverlay2D.cpp @@ -1,90 +1,90 @@ /*=================================================================== 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 "mitkVtkOverlay2D.h" #include #include #include mitk::VtkOverlay2D::VtkOverlay2D() { } mitk::VtkOverlay2D::~VtkOverlay2D() { } mitk::Overlay::Bounds mitk::VtkOverlay2D::GetBoundsOnDisplay(mitk::BaseRenderer *renderer) const { mitk::Overlay::Bounds bounds; vtkSmartPointer actor = GetVtkActor2D(renderer); bounds.Position = actor->GetPosition(); bounds.Size = actor->GetPosition2(); return bounds; } void mitk::VtkOverlay2D::SetBoundsOnDisplay(mitk::BaseRenderer *renderer, const mitk::Overlay::Bounds &bounds) { vtkSmartPointer actor = GetVtkActor2D(renderer); actor->SetDisplayPosition(bounds.Position[0], bounds.Position[1]); actor->SetWidth(bounds.Size[0]); actor->SetHeight(bounds.Size[1]); } void mitk::VtkOverlay2D::UpdateVtkOverlay(mitk::BaseRenderer *renderer) { vtkActor2D *prop = GetVtkActor2D(renderer); float color[3] = {1, 1, 1}; float opacity = 1.0; - GetColor(color, renderer); - GetOpacity(opacity, renderer); + GetColor(color); + GetOpacity(opacity); prop->GetProperty()->SetColor(color[0], color[1], color[2]); prop->GetProperty()->SetOpacity(opacity); UpdateVtkOverlay2D(renderer); } -void mitk::VtkOverlay2D::SetPosition2D(const Point2D &position2D, mitk::BaseRenderer *renderer) +void mitk::VtkOverlay2D::SetPosition2D(const Point2D &position2D) { mitk::Point2dProperty::Pointer position2dProperty = mitk::Point2dProperty::New(position2D); - SetProperty("VtkOverlay2D.Position2D", position2dProperty.GetPointer(), renderer); + SetProperty("VtkOverlay2D.Position2D", position2dProperty.GetPointer()); } -mitk::Point2D mitk::VtkOverlay2D::GetPosition2D(mitk::BaseRenderer *renderer) const +mitk::Point2D mitk::VtkOverlay2D::GetPosition2D() const { mitk::Point2D position2D; position2D.Fill(0); - GetPropertyValue("VtkOverlay2D.Position2D", position2D, renderer); + GetPropertyValue("VtkOverlay2D.Position2D", position2D); return position2D; } -void mitk::VtkOverlay2D::SetOffsetVector(const Point2D &OffsetVector, mitk::BaseRenderer *renderer) +void mitk::VtkOverlay2D::SetOffsetVector(const Point2D &OffsetVector) { mitk::Point2dProperty::Pointer OffsetVectorProperty = mitk::Point2dProperty::New(OffsetVector); - SetProperty("VtkOverlay2D.OffsetVector", OffsetVectorProperty.GetPointer(), renderer); + SetProperty("VtkOverlay2D.OffsetVector", OffsetVectorProperty.GetPointer()); } -mitk::Point2D mitk::VtkOverlay2D::GetOffsetVector(mitk::BaseRenderer *renderer) const +mitk::Point2D mitk::VtkOverlay2D::GetOffsetVector() const { mitk::Point2D OffsetVector; OffsetVector.Fill(0); - GetPropertyValue("VtkOverlay2D.OffsetVector", OffsetVector, renderer); + GetPropertyValue("VtkOverlay2D.OffsetVector", OffsetVector); return OffsetVector; } vtkProp *mitk::VtkOverlay2D::GetVtkProp(mitk::BaseRenderer *renderer) const { return GetVtkActor2D(renderer); } diff --git a/Modules/PlanarFigure/src/Rendering/mitkPlanarFigureMapper2D.cpp b/Modules/PlanarFigure/src/Rendering/mitkPlanarFigureMapper2D.cpp index 636391486e..4cd7eddf56 100644 --- a/Modules/PlanarFigure/src/Rendering/mitkPlanarFigureMapper2D.cpp +++ b/Modules/PlanarFigure/src/Rendering/mitkPlanarFigureMapper2D.cpp @@ -1,949 +1,949 @@ /*=================================================================== 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 "mitkPlanarFigureMapper2D.h" #include "mitkBaseRenderer.h" #include "mitkColorProperty.h" #include "mitkGL.h" #include "mitkPlaneGeometry.h" #include "mitkProperties.h" #include "mitkTextOverlay2D.h" #define _USE_MATH_DEFINES #include // offset which moves the planarfigures on top of the other content // the crosshair is rendered into the z = 1 layer. static const float PLANAR_OFFSET = 0.5f; mitk::PlanarFigureMapper2D::PlanarFigureMapper2D() : m_NodeModified(true), m_NodeModifiedObserverTag(0), m_NodeModifiedObserverAdded(false) { m_AnnotationOverlay = mitk::TextOverlay2D::New(); m_QuantityOverlay = mitk::TextOverlay2D::New(); this->InitializeDefaultPlanarFigureProperties(); } mitk::PlanarFigureMapper2D::~PlanarFigureMapper2D() { if (m_NodeModifiedObserverAdded && GetDataNode() != NULL) { GetDataNode()->RemoveObserver(m_NodeModifiedObserverTag); } } void mitk::PlanarFigureMapper2D::Paint(mitk::BaseRenderer *renderer) { bool visible = true; - m_AnnotationOverlay->SetVisibility(false, renderer); + m_AnnotationOverlay->SetVisibility(false); - m_QuantityOverlay->SetVisibility(false, renderer); + m_QuantityOverlay->SetVisibility(false); GetDataNode()->GetVisibility(visible, renderer, "visible"); if (!visible) return; // Get PlanarFigure from input mitk::PlanarFigure *planarFigure = const_cast(static_cast(GetDataNode()->GetData())); // Check if PlanarFigure has already been placed; otherwise, do nothing if (!planarFigure->IsPlaced()) { return; } // Get 2D geometry frame of PlanarFigure const mitk::PlaneGeometry *planarFigurePlaneGeometry = planarFigure->GetPlaneGeometry(); if (planarFigurePlaneGeometry == NULL) { MITK_ERROR << "PlanarFigure does not have valid PlaneGeometry!"; return; } // Get current world 2D geometry from renderer const mitk::PlaneGeometry *rendererPlaneGeometry = renderer->GetCurrentWorldPlaneGeometry(); // If the PlanarFigure geometry is a plane geometry, check if current // world plane is parallel to and within the planar figure geometry bounds // (otherwise, display nothing) if ((planarFigurePlaneGeometry != NULL) && (rendererPlaneGeometry != NULL)) { double planeThickness = planarFigurePlaneGeometry->GetExtentInMM(2); if (!planarFigurePlaneGeometry->IsParallel(rendererPlaneGeometry) || !(planarFigurePlaneGeometry->DistanceFromPlane(rendererPlaneGeometry) < planeThickness / 3.0)) { // Planes are not parallel or renderer plane is not within PlanarFigure // geometry bounds --> exit return; } } else { // Plane is not valid (curved reformations are not possible yet) return; } // Apply visual appearance properties from the PropertyList ApplyColorAndOpacityProperties(renderer); // Enable line antialiasing glEnable(GL_LINE_SMOOTH); glHint(GL_LINE_SMOOTH_HINT, GL_NICEST); glEnable(GL_DEPTH_TEST); // Get properties from node (if present) const mitk::DataNode *node = this->GetDataNode(); this->InitializePlanarFigurePropertiesFromDataNode(node); PlanarFigureDisplayMode lineDisplayMode = PF_DEFAULT; if (m_IsSelected) { lineDisplayMode = PF_SELECTED; } else if (m_IsHovering) { lineDisplayMode = PF_HOVER; } mitk::Point2D anchorPoint; anchorPoint[0] = 0; anchorPoint[1] = 1; // render the actual lines of the PlanarFigure RenderLines(lineDisplayMode, planarFigure, anchorPoint, planarFigurePlaneGeometry, rendererPlaneGeometry, renderer); // position-offset of the annotations, is set in RenderAnnotations() and // used in RenderQuantities() double annotationOffset = 0.0; // Get Global Opacity float globalOpacity = 1.0; node->GetFloatProperty("opacity", globalOpacity); if (m_DrawControlPoints) { // draw the control-points RenderControlPoints(planarFigure, lineDisplayMode, planarFigurePlaneGeometry, rendererPlaneGeometry, renderer); } // draw name near the anchor point (point located on the right) const std::string name = node->GetName(); if (m_DrawName && !name.empty()) { RenderAnnotations(renderer, name, anchorPoint, globalOpacity, lineDisplayMode, annotationOffset); } // draw feature quantities (if requested) next to the anchor point, // but under the name (that is where 'annotationOffset' is used) if (m_DrawQuantities) { RenderQuantities(planarFigure, renderer, anchorPoint, annotationOffset, globalOpacity, lineDisplayMode); } glLineWidth(1.0f); } void mitk::PlanarFigureMapper2D::PaintPolyLine(const mitk::PlanarFigure::PolyLineType vertices, bool closed, Point2D &anchorPoint, const PlaneGeometry *planarFigurePlaneGeometry, const PlaneGeometry *rendererPlaneGeometry, const mitk::BaseRenderer *renderer) { mitk::Point2D rightMostPoint; rightMostPoint.Fill(itk::NumericTraits::min()); // transform all vertices into Point2Ds in display-Coordinates and store them in vector std::vector pointlist; for (auto iter = vertices.cbegin(); iter != vertices.cend(); ++iter) { // Draw this 2D point as OpenGL vertex mitk::Point2D displayPoint; this->TransformObjectToDisplay(*iter, displayPoint, planarFigurePlaneGeometry, rendererPlaneGeometry, renderer); pointlist.push_back(displayPoint); if (displayPoint[0] > rightMostPoint[0]) rightMostPoint = displayPoint; } // If the planarfigure is closed, we add the first control point again. // Thus we can always use 'GL_LINE_STRIP' and get rid of strange flickering // effect when using the MESA OpenGL library. if (closed) { mitk::Point2D displayPoint; this->TransformObjectToDisplay( vertices.cbegin()[0], displayPoint, planarFigurePlaneGeometry, rendererPlaneGeometry, renderer); pointlist.push_back(displayPoint); } // now paint all the points in one run glBegin(GL_LINE_STRIP); for (auto pointIter = pointlist.cbegin(); pointIter != pointlist.cend(); pointIter++) { glVertex3f((*pointIter)[0], (*pointIter)[1], PLANAR_OFFSET); } glEnd(); anchorPoint = rightMostPoint; } void mitk::PlanarFigureMapper2D::DrawMainLines(mitk::PlanarFigure *figure, Point2D &anchorPoint, const PlaneGeometry *planarFigurePlaneGeometry, const PlaneGeometry *rendererPlaneGeometry, const mitk::BaseRenderer *renderer) { const auto numberOfPolyLines = figure->GetPolyLinesSize(); for (auto loop = 0; loop < numberOfPolyLines; ++loop) { const auto polyline = figure->GetPolyLine(loop); this->PaintPolyLine( polyline, figure->IsClosed(), anchorPoint, planarFigurePlaneGeometry, rendererPlaneGeometry, renderer); } } void mitk::PlanarFigureMapper2D::DrawHelperLines(mitk::PlanarFigure *figure, Point2D &anchorPoint, const PlaneGeometry *planarFigurePlaneGeometry, const PlaneGeometry *rendererPlaneGeometry, const mitk::BaseRenderer *renderer) { const auto numberOfHelperPolyLines = figure->GetHelperPolyLinesSize(); // Draw helper objects for (unsigned int loop = 0; loop < numberOfHelperPolyLines; ++loop) { const auto helperPolyLine = figure->GetHelperPolyLine(loop, renderer->GetScaleFactorMMPerDisplayUnit(), renderer->GetViewportSize()[1]); // Check if the current helper objects is to be painted if (!figure->IsHelperToBePainted(loop)) { continue; } // ... and once normally above the shadow. this->PaintPolyLine(helperPolyLine, false, anchorPoint, planarFigurePlaneGeometry, rendererPlaneGeometry, renderer); } } void mitk::PlanarFigureMapper2D::TransformObjectToDisplay(const mitk::Point2D &point2D, mitk::Point2D &displayPoint, const mitk::PlaneGeometry *objectGeometry, const mitk::PlaneGeometry * /*rendererGeometry*/, const mitk::BaseRenderer *renderer) { mitk::Point3D point3D; // Map circle point from local 2D geometry into 3D world space objectGeometry->Map(point2D, point3D); // Project 3D world point onto display geometry renderer->WorldToDisplay(point3D, displayPoint); } void mitk::PlanarFigureMapper2D::DrawMarker(const mitk::Point2D &point, float *lineColor, float lineOpacity, float *markerColor, float markerOpacity, float lineWidth, PlanarFigureControlPointStyleProperty::Shape shape, const mitk::PlaneGeometry *objectGeometry, const mitk::PlaneGeometry *rendererGeometry, const mitk::BaseRenderer *renderer) { if (this->GetDataNode() != nullptr && this->GetDataNode()->GetDataInteractor().IsNull()) return; if (markerOpacity == 0 && lineOpacity == 0) return; mitk::Point2D displayPoint; this->TransformObjectToDisplay(point, displayPoint, objectGeometry, rendererGeometry, renderer); glColor4f(markerColor[0], markerColor[1], markerColor[2], markerOpacity); glLineWidth(lineWidth); switch (shape) { case PlanarFigureControlPointStyleProperty::Square: default: { // Paint filled square // Disable line antialiasing (does not look nice for squares) glDisable(GL_LINE_SMOOTH); if (markerOpacity > 0) { glRectf(displayPoint[0] - 4, displayPoint[1] - 4, displayPoint[0] + 4, displayPoint[1] + 4); } // Paint outline glColor4f(lineColor[0], lineColor[1], lineColor[2], lineOpacity); glBegin(GL_LINE_LOOP); glVertex3f(displayPoint[0] - 4, displayPoint[1] - 4, PLANAR_OFFSET); glVertex3f(displayPoint[0] - 4, displayPoint[1] + 4, PLANAR_OFFSET); glVertex3f(displayPoint[0] + 4, displayPoint[1] + 4, PLANAR_OFFSET); glVertex3f(displayPoint[0] + 4, displayPoint[1] - 4, PLANAR_OFFSET); glEnd(); break; } case PlanarFigureControlPointStyleProperty::Circle: { float radius = 4.0; if (markerOpacity > 0) { // Paint filled circle glBegin(GL_POLYGON); for (int angle = 0; angle < 8; ++angle) { float angleRad = angle * (float)3.14159 / 4.0; float x = displayPoint[0] + radius * (float)cos(angleRad); float y = displayPoint[1] + radius * (float)sin(angleRad); glVertex3f(x, y, PLANAR_OFFSET); } glEnd(); } // Paint outline glColor4f(lineColor[0], lineColor[1], lineColor[2], lineOpacity); glBegin(GL_LINE_LOOP); for (int angle = 0; angle < 8; ++angle) { float angleRad = angle * (float)3.14159 / 4.0; float x = displayPoint[0] + radius * (float)cos(angleRad); float y = displayPoint[1] + radius * (float)sin(angleRad); glVertex3f(x, y, PLANAR_OFFSET); } glEnd(); break; } } // end switch } void mitk::PlanarFigureMapper2D::InitializeDefaultPlanarFigureProperties() { m_IsSelected = false; m_IsHovering = false; m_DrawOutline = false; m_DrawQuantities = false; m_DrawShadow = false; m_DrawControlPoints = false; m_DrawName = true; m_DrawDashed = false; m_DrawHelperDashed = false; m_AnnotationsShadow = false; m_ShadowWidthFactor = 1.2; m_LineWidth = 1.0; m_OutlineWidth = 4.0; m_HelperlineWidth = 2.0; m_DevicePixelRatio = 1.0; m_ControlPointShape = PlanarFigureControlPointStyleProperty::Square; this->SetColorProperty(m_LineColor, PF_DEFAULT, 1.0, 1.0, 1.0); this->SetFloatProperty(m_LineOpacity, PF_DEFAULT, 1.0); this->SetColorProperty(m_OutlineColor, PF_DEFAULT, 0.0, 0.0, 1.0); this->SetFloatProperty(m_OutlineOpacity, PF_DEFAULT, 1.0); this->SetColorProperty(m_HelperlineColor, PF_DEFAULT, 0.4, 0.8, 0.2); this->SetFloatProperty(m_HelperlineOpacity, PF_DEFAULT, 0.4); this->SetColorProperty(m_MarkerlineColor, PF_DEFAULT, 1.0, 1.0, 1.0); this->SetFloatProperty(m_MarkerlineOpacity, PF_DEFAULT, 1.0); this->SetColorProperty(m_MarkerColor, PF_DEFAULT, 1.0, 1.0, 1.0); this->SetFloatProperty(m_MarkerOpacity, PF_DEFAULT, 0.0); this->SetColorProperty(m_AnnotationColor, PF_DEFAULT, 1.0, 1.0, 1.0); this->SetColorProperty(m_LineColor, PF_HOVER, 1.0, 0.7, 0.0); this->SetFloatProperty(m_LineOpacity, PF_HOVER, 1.0); this->SetColorProperty(m_OutlineColor, PF_HOVER, 0.0, 0.0, 1.0); this->SetFloatProperty(m_OutlineOpacity, PF_HOVER, 1.0); this->SetColorProperty(m_HelperlineColor, PF_HOVER, 0.4, 0.8, 0.2); this->SetFloatProperty(m_HelperlineOpacity, PF_HOVER, 0.4); this->SetColorProperty(m_MarkerlineColor, PF_HOVER, 1.0, 1.0, 1.0); this->SetFloatProperty(m_MarkerlineOpacity, PF_HOVER, 1.0); this->SetColorProperty(m_MarkerColor, PF_HOVER, 1.0, 0.6, 0.0); this->SetFloatProperty(m_MarkerOpacity, PF_HOVER, 0.2); this->SetColorProperty(m_AnnotationColor, PF_HOVER, 1.0, 0.7, 0.0); this->SetColorProperty(m_LineColor, PF_SELECTED, 1.0, 0.0, 0.0); this->SetFloatProperty(m_LineOpacity, PF_SELECTED, 1.0); this->SetColorProperty(m_OutlineColor, PF_SELECTED, 0.0, 0.0, 1.0); this->SetFloatProperty(m_OutlineOpacity, PF_SELECTED, 1.0); this->SetColorProperty(m_HelperlineColor, PF_SELECTED, 0.4, 0.8, 0.2); this->SetFloatProperty(m_HelperlineOpacity, PF_SELECTED, 0.4); this->SetColorProperty(m_MarkerlineColor, PF_SELECTED, 1.0, 1.0, 1.0); this->SetFloatProperty(m_MarkerlineOpacity, PF_SELECTED, 1.0); this->SetColorProperty(m_MarkerColor, PF_SELECTED, 1.0, 0.6, 0.0); this->SetFloatProperty(m_MarkerOpacity, PF_SELECTED, 1.0); this->SetColorProperty(m_AnnotationColor, PF_SELECTED, 1.0, 0.0, 0.0); } void mitk::PlanarFigureMapper2D::InitializePlanarFigurePropertiesFromDataNode(const mitk::DataNode *node) { if (node == NULL) { return; } // if we have not added an observer for ModifiedEvents on the DataNode, // we add one now. if (!m_NodeModifiedObserverAdded) { itk::SimpleMemberCommand::Pointer nodeModifiedCommand = itk::SimpleMemberCommand::New(); nodeModifiedCommand->SetCallbackFunction(this, &mitk::PlanarFigureMapper2D::OnNodeModified); m_NodeModifiedObserverTag = node->AddObserver(itk::ModifiedEvent(), nodeModifiedCommand); m_NodeModifiedObserverAdded = true; } // If the DataNode has not been modified since the last execution of // this method, we do not run it now. if (!m_NodeModified) return; // Mark the current properties as unmodified m_NodeModified = false; // Get Global Opacity float globalOpacity = 1.0; node->GetFloatProperty("opacity", globalOpacity); node->GetBoolProperty("selected", m_IsSelected); node->GetBoolProperty("planarfigure.ishovering", m_IsHovering); node->GetBoolProperty("planarfigure.drawoutline", m_DrawOutline); node->GetBoolProperty("planarfigure.drawshadow", m_DrawShadow); node->GetBoolProperty("planarfigure.drawquantities", m_DrawQuantities); node->GetBoolProperty("planarfigure.drawcontrolpoints", m_DrawControlPoints); node->GetBoolProperty("planarfigure.drawname", m_DrawName); node->GetBoolProperty("planarfigure.drawdashed", m_DrawDashed); node->GetBoolProperty("planarfigure.helperline.drawdashed", m_DrawHelperDashed); node->GetFloatProperty("planarfigure.line.width", m_LineWidth); node->GetFloatProperty("planarfigure.shadow.widthmodifier", m_ShadowWidthFactor); node->GetFloatProperty("planarfigure.outline.width", m_OutlineWidth); node->GetFloatProperty("planarfigure.helperline.width", m_HelperlineWidth); node->GetFloatProperty("planarfigure.devicepixelratio", m_DevicePixelRatio); node->GetStringProperty("planarfigure.annotations.font.family", m_AnnotationFontFamily); node->GetBoolProperty("planarfigure.annotations.font.bold", m_DrawAnnotationBold); node->GetBoolProperty("planarfigure.annotations.font.italic", m_DrawAnnotationItalic); node->GetIntProperty("planarfigure.annotations.font.size", m_AnnotationSize); if (!node->GetBoolProperty("planarfigure.annotations.shadow", m_AnnotationsShadow)) { node->GetBoolProperty("planarfigure.drawshadow", m_AnnotationsShadow); } PlanarFigureControlPointStyleProperty::Pointer styleProperty = dynamic_cast(node->GetProperty("planarfigure.controlpointshape")); if (styleProperty.IsNotNull()) { m_ControlPointShape = styleProperty->GetShape(); } // Set default color and opacity // If property "planarfigure.default.*.color" exists, then use that color. Otherwise global "color" property is used. if (!node->GetColor(m_LineColor[PF_DEFAULT], NULL, "planarfigure.default.line.color")) { node->GetColor(m_LineColor[PF_DEFAULT], NULL, "color"); } node->GetFloatProperty("planarfigure.default.line.opacity", m_LineOpacity[PF_DEFAULT]); if (!node->GetColor(m_OutlineColor[PF_DEFAULT], NULL, "planarfigure.default.outline.color")) { node->GetColor(m_OutlineColor[PF_DEFAULT], NULL, "color"); } node->GetFloatProperty("planarfigure.default.outline.opacity", m_OutlineOpacity[PF_DEFAULT]); if (!node->GetColor(m_HelperlineColor[PF_DEFAULT], NULL, "planarfigure.default.helperline.color")) { node->GetColor(m_HelperlineColor[PF_DEFAULT], NULL, "color"); } node->GetFloatProperty("planarfigure.default.helperline.opacity", m_HelperlineOpacity[PF_DEFAULT]); node->GetColor(m_MarkerlineColor[PF_DEFAULT], NULL, "planarfigure.default.markerline.color"); node->GetFloatProperty("planarfigure.default.markerline.opacity", m_MarkerlineOpacity[PF_DEFAULT]); node->GetColor(m_MarkerColor[PF_DEFAULT], NULL, "planarfigure.default.marker.color"); node->GetFloatProperty("planarfigure.default.marker.opacity", m_MarkerOpacity[PF_DEFAULT]); if (!node->GetColor(m_AnnotationColor[PF_DEFAULT], NULL, "planarfigure.default.annotation.color")) { if (!node->GetColor(m_AnnotationColor[PF_DEFAULT], NULL, "planarfigure.default.line.color")) { node->GetColor(m_AnnotationColor[PF_DEFAULT], NULL, "color"); } } // Set hover color and opacity node->GetColor(m_LineColor[PF_HOVER], NULL, "planarfigure.hover.line.color"); node->GetFloatProperty("planarfigure.hover.line.opacity", m_LineOpacity[PF_HOVER]); node->GetColor(m_OutlineColor[PF_HOVER], NULL, "planarfigure.hover.outline.color"); node->GetFloatProperty("planarfigure.hover.outline.opacity", m_OutlineOpacity[PF_HOVER]); node->GetColor(m_HelperlineColor[PF_HOVER], NULL, "planarfigure.hover.helperline.color"); node->GetFloatProperty("planarfigure.hover.helperline.opacity", m_HelperlineOpacity[PF_HOVER]); node->GetColor(m_MarkerlineColor[PF_HOVER], NULL, "planarfigure.hover.markerline.color"); node->GetFloatProperty("planarfigure.hover.markerline.opacity", m_MarkerlineOpacity[PF_HOVER]); node->GetColor(m_MarkerColor[PF_HOVER], NULL, "planarfigure.hover.marker.color"); node->GetFloatProperty("planarfigure.hover.marker.opacity", m_MarkerOpacity[PF_HOVER]); if (!node->GetColor(m_AnnotationColor[PF_HOVER], NULL, "planarfigure.hover.annotation.color")) { if (!node->GetColor(m_AnnotationColor[PF_HOVER], NULL, "planarfigure.hover.line.color")) { node->GetColor(m_AnnotationColor[PF_HOVER], NULL, "color"); } } // Set selected color and opacity node->GetColor(m_LineColor[PF_SELECTED], NULL, "planarfigure.selected.line.color"); node->GetFloatProperty("planarfigure.selected.line.opacity", m_LineOpacity[PF_SELECTED]); node->GetColor(m_OutlineColor[PF_SELECTED], NULL, "planarfigure.selected.outline.color"); node->GetFloatProperty("planarfigure.selected.outline.opacity", m_OutlineOpacity[PF_SELECTED]); node->GetColor(m_HelperlineColor[PF_SELECTED], NULL, "planarfigure.selected.helperline.color"); node->GetFloatProperty("planarfigure.selected.helperline.opacity", m_HelperlineOpacity[PF_SELECTED]); node->GetColor(m_MarkerlineColor[PF_SELECTED], NULL, "planarfigure.selected.markerline.color"); node->GetFloatProperty("planarfigure.selected.markerline.opacity", m_MarkerlineOpacity[PF_SELECTED]); node->GetColor(m_MarkerColor[PF_SELECTED], NULL, "planarfigure.selected.marker.color"); node->GetFloatProperty("planarfigure.selected.marker.opacity", m_MarkerOpacity[PF_SELECTED]); if (!node->GetColor(m_AnnotationColor[PF_SELECTED], NULL, "planarfigure.selected.annotation.color")) { if (!node->GetColor(m_AnnotationColor[PF_SELECTED], NULL, "planarfigure.selected.line.color")) { node->GetColor(m_AnnotationColor[PF_SELECTED], NULL, "color"); } } // adapt opacity values to global "opacity" property for (unsigned int i = 0; i < PF_COUNT; ++i) { m_LineOpacity[i] *= globalOpacity; m_OutlineOpacity[i] *= globalOpacity; m_HelperlineOpacity[i] *= globalOpacity; m_MarkerlineOpacity[i] *= globalOpacity; m_MarkerOpacity[i] *= globalOpacity; } } void mitk::PlanarFigureMapper2D::OnNodeModified() { m_NodeModified = true; } void mitk::PlanarFigureMapper2D::SetDefaultProperties(mitk::DataNode *node, mitk::BaseRenderer *renderer, bool overwrite) { node->AddProperty("visible", mitk::BoolProperty::New(true), renderer, overwrite); // node->SetProperty("planarfigure.iseditable",mitk::BoolProperty::New(true)); node->AddProperty("planarfigure.isextendable", mitk::BoolProperty::New(false)); // node->AddProperty( "planarfigure.ishovering", mitk::BoolProperty::New(true) ); node->AddProperty("planarfigure.drawoutline", mitk::BoolProperty::New(false)); // node->AddProperty( "planarfigure.drawquantities", mitk::BoolProperty::New(true) ); node->AddProperty("planarfigure.drawshadow", mitk::BoolProperty::New(true)); node->AddProperty("planarfigure.drawcontrolpoints", mitk::BoolProperty::New(true)); node->AddProperty("planarfigure.drawname", mitk::BoolProperty::New(true)); node->AddProperty("planarfigure.drawdashed", mitk::BoolProperty::New(false)); node->AddProperty("planarfigure.helperline.drawdashed", mitk::BoolProperty::New(false)); node->AddProperty("planarfigure.annotations.font.family", mitk::StringProperty::New("Arial")); node->AddProperty("planarfigure.annotations.font.bold", mitk::BoolProperty::New(false)); node->AddProperty("planarfigure.annotations.font.italic", mitk::BoolProperty::New(false)); node->AddProperty("planarfigure.annotations.font.size", mitk::IntProperty::New(12)); node->AddProperty("planarfigure.line.width", mitk::FloatProperty::New(2.0)); node->AddProperty("planarfigure.shadow.widthmodifier", mitk::FloatProperty::New(2.0)); node->AddProperty("planarfigure.outline.width", mitk::FloatProperty::New(2.0)); node->AddProperty("planarfigure.helperline.width", mitk::FloatProperty::New(1.0)); node->AddProperty("planarfigure.default.line.opacity", mitk::FloatProperty::New(1.0)); node->AddProperty("planarfigure.default.outline.opacity", mitk::FloatProperty::New(1.0)); node->AddProperty("planarfigure.default.helperline.opacity", mitk::FloatProperty::New(1.0)); node->AddProperty("planarfigure.default.markerline.color", mitk::ColorProperty::New(1.0, 1.0, 1.0)); node->AddProperty("planarfigure.default.markerline.opacity", mitk::FloatProperty::New(1.0)); node->AddProperty("planarfigure.default.marker.color", mitk::ColorProperty::New(1.0, 1.0, 1.0)); node->AddProperty("planarfigure.default.marker.opacity", mitk::FloatProperty::New(1.0)); node->AddProperty("planarfigure.hover.line.color", mitk::ColorProperty::New(0.0, 1.0, 0.0)); node->AddProperty("planarfigure.hover.line.opacity", mitk::FloatProperty::New(1.0)); node->AddProperty("planarfigure.hover.outline.color", mitk::ColorProperty::New(0.0, 1.0, 0.0)); node->AddProperty("planarfigure.hover.outline.opacity", mitk::FloatProperty::New(1.0)); node->AddProperty("planarfigure.hover.helperline.color", mitk::ColorProperty::New(0.0, 1.0, 0.0)); node->AddProperty("planarfigure.hover.helperline.opacity", mitk::FloatProperty::New(1.0)); node->AddProperty("planarfigure.hover.markerline.color", mitk::ColorProperty::New(0.0, 1.0, 0.0)); node->AddProperty("planarfigure.hover.markerline.opacity", mitk::FloatProperty::New(1.0)); node->AddProperty("planarfigure.hover.marker.color", mitk::ColorProperty::New(0.0, 1.0, 0.0)); node->AddProperty("planarfigure.hover.marker.opacity", mitk::FloatProperty::New(1.0)); node->AddProperty("planarfigure.selected.line.color", mitk::ColorProperty::New(1.0, 0.0, 0.0)); node->AddProperty("planarfigure.selected.line.opacity", mitk::FloatProperty::New(1.0)); node->AddProperty("planarfigure.selected.outline.color", mitk::ColorProperty::New(1.0, 0.0, 0.0)); node->AddProperty("planarfigure.selected.outline.opacity", mitk::FloatProperty::New(1.0)); node->AddProperty("planarfigure.selected.helperline.color", mitk::ColorProperty::New(1.0, 0.0, 0.0)); node->AddProperty("planarfigure.selected.helperline.opacity", mitk::FloatProperty::New(1.0)); node->AddProperty("planarfigure.selected.markerline.color", mitk::ColorProperty::New(1.0, 0.0, 0.0)); node->AddProperty("planarfigure.selected.markerline.opacity", mitk::FloatProperty::New(1.0)); node->AddProperty("planarfigure.selected.marker.color", mitk::ColorProperty::New(1.0, 0.0, 0.0)); node->AddProperty("planarfigure.selected.marker.opacity", mitk::FloatProperty::New(1.0)); } void mitk::PlanarFigureMapper2D::RenderControlPoints(const mitk::PlanarFigure *planarFigure, const PlanarFigureDisplayMode lineDisplayMode, const mitk::PlaneGeometry *planarFigurePlaneGeometry, const mitk::PlaneGeometry *rendererPlaneGeometry, mitk::BaseRenderer *renderer) { bool isEditable = true; m_DataNode->GetBoolProperty("planarfigure.iseditable", isEditable); PlanarFigureDisplayMode pointDisplayMode = PF_DEFAULT; const unsigned int selectedControlPointsIdx = (unsigned int)planarFigure->GetSelectedControlPoint(); const unsigned int numberOfControlPoints = planarFigure->GetNumberOfControlPoints(); // Draw markers at control points (selected control point will be colored) for (unsigned int i = 0; i < numberOfControlPoints; ++i) { // Only if planar figure is marked as editable: display markers (control points) in a // different style if mouse is over them or they are selected if (isEditable) { if (i == selectedControlPointsIdx) { pointDisplayMode = PF_SELECTED; } else if (m_IsHovering && isEditable) { pointDisplayMode = PF_HOVER; } } if (m_MarkerOpacity[pointDisplayMode] == 0 && m_MarkerlineOpacity[pointDisplayMode] == 0) { continue; } if (m_DrawOutline) { // draw outlines for markers as well // linewidth for the contour is only half, as full width looks // much too thick! this->DrawMarker(planarFigure->GetControlPoint(i), m_OutlineColor[lineDisplayMode], m_MarkerlineOpacity[pointDisplayMode], m_OutlineColor[lineDisplayMode], m_MarkerOpacity[pointDisplayMode], m_OutlineWidth / 