/*========================================================================= Program: Visualization Toolkit Module: vtkOrientedGlyphFocalPlaneContourRepresentation.h Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen All rights reserved. See Copyright.txt or http://www.kitware.com/Copyright.htm for details. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the above copyright notice for more information. =========================================================================*/ /** * @class vtkOrientedGlyphFocalPlaneContourRepresentation * @brief Contours constrained * to a focal plane. * * * This class is used to represent a contour drawn on the focal plane (usually * overlaid on top of an image or volume widget). * The class was written in order to be able to draw contours on a volume widget * and have the contours overlaid on the focal plane in order to do contour * segmentation. * * @sa * vtkOrientedGlyphContourRepresentation */ #ifndef vtkOrientedGlyphFocalPlaneContourRepresentation_h #define vtkOrientedGlyphFocalPlaneContourRepresentation_h #include "vtkInteractionWidgetsModule.h" // For export macro #include "vtkFocalPlaneContourRepresentation.h" class vtkProperty2D; class vtkActor2D; class vtkPolyDataMapper2D; class vtkPolyData; class vtkGlyph2D; class vtkPoints; class vtkPolyData; class VTKINTERACTIONWIDGETS_EXPORT vtkOrientedGlyphFocalPlaneContourRepresentation : public vtkFocalPlaneContourRepresentation { public: /** * Instantiate this class. */ static vtkOrientedGlyphFocalPlaneContourRepresentation *New(); //@{ /** * Standard methods for instances of this class. */ vtkTypeMacro(vtkOrientedGlyphFocalPlaneContourRepresentation, vtkFocalPlaneContourRepresentation); void PrintSelf(ostream& os, vtkIndent indent) override; //@} //@{ /** * Specify the cursor shape. Keep in mind that the shape will be * aligned with the constraining plane by orienting it such that * the x axis of the geometry lies along the normal of the plane. */ void SetCursorShape(vtkPolyData *cursorShape); vtkPolyData *GetCursorShape(); //@} //@{ /** * Specify the shape of the cursor (handle) when it is active. * This is the geometry that will be used when the mouse is * close to the handle or if the user is manipulating the handle. */ void SetActiveCursorShape(vtkPolyData *activeShape); vtkPolyData *GetActiveCursorShape(); //@} //@{ /** * This is the property used when the handle is not active * (the mouse is not near the handle) */ vtkGetObjectMacro(Property,vtkProperty2D); //@} //@{ /** * This is the property used when the user is interacting * with the handle. */ vtkGetObjectMacro(ActiveProperty,vtkProperty2D); //@} //@{ /** * This is the property used by the lines. */ vtkGetObjectMacro(LinesProperty,vtkProperty2D); //@} //@{ /** * Subclasses of vtkOrientedGlyphFocalPlaneContourRepresentation must implement these methods. These * are the methods that the widget and its representation use to * communicate with each other. */ void SetRenderer(vtkRenderer *ren) override; void BuildRepresentation() override; void StartWidgetInteraction(double eventPos[2]) override; void WidgetInteraction(double eventPos[2]) override; int ComputeInteractionState(int X, int Y, int modified=0) override; //@} //@{ /** * Methods to make this class behave as a vtkProp. */ void GetActors2D(vtkPropCollection *) override; void ReleaseGraphicsResources(vtkWindow *) override; int RenderOverlay(vtkViewport *viewport) override; int RenderOpaqueGeometry(vtkViewport *viewport) override; int RenderTranslucentPolygonalGeometry(vtkViewport *viewport) override; int HasTranslucentPolygonalGeometry() override; //@} /** * Get the points in this contour as a vtkPolyData. */ vtkPolyData * GetContourRepresentationAsPolyData() override; /** * Direction cosines of the plane on which the contour lies * on in world co-ordinates. This would be the same matrix that would be * set in vtkImageReslice or vtkImagePlaneWidget if there were a plane * passing through the contour points. The origin must be the origin of the * data under the contour. */ vtkMatrix4x4 *GetContourPlaneDirectionCosines(const double origin[3]); protected: vtkOrientedGlyphFocalPlaneContourRepresentation(); ~vtkOrientedGlyphFocalPlaneContourRepresentation() override; // Render the cursor vtkActor2D *Actor; vtkPolyDataMapper2D *Mapper; vtkGlyph2D *Glypher; vtkActor2D *ActiveActor; vtkPolyDataMapper2D *ActiveMapper; vtkGlyph2D *ActiveGlypher; vtkPolyData *CursorShape; vtkPolyData *ActiveCursorShape; vtkPolyData *FocalData; vtkPoints *FocalPoint; vtkPolyData *ActiveFocalData; vtkPoints *ActiveFocalPoint; // The polydata represents the contour in display co-ordinates. vtkPolyData *Lines; vtkPolyDataMapper2D *LinesMapper; vtkActor2D *LinesActor; // The polydata represents the contour in world coordinates. It is updated // (kept in sync with Lines) every time the GetContourRepresentationAsPolyData() // method is called. vtkPolyData *LinesWorldCoordinates; // Support picking double LastPickPosition[3]; double LastEventPosition[2]; // Methods to manipulate the cursor void Translate(double eventPos[2]); void Scale(double eventPos[2]); void ShiftContour(double eventPos[2]); void ScaleContour(double eventPos[2]); void ComputeCentroid(double* ioCentroid); // Properties used to control the appearance of selected objects and // the manipulator in general. vtkProperty2D *Property; vtkProperty2D *ActiveProperty; vtkProperty2D *LinesProperty; vtkMatrix4x4 *ContourPlaneDirectionCosines; void CreateDefaultProperties(); // Distance between where the mouse event happens and where the // widget is focused - maintain this distance during interaction. double InteractionOffset[2]; void BuildLines() override; private: vtkOrientedGlyphFocalPlaneContourRepresentation(const vtkOrientedGlyphFocalPlaneContourRepresentation&) = delete; void operator=(const vtkOrientedGlyphFocalPlaneContourRepresentation&) = delete; }; #endif