// // ******************************************************************** // * License and Disclaimer * // * * // * The Geant4 software is copyright of the Copyright Holders of * // * the Geant4 Collaboration. It is provided under the terms and * // * conditions of the Geant4 Software License, included in the file * // * LICENSE and available at http://cern.ch/geant4/license . These * // * include a list of copyright holders. * // * * // * Neither the authors of this software system, nor their employing * // * institutes,nor the agencies providing financial support for this * // * work make any representation or warranty, express or implied, * // * regarding this software system or assume any liability for its * // * use. Please see the license in the file LICENSE and URL above * // * for the full disclaimer and the limitation of liability. * // * * // * This code implementation is the result of the scientific and * // * technical work of the GEANT4 collaboration. * // * By using, copying, modifying or distributing the software (or * // * any work based on the software) you agree to acknowledge its * // * use in resulting scientific publications, and indicate your * // * acceptance of all terms of the Geant4 Software license. * // ******************************************************************** // // // $Id: G4ViewParameters.hh,v 1.28 2008/04/28 16:14:12 allison Exp $ // GEANT4 tag $Name: HEAD $ // // // John Allison 19th July 1996 // // Class description // // View parameters and options. // // THE STANDARD VIEW AND ALL THAT. // // In GEANT4 visualization, we have the concept of a "Standard // View". This is the view when the complete set of objects being // viewed is comfortably in view from any viewpoint. It is defined by // the "Bounding Sphere" of "visible" objects when initially // registered in the scene, and by the View Parameters. // // There is also the "Standard Target Point", which is the centre of // the Bounding Sphere (note that this belongs to the scene and is // stored in the G4Scene object). The "Current Target Point", defined // relative to the Standard Target Point, is changed by the // "dolly" and "zoom" commands, and can be reset to the Standard // Target Point with the "/vis/viewer/reset" command. // // Also, the "Standard Camera Position" is the "Standard Camera // Distance" along the Viewpoint Direction vector from the Standard // Target Point. The Standard Camera Distance is the radius of the // Bounding Sphere divided by fFieldHalfAngle. It is not stored // explicitly because of the singularity at fFieldHalfAngle = 0, // which implies parallel projection. // // Similarly, the "Current Camera Position" is the "Current Camera // Distance" along the Viewpoint Direction vector from the Current // Target Point. The Current Camera Distance is given by the formulae // below, but note that it can be negative, meaning that the camera // has moved *beyond* the Current Target Point, which is // conceptually possible, but which might give some problems when // setting up the view matrix - see, for example, G4OpenGLView::SetView (). // // All viewers are expected to keep the "Up Vector" vertical. // // Finally, the view is magnified by the "Zoom Factor" which is // reset to 1 by the "/vis/viewer/reset" command. // // The algorithms for calculating various useful quantities from the // View Parameters, such as GetCameraDistance, are described below. #ifndef G4VIEWPARAMETERS_HH #define G4VIEWPARAMETERS_HH #include #include "G4Vector3D.hh" #include "G4Point3D.hh" #include "G4Plane3D.hh" #include "G4VisAttributes.hh" #include "G4VMarker.hh" typedef std::vector G4Planes; class G4ViewParameters { public: // With description enum DrawingStyle { wireframe, // Draw edges - no hidden line removal. hlr, // Draw edges - hidden lines removed. hsr, // Draw surfaces - hidden surfaces removed. hlhsr // Draw surfaces and edges - hidden removed. }; enum RepStyle { polyhedron, // Use G4Polyhedron. nurbs // Use G4NURBS. }; enum CutawayMode { cutawayUnion, // Union (addition) of result of each cutaway plane. cutawayIntersection // Intersection (multiplication) " . }; friend std::ostream& operator << (std::ostream&, const DrawingStyle&); friend std::ostream& operator << (std::ostream&, const G4ViewParameters&); G4ViewParameters (); ~G4ViewParameters (); // Note: uses default assignment operator and copy constructor. G4bool operator != (const G4ViewParameters&) const; // Get and Is functions. DrawingStyle GetDrawingStyle () const; G4bool IsAuxEdgeVisible () const; RepStyle GetRepStyle () const; G4bool IsCulling () const; G4bool IsCullingInvisible () const; G4bool IsDensityCulling () const; G4double GetVisibleDensity () const; G4bool IsCullingCovered () const; G4bool IsSection () const; const G4Plane3D& GetSectionPlane () const; G4bool IsCutaway () const; CutawayMode GetCutawayMode () const; const G4Planes& GetCutawayPlanes () const; G4bool IsExplode () const; G4double GetExplodeFactor () const; const G4Point3D& GetExplodeCentre () const; G4int GetNoOfSides () const; const G4Vector3D& GetViewpointDirection () const; const G4Vector3D& GetUpVector () const; G4double GetFieldHalfAngle () const; G4double GetZoomFactor () const; const G4Vector3D& GetScaleFactor () const; const G4Point3D& GetCurrentTargetPoint () const; G4double GetDolly () const; G4bool GetLightsMoveWithCamera () const; const G4Vector3D& GetLightpointDirection () const; // Relative... G4Vector3D& GetActualLightpointDirection (); // Actual... // ... depending on GetLightsMoveWithCamera. const G4VisAttributes* GetDefaultVisAttributes () const; const G4VisAttributes* GetDefaultTextVisAttributes () const; const G4VMarker& GetDefaultMarker () const; G4double GetGlobalMarkerScale () const; G4double GetGlobalLineWidthScale () const; G4bool IsMarkerNotHidden () const; G4int GetWindowSizeHintX () const; G4int GetWindowSizeHintY () const; G4int GetWindowLocationHintX () const; G4int GetWindowLocationHintY () const; const G4String& GetXGeometryString () const; // If non-null, can be interpreted with XParseGeometry (see man // pages). Supercedes GetWindowSizeHintX/Y. G4bool IsAutoRefresh () const; const G4Colour& GetBackgroundColour () const; G4bool IsPicking () const; // Here Follow functions to evaluate the above algorithms as a // function of the radius of the Bounding Sphere of the object being // viewed. Call them in the order given - for efficiency, later // functions depend on the results of earlier ones (Store the // results of earlier functions in your own temporary variables - // see, for example, G4OpenGLView::SetView ().) G4double GetCameraDistance (G4double radius) const; G4double GetNearDistance (G4double cameraDistance, G4double radius) const; G4double GetFarDistance (G4double cameraDistance, G4double nearDistance, G4double radius) const; G4double GetFrontHalfHeight (G4double nearDistance, G4double radius) const; // Set, Add, Multiply, Increment, Unset and Clear functions. void SetDrawingStyle (G4ViewParameters::DrawingStyle style); void SetAuxEdgeVisible (G4bool); void SetRepStyle (G4ViewParameters::RepStyle style); void SetCulling (G4bool); void SetCullingInvisible (G4bool); void SetDensityCulling (G4bool); void SetVisibleDensity (G4double visibleDensity); void SetCullingCovered (G4bool); void SetSectionPlane (const G4Plane3D& sectionPlane); void UnsetSectionPlane (); void SetCutawayMode (CutawayMode); void AddCutawayPlane (const G4Plane3D& cutawayPlane); void ChangeCutawayPlane (size_t index, const G4Plane3D& cutawayPlane); void ClearCutawayPlanes (); void SetExplodeFactor (G4double explodeFactor); void UnsetExplodeFactor (); void SetExplodeCentre (const G4Point3D& explodeCentre); G4int SetNoOfSides (G4int nSides); // Returns actual number set. void SetViewpointDirection (const G4Vector3D& viewpointDirection); // Calls the following to get lightpoint direction right too. void SetViewAndLights (const G4Vector3D& viewpointDirection); // Also sets lightpoint direction according to G4bool fLightsMoveWithCamera. void SetUpVector (const G4Vector3D& upVector); void SetFieldHalfAngle (G4double fieldHalfAngle); void SetZoomFactor (G4double zoomFactor); void MultiplyZoomFactor (G4double zoomFactorMultiplier); void SetScaleFactor (const G4Vector3D& scaleFactor); void MultiplyScaleFactor (const G4Vector3D& scaleFactorMultiplier); void SetCurrentTargetPoint (const G4Point3D& currentTargetPoint); void SetDolly (G4double dolly); void IncrementDolly (G4double dollyIncrement); void SetLightpointDirection (const G4Vector3D& lightpointDirection); void SetLightsMoveWithCamera (G4bool moves); void SetPan (G4double right, G4double up); void IncrementPan (G4double right, G4double up); // Increment currentTarget point perpendicular to viewpoint direction. void IncrementPan (G4double right, G4double up, G4double forward); // Increment currentTarget point also along viewpoint direction. void SetDefaultVisAttributes (const G4VisAttributes&); void SetDefaultTextVisAttributes (const G4VisAttributes&); void SetDefaultMarker (const G4VMarker& defaultMarker); void SetGlobalMarkerScale (G4double globalMarkerScale); void SetGlobalLineWidthScale (G4double globalLineWidthScale); void SetMarkerHidden (); void SetMarkerNotHidden (); void SetWindowSizeHint (G4int xHint, G4int yHint); void SetWindowLocationHint (G4int xHint, G4int yHint); void SetXGeometryString (const G4String&); void SetAutoRefresh (G4bool); void SetBackgroundColour (const G4Colour&); void SetPicking (G4bool); void PrintDifferences (const G4ViewParameters& v) const; private: DrawingStyle fDrawingStyle; // Drawing style. G4bool fAuxEdgeVisible; // Auxiliary edge visibility. RepStyle fRepStyle; // Representation style. G4bool fCulling; // Culling requested. G4bool fCullInvisible; // Cull (don't Draw) invisible objects. G4bool fDensityCulling; // Density culling requested. If so... G4double fVisibleDensity; // ...density lower than this not drawn. G4bool fCullCovered; // Cull daughters covered by opaque mothers. G4bool fSection; // Section drawing requested (DCUT in GEANT3). G4Plane3D fSectionPlane; // Cut plane for section drawing (DCUT). CutawayMode fCutawayMode; // Cutaway mode. G4Planes fCutawayPlanes; // Set of planes used for cutaway. G4double fExplodeFactor; // Explode along radius by this factor... G4Point3D fExplodeCentre; // ...about this centre. G4int fNoOfSides; // ...if polygon approximates circle. G4Vector3D fViewpointDirection; G4Vector3D fUpVector; // Up vector. (Warning: MUST NOT be parallel // to fViewpointDirection!) G4double fFieldHalfAngle; // Radius / camara distance, 0 for parallel. G4double fZoomFactor; // Magnification relative to Standard View. G4Vector3D fScaleFactor; // (Non-uniform) scale/magnification factor. G4Point3D fCurrentTargetPoint; // Relative to standard target point. G4double fDolly; // Distance towards current target point. G4bool fLightsMoveWithCamera; G4Vector3D fRelativeLightpointDirection; // i.e., rel. to object or camera accoding to G4bool fLightsMoveWithCamera. G4Vector3D fActualLightpointDirection; G4VisAttributes fDefaultVisAttributes; G4VisAttributes fDefaultTextVisAttributes; G4VMarker fDefaultMarker; G4double fGlobalMarkerScale; G4double fGlobalLineWidthScale; G4bool fMarkerNotHidden; // True if transients are to be drawn and not hidden by // hidden-line-hidden-surface removal algorithms, e.g., z-buffer // testing; false if they are to be hidden-line-hidden-surface // removed. G4int fWindowSizeHintX; // Size hints for pixel-based window systems. G4int fWindowSizeHintY; G4int fWindowLocationHintX; // Location hints for pixel-based window systems. G4int fWindowLocationHintY; G4String fXGeometryString; // If non-null, geometry string for X Windows. G4bool fAutoRefresh; // ...after change of view parameters. G4Colour fBackgroundColour; G4bool fPicking; // Request picking. }; #include "G4ViewParameters.icc" #endif