2, m_ControlPointShape, planarFigurePlaneGeometry, rendererPlaneGeometry, renderer); } this->DrawMarker(planarFigure->GetControlPoint(i), m_MarkerlineColor[pointDisplayMode], m_MarkerlineOpacity[pointDisplayMode], m_MarkerColor[pointDisplayMode], m_MarkerOpacity[pointDisplayMode], m_LineWidth, m_ControlPointShape, planarFigurePlaneGeometry, rendererPlaneGeometry, renderer); } if (planarFigure->IsPreviewControlPointVisible()) { this->DrawMarker(planarFigure->GetPreviewControlPoint(), m_MarkerlineColor[PF_HOVER], m_MarkerlineOpacity[PF_HOVER], m_MarkerColor[PF_HOVER], m_MarkerOpacity[PF_HOVER], m_LineWidth, m_ControlPointShape, planarFigurePlaneGeometry, rendererPlaneGeometry, renderer); } } void mitk::PlanarFigureMapper2D::RenderAnnotations(mitk::BaseRenderer *renderer, const std::string name, const mitk::Point2D anchorPoint, float globalOpacity, const PlanarFigureDisplayMode lineDisplayMode, double &annotationOffset) { if (anchorPoint[0] < mitk::eps || anchorPoint[1] < mitk::eps) { return; } m_AnnotationOverlay->SetText(name); m_AnnotationOverlay->SetColor(m_AnnotationColor[lineDisplayMode][0], m_AnnotationColor[lineDisplayMode][1], m_AnnotationColor[lineDisplayMode][2]); m_AnnotationOverlay->SetOpacity(globalOpacity); m_AnnotationOverlay->SetFontSize(m_AnnotationSize * m_DevicePixelRatio); m_AnnotationOverlay->SetBoolProperty("drawShadow", m_AnnotationsShadow); - m_AnnotationOverlay->SetVisibility(true, renderer); + m_AnnotationOverlay->SetVisibility(true); m_AnnotationOverlay->SetStringProperty("font.family", m_AnnotationFontFamily); m_AnnotationOverlay->SetBoolProperty("font.bold", m_DrawAnnotationBold); m_AnnotationOverlay->SetBoolProperty("font.italic", m_DrawAnnotationItalic); mitk::Point2D offset; offset.Fill(5); mitk::Point2D scaledAnchorPoint; scaledAnchorPoint[0] = anchorPoint[0] * m_DevicePixelRatio; scaledAnchorPoint[1] = anchorPoint[1] * m_DevicePixelRatio; offset[0] = offset[0] * m_DevicePixelRatio; offset[1] = offset[1] * m_DevicePixelRatio; m_AnnotationOverlay->SetPosition2D(scaledAnchorPoint); m_AnnotationOverlay->SetOffsetVector(offset); m_AnnotationOverlay->Update(renderer); m_AnnotationOverlay->Paint(renderer); annotationOffset -= 15.0; // annotationOffset -= m_AnnotationOverlay->GetBoundsOnDisplay( renderer ).Size[1]; } void mitk::PlanarFigureMapper2D::RenderQuantities(const mitk::PlanarFigure *planarFigure, mitk::BaseRenderer *renderer, const mitk::Point2D anchorPoint, double &annotationOffset, float globalOpacity, const PlanarFigureDisplayMode lineDisplayMode) { if (anchorPoint[0] < mitk::eps || anchorPoint[1] < mitk::eps) { return; } std::stringstream quantityString; quantityString.setf(ios::fixed, ios::floatfield); quantityString.precision(1); bool firstActiveFeature = true; for (unsigned int i = 0; i < planarFigure->GetNumberOfFeatures(); ++i) { if (planarFigure->IsFeatureActive(i) && planarFigure->IsFeatureVisible(i)) { if (!firstActiveFeature) { quantityString << " x "; } quantityString << planarFigure->GetQuantity(i) << " "; quantityString << planarFigure->GetFeatureUnit(i); firstActiveFeature = false; } } m_QuantityOverlay->SetColor(m_AnnotationColor[lineDisplayMode][0], m_AnnotationColor[lineDisplayMode][1], m_AnnotationColor[lineDisplayMode][2]); m_QuantityOverlay->SetOpacity(globalOpacity); m_QuantityOverlay->SetFontSize(m_AnnotationSize * m_DevicePixelRatio); m_QuantityOverlay->SetBoolProperty("drawShadow", m_DrawShadow); - m_QuantityOverlay->SetVisibility(true, renderer); + m_QuantityOverlay->SetVisibility(true); m_AnnotationOverlay->SetStringProperty("font.family", m_AnnotationFontFamily); m_AnnotationOverlay->SetBoolProperty("font.bold", m_DrawAnnotationBold); m_AnnotationOverlay->SetBoolProperty("font.italic", m_DrawAnnotationItalic); m_QuantityOverlay->SetText(quantityString.str().c_str()); mitk::Point2D offset; offset.Fill(5); offset[1] += annotationOffset; mitk::Point2D scaledAnchorPoint; scaledAnchorPoint[0] = anchorPoint[0] * m_DevicePixelRatio; scaledAnchorPoint[1] = anchorPoint[1] * m_DevicePixelRatio; offset[0] = offset[0] * m_DevicePixelRatio; offset[1] = offset[1] * m_DevicePixelRatio; m_QuantityOverlay->SetPosition2D(scaledAnchorPoint); m_QuantityOverlay->SetOffsetVector(offset); m_QuantityOverlay->Update(renderer); m_QuantityOverlay->Paint(renderer); // annotationOffset -= m_QuantityOverlay->GetBoundsOnDisplay( renderer ).Size[1]; annotationOffset -= 15.0; } void mitk::PlanarFigureMapper2D::RenderLines(const PlanarFigureDisplayMode lineDisplayMode, mitk::PlanarFigure *planarFigure, mitk::Point2D &anchorPoint, const mitk::PlaneGeometry *planarFigurePlaneGeometry, const mitk::PlaneGeometry *rendererPlaneGeometry, const mitk::BaseRenderer *renderer) { glLineStipple(1, 0x00FF); // If we want to draw an outline, we do it here if (m_DrawOutline) { const float *color = m_OutlineColor[lineDisplayMode]; const float opacity = m_OutlineOpacity[lineDisplayMode]; // convert to a float array that also contains opacity, faster GL float *colorVector = new float[4]; colorVector[0] = color[0]; colorVector[1] = color[1]; colorVector[2] = color[2]; colorVector[3] = opacity; // set the color and opacity here as it is common for all outlines glColor4fv(colorVector); glLineWidth(m_OutlineWidth); if (m_DrawDashed) glEnable(GL_LINE_STIPPLE); else glDisable(GL_LINE_STIPPLE); // Draw the outline for all polylines if requested this->DrawMainLines(planarFigure, anchorPoint, planarFigurePlaneGeometry, rendererPlaneGeometry, renderer); glLineWidth(m_HelperlineWidth); if (m_DrawHelperDashed) glEnable(GL_LINE_STIPPLE); else glDisable(GL_LINE_STIPPLE); // Draw the outline for all helper objects if requested this->DrawHelperLines(planarFigure, anchorPoint, planarFigurePlaneGeometry, rendererPlaneGeometry, renderer); // cleanup delete[] colorVector; } // If we want to draw a shadow, we do it here if (m_DrawShadow) { // determine the shadow opacity const float opacity = m_OutlineOpacity[lineDisplayMode]; float shadowOpacity = 0.0f; if (opacity > 0.2f) shadowOpacity = opacity - 0.2f; // convert to a float array that also contains opacity, faster GL float *shadow = new float[4]; shadow[0] = 0; shadow[1] = 0; shadow[2] = 0; shadow[3] = shadowOpacity; // set the color and opacity here as it is common for all shadows glColor4fv(shadow); glLineWidth(m_OutlineWidth * m_ShadowWidthFactor); if (m_DrawDashed) glEnable(GL_LINE_STIPPLE); else glDisable(GL_LINE_STIPPLE); // Draw the outline for all polylines if requested this->DrawMainLines(planarFigure, anchorPoint, planarFigurePlaneGeometry, rendererPlaneGeometry, renderer); glLineWidth(m_HelperlineWidth); if (m_DrawHelperDashed) glEnable(GL_LINE_STIPPLE); else glDisable(GL_LINE_STIPPLE); // Draw the outline for all helper objects if requested this->DrawHelperLines(planarFigure, anchorPoint, planarFigurePlaneGeometry, rendererPlaneGeometry, renderer); // cleanup delete[] shadow; } // set this in brackets to avoid duplicate variables in the same scope { const float *color = m_LineColor[lineDisplayMode]; const float opacity = m_LineOpacity[lineDisplayMode]; // convert to a float array that also contains opacity, faster GL float *colorVector = new float[4]; colorVector[0] = color[0]; colorVector[1] = color[1]; colorVector[2] = color[2]; colorVector[3] = opacity; // set the color and opacity here as it is common for all mainlines glColor4fv(colorVector); glLineWidth(m_LineWidth); if (m_DrawDashed) glEnable(GL_LINE_STIPPLE); else glDisable(GL_LINE_STIPPLE); // Draw the main line for all polylines this->DrawMainLines(planarFigure, anchorPoint, planarFigurePlaneGeometry, rendererPlaneGeometry, renderer); const float *helperColor = m_HelperlineColor[lineDisplayMode]; const float helperOpacity = m_HelperlineOpacity[lineDisplayMode]; // convert to a float array that also contains opacity, faster GL float *helperColorVector = new float[4]; helperColorVector[0] = helperColor[0]; helperColorVector[1] = helperColor[1]; helperColorVector[2] = helperColor[2]; helperColorVector[3] = helperOpacity; // we only set the color for the helperlines as the linewidth is unchanged glColor4fv(helperColorVector); glLineWidth(m_HelperlineWidth); if (m_DrawHelperDashed) glEnable(GL_LINE_STIPPLE); else glDisable(GL_LINE_STIPPLE); // Draw helper objects this->DrawHelperLines(planarFigure, anchorPoint, planarFigurePlaneGeometry, rendererPlaneGeometry, renderer); // cleanup delete[] colorVector; delete[] helperColorVector; } if (m_DrawDashed || m_DrawHelperDashed) glDisable(GL_LINE_STIPPLE); } diff --git a/Modules/QtWidgets/src/QmitkStdMultiWidget.cpp b/Modules/QtWidgets/src/QmitkStdMultiWidget.cpp index d66b1d3031..9b0ff02755 100644 --- a/Modules/QtWidgets/src/QmitkStdMultiWidget.cpp +++ b/Modules/QtWidgets/src/QmitkStdMultiWidget.cpp @@ -1,2027 +1,2027 @@ /*=================================================================== 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. ===================================================================*/ #define SMW_INFO MITK_INFO("widget.stdmulti") #include "QmitkStdMultiWidget.h" #include #include #include #include #include #include #include #include "mitkImagePixelReadAccessor.h" #include "mitkPixelTypeMultiplex.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include QmitkStdMultiWidget::QmitkStdMultiWidget(QWidget *parent, Qt::WindowFlags f, mitk::RenderingManager *renderingManager, mitk::BaseRenderer::RenderingMode::Type renderingMode, const QString &name) : QWidget(parent, f), mitkWidget1(NULL), mitkWidget2(NULL), mitkWidget3(NULL), mitkWidget4(NULL), levelWindowWidget(NULL), QmitkStdMultiWidgetLayout(NULL), m_Layout(LAYOUT_DEFAULT), m_PlaneMode(PLANE_MODE_SLICING), m_RenderingManager(renderingManager), m_GradientBackgroundFlag(true), m_TimeNavigationController(NULL), m_MainSplit(NULL), m_LayoutSplit(NULL), m_SubSplit1(NULL), m_SubSplit2(NULL), mitkWidget1Container(NULL), mitkWidget2Container(NULL), mitkWidget3Container(NULL), mitkWidget4Container(NULL), m_PendingCrosshairPositionEvent(false), m_CrosshairNavigationEnabled(false) { /****************************************************** * Use the global RenderingManager if none was specified * ****************************************************/ if (m_RenderingManager == NULL) { m_RenderingManager = mitk::RenderingManager::GetInstance(); } m_TimeNavigationController = m_RenderingManager->GetTimeNavigationController(); /*******************************/ // Create Widget manually /*******************************/ // create Layouts QmitkStdMultiWidgetLayout = new QHBoxLayout(this); QmitkStdMultiWidgetLayout->setContentsMargins(0, 0, 0, 0); // Set Layout to widget this->setLayout(QmitkStdMultiWidgetLayout); // create main splitter m_MainSplit = new QSplitter(this); QmitkStdMultiWidgetLayout->addWidget(m_MainSplit); // create m_LayoutSplit and add to the mainSplit m_LayoutSplit = new QSplitter(Qt::Vertical, m_MainSplit); m_MainSplit->addWidget(m_LayoutSplit); // create m_SubSplit1 and m_SubSplit2 m_SubSplit1 = new QSplitter(m_LayoutSplit); m_SubSplit2 = new QSplitter(m_LayoutSplit); // creae Widget Container mitkWidget1Container = new QWidget(m_SubSplit1); mitkWidget2Container = new QWidget(m_SubSplit1); mitkWidget3Container = new QWidget(m_SubSplit2); mitkWidget4Container = new QWidget(m_SubSplit2); mitkWidget1Container->setContentsMargins(0, 0, 0, 0); mitkWidget2Container->setContentsMargins(0, 0, 0, 0); mitkWidget3Container->setContentsMargins(0, 0, 0, 0); mitkWidget4Container->setContentsMargins(0, 0, 0, 0); // create Widget Layout QHBoxLayout *mitkWidgetLayout1 = new QHBoxLayout(mitkWidget1Container); QHBoxLayout *mitkWidgetLayout2 = new QHBoxLayout(mitkWidget2Container); QHBoxLayout *mitkWidgetLayout3 = new QHBoxLayout(mitkWidget3Container); QHBoxLayout *mitkWidgetLayout4 = new QHBoxLayout(mitkWidget4Container); m_CornerAnnotations[0] = vtkSmartPointer::New(); m_CornerAnnotations[1] = vtkSmartPointer::New(); m_CornerAnnotations[2] = vtkSmartPointer::New(); m_CornerAnnotations[3] = vtkSmartPointer::New(); m_RectangleProps[0] = vtkSmartPointer::New(); m_RectangleProps[1] = vtkSmartPointer::New(); m_RectangleProps[2] = vtkSmartPointer::New(); m_RectangleProps[3] = vtkSmartPointer::New(); mitkWidgetLayout1->setMargin(0); mitkWidgetLayout2->setMargin(0); mitkWidgetLayout3->setMargin(0); mitkWidgetLayout4->setMargin(0); // set Layout to Widget Container mitkWidget1Container->setLayout(mitkWidgetLayout1); mitkWidget2Container->setLayout(mitkWidgetLayout2); mitkWidget3Container->setLayout(mitkWidgetLayout3); mitkWidget4Container->setLayout(mitkWidgetLayout4); // set SizePolicy mitkWidget1Container->setSizePolicy(QSizePolicy::Expanding, QSizePolicy::Expanding); mitkWidget2Container->setSizePolicy(QSizePolicy::Expanding, QSizePolicy::Expanding); mitkWidget3Container->setSizePolicy(QSizePolicy::Expanding, QSizePolicy::Expanding); mitkWidget4Container->setSizePolicy(QSizePolicy::Expanding, QSizePolicy::Expanding); // insert Widget Container into the splitters m_SubSplit1->addWidget(mitkWidget1Container); m_SubSplit1->addWidget(mitkWidget2Container); m_SubSplit2->addWidget(mitkWidget3Container); m_SubSplit2->addWidget(mitkWidget4Container); // Create RenderWindows 1 mitkWidget1 = new QmitkRenderWindow(mitkWidget1Container, name + ".widget1", NULL, m_RenderingManager, renderingMode); mitkWidget1->SetLayoutIndex(AXIAL); mitkWidgetLayout1->addWidget(mitkWidget1); // Create RenderWindows 2 mitkWidget2 = new QmitkRenderWindow(mitkWidget2Container, name + ".widget2", NULL, m_RenderingManager, renderingMode); mitkWidget2->setEnabled(true); mitkWidget2->SetLayoutIndex(SAGITTAL); mitkWidgetLayout2->addWidget(mitkWidget2); // Create RenderWindows 3 mitkWidget3 = new QmitkRenderWindow(mitkWidget3Container, name + ".widget3", NULL, m_RenderingManager, renderingMode); mitkWidget3->SetLayoutIndex(CORONAL); mitkWidgetLayout3->addWidget(mitkWidget3); // Create RenderWindows 4 mitkWidget4 = new QmitkRenderWindow(mitkWidget4Container, name + ".widget4", NULL, m_RenderingManager, renderingMode); mitkWidget4->SetLayoutIndex(THREE_D); mitkWidgetLayout4->addWidget(mitkWidget4); // create SignalSlot Connection connect(mitkWidget1, SIGNAL(SignalLayoutDesignChanged(int)), this, SLOT(OnLayoutDesignChanged(int))); connect(mitkWidget1, SIGNAL(ResetView()), this, SLOT(ResetCrosshair())); connect(mitkWidget1, SIGNAL(ChangeCrosshairRotationMode(int)), this, SLOT(SetWidgetPlaneMode(int))); connect(this, SIGNAL(WidgetNotifyNewCrossHairMode(int)), mitkWidget1, SLOT(OnWidgetPlaneModeChanged(int))); connect(mitkWidget2, SIGNAL(SignalLayoutDesignChanged(int)), this, SLOT(OnLayoutDesignChanged(int))); connect(mitkWidget2, SIGNAL(ResetView()), this, SLOT(ResetCrosshair())); connect(mitkWidget2, SIGNAL(ChangeCrosshairRotationMode(int)), this, SLOT(SetWidgetPlaneMode(int))); connect(this, SIGNAL(WidgetNotifyNewCrossHairMode(int)), mitkWidget2, SLOT(OnWidgetPlaneModeChanged(int))); connect(mitkWidget3, SIGNAL(SignalLayoutDesignChanged(int)), this, SLOT(OnLayoutDesignChanged(int))); connect(mitkWidget3, SIGNAL(ResetView()), this, SLOT(ResetCrosshair())); connect(mitkWidget3, SIGNAL(ChangeCrosshairRotationMode(int)), this, SLOT(SetWidgetPlaneMode(int))); connect(this, SIGNAL(WidgetNotifyNewCrossHairMode(int)), mitkWidget3, SLOT(OnWidgetPlaneModeChanged(int))); connect(mitkWidget4, SIGNAL(SignalLayoutDesignChanged(int)), this, SLOT(OnLayoutDesignChanged(int))); connect(mitkWidget4, SIGNAL(ResetView()), this, SLOT(ResetCrosshair())); connect(mitkWidget4, SIGNAL(ChangeCrosshairRotationMode(int)), this, SLOT(SetWidgetPlaneMode(int))); connect(this, SIGNAL(WidgetNotifyNewCrossHairMode(int)), mitkWidget4, SLOT(OnWidgetPlaneModeChanged(int))); // Create Level Window Widget levelWindowWidget = new QmitkLevelWindowWidget(m_MainSplit); // this levelWindowWidget->setObjectName(QString::fromUtf8("levelWindowWidget")); QSizePolicy sizePolicy(QSizePolicy::Preferred, QSizePolicy::Preferred); sizePolicy.setHorizontalStretch(0); sizePolicy.setVerticalStretch(0); sizePolicy.setHeightForWidth(levelWindowWidget->sizePolicy().hasHeightForWidth()); levelWindowWidget->setSizePolicy(sizePolicy); levelWindowWidget->setMaximumWidth(50); // add LevelWindow Widget to mainSplitter m_MainSplit->addWidget(levelWindowWidget); // show mainSplitt and add to Layout m_MainSplit->show(); // resize Image. this->resize(QSize(364, 477).expandedTo(minimumSizeHint())); // Initialize the widgets. this->InitializeWidget(); // Activate Widget Menu this->ActivateMenuWidget(true); } void QmitkStdMultiWidget::InitializeWidget() { // Make all black and overwrite renderwindow 4 this->FillGradientBackgroundWithBlack(); // This is #191919 in hex float tmp1[3] = {0.098f, 0.098f, 0.098f}; // This is #7F7F7F in hex float tmp2[3] = {0.498f, 0.498f, 0.498f}; m_GradientBackgroundColors[3] = std::make_pair(mitk::Color(tmp1), mitk::Color(tmp2)); // Yellow is default color for widget4 m_DecorationColorWidget4[0] = 1.0f; m_DecorationColorWidget4[1] = 1.0f; m_DecorationColorWidget4[2] = 0.0f; // transfer colors in WorldGeometry-Nodes of the associated Renderer mitk::IntProperty::Pointer layer; // of widget 1 m_PlaneNode1 = mitk::BaseRenderer::GetInstance(mitkWidget1->GetRenderWindow())->GetCurrentWorldPlaneGeometryNode(); m_PlaneNode1->SetColor(GetDecorationColor(0)); layer = mitk::IntProperty::New(1000); m_PlaneNode1->SetProperty("layer", layer); // ... of widget 2 m_PlaneNode2 = mitk::BaseRenderer::GetInstance(mitkWidget2->GetRenderWindow())->GetCurrentWorldPlaneGeometryNode(); m_PlaneNode2->SetColor(GetDecorationColor(1)); layer = mitk::IntProperty::New(1000); m_PlaneNode2->SetProperty("layer", layer); // ... of widget 3 m_PlaneNode3 = mitk::BaseRenderer::GetInstance(mitkWidget3->GetRenderWindow())->GetCurrentWorldPlaneGeometryNode(); m_PlaneNode3->SetColor(GetDecorationColor(2)); layer = mitk::IntProperty::New(1000); m_PlaneNode3->SetProperty("layer", layer); // The parent node m_ParentNodeForGeometryPlanes = mitk::BaseRenderer::GetInstance(mitkWidget4->GetRenderWindow())->GetCurrentWorldPlaneGeometryNode(); layer = mitk::IntProperty::New(1000); m_ParentNodeForGeometryPlanes->SetProperty("layer", layer); mitk::OverlayManager::Pointer OverlayManager = mitk::OverlayManager::New(); mitk::BaseRenderer::GetInstance(mitkWidget1->GetRenderWindow())->SetOverlayManager(OverlayManager); mitk::BaseRenderer::GetInstance(mitkWidget2->GetRenderWindow())->SetOverlayManager(OverlayManager); mitk::BaseRenderer::GetInstance(mitkWidget3->GetRenderWindow())->SetOverlayManager(OverlayManager); mitk::BaseRenderer::GetInstance(mitkWidget4->GetRenderWindow())->SetOverlayManager(OverlayManager); mitk::BaseRenderer::GetInstance(mitkWidget4->GetRenderWindow())->SetMapperID(mitk::BaseRenderer::Standard3D); // Set plane mode (slicing/rotation behavior) to slicing (default) m_PlaneMode = PLANE_MODE_SLICING; // Set default view directions for SNCs mitkWidget1->GetSliceNavigationController()->SetDefaultViewDirection(mitk::SliceNavigationController::Axial); mitkWidget2->GetSliceNavigationController()->SetDefaultViewDirection(mitk::SliceNavigationController::Sagittal); mitkWidget3->GetSliceNavigationController()->SetDefaultViewDirection(mitk::SliceNavigationController::Frontal); mitkWidget4->GetSliceNavigationController()->SetDefaultViewDirection(mitk::SliceNavigationController::Original); SetDecorationProperties("Axial", GetDecorationColor(0), 0); SetDecorationProperties("Sagittal", GetDecorationColor(1), 1); SetDecorationProperties("Coronal", GetDecorationColor(2), 2); SetDecorationProperties("3D", GetDecorationColor(3), 3); // connect to the "time navigation controller": send time via sliceNavigationControllers m_TimeNavigationController->ConnectGeometryTimeEvent(mitkWidget1->GetSliceNavigationController(), false); m_TimeNavigationController->ConnectGeometryTimeEvent(mitkWidget2->GetSliceNavigationController(), false); m_TimeNavigationController->ConnectGeometryTimeEvent(mitkWidget3->GetSliceNavigationController(), false); m_TimeNavigationController->ConnectGeometryTimeEvent(mitkWidget4->GetSliceNavigationController(), false); mitkWidget1->GetSliceNavigationController()->ConnectGeometrySendEvent( mitk::BaseRenderer::GetInstance(mitkWidget4->GetRenderWindow())); // reverse connection between sliceNavigationControllers and m_TimeNavigationController mitkWidget1->GetSliceNavigationController()->ConnectGeometryTimeEvent(m_TimeNavigationController, false); mitkWidget2->GetSliceNavigationController()->ConnectGeometryTimeEvent(m_TimeNavigationController, false); mitkWidget3->GetSliceNavigationController()->ConnectGeometryTimeEvent(m_TimeNavigationController, false); // mitkWidget4->GetSliceNavigationController() // ->ConnectGeometryTimeEvent(m_TimeNavigationController, false); m_MouseModeSwitcher = mitk::MouseModeSwitcher::New(); // setup the department logo rendering m_LogoRendering = mitk::LogoOverlay::New(); mitk::BaseRenderer::Pointer renderer4 = mitk::BaseRenderer::GetInstance(mitkWidget4->GetRenderWindow()); m_LogoRendering->SetOpacity(0.5); mitk::Point2D offset; offset.Fill(0.03); m_LogoRendering->SetOffsetVector(offset); m_LogoRendering->SetRelativeSize(0.15); m_LogoRendering->SetCornerPosition(1); m_LogoRendering->SetLogoImagePath("DefaultLogo"); renderer4->GetOverlayManager()->AddOverlay(m_LogoRendering.GetPointer(), renderer4); } void QmitkStdMultiWidget::FillGradientBackgroundWithBlack() { // We have 4 widgets and ... for (unsigned int i = 0; i < 4; ++i) { float black[3] = {0.0f, 0.0f, 0.0f}; m_GradientBackgroundColors[i] = std::make_pair(mitk::Color(black), mitk::Color(black)); } } std::pair QmitkStdMultiWidget::GetGradientColors(unsigned int widgetNumber) { if (widgetNumber > 3) { MITK_ERROR << "Decoration color for unknown widget!"; float black[3] = {0.0f, 0.0f, 0.0f}; return std::make_pair(mitk::Color(black), mitk::Color(black)); } return m_GradientBackgroundColors[widgetNumber]; } mitk::Color QmitkStdMultiWidget::GetDecorationColor(unsigned int widgetNumber) { // The implementation looks a bit messy here, but it avoids // synchronization of the color of the geometry nodes and an // internal member here. // Default colors were chosen for decent visibitliy. // Feel free to change your preferences in the workbench. float tmp[3] = {0.0f, 0.0f, 0.0f}; switch (widgetNumber) { case 0: { if (m_PlaneNode1.IsNotNull()) { if (m_PlaneNode1->GetColor(tmp)) { return dynamic_cast(m_PlaneNode1->GetProperty("color"))->GetColor(); } } float red[3] = {0.753f, 0.0f, 0.0f}; // This is #C00000 in hex return mitk::Color(red); } case 1: { if (m_PlaneNode2.IsNotNull()) { if (m_PlaneNode2->GetColor(tmp)) { return dynamic_cast(m_PlaneNode2->GetProperty("color"))->GetColor(); } } float green[3] = {0.0f, 0.69f, 0.0f}; // This is #00B000 in hex return mitk::Color(green); } case 2: { if (m_PlaneNode3.IsNotNull()) { if (m_PlaneNode3->GetColor(tmp)) { return dynamic_cast(m_PlaneNode3->GetProperty("color"))->GetColor(); } } float blue[3] = {0.0, 0.502f, 1.0f}; // This is #0080FF in hex return mitk::Color(blue); } case 3: { return m_DecorationColorWidget4; } default: MITK_ERROR << "Decoration color for unknown widget!"; float black[3] = {0.0f, 0.0f, 0.0f}; return mitk::Color(black); } } std::string QmitkStdMultiWidget::GetCornerAnnotationText(unsigned int widgetNumber) { if (widgetNumber > 3) { MITK_ERROR << "Decoration color for unknown widget!"; return std::string(""); } return std::string(m_CornerAnnotations[widgetNumber]->GetText(0)); } QmitkStdMultiWidget::~QmitkStdMultiWidget() { DisablePositionTracking(); // DisableNavigationControllerEventListening(); m_TimeNavigationController->Disconnect(mitkWidget1->GetSliceNavigationController()); m_TimeNavigationController->Disconnect(mitkWidget2->GetSliceNavigationController()); m_TimeNavigationController->Disconnect(mitkWidget3->GetSliceNavigationController()); m_TimeNavigationController->Disconnect(mitkWidget4->GetSliceNavigationController()); } void QmitkStdMultiWidget::RemovePlanesFromDataStorage() { if (m_PlaneNode1.IsNotNull() && m_PlaneNode2.IsNotNull() && m_PlaneNode3.IsNotNull() && m_ParentNodeForGeometryPlanes.IsNotNull()) { if (m_DataStorage.IsNotNull()) { m_DataStorage->Remove(m_PlaneNode1); m_DataStorage->Remove(m_PlaneNode2); m_DataStorage->Remove(m_PlaneNode3); m_DataStorage->Remove(m_ParentNodeForGeometryPlanes); } } } void QmitkStdMultiWidget::AddPlanesToDataStorage() { if (m_PlaneNode1.IsNotNull() && m_PlaneNode2.IsNotNull() && m_PlaneNode3.IsNotNull() && m_ParentNodeForGeometryPlanes.IsNotNull()) { if (m_DataStorage.IsNotNull()) { m_DataStorage->Add(m_ParentNodeForGeometryPlanes); m_DataStorage->Add(m_PlaneNode1, m_ParentNodeForGeometryPlanes); m_DataStorage->Add(m_PlaneNode2, m_ParentNodeForGeometryPlanes); m_DataStorage->Add(m_PlaneNode3, m_ParentNodeForGeometryPlanes); } } } void QmitkStdMultiWidget::changeLayoutTo2DImagesUp() { SMW_INFO << "changing layout to 2D images up... " << std::endl; // Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout; // create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout(this); // Set Layout to widget this->setLayout(QmitkStdMultiWidgetLayout); // create main splitter m_MainSplit = new QSplitter(this); QmitkStdMultiWidgetLayout->addWidget(m_MainSplit); // create m_LayoutSplit and add to the mainSplit m_LayoutSplit = new QSplitter(Qt::Vertical, m_MainSplit); m_MainSplit->addWidget(m_LayoutSplit); // add LevelWindow Widget to mainSplitter m_MainSplit->addWidget(levelWindowWidget); // create m_SubSplit1 and m_SubSplit2 m_SubSplit1 = new QSplitter(m_LayoutSplit); m_SubSplit2 = new QSplitter(m_LayoutSplit); // insert Widget Container into splitter top m_SubSplit1->addWidget(mitkWidget1Container); m_SubSplit1->addWidget(mitkWidget2Container); m_SubSplit1->addWidget(mitkWidget3Container); // set SplitterSize for splitter top QList splitterSize; splitterSize.push_back(1000); splitterSize.push_back(1000); splitterSize.push_back(1000); m_SubSplit1->setSizes(splitterSize); // insert Widget Container into splitter bottom m_SubSplit2->addWidget(mitkWidget4Container); // set SplitterSize for splitter m_LayoutSplit splitterSize.clear(); splitterSize.push_back(400); splitterSize.push_back(1000); m_LayoutSplit->setSizes(splitterSize); // show mainSplitt m_MainSplit->show(); // show Widget if hidden if (mitkWidget1->isHidden()) mitkWidget1->show(); if (mitkWidget2->isHidden()) mitkWidget2->show(); if (mitkWidget3->isHidden()) mitkWidget3->show(); if (mitkWidget4->isHidden()) mitkWidget4->show(); // Change Layout Name m_Layout = LAYOUT_2D_IMAGES_UP; // update Layout Design List mitkWidget1->LayoutDesignListChanged(LAYOUT_2D_IMAGES_UP); mitkWidget2->LayoutDesignListChanged(LAYOUT_2D_IMAGES_UP); mitkWidget3->LayoutDesignListChanged(LAYOUT_2D_IMAGES_UP); mitkWidget4->LayoutDesignListChanged(LAYOUT_2D_IMAGES_UP); // update Alle Widgets this->UpdateAllWidgets(); } void QmitkStdMultiWidget::changeLayoutTo2DImagesLeft() { SMW_INFO << "changing layout to 2D images left... " << std::endl; // Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout; // create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout(this); // create main splitter m_MainSplit = new QSplitter(this); QmitkStdMultiWidgetLayout->addWidget(m_MainSplit); // create m_LayoutSplit and add to the mainSplit m_LayoutSplit = new QSplitter(m_MainSplit); m_MainSplit->addWidget(m_LayoutSplit); // add LevelWindow Widget to mainSplitter m_MainSplit->addWidget(levelWindowWidget); // create m_SubSplit1 and m_SubSplit2 m_SubSplit1 = new QSplitter(Qt::Vertical, m_LayoutSplit); m_SubSplit2 = new QSplitter(m_LayoutSplit); // insert Widget into the splitters m_SubSplit1->addWidget(mitkWidget1Container); m_SubSplit1->addWidget(mitkWidget2Container); m_SubSplit1->addWidget(mitkWidget3Container); // set splitterSize of SubSplit1 QList splitterSize; splitterSize.push_back(1000); splitterSize.push_back(1000); splitterSize.push_back(1000); m_SubSplit1->setSizes(splitterSize); m_SubSplit2->addWidget(mitkWidget4Container); // set splitterSize of Layout Split splitterSize.clear(); splitterSize.push_back(400); splitterSize.push_back(1000); m_LayoutSplit->setSizes(splitterSize); // show mainSplitt and add to Layout m_MainSplit->show(); // show Widget if hidden if (mitkWidget1->isHidden()) mitkWidget1->show(); if (mitkWidget2->isHidden()) mitkWidget2->show(); if (mitkWidget3->isHidden()) mitkWidget3->show(); if (mitkWidget4->isHidden()) mitkWidget4->show(); // update Layout Name m_Layout = LAYOUT_2D_IMAGES_LEFT; // update Layout Design List mitkWidget1->LayoutDesignListChanged(LAYOUT_2D_IMAGES_LEFT); mitkWidget2->LayoutDesignListChanged(LAYOUT_2D_IMAGES_LEFT); mitkWidget3->LayoutDesignListChanged(LAYOUT_2D_IMAGES_LEFT); mitkWidget4->LayoutDesignListChanged(LAYOUT_2D_IMAGES_LEFT); // update Alle Widgets this->UpdateAllWidgets(); } void QmitkStdMultiWidget::SetDecorationProperties(std::string text, mitk::Color color, int widgetNumber) { if (widgetNumber > 3) { MITK_ERROR << "Unknown render window for annotation."; return; } vtkRenderer *renderer = this->GetRenderWindow(widgetNumber)->GetRenderer()->GetVtkRenderer(); if (!renderer) return; vtkSmartPointer annotation = m_CornerAnnotations[widgetNumber]; annotation->SetText(0, text.c_str()); annotation->SetMaximumFontSize(12); annotation->GetTextProperty()->SetColor(color[0], color[1], color[2]); if (!renderer->HasViewProp(annotation)) { renderer->AddViewProp(annotation); } vtkSmartPointer frame = m_RectangleProps[widgetNumber]; frame->SetColor(color[0], color[1], color[2]); if (!renderer->HasViewProp(frame)) { renderer->AddViewProp(frame); } } void QmitkStdMultiWidget::SetCornerAnnotationVisibility(bool visibility) { for (int i = 0; i < 4; ++i) { m_CornerAnnotations[i]->SetVisibility(visibility); } } bool QmitkStdMultiWidget::IsCornerAnnotationVisible(void) const { return m_CornerAnnotations[0]->GetVisibility() > 0; } QmitkRenderWindow *QmitkStdMultiWidget::GetRenderWindow(unsigned int number) { switch (number) { case 0: return this->GetRenderWindow1(); case 1: return this->GetRenderWindow2(); case 2: return this->GetRenderWindow3(); case 3: return this->GetRenderWindow4(); default: MITK_ERROR << "Requested unknown render window"; break; } return NULL; } void QmitkStdMultiWidget::changeLayoutToDefault() { SMW_INFO << "changing layout to default... " << std::endl; // Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout; // create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout(this); // create main splitter m_MainSplit = new QSplitter(this); QmitkStdMultiWidgetLayout->addWidget(m_MainSplit); // create m_LayoutSplit and add to the mainSplit m_LayoutSplit = new QSplitter(Qt::Vertical, m_MainSplit); m_MainSplit->addWidget(m_LayoutSplit); // add LevelWindow Widget to mainSplitter m_MainSplit->addWidget(levelWindowWidget); // create m_SubSplit1 and m_SubSplit2 m_SubSplit1 = new QSplitter(m_LayoutSplit); m_SubSplit2 = new QSplitter(m_LayoutSplit); // insert Widget container into the splitters m_SubSplit1->addWidget(mitkWidget1Container); m_SubSplit1->addWidget(mitkWidget2Container); m_SubSplit2->addWidget(mitkWidget3Container); m_SubSplit2->addWidget(mitkWidget4Container); // set splitter Size QList splitterSize; splitterSize.push_back(1000); splitterSize.push_back(1000); m_SubSplit1->setSizes(splitterSize); m_SubSplit2->setSizes(splitterSize); m_LayoutSplit->setSizes(splitterSize); // show mainSplitt and add to Layout m_MainSplit->show(); // show Widget if hidden if (mitkWidget1->isHidden()) mitkWidget1->show(); if (mitkWidget2->isHidden()) mitkWidget2->show(); if (mitkWidget3->isHidden()) mitkWidget3->show(); if (mitkWidget4->isHidden()) mitkWidget4->show(); m_Layout = LAYOUT_DEFAULT; // update Layout Design List mitkWidget1->LayoutDesignListChanged(LAYOUT_DEFAULT); mitkWidget2->LayoutDesignListChanged(LAYOUT_DEFAULT); mitkWidget3->LayoutDesignListChanged(LAYOUT_DEFAULT); mitkWidget4->LayoutDesignListChanged(LAYOUT_DEFAULT); // update Alle Widgets this->UpdateAllWidgets(); } void QmitkStdMultiWidget::changeLayoutToBig3D() { SMW_INFO << "changing layout to big 3D ..." << std::endl; // Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout; // create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout(this); // create main splitter m_MainSplit = new QSplitter(this); QmitkStdMultiWidgetLayout->addWidget(m_MainSplit); // add widget Splitter to main Splitter m_MainSplit->addWidget(mitkWidget4Container); // add LevelWindow Widget to mainSplitter m_MainSplit->addWidget(levelWindowWidget); // show mainSplitt and add to Layout m_MainSplit->show(); // show/hide Widgets mitkWidget1->hide(); mitkWidget2->hide(); mitkWidget3->hide(); if (mitkWidget4->isHidden()) mitkWidget4->show(); m_Layout = LAYOUT_BIG_3D; // update Layout Design List mitkWidget1->LayoutDesignListChanged(LAYOUT_BIG_3D); mitkWidget2->LayoutDesignListChanged(LAYOUT_BIG_3D); mitkWidget3->LayoutDesignListChanged(LAYOUT_BIG_3D); mitkWidget4->LayoutDesignListChanged(LAYOUT_BIG_3D); // update Alle Widgets this->UpdateAllWidgets(); mitk::RenderingManager::GetInstance()->SetRenderWindowFocus(mitkWidget4->GetVtkRenderWindow()); } void QmitkStdMultiWidget::changeLayoutToWidget1() { SMW_INFO << "changing layout to big Widget1 ..." << std::endl; // Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout; // create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout(this); // create main splitter m_MainSplit = new QSplitter(this); QmitkStdMultiWidgetLayout->addWidget(m_MainSplit); // add widget Splitter to main Splitter m_MainSplit->addWidget(mitkWidget1Container); // add LevelWindow Widget to mainSplitter m_MainSplit->addWidget(levelWindowWidget); // show mainSplitt and add to Layout m_MainSplit->show(); // show/hide Widgets if (mitkWidget1->isHidden()) mitkWidget1->show(); mitkWidget2->hide(); mitkWidget3->hide(); mitkWidget4->hide(); m_Layout = LAYOUT_WIDGET1; // update Layout Design List mitkWidget1->LayoutDesignListChanged(LAYOUT_WIDGET1); mitkWidget2->LayoutDesignListChanged(LAYOUT_WIDGET1); mitkWidget3->LayoutDesignListChanged(LAYOUT_WIDGET1); mitkWidget4->LayoutDesignListChanged(LAYOUT_WIDGET1); // update Alle Widgets this->UpdateAllWidgets(); mitk::RenderingManager::GetInstance()->SetRenderWindowFocus(mitkWidget1->GetVtkRenderWindow()); } void QmitkStdMultiWidget::changeLayoutToWidget2() { SMW_INFO << "changing layout to big Widget2 ..." << std::endl; // Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout; // create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout(this); // create main splitter m_MainSplit = new QSplitter(this); QmitkStdMultiWidgetLayout->addWidget(m_MainSplit); // add widget Splitter to main Splitter m_MainSplit->addWidget(mitkWidget2Container); // add LevelWindow Widget to mainSplitter m_MainSplit->addWidget(levelWindowWidget); // show mainSplitt and add to Layout m_MainSplit->show(); // show/hide Widgets mitkWidget1->hide(); if (mitkWidget2->isHidden()) mitkWidget2->show(); mitkWidget3->hide(); mitkWidget4->hide(); m_Layout = LAYOUT_WIDGET2; // update Layout Design List mitkWidget1->LayoutDesignListChanged(LAYOUT_WIDGET2); mitkWidget2->LayoutDesignListChanged(LAYOUT_WIDGET2); mitkWidget3->LayoutDesignListChanged(LAYOUT_WIDGET2); mitkWidget4->LayoutDesignListChanged(LAYOUT_WIDGET2); // update Alle Widgets this->UpdateAllWidgets(); mitk::RenderingManager::GetInstance()->SetRenderWindowFocus(mitkWidget2->GetVtkRenderWindow()); } void QmitkStdMultiWidget::changeLayoutToWidget3() { SMW_INFO << "changing layout to big Widget3 ..." << std::endl; // Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout; // create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout(this); // create main splitter m_MainSplit = new QSplitter(this); QmitkStdMultiWidgetLayout->addWidget(m_MainSplit); // add widget Splitter to main Splitter m_MainSplit->addWidget(mitkWidget3Container); // add LevelWindow Widget to mainSplitter m_MainSplit->addWidget(levelWindowWidget); // show mainSplitt and add to Layout m_MainSplit->show(); // show/hide Widgets mitkWidget1->hide(); mitkWidget2->hide(); if (mitkWidget3->isHidden()) mitkWidget3->show(); mitkWidget4->hide(); m_Layout = LAYOUT_WIDGET3; // update Layout Design List mitkWidget1->LayoutDesignListChanged(LAYOUT_WIDGET3); mitkWidget2->LayoutDesignListChanged(LAYOUT_WIDGET3); mitkWidget3->LayoutDesignListChanged(LAYOUT_WIDGET3); mitkWidget4->LayoutDesignListChanged(LAYOUT_WIDGET3); // update Alle Widgets this->UpdateAllWidgets(); mitk::RenderingManager::GetInstance()->SetRenderWindowFocus(mitkWidget3->GetVtkRenderWindow()); } void QmitkStdMultiWidget::changeLayoutToRowWidget3And4() { SMW_INFO << "changing layout to Widget3 and 4 in a Row..." << std::endl; // Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout; // create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout(this); // create main splitter m_MainSplit = new QSplitter(this); QmitkStdMultiWidgetLayout->addWidget(m_MainSplit); // create m_LayoutSplit and add to the mainSplit m_LayoutSplit = new QSplitter(Qt::Vertical, m_MainSplit); m_MainSplit->addWidget(m_LayoutSplit); // add LevelWindow Widget to mainSplitter m_MainSplit->addWidget(levelWindowWidget); // add Widgets to splitter m_LayoutSplit->addWidget(mitkWidget3Container); m_LayoutSplit->addWidget(mitkWidget4Container); // set Splitter Size QList splitterSize; splitterSize.push_back(1000); splitterSize.push_back(1000); m_LayoutSplit->setSizes(splitterSize); // show mainSplitt and add to Layout m_MainSplit->show(); // show/hide Widgets mitkWidget1->hide(); mitkWidget2->hide(); if (mitkWidget3->isHidden()) mitkWidget3->show(); if (mitkWidget4->isHidden()) mitkWidget4->show(); m_Layout = LAYOUT_ROW_WIDGET_3_AND_4; // update Layout Design List mitkWidget1->LayoutDesignListChanged(LAYOUT_ROW_WIDGET_3_AND_4); mitkWidget2->LayoutDesignListChanged(LAYOUT_ROW_WIDGET_3_AND_4); mitkWidget3->LayoutDesignListChanged(LAYOUT_ROW_WIDGET_3_AND_4); mitkWidget4->LayoutDesignListChanged(LAYOUT_ROW_WIDGET_3_AND_4); // update Alle Widgets this->UpdateAllWidgets(); } void QmitkStdMultiWidget::changeLayoutToColumnWidget3And4() { SMW_INFO << "changing layout to Widget3 and 4 in one Column..." << std::endl; // Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout; // create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout(this); // create main splitter m_MainSplit = new QSplitter(this); QmitkStdMultiWidgetLayout->addWidget(m_MainSplit); // create m_LayoutSplit and add to the mainSplit m_LayoutSplit = new QSplitter(m_MainSplit); m_MainSplit->addWidget(m_LayoutSplit); // add LevelWindow Widget to mainSplitter m_MainSplit->addWidget(levelWindowWidget); // add Widgets to splitter m_LayoutSplit->addWidget(mitkWidget3Container); m_LayoutSplit->addWidget(mitkWidget4Container); // set SplitterSize QList splitterSize; splitterSize.push_back(1000); splitterSize.push_back(1000); m_LayoutSplit->setSizes(splitterSize); // show mainSplitt and add to Layout m_MainSplit->show(); // show/hide Widgets mitkWidget1->hide(); mitkWidget2->hide(); if (mitkWidget3->isHidden()) mitkWidget3->show(); if (mitkWidget4->isHidden()) mitkWidget4->show(); m_Layout = LAYOUT_COLUMN_WIDGET_3_AND_4; // update Layout Design List mitkWidget1->LayoutDesignListChanged(LAYOUT_COLUMN_WIDGET_3_AND_4); mitkWidget2->LayoutDesignListChanged(LAYOUT_COLUMN_WIDGET_3_AND_4); mitkWidget3->LayoutDesignListChanged(LAYOUT_COLUMN_WIDGET_3_AND_4); mitkWidget4->LayoutDesignListChanged(LAYOUT_COLUMN_WIDGET_3_AND_4); // update Alle Widgets this->UpdateAllWidgets(); } void QmitkStdMultiWidget::changeLayoutToRowWidgetSmall3andBig4() { SMW_INFO << "changing layout to Widget3 and 4 in a Row..." << std::endl; this->changeLayoutToRowWidget3And4(); m_Layout = LAYOUT_ROW_WIDGET_SMALL3_AND_BIG4; } void QmitkStdMultiWidget::changeLayoutToSmallUpperWidget2Big3and4() { SMW_INFO << "changing layout to Widget3 and 4 in a Row..." << std::endl; // Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout; // create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout(this); // create main splitter m_MainSplit = new QSplitter(this); QmitkStdMultiWidgetLayout->addWidget(m_MainSplit); // create m_LayoutSplit and add to the mainSplit m_LayoutSplit = new QSplitter(Qt::Vertical, m_MainSplit); m_MainSplit->addWidget(m_LayoutSplit); // add LevelWindow Widget to mainSplitter m_MainSplit->addWidget(levelWindowWidget); // create m_SubSplit1 and m_SubSplit2 m_SubSplit1 = new QSplitter(Qt::Vertical, m_LayoutSplit); m_SubSplit2 = new QSplitter(m_LayoutSplit); // insert Widget into the splitters m_SubSplit1->addWidget(mitkWidget2Container); m_SubSplit2->addWidget(mitkWidget3Container); m_SubSplit2->addWidget(mitkWidget4Container); // set Splitter Size QList splitterSize; splitterSize.push_back(1000); splitterSize.push_back(1000); m_SubSplit2->setSizes(splitterSize); splitterSize.clear(); splitterSize.push_back(500); splitterSize.push_back(1000); m_LayoutSplit->setSizes(splitterSize); // show mainSplitt m_MainSplit->show(); // show Widget if hidden mitkWidget1->hide(); if (mitkWidget2->isHidden()) mitkWidget2->show(); if (mitkWidget3->isHidden()) mitkWidget3->show(); if (mitkWidget4->isHidden()) mitkWidget4->show(); m_Layout = LAYOUT_SMALL_UPPER_WIDGET2_BIG3_AND4; // update Layout Design List mitkWidget1->LayoutDesignListChanged(LAYOUT_SMALL_UPPER_WIDGET2_BIG3_AND4); mitkWidget2->LayoutDesignListChanged(LAYOUT_SMALL_UPPER_WIDGET2_BIG3_AND4); mitkWidget3->LayoutDesignListChanged(LAYOUT_SMALL_UPPER_WIDGET2_BIG3_AND4); mitkWidget4->LayoutDesignListChanged(LAYOUT_SMALL_UPPER_WIDGET2_BIG3_AND4); // update Alle Widgets this->UpdateAllWidgets(); } void QmitkStdMultiWidget::changeLayoutTo2x2Dand3DWidget() { SMW_INFO << "changing layout to 2 x 2D and 3D Widget" << std::endl; // Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout; // create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout(this); // create main splitter m_MainSplit = new QSplitter(this); QmitkStdMultiWidgetLayout->addWidget(m_MainSplit); // create m_LayoutSplit and add to the mainSplit m_LayoutSplit = new QSplitter(m_MainSplit); m_MainSplit->addWidget(m_LayoutSplit); // add LevelWindow Widget to mainSplitter m_MainSplit->addWidget(levelWindowWidget); // create m_SubSplit1 and m_SubSplit2 m_SubSplit1 = new QSplitter(Qt::Vertical, m_LayoutSplit); m_SubSplit2 = new QSplitter(m_LayoutSplit); // add Widgets to splitter m_SubSplit1->addWidget(mitkWidget1Container); m_SubSplit1->addWidget(mitkWidget2Container); m_SubSplit2->addWidget(mitkWidget4Container); // set Splitter Size QList splitterSize; splitterSize.push_back(1000); splitterSize.push_back(1000); m_SubSplit1->setSizes(splitterSize); m_LayoutSplit->setSizes(splitterSize); // show mainSplitt and add to Layout m_MainSplit->show(); // show/hide Widgets if (mitkWidget1->isHidden()) mitkWidget1->show(); if (mitkWidget2->isHidden()) mitkWidget2->show(); mitkWidget3->hide(); if (mitkWidget4->isHidden()) mitkWidget4->show(); m_Layout = LAYOUT_2X_2D_AND_3D_WIDGET; // update Layout Design List mitkWidget1->LayoutDesignListChanged(LAYOUT_2X_2D_AND_3D_WIDGET); mitkWidget2->LayoutDesignListChanged(LAYOUT_2X_2D_AND_3D_WIDGET); mitkWidget3->LayoutDesignListChanged(LAYOUT_2X_2D_AND_3D_WIDGET); mitkWidget4->LayoutDesignListChanged(LAYOUT_2X_2D_AND_3D_WIDGET); // update Alle Widgets this->UpdateAllWidgets(); } void QmitkStdMultiWidget::changeLayoutToLeft2Dand3DRight2D() { SMW_INFO << "changing layout to 2D and 3D left, 2D right Widget" << std::endl; // Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout; // create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout(this); // create main splitter m_MainSplit = new QSplitter(this); QmitkStdMultiWidgetLayout->addWidget(m_MainSplit); // create m_LayoutSplit and add to the mainSplit m_LayoutSplit = new QSplitter(m_MainSplit); m_MainSplit->addWidget(m_LayoutSplit); // add LevelWindow Widget to mainSplitter m_MainSplit->addWidget(levelWindowWidget); // create m_SubSplit1 and m_SubSplit2 m_SubSplit1 = new QSplitter(Qt::Vertical, m_LayoutSplit); m_SubSplit2 = new QSplitter(m_LayoutSplit); // add Widgets to splitter m_SubSplit1->addWidget(mitkWidget1Container); m_SubSplit1->addWidget(mitkWidget4Container); m_SubSplit2->addWidget(mitkWidget2Container); // set Splitter Size QList splitterSize; splitterSize.push_back(1000); splitterSize.push_back(1000); m_SubSplit1->setSizes(splitterSize); m_LayoutSplit->setSizes(splitterSize); // show mainSplitt and add to Layout m_MainSplit->show(); // show/hide Widgets if (mitkWidget1->isHidden()) mitkWidget1->show(); if (mitkWidget2->isHidden()) mitkWidget2->show(); mitkWidget3->hide(); if (mitkWidget4->isHidden()) mitkWidget4->show(); m_Layout = LAYOUT_2D_AND_3D_LEFT_2D_RIGHT_WIDGET; // update Layout Design List mitkWidget1->LayoutDesignListChanged(LAYOUT_2D_AND_3D_LEFT_2D_RIGHT_WIDGET); mitkWidget2->LayoutDesignListChanged(LAYOUT_2D_AND_3D_LEFT_2D_RIGHT_WIDGET); mitkWidget3->LayoutDesignListChanged(LAYOUT_2D_AND_3D_LEFT_2D_RIGHT_WIDGET); mitkWidget4->LayoutDesignListChanged(LAYOUT_2D_AND_3D_LEFT_2D_RIGHT_WIDGET); // update Alle Widgets this->UpdateAllWidgets(); } void QmitkStdMultiWidget::changeLayoutTo2DUpAnd3DDown() { SMW_INFO << "changing layout to 2D up and 3D down" << std::endl; // Hide all Menu Widgets this->HideAllWidgetToolbars(); delete QmitkStdMultiWidgetLayout; // create Main Layout QmitkStdMultiWidgetLayout = new QHBoxLayout(this); // Set Layout to widget this->setLayout(QmitkStdMultiWidgetLayout); // create main splitter m_MainSplit = new QSplitter(this); QmitkStdMultiWidgetLayout->addWidget(m_MainSplit); // create m_LayoutSplit and add to the mainSplit m_LayoutSplit = new QSplitter(Qt::Vertical, m_MainSplit); m_MainSplit->addWidget(m_LayoutSplit); // add LevelWindow Widget to mainSplitter m_MainSplit->addWidget(levelWindowWidget); // create m_SubSplit1 and m_SubSplit2 m_SubSplit1 = new QSplitter(m_LayoutSplit); m_SubSplit2 = new QSplitter(m_LayoutSplit); // insert Widget Container into splitter top m_SubSplit1->addWidget(mitkWidget1Container); // set SplitterSize for splitter top QList splitterSize; // insert Widget Container into splitter bottom m_SubSplit2->addWidget(mitkWidget4Container); // set SplitterSize for splitter m_LayoutSplit splitterSize.clear(); splitterSize.push_back(700); splitterSize.push_back(700); m_LayoutSplit->setSizes(splitterSize); // show mainSplitt m_MainSplit->show(); // show/hide Widgets if (mitkWidget1->isHidden()) mitkWidget1->show(); mitkWidget2->hide(); mitkWidget3->hide(); if (mitkWidget4->isHidden()) mitkWidget4->show(); m_Layout = LAYOUT_2D_UP_AND_3D_DOWN; // update Layout Design List mitkWidget1->LayoutDesignListChanged(LAYOUT_2D_UP_AND_3D_DOWN); mitkWidget2->LayoutDesignListChanged(LAYOUT_2D_UP_AND_3D_DOWN); mitkWidget3->LayoutDesignListChanged(LAYOUT_2D_UP_AND_3D_DOWN); mitkWidget4->LayoutDesignListChanged(LAYOUT_2D_UP_AND_3D_DOWN); // update all Widgets this->UpdateAllWidgets(); } void QmitkStdMultiWidget::SetDataStorage(mitk::DataStorage *ds) { if (ds == m_DataStorage) { return; } mitk::BaseRenderer::GetInstance(mitkWidget1->GetRenderWindow())->SetDataStorage(ds); mitk::BaseRenderer::GetInstance(mitkWidget2->GetRenderWindow())->SetDataStorage(ds); mitk::BaseRenderer::GetInstance(mitkWidget3->GetRenderWindow())->SetDataStorage(ds); mitk::BaseRenderer::GetInstance(mitkWidget4->GetRenderWindow())->SetDataStorage(ds); m_DataStorage = ds; } void QmitkStdMultiWidget::Fit() { vtkSmartPointer vtkrenderer; vtkrenderer = mitk::BaseRenderer::GetInstance(mitkWidget1->GetRenderWindow())->GetVtkRenderer(); if (vtkrenderer != NULL) vtkrenderer->ResetCamera(); vtkrenderer = mitk::BaseRenderer::GetInstance(mitkWidget2->GetRenderWindow())->GetVtkRenderer(); if (vtkrenderer != NULL) vtkrenderer->ResetCamera(); vtkrenderer = mitk::BaseRenderer::GetInstance(mitkWidget3->GetRenderWindow())->GetVtkRenderer(); if (vtkrenderer != NULL) vtkrenderer->ResetCamera(); vtkrenderer = mitk::BaseRenderer::GetInstance(mitkWidget4->GetRenderWindow())->GetVtkRenderer(); if (vtkrenderer != NULL) vtkrenderer->ResetCamera(); mitk::BaseRenderer::GetInstance(mitkWidget1->GetRenderWindow())->GetCameraController()->Fit(); mitk::BaseRenderer::GetInstance(mitkWidget2->GetRenderWindow())->GetCameraController()->Fit(); mitk::BaseRenderer::GetInstance(mitkWidget3->GetRenderWindow())->GetCameraController()->Fit(); mitk::BaseRenderer::GetInstance(mitkWidget4->GetRenderWindow())->GetCameraController()->Fit(); int w = vtkObject::GetGlobalWarningDisplay(); vtkObject::GlobalWarningDisplayOff(); vtkObject::SetGlobalWarningDisplay(w); } void QmitkStdMultiWidget::InitPositionTracking() { // TODO POSITIONTRACKER } void QmitkStdMultiWidget::AddDisplayPlaneSubTree() { // add the displayed planes of the multiwidget to a node to which the subtree // @a planesSubTree points ... mitk::PlaneGeometryDataMapper2D::Pointer mapper; // ... of widget 1 mitk::BaseRenderer *renderer1 = mitk::BaseRenderer::GetInstance(mitkWidget1->GetRenderWindow()); m_PlaneNode1 = renderer1->GetCurrentWorldPlaneGeometryNode(); m_PlaneNode1->SetProperty("visible", mitk::BoolProperty::New(true)); m_PlaneNode1->SetProperty("name", mitk::StringProperty::New(std::string(renderer1->GetName()) + ".plane")); m_PlaneNode1->SetProperty("includeInBoundingBox", mitk::BoolProperty::New(false)); m_PlaneNode1->SetProperty("helper object", mitk::BoolProperty::New(true)); mapper = mitk::PlaneGeometryDataMapper2D::New(); m_PlaneNode1->SetMapper(mitk::BaseRenderer::Standard2D, mapper); // ... of widget 2 mitk::BaseRenderer *renderer2 = mitk::BaseRenderer::GetInstance(mitkWidget2->GetRenderWindow()); m_PlaneNode2 = renderer2->GetCurrentWorldPlaneGeometryNode(); m_PlaneNode2->SetProperty("visible", mitk::BoolProperty::New(true)); m_PlaneNode2->SetProperty("name", mitk::StringProperty::New(std::string(renderer2->GetName()) + ".plane")); m_PlaneNode2->SetProperty("includeInBoundingBox", mitk::BoolProperty::New(false)); m_PlaneNode2->SetProperty("helper object", mitk::BoolProperty::New(true)); mapper = mitk::PlaneGeometryDataMapper2D::New(); m_PlaneNode2->SetMapper(mitk::BaseRenderer::Standard2D, mapper); // ... of widget 3 mitk::BaseRenderer *renderer3 = mitk::BaseRenderer::GetInstance(mitkWidget3->GetRenderWindow()); m_PlaneNode3 = renderer3->GetCurrentWorldPlaneGeometryNode(); m_PlaneNode3->SetProperty("visible", mitk::BoolProperty::New(true)); m_PlaneNode3->SetProperty("name", mitk::StringProperty::New(std::string(renderer3->GetName()) + ".plane")); m_PlaneNode3->SetProperty("includeInBoundingBox", mitk::BoolProperty::New(false)); m_PlaneNode3->SetProperty("helper object", mitk::BoolProperty::New(true)); mapper = mitk::PlaneGeometryDataMapper2D::New(); m_PlaneNode3->SetMapper(mitk::BaseRenderer::Standard2D, mapper); m_ParentNodeForGeometryPlanes = mitk::DataNode::New(); m_ParentNodeForGeometryPlanes->SetProperty("name", mitk::StringProperty::New("Widgets")); m_ParentNodeForGeometryPlanes->SetProperty("helper object", mitk::BoolProperty::New(true)); } mitk::SliceNavigationController *QmitkStdMultiWidget::GetTimeNavigationController() { return m_TimeNavigationController; } void QmitkStdMultiWidget::EnableStandardLevelWindow() { levelWindowWidget->disconnect(this); levelWindowWidget->SetDataStorage(mitk::BaseRenderer::GetInstance(mitkWidget1->GetRenderWindow())->GetDataStorage()); levelWindowWidget->show(); } void QmitkStdMultiWidget::DisableStandardLevelWindow() { levelWindowWidget->disconnect(this); levelWindowWidget->hide(); } // CAUTION: Legacy code for enabling Qt-signal-controlled view initialization. // Use RenderingManager::InitializeViews() instead. bool QmitkStdMultiWidget::InitializeStandardViews(const mitk::Geometry3D *geometry) { return m_RenderingManager->InitializeViews(geometry); } void QmitkStdMultiWidget::RequestUpdate() { m_RenderingManager->RequestUpdate(mitkWidget1->GetRenderWindow()); m_RenderingManager->RequestUpdate(mitkWidget2->GetRenderWindow()); m_RenderingManager->RequestUpdate(mitkWidget3->GetRenderWindow()); m_RenderingManager->RequestUpdate(mitkWidget4->GetRenderWindow()); } void QmitkStdMultiWidget::ForceImmediateUpdate() { m_RenderingManager->ForceImmediateUpdate(mitkWidget1->GetRenderWindow()); m_RenderingManager->ForceImmediateUpdate(mitkWidget2->GetRenderWindow()); m_RenderingManager->ForceImmediateUpdate(mitkWidget3->GetRenderWindow()); m_RenderingManager->ForceImmediateUpdate(mitkWidget4->GetRenderWindow()); } void QmitkStdMultiWidget::wheelEvent(QWheelEvent *e) { emit WheelMoved(e); } void QmitkStdMultiWidget::mousePressEvent(QMouseEvent *e) { } void QmitkStdMultiWidget::moveEvent(QMoveEvent *e) { QWidget::moveEvent(e); // it is necessary to readjust the position of the overlays as the StdMultiWidget has moved // unfortunately it's not done by QmitkRenderWindow::moveEvent -> must be done here emit Moved(); } QmitkRenderWindow *QmitkStdMultiWidget::GetRenderWindow1() const { return mitkWidget1; } QmitkRenderWindow *QmitkStdMultiWidget::GetRenderWindow2() const { return mitkWidget2; } QmitkRenderWindow *QmitkStdMultiWidget::GetRenderWindow3() const { return mitkWidget3; } QmitkRenderWindow *QmitkStdMultiWidget::GetRenderWindow4() const { return mitkWidget4; } const mitk::Point3D QmitkStdMultiWidget::GetCrossPosition() const { const mitk::PlaneGeometry *plane1 = mitkWidget1->GetSliceNavigationController()->GetCurrentPlaneGeometry(); const mitk::PlaneGeometry *plane2 = mitkWidget2->GetSliceNavigationController()->GetCurrentPlaneGeometry(); const mitk::PlaneGeometry *plane3 = mitkWidget3->GetSliceNavigationController()->GetCurrentPlaneGeometry(); mitk::Line3D line; if ((plane1 != NULL) && (plane2 != NULL) && (plane1->IntersectionLine(plane2, line))) { mitk::Point3D point; if ((plane3 != NULL) && (plane3->IntersectionPoint(line, point))) { return point; } } // TODO BUG POSITIONTRACKER; mitk::Point3D p; return p; // return m_LastLeftClickPositionSupplier->GetCurrentPoint(); } void QmitkStdMultiWidget::EnablePositionTracking() { } void QmitkStdMultiWidget::DisablePositionTracking() { } void QmitkStdMultiWidget::EnsureDisplayContainsPoint(mitk::BaseRenderer *renderer, const mitk::Point3D &p) { mitk::Point2D pointOnDisplay; renderer->WorldToDisplay(p, pointOnDisplay); if (pointOnDisplay[0] < renderer->GetVtkRenderer()->GetOrigin()[0] || pointOnDisplay[1] < renderer->GetVtkRenderer()->GetOrigin()[1] || pointOnDisplay[0] > renderer->GetVtkRenderer()->GetOrigin()[0] + renderer->GetViewportSize()[0] || pointOnDisplay[1] > renderer->GetVtkRenderer()->GetOrigin()[1] + renderer->GetViewportSize()[1]) { mitk::Point2D pointOnPlane; renderer->GetCurrentWorldPlaneGeometry()->Map(p, pointOnPlane); renderer->GetCameraController()->MoveCameraToPoint(pointOnPlane); } } void QmitkStdMultiWidget::MoveCrossToPosition(const mitk::Point3D &newPosition) { mitkWidget1->GetSliceNavigationController()->SelectSliceByPoint(newPosition); mitkWidget2->GetSliceNavigationController()->SelectSliceByPoint(newPosition); mitkWidget3->GetSliceNavigationController()->SelectSliceByPoint(newPosition); m_RenderingManager->RequestUpdateAll(); } void QmitkStdMultiWidget::HandleCrosshairPositionEvent() { if (!m_PendingCrosshairPositionEvent) { m_PendingCrosshairPositionEvent = true; QTimer::singleShot(0, this, SLOT(HandleCrosshairPositionEventDelayed())); } } mitk::DataNode::Pointer QmitkStdMultiWidget::GetTopLayerNode(mitk::DataStorage::SetOfObjects::ConstPointer nodes) { mitk::Point3D crosshairPos = this->GetCrossPosition(); mitk::DataNode::Pointer node; int maxlayer = -32768; if (nodes.IsNotNull()) { mitk::BaseRenderer *baseRenderer = this->mitkWidget1->GetSliceNavigationController()->GetRenderer(); // find node with largest layer, that is the node shown on top in the render window for (unsigned int x = 0; x < nodes->size(); x++) { if ((nodes->at(x)->GetData()->GetGeometry() != NULL) && nodes->at(x)->GetData()->GetGeometry()->IsInside(crosshairPos)) { int layer = 0; if (!