// @(#)root/gl:$Id$ // Author: Richard Maunder 25/05/2005 // Parts taken from original TGLSceneObject Timur Pocheptsov /************************************************************************* * 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_TGLPhysicalShape #define ROOT_TGLPhysicalShape //#ifndef ROOT_TGLLogicalShape //#include "TGLLogicalShape.h" //#endif #ifndef ROOT_TGLBoundingBox #include "TGLBoundingBox.h" #endif #ifndef ROOT_TGLUtil #include "TGLUtil.h" // For TGLMatrix #endif class TGLPShapeRef; class TGLLogicalShape; class TGLRnrCtx; class TContextMenu; class TGLPhysicalShape { friend class TGLLogicalShape; // for replica-list management private: TGLPhysicalShape(const TGLPhysicalShape&); // Not implemented TGLPhysicalShape& operator=(const TGLPhysicalShape&); // Not implemented public: // Flags for permitted manipulation of object enum EManip { kTranslateX = 1 << 0, kTranslateY = 1 << 1, kTranslateZ = 1 << 2, kTranslateAll = kTranslateX | kTranslateY | kTranslateZ, kScaleX = 1 << 3, kScaleY = 1 << 4, kScaleZ = 1 << 5, kScaleAll = kScaleX | kScaleY | kScaleZ, kRotateX = 1 << 6, kRotateY = 1 << 7, kRotateZ = 1 << 8, kRotateAll = kRotateX | kRotateY | kRotateZ, kManipAll = kTranslateAll | kScaleAll | kRotateAll }; private: // Fields const TGLLogicalShape * fLogicalShape; //! the associated logical shape TGLPhysicalShape* fNextPhysical; //! pointer to next replica TGLPShapeRef * fFirstPSRef; //! pointer to first reference UInt_t fID; //! unique physical ID within containing scene TGLMatrix fTransform; //! transform (placement) of physical instance TGLBoundingBox fBoundingBox; //! bounding box of the physical (transformed) Float_t fColor[17]; //! GL color array EManip fManip; //! permitted manipulation bitflags - see EManip UChar_t fSelected; //! selected state Bool_t fInvertedWind; //! face winding TODO: can get directly from fTransform? Bool_t fModified; //! has been modified - retain across scene rebuilds Bool_t fIsScaleForRnr;//! cