// @(#)root/gl:$Id$ // Author: Richard Maunder 25/05/2005 /************************************************************************* * Copyright (C) 1995-2004, Rene Brun and Fons Rademakers. * * All rights reserved. * * * * For the licensing terms see $ROOTSYS/LICENSE. * * For the list of contributors see $ROOTSYS/README/CREDITS. * *************************************************************************/ #ifndef ROOT_TGLOrthoCamera #define ROOT_TGLOrthoCamera #include "TGLCamera.h" ////////////////////////////////////////////////////////////////////////// // // // TGLOrthoCamera // // // // Orthographic projection camera. Currently limited to three types // // defined at construction time - kXOY, kXOZ, kZOY - where this refers // // to the viewport plane axis - e.g. kXOY has X axis horizontal, Y // // vertical - i.e. looking down Z axis with Y vertical. // // // The plane types restriction could easily be removed to supported // // arbitary ortho projections along any axis/orientation with free // // rotations about them. // // // ////////////////////////////////////////////////////////////////////////// class TGLPaintDevice; class TGLOrthoCamera : public TGLCamera { public: enum EType { kZOY, kXOZ, kXOY, // Pair of world axes aligned to h/v screen. kZnOY, kXnOZ, kXnOY }; // 'n' means preceding axis is negated. private: // Fields EType fType; // camera type Bool_t fEnableRotate; // enable rotation Bool_t fDollyToZoom; // zoom when dolly is requested // Limits - set in Setup() Double_t fZoomMin; // minimum zoom factor Double_t fZoomDefault; // default zoom factor Double_t fZoomMax; // maximum zoom factor TGLBoundingBox fVolume; //! scene volume // Current interaction Double_t fDefXSize, fDefYSize; //! x, y size of scene from camera view Double_t fZoom; // current zoom static UInt_t fgZoomDeltaSens; public: TGLOrthoCamera(); TGLOrthoCamera(EType type, const TGLVector3 & hAxis, const TGLVector3 & vAxis); virtual ~TGLOrthoCamera(); virtual Bool_t IsOrthographic() const { return kTRUE; } virtual void Setup(const TGLBoundingBox & box, Bool_t reset=kTRUE); virtual void Reset(); virtual Bool_t Dolly(Int_t delta, Bool_t mod1, Bool_t mod2); virtual Bool_t Zoom (Int_t delta, Bool_t mod1, Bool_t mod2); using TGLCamera::Truck; virtual Bool_t Truck(Int_t xDelta, Int_t yDelta, Bool_t mod1, Bool_t mod2); virtual Bool_t Rotate(Int_t xDelta, Int_t yDelta, Bool_t mod1, Bool_t mod2); virtual void Apply(const TGLBoundingBox & sceneBox, const TGLRect * pickRect = 0) const; // External scripting control // void Configure(Double_t left, Double_t right, Double_t top, Double_t bottom); virtual void Configure(Double_t zoom, Double_t dolly, Double_t center[3], Double_t hRotate, Double_t vRotate); void SetEnableRotate(Bool_t x) { fEnableRotate = x; } Bool_t GetEnableRotate() const { return fEnableRotate; } Double_t GetZoomMin() const { return fZoomMin; } Double_t GetZoomMax() const { return fZoomMax; } void SetZoomMin(Double_t z); void SetZoomMax(Double_t z); void SetZoomMinMax(Double_t min, Double_t max) { SetZoomMin(min); SetZoomMax(max); } void SetDollyToZoom(Bool_t x) { fDollyToZoom = x; } Bool_t GetDollyToZoom() const { return fDollyToZoom; } void SetZoom(Double_t x) { fZoom = x; } Double_t GetZoom() const { return fZoom; } ClassDef(TGLOrthoCamera,1) // Camera for orthographic view. }; #endif // ROOT_TGLOrthoCamera