(nodes->at(x)->GetIntProperty("layer", layer))) continue; if (layer > maxlayer) { if (static_cast(nodes->at(x))->IsVisible(baseRenderer)) { node = nodes->at(x); maxlayer = layer; } } } } } return node; } void QmitkStdMultiWidget::HandleCrosshairPositionEventDelayed() { m_PendingCrosshairPositionEvent = false; // find image with highest layer mitk::TNodePredicateDataType::Pointer isImageData = mitk::TNodePredicateDataType::New(); mitk::DataStorage::SetOfObjects::ConstPointer nodes = this->m_DataStorage->GetSubset(isImageData).GetPointer(); mitk::DataNode::Pointer node; mitk::DataNode::Pointer topSourceNode; mitk::Image::Pointer image; bool isBinary = false; node = this->GetTopLayerNode(nodes); int component = 0; if (node.IsNotNull()) { node->GetBoolProperty("binary", isBinary); if (isBinary) { mitk::DataStorage::SetOfObjects::ConstPointer sourcenodes = m_DataStorage->GetSources(node, NULL, true); if (!sourcenodes->empty()) { topSourceNode = this->GetTopLayerNode(sourcenodes); } if (topSourceNode.IsNotNull()) { image = dynamic_cast(topSourceNode->GetData()); topSourceNode->GetIntProperty("Image.Displayed Component", component); } else { image = dynamic_cast(node->GetData()); node->GetIntProperty("Image.Displayed Component", component); } } else { image = dynamic_cast(node->GetData()); node->GetIntProperty("Image.Displayed Component", component); } } mitk::Point3D crosshairPos = this->GetCrossPosition(); std::string statusText; std::stringstream stream; itk::Index<3> p; mitk::BaseRenderer *baseRenderer = this->mitkWidget1->GetSliceNavigationController()->GetRenderer(); unsigned int timestep = baseRenderer->GetTimeStep(); if (image.IsNotNull() && (image->GetTimeSteps() > timestep)) { image->GetGeometry()->WorldToIndex(crosshairPos, p); stream.precision(2); stream << "Position: <" << std::fixed << crosshairPos[0] << ", " << std::fixed << crosshairPos[1] << ", " << std::fixed << crosshairPos[2] << "> mm"; stream << "; Index: <" << p[0] << ", " << p[1] << ", " << p[2] << "> "; mitk::ScalarType pixelValue; mitkPixelTypeMultiplex5(mitk::FastSinglePixelAccess, image->GetChannelDescriptor().GetPixelType(), image, image->GetVolumeData(baseRenderer->GetTimeStep()), p, pixelValue, component); if (fabs(pixelValue) > 1000000 || fabs(pixelValue) < 0.01) { stream << "; Time: " << baseRenderer->GetTime() << " ms; Pixelvalue: " << std::scientific << pixelValue << " "; } else { stream << "; Time: " << baseRenderer->GetTime() << " ms; Pixelvalue: " << pixelValue << " "; } } else { stream << "No image information at this position!"; } statusText = stream.str(); mitk::StatusBar::GetInstance()->DisplayGreyValueText(statusText.c_str()); } int QmitkStdMultiWidget::GetLayout() const { return m_Layout; } bool QmitkStdMultiWidget::GetGradientBackgroundFlag() const { return m_GradientBackgroundFlag; } void QmitkStdMultiWidget::EnableGradientBackground() { // gradient background is by default only in widget 4, otherwise // interferences between 2D rendering and VTK rendering may occur. for (unsigned int i = 0; i < 4; ++i) { GetRenderWindow(i)->GetRenderer()->GetVtkRenderer()->GradientBackgroundOn(); } m_GradientBackgroundFlag = true; } void QmitkStdMultiWidget::DisableGradientBackground() { for (unsigned int i = 0; i < 4; ++i) { GetRenderWindow(i)->GetRenderer()->GetVtkRenderer()->GradientBackgroundOff(); } m_GradientBackgroundFlag = false; } void QmitkStdMultiWidget::EnableDepartmentLogo() { m_LogoRendering->SetVisibility(true); RequestUpdate(); } void QmitkStdMultiWidget::DisableDepartmentLogo() { m_LogoRendering->SetVisibility(false); RequestUpdate(); } bool QmitkStdMultiWidget::IsDepartmentLogoEnabled() const { - return m_LogoRendering->IsVisible(mitk::BaseRenderer::GetInstance(mitkWidget4->GetRenderWindow())); + return m_LogoRendering->IsVisible(); } void QmitkStdMultiWidget::SetWidgetPlaneVisibility(const char *widgetName, bool visible, mitk::BaseRenderer *renderer) { if (m_DataStorage.IsNotNull()) { mitk::DataNode *n = m_DataStorage->GetNamedNode(widgetName); if (n != NULL) n->SetVisibility(visible, renderer); } } void QmitkStdMultiWidget::SetWidgetPlanesVisibility(bool visible, mitk::BaseRenderer *renderer) { if (m_PlaneNode1.IsNotNull()) { m_PlaneNode1->SetVisibility(visible, renderer); } if (m_PlaneNode2.IsNotNull()) { m_PlaneNode2->SetVisibility(visible, renderer); } if (m_PlaneNode3.IsNotNull()) { m_PlaneNode3->SetVisibility(visible, renderer); } m_RenderingManager->RequestUpdateAll(); } void QmitkStdMultiWidget::SetWidgetPlanesLocked(bool locked) { // do your job and lock or unlock slices. GetRenderWindow1()->GetSliceNavigationController()->SetSliceLocked(locked); GetRenderWindow2()->GetSliceNavigationController()->SetSliceLocked(locked); GetRenderWindow3()->GetSliceNavigationController()->SetSliceLocked(locked); } void QmitkStdMultiWidget::SetWidgetPlanesRotationLocked(bool locked) { // do your job and lock or unlock slices. GetRenderWindow1()->GetSliceNavigationController()->SetSliceRotationLocked(locked); GetRenderWindow2()->GetSliceNavigationController()->SetSliceRotationLocked(locked); GetRenderWindow3()->GetSliceNavigationController()->SetSliceRotationLocked(locked); } void QmitkStdMultiWidget::SetWidgetPlanesRotationLinked(bool link) { emit WidgetPlanesRotationLinked(link); } void QmitkStdMultiWidget::SetWidgetPlaneMode(int userMode) { MITK_DEBUG << "Changing crosshair mode to " << userMode; emit WidgetNotifyNewCrossHairMode(userMode); // Convert user interface mode to actual mode { switch (userMode) { case 0: m_MouseModeSwitcher->SetInteractionScheme(mitk::MouseModeSwitcher::InteractionScheme::MITK); break; case 1: m_MouseModeSwitcher->SetInteractionScheme(mitk::MouseModeSwitcher::InteractionScheme::ROTATION); break; case 2: m_MouseModeSwitcher->SetInteractionScheme(mitk::MouseModeSwitcher::InteractionScheme::ROTATIONLINKED); break; case 3: m_MouseModeSwitcher->SetInteractionScheme(mitk::MouseModeSwitcher::InteractionScheme::SWIVEL); break; } } } void QmitkStdMultiWidget::SetGradientBackgroundColorForRenderWindow(const mitk::Color &upper, const mitk::Color &lower, unsigned int widgetNumber) { if (widgetNumber > 3) { MITK_ERROR << "Gradientbackground for unknown widget!"; return; } m_GradientBackgroundColors[widgetNumber].first = upper; m_GradientBackgroundColors[widgetNumber].second = lower; vtkRenderer *renderer = GetRenderWindow(widgetNumber)->GetRenderer()->GetVtkRenderer(); renderer->SetBackground2(upper[0], upper[1], upper[2]); renderer->SetBackground(lower[0], lower[1], lower[2]); m_GradientBackgroundFlag = true; } void QmitkStdMultiWidget::SetGradientBackgroundColors(const mitk::Color &upper, const mitk::Color &lower) { for (unsigned int i = 0; i < 4; ++i) { vtkRenderer *renderer = GetRenderWindow(i)->GetRenderer()->GetVtkRenderer(); renderer->SetBackground2(upper[0], upper[1], upper[2]); renderer->SetBackground(lower[0], lower[1], lower[2]); } m_GradientBackgroundFlag = true; } void QmitkStdMultiWidget::SetDepartmentLogoPath(const char *path) { m_LogoRendering->SetLogoImagePath(path); mitk::BaseRenderer *renderer = mitk::BaseRenderer::GetInstance(mitkWidget4->GetRenderWindow()); m_LogoRendering->Update(renderer); RequestUpdate(); } void QmitkStdMultiWidget::SetWidgetPlaneModeToSlicing(bool activate) { if (activate) { this->SetWidgetPlaneMode(PLANE_MODE_SLICING); } } void QmitkStdMultiWidget::SetWidgetPlaneModeToRotation(bool activate) { if (activate) { this->SetWidgetPlaneMode(PLANE_MODE_ROTATION); } } void QmitkStdMultiWidget::SetWidgetPlaneModeToSwivel(bool activate) { if (activate) { this->SetWidgetPlaneMode(PLANE_MODE_SWIVEL); } } void QmitkStdMultiWidget::OnLayoutDesignChanged(int layoutDesignIndex) { switch (layoutDesignIndex) { case LAYOUT_DEFAULT: { this->changeLayoutToDefault(); break; } case LAYOUT_2D_IMAGES_UP: { this->changeLayoutTo2DImagesUp(); break; } case LAYOUT_2D_IMAGES_LEFT: { this->changeLayoutTo2DImagesLeft(); break; } case LAYOUT_BIG_3D: { this->changeLayoutToBig3D(); break; } case LAYOUT_WIDGET1: { this->changeLayoutToWidget1(); break; } case LAYOUT_WIDGET2: { this->changeLayoutToWidget2(); break; } case LAYOUT_WIDGET3: { this->changeLayoutToWidget3(); break; } case LAYOUT_2X_2D_AND_3D_WIDGET: { this->changeLayoutTo2x2Dand3DWidget(); break; } case LAYOUT_ROW_WIDGET_3_AND_4: { this->changeLayoutToRowWidget3And4(); break; } case LAYOUT_COLUMN_WIDGET_3_AND_4: { this->changeLayoutToColumnWidget3And4(); break; } case LAYOUT_ROW_WIDGET_SMALL3_AND_BIG4: { this->changeLayoutToRowWidgetSmall3andBig4(); break; } case LAYOUT_SMALL_UPPER_WIDGET2_BIG3_AND4: { this->changeLayoutToSmallUpperWidget2Big3and4(); break; } case LAYOUT_2D_AND_3D_LEFT_2D_RIGHT_WIDGET: { this->changeLayoutToLeft2Dand3DRight2D(); break; } }; } void QmitkStdMultiWidget::UpdateAllWidgets() { mitkWidget1->resize(mitkWidget1Container->frameSize().width() - 1, mitkWidget1Container->frameSize().height()); mitkWidget1->resize(mitkWidget1Container->frameSize().width(), mitkWidget1Container->frameSize().height()); mitkWidget2->resize(mitkWidget2Container->frameSize().width() - 1, mitkWidget2Container->frameSize().height()); mitkWidget2->resize(mitkWidget2Container->frameSize().width(), mitkWidget2Container->frameSize().height()); mitkWidget3->resize(mitkWidget3Container->frameSize().width() - 1, mitkWidget3Container->frameSize().height()); mitkWidget3->resize(mitkWidget3Container->frameSize().width(), mitkWidget3Container->frameSize().height()); mitkWidget4->resize(mitkWidget4Container->frameSize().width() - 1, mitkWidget4Container->frameSize().height()); mitkWidget4->resize(mitkWidget4Container->frameSize().width(), mitkWidget4Container->frameSize().height()); } void QmitkStdMultiWidget::HideAllWidgetToolbars() { mitkWidget1->HideRenderWindowMenu(); mitkWidget2->HideRenderWindowMenu(); mitkWidget3->HideRenderWindowMenu(); mitkWidget4->HideRenderWindowMenu(); } void QmitkStdMultiWidget::ActivateMenuWidget(bool state) { mitkWidget1->ActivateMenuWidget(state, this); mitkWidget2->ActivateMenuWidget(state, this); mitkWidget3->ActivateMenuWidget(state, this); mitkWidget4->ActivateMenuWidget(state, this); } bool QmitkStdMultiWidget::IsMenuWidgetEnabled() const { return mitkWidget1->GetActivateMenuWidgetFlag(); } void QmitkStdMultiWidget::SetDecorationColor(unsigned int widgetNumber, mitk::Color color) { switch (widgetNumber) { case 0: if (m_PlaneNode1.IsNotNull()) { m_PlaneNode1->SetColor(color); } break; case 1: if (m_PlaneNode2.IsNotNull()) { m_PlaneNode2->SetColor(color); } break; case 2: if (m_PlaneNode3.IsNotNull()) { m_PlaneNode3->SetColor(color); } break; case 3: m_DecorationColorWidget4 = color; break; default: MITK_ERROR << "Decoration color for unknown widget!"; break; } } void QmitkStdMultiWidget::ResetCrosshair() { if (m_DataStorage.IsNotNull()) { m_RenderingManager->InitializeViewsByBoundingObjects(m_DataStorage); // m_RenderingManager->InitializeViews( m_DataStorage->ComputeVisibleBoundingGeometry3D() ); // reset interactor to normal slicing this->SetWidgetPlaneMode(PLANE_MODE_SLICING); } } void QmitkStdMultiWidget::EnableColoredRectangles() { m_RectangleProps[0]->SetVisibility(1); m_RectangleProps[1]->SetVisibility(1); m_RectangleProps[2]->SetVisibility(1); m_RectangleProps[3]->SetVisibility(1); } void QmitkStdMultiWidget::DisableColoredRectangles() { m_RectangleProps[0]->SetVisibility(0); m_RectangleProps[1]->SetVisibility(0); m_RectangleProps[2]->SetVisibility(0); m_RectangleProps[3]->SetVisibility(0); } bool QmitkStdMultiWidget::IsColoredRectanglesEnabled() const { return m_RectangleProps[0]->GetVisibility() > 0; } mitk::MouseModeSwitcher *QmitkStdMultiWidget::GetMouseModeSwitcher() { return m_MouseModeSwitcher; } mitk::DataNode::Pointer QmitkStdMultiWidget::GetWidgetPlane1() { return this->m_PlaneNode1; } mitk::DataNode::Pointer QmitkStdMultiWidget::GetWidgetPlane2() { return this->m_PlaneNode2; } mitk::DataNode::Pointer QmitkStdMultiWidget::GetWidgetPlane3() { return this->m_PlaneNode3; } mitk::DataNode::Pointer QmitkStdMultiWidget::GetWidgetPlane(int id) { switch (id) { case 1: return this->m_PlaneNode1; break; case 2: return this->m_PlaneNode2; break; case 3: return this->m_PlaneNode3; break; default: return NULL; } } diff --git a/Plugins/org.mitk.gui.qt.overlaymanager/src/internal/QmitkAddNewPropertyDialog.cpp b/Plugins/org.mitk.gui.qt.overlaymanager/src/internal/QmitkAddNewPropertyDialog.cpp index a901cbfa7a..cd90cd0cd9 100644 --- a/Plugins/org.mitk.gui.qt.overlaymanager/src/internal/QmitkAddNewPropertyDialog.cpp +++ b/Plugins/org.mitk.gui.qt.overlaymanager/src/internal/QmitkAddNewPropertyDialog.cpp @@ -1,179 +1,179 @@ /*=================================================================== 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 "QmitkAddNewPropertyDialog.h" #include "mitkGetPropertyService.h" #include #include #include #include QmitkAddNewPropertyDialog::QmitkAddNewPropertyDialog(mitk::Overlay::Pointer overlay, mitk::BaseRenderer::Pointer renderer, QWidget* parent) : QDialog(parent), m_Overlay(overlay), m_Renderer(renderer) { this->Initialize(); } QmitkAddNewPropertyDialog::~QmitkAddNewPropertyDialog() { } void QmitkAddNewPropertyDialog::Initialize() { m_Controls.setupUi(this); QStringList types; types << "bool" << "double" << "float" << "int" << "string"; m_Controls.typeComboBox->addItems(types); connect(m_Controls.typeComboBox, SIGNAL(currentIndexChanged(const QString&)), this, SLOT(ShowAdequateValueWidget(const QString&))); connect(m_Controls.addButton, SIGNAL(clicked()), this, SLOT(AddNewProperty())); connect(m_Controls.cancelButton, SIGNAL(clicked()), this, SLOT(reject())); this->ShowAdequateValueWidget(types[0]); } void QmitkAddNewPropertyDialog::AddNewProperty() { if (m_Controls.nameLineEdit->text().isEmpty()) { QMessageBox::critical(this, "No name specified", "Enter a property name."); return; } if (!this->ValidateValue()) { QMessageBox::critical(this, "Invalid value", "Enter a valid " + m_Controls.typeComboBox->currentText() + " value."); return; } - m_Overlay->SetProperty(m_Controls.nameLineEdit->text().toStdString(), this->CreateProperty(), m_Renderer); + m_Overlay->SetProperty(m_Controls.nameLineEdit->text().toStdString(), this->CreateProperty()); mitk::RenderingManager::GetInstance()->RequestUpdateAll(); this->accept(); } mitk::BaseProperty::Pointer QmitkAddNewPropertyDialog::CreateProperty() const { QString type = m_Controls.typeComboBox->currentText(); if (type == "bool") { return mitk::BoolProperty::New(m_Controls.valueCheckBox->isChecked()).GetPointer(); } else if (type == "double") { return mitk::DoubleProperty::New(m_Controls.valueLineEdit->text().toDouble()).GetPointer(); } else if (type == "float") { return mitk::FloatProperty::New(m_Controls.valueLineEdit->text().toFloat()).GetPointer(); } else if (type == "int") { return mitk::IntProperty::New(m_Controls.valueLineEdit->text().toInt()).GetPointer(); } else if (type == "string") { return mitk::StringProperty::New(m_Controls.valueLineEdit->text().toStdString()).GetPointer(); } else { assert(false && "Property creation for selected type not implemented!"); } return NULL; } bool QmitkAddNewPropertyDialog::ValidateValue() { QString type = m_Controls.typeComboBox->currentText(); if (type == "bool") { return true; } else if (type == "double") { bool ok = false; m_Controls.valueLineEdit->text().toDouble(&ok); return ok; } else if (type == "float") { bool ok = false; m_Controls.valueLineEdit->text().toFloat(&ok); return ok; } else if (type == "int") { bool ok = false; m_Controls.valueLineEdit->text().toInt(&ok); return ok; } else if (type == "string") { return true; } else { assert(false && "Value validation for selected type not implemented!"); } return false; } void QmitkAddNewPropertyDialog::ShowAdequateValueWidget(const QString& type) { m_Controls.valueLineEdit->clear(); m_Controls.valueLineEdit->hide(); m_Controls.valueCheckBox->setChecked(false); m_Controls.valueCheckBox->hide(); if (type == "bool") { m_Controls.valueCheckBox->show(); } else if (type == "double") { m_Controls.valueLineEdit->setText("0"); m_Controls.valueLineEdit->show(); } else if (type == "float") { m_Controls.valueLineEdit->setText("0"); m_Controls.valueLineEdit->show(); } else if (type == "int") { m_Controls.valueLineEdit->setText("0"); m_Controls.valueLineEdit->show(); } else if (type == "string") { m_Controls.valueLineEdit->show(); } else { assert(false && "No adequate value widget specified for selected type!"); } } diff --git a/Plugins/org.mitk.gui.qt.overlaymanager/src/internal/QmitkOverlayManagerView.cpp b/Plugins/org.mitk.gui.qt.overlaymanager/src/internal/QmitkOverlayManagerView.cpp index 6225dcffcd..57b094a0a0 100644 --- a/Plugins/org.mitk.gui.qt.overlaymanager/src/internal/QmitkOverlayManagerView.cpp +++ b/Plugins/org.mitk.gui.qt.overlaymanager/src/internal/QmitkOverlayManagerView.cpp @@ -1,503 +1,503 @@ /*=================================================================== 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 // Blueberry #include #include #include // Qmitk #include "QmitkOverlayManagerView.h" #include "QmitkAddNewPropertyDialog.h" #include "QmitkPropertyItemDelegate.h" #include "QmitkPropertyItemModel.h" #include // Qt #include #include #include #include #include #include "mitkGetPropertyService.h" #include #include "mitkOverlayManager.h" #include "mitkRenderingManager.h" #include #include #include #include #include #include const std::string QmitkOverlayManagerView::VIEW_ID = "org.mitk.views.overlaymanager"; QmitkOverlayManagerView::QmitkOverlayManagerView() : m_Parent(nullptr), m_PropertyNameChangedTag(0), m_OverlayManagerObserverTag(0), m_PropertyAliases(nullptr), m_PropertyDescriptions(nullptr), m_PropertyPersistence(nullptr), m_ProxyModel(nullptr), m_Model(nullptr), m_Delegate(nullptr), m_Renderer(nullptr), m_AddOverlayMenu(nullptr) { } QmitkOverlayManagerView::~QmitkOverlayManagerView() { } void QmitkOverlayManagerView::SetFocus() { } void QmitkOverlayManagerView::CreateQtPartControl( QWidget *parent ) { // create GUI widgets from the Qt Designer's .ui file m_Controls.setupUi( parent ); m_Controls.propertyListComboBox->addItem("common"); m_Controls.m_OverlayList->clear(); mitk::IRenderWindowPart* renderWindowPart = this->GetRenderWindowPart(); if (renderWindowPart != NULL) { QHash renderWindows = renderWindowPart->GetQmitkRenderWindows(); Q_FOREACH(QString renderWindow, renderWindows.keys()) { m_Controls.propertyListComboBox->addItem(renderWindow); } } InitializeAddAnimationMenu(); m_ProxyModel = new QSortFilterProxyModel(m_Controls.m_PropertyTree); m_Model = new QmitkPropertyItemModel(m_ProxyModel); m_ProxyModel->setSourceModel(m_Model); m_ProxyModel->setFilterCaseSensitivity(Qt::CaseInsensitive); m_ProxyModel->setSortCaseSensitivity(Qt::CaseInsensitive); m_ProxyModel->setDynamicSortFilter(true); m_Delegate = new QmitkPropertyItemDelegate(m_Controls.m_PropertyTree); m_Controls.m_PropertyTree->setItemDelegateForColumn(1, m_Delegate); m_Controls.m_PropertyTree->setModel(m_ProxyModel); m_Controls.m_PropertyTree->setColumnWidth(0, 160); m_Controls.m_PropertyTree->sortByColumn(0, Qt::AscendingOrder); m_Controls.m_PropertyTree->setSelectionBehavior(QAbstractItemView::SelectRows); m_Controls.m_PropertyTree->setSelectionMode(QAbstractItemView::SingleSelection); m_Controls.m_PropertyTree->setEditTriggers(QAbstractItemView::SelectedClicked | QAbstractItemView::DoubleClicked); connect(m_Controls.propertyListComboBox, SIGNAL(currentIndexChanged(int)), this, SLOT(OnPropertyListChanged(int))); connect(m_Controls.newButton, SIGNAL(clicked()), this, SLOT(OnAddNewProperty())); connect(m_Controls.m_PropertyTree->selectionModel(), SIGNAL(currentRowChanged(const QModelIndex&, const QModelIndex&)), this, SLOT(OnCurrentRowChanged(const QModelIndex&, const QModelIndex&))); connect(m_Controls.m_OverlayList, SIGNAL(currentItemChanged(QListWidgetItem*,QListWidgetItem*)), this, SLOT(OnOverlaySelectionChanged(QListWidgetItem*,QListWidgetItem*)) ); connect(m_Controls.m_DeleteOverlay, SIGNAL(clicked()), this, SLOT(OnDelete())); connect(m_Controls.m_AddOverlay, SIGNAL(clicked()), this, SLOT(OnAddOverlay())); } QString QmitkOverlayManagerView::GetPropertyNameOrAlias(const QModelIndex& index) { QString propertyName; if (index.isValid()) { QModelIndex current = index; while (current.isValid()) { QString name = m_ProxyModel->data(m_ProxyModel->index(current.row(), 0, current.parent())).toString(); propertyName.prepend(propertyName.isEmpty() ? name : name.append('.')); current = current.parent(); } } return propertyName; } void QmitkOverlayManagerView::OnCurrentRowChanged(const QModelIndex& current, const QModelIndex&) { if (m_PropertyDescriptions != nullptr && current.isValid()) { QString name = this->GetPropertyNameOrAlias(current); if (!name.isEmpty()) { QString alias; bool isTrueName = true; if (m_PropertyAliases != nullptr) { std::string trueName = m_PropertyAliases->GetPropertyName(name.toStdString()); if (trueName.empty() && !m_SelectionClassName.empty()) trueName = m_PropertyAliases->GetPropertyName(name.toStdString(), m_SelectionClassName); if (!trueName.empty()) { alias = name; name = QString::fromStdString(trueName); isTrueName = false; } } QString description = QString::fromStdString(m_PropertyDescriptions->GetDescription(name.toStdString())); std::vector aliases; if (!isTrueName && m_PropertyAliases != nullptr) { aliases = m_PropertyAliases->GetAliases(name.toStdString(), m_SelectionClassName); if (aliases.empty() && !m_SelectionClassName.empty()) aliases = m_PropertyAliases->GetAliases(name.toStdString()); } bool isPersistent = false; // QString persistenceKey; if (m_PropertyPersistence != nullptr) { isPersistent = m_PropertyPersistence->HasInfo(name.toStdString()); /*if (isPersistent) { persistenceKey = QString::fromStdString(m_PropertyPersistence->GetInfo(name.toStdString())->GetKey()); if (persistenceKey.isEmpty()) persistenceKey = name; }*/ } if (!description.isEmpty() || !aliases.empty() || isPersistent) { QString customizedDescription; if (!description.isEmpty()) customizedDescription += "

" + description + "

"; if (!aliases.empty() || isPersistent) { customizedDescription += "
"; if (!aliases.empty()) { customizedDescription += aliases.size() > 1 ? "" : ""; } if (isPersistent) customizedDescription += ""; customizedDescription += "
"; } return; } } } } void QmitkOverlayManagerView::OnPropertyNameChanged(const itk::EventObject&) { mitk::PropertyList* propertyList = m_Model->GetPropertyList(); if (propertyList != NULL) { mitk::BaseProperty* nameProperty = propertyList->GetProperty("name"); if (nameProperty != NULL) { QString partName = "Properties ("; partName.append(QString::fromStdString(nameProperty->GetValueAsString())).append(')'); this->SetPartName(partName); } } } void QmitkOverlayManagerView::OnSelectionChanged(berry::IWorkbenchPart::Pointer, const QList& nodes) { } void QmitkOverlayManagerView::InitializeAddAnimationMenu() { m_AddOverlayMenu = new QMenu(m_Controls.m_AddOverlay); m_AddOverlayMenu->addAction("TextOverlay2D"); m_AddOverlayMenu->addAction("TextOverlay3D"); m_AddOverlayMenu->addAction("LabelOverlay"); m_AddOverlayMenu->addAction("ColorBarOverlay"); m_AddOverlayMenu->addAction("ScaleLegendOverlay"); m_AddOverlayMenu->addAction("LogoOverlay"); } void QmitkOverlayManagerView::OnOverlayAdded(itk::Object *,const itk::EventObject &event) { const mitk::OverlayAddEvent* addEvent = dynamic_cast(&event); if(addEvent) { OnActivateOverlayList(); } } void QmitkOverlayManagerView::Activated() { } void QmitkOverlayManagerView::Deactivated() { } void QmitkOverlayManagerView::Visible() { mitk::OverlayManager* om = mitk::OverlayManager::GetInstance(); if(om && m_OverlayManagerObserverTag == 0) { itk::MemberCommand::Pointer command = itk::MemberCommand::New(); command->SetCallbackFunction(this, &QmitkOverlayManagerView::OnOverlayAdded ); m_OverlayManagerObserverTag = om->AddObserver(mitk::OverlayAddEvent(), command); } this->OnActivateOverlayList(); } void QmitkOverlayManagerView::Hidden() { } void QmitkOverlayManagerView::OnPropertyListChanged(int index) { if (index == -1) return; QString renderer = m_Controls.propertyListComboBox->itemText(index); QmitkRenderWindow* renwin = this->GetRenderWindowPart()->GetQmitkRenderWindow(renderer); m_Renderer= renwin ? renwin->GetRenderer() : nullptr; this->OnOverlaySelectionChanged(m_Controls.m_OverlayList->currentItem(), nullptr); } void QmitkOverlayManagerView::OnAddNewProperty() { std::unique_ptr dialog( new QmitkAddNewPropertyDialog(m_SelectedOverlay, m_Renderer, m_Parent)); if (dialog->exec() == QDialog::Accepted) this->m_Model->Update(); } void QmitkOverlayManagerView::OnActivateOverlayList() { typedef mitk::OverlayManager::OverlaySet OverlaySet; mitk::OverlayManager* om = mitk::OverlayManager::GetInstance(); m_Controls.m_OverlayList->clear(); if(om) { OverlaySet oset = om->GetAllOverlays(); for (auto overlay : oset) { QListWidgetItem* item = new QListWidgetItem(); item->setData(Qt::UserRole,QVariant::fromValue(overlay.GetPointer())); QString text(overlay->GetName().c_str()); if(text.length()>0) { text.append(" : "); } text.append(overlay->GetNameOfClass()); item->setText(text); m_Controls.m_OverlayList->addItem(item); } } } void QmitkOverlayManagerView::OnOverlaySelectionChanged(QListWidgetItem *current, QListWidgetItem *) { mitk::PropertyList* propertyList = m_Model->GetPropertyList(); if (propertyList != NULL) { mitk::BaseProperty* nameProperty = propertyList->GetProperty("name"); if (nameProperty != NULL) nameProperty->RemoveObserver(m_PropertyNameChangedTag); m_PropertyNameChangedTag = 0; } mitk::Overlay* overlay = nullptr; if(current) overlay = reinterpret_cast(current->data(Qt::UserRole).value()); if (!overlay) { m_SelectedOverlay = NULL; this->SetPartName("Overlay Properties"); m_Model->SetPropertyList(NULL); m_Delegate->SetPropertyList(NULL); m_Controls.newButton->setEnabled(false); } else { m_SelectedOverlay = overlay; QString selectionClassName = m_SelectedOverlay->GetNameOfClass(); m_SelectionClassName = selectionClassName.toStdString(); - mitk::PropertyList::Pointer propertyList = overlay->GetPropertyList(m_Renderer); + mitk::PropertyList::Pointer propertyList = overlay->GetPropertyList(); m_Model->SetPropertyList(propertyList, selectionClassName); m_Delegate->SetPropertyList(propertyList); OnPropertyNameChanged(itk::ModifiedEvent()); mitk::BaseProperty* nameProperty = m_SelectedOverlay->GetProperty("name"); if (nameProperty != NULL) { itk::ReceptorMemberCommand::Pointer command = itk::ReceptorMemberCommand::New(); command->SetCallbackFunction(this, &QmitkOverlayManagerView::OnPropertyNameChanged); m_PropertyNameChangedTag = nameProperty->AddObserver(itk::ModifiedEvent(), command); } m_Controls.newButton->setEnabled(true); } if (!m_ProxyModel->filterRegExp().isEmpty()) m_Controls.m_PropertyTree->expandAll(); } void QmitkOverlayManagerView::OnDelete() { auto items = m_Controls.m_OverlayList->selectedItems(); if(items.count() < 1) return; mitk::Overlay* overlay = nullptr; QListWidgetItem* item = items[0]; if(item) overlay = reinterpret_cast(item->data(Qt::UserRole).value()); mitk::OverlayManager::GetInstance()->RemoveOverlay(overlay); } void QmitkOverlayManagerView::OnAddOverlay() { QAction* action = m_AddOverlayMenu->exec(QCursor::pos()); if (action != NULL) { const QString widgetKey = action->text(); if (widgetKey == "TextOverlay2D") OnAddTextOverlay2D(); else if (widgetKey == "TextOverlay3D") OnAddTextOverlay3D(); else if (widgetKey == "LabelOverlay") OnAddLabelOverlay(); else if (widgetKey == "ColorBarOverlay") OnAddColorBarOverlay(); else if (widgetKey == "ScaleLegendOverlay") OnAddScaleLegendOverlay(); else if (widgetKey == "LogoOverlay") OnAddLogoOverlay(); } } void QmitkOverlayManagerView::OnAddTextOverlay2D() { mitk::OverlayManager* om = mitk::OverlayManager::GetInstance(); mitk::TextOverlay2D::Pointer to = mitk::TextOverlay2D::New(); om->AddOverlay(to.GetPointer()); } void QmitkOverlayManagerView::OnAddTextOverlay3D() { mitk::OverlayManager* om = mitk::OverlayManager::GetInstance(); mitk::TextOverlay3D::Pointer to = mitk::TextOverlay3D::New(); om->AddOverlay(to.GetPointer()); } void QmitkOverlayManagerView::OnAddLabelOverlay() { mitk::OverlayManager* om = mitk::OverlayManager::GetInstance(); mitk::LabelOverlay3D::Pointer to = mitk::LabelOverlay3D::New(); om->AddOverlay(to.GetPointer()); } void QmitkOverlayManagerView::OnAddColorBarOverlay() { mitk::OverlayManager* om = mitk::OverlayManager::GetInstance(); mitk::ColorBarOverlay::Pointer to = mitk::ColorBarOverlay::New(); om->AddOverlay(to.GetPointer()); } void QmitkOverlayManagerView::OnAddScaleLegendOverlay() { mitk::OverlayManager* om = mitk::OverlayManager::GetInstance(); mitk::ScaleLegendOverlay::Pointer to = mitk::ScaleLegendOverlay::New(); om->AddOverlay(to.GetPointer()); } void QmitkOverlayManagerView::OnAddLogoOverlay() { mitk::OverlayManager* om = mitk::OverlayManager::GetInstance(); mitk::LogoOverlay::Pointer to = mitk::LogoOverlay::New(); om->AddOverlay(to.GetPointer()); } void QmitkOverlayManagerView::RenderWindowPartActivated(mitk::IRenderWindowPart* /*renderWindowPart*/) { if (m_Controls.propertyListComboBox->count() == 1) { QHash renderWindows = this->GetRenderWindowPart()->GetQmitkRenderWindows(); Q_FOREACH(QString renderWindow, renderWindows.keys()) { m_Controls.propertyListComboBox->insertItem(m_Controls.propertyListComboBox->count() - 1, renderWindow); } } OnActivateOverlayList(); } void QmitkOverlayManagerView::RenderWindowPartDeactivated(mitk::IRenderWindowPart*) { if (m_Controls.propertyListComboBox->count() > 1) { m_Controls.propertyListComboBox->clear(); m_Controls.propertyListComboBox->addItem("common"); } m_Controls.m_OverlayList->clear(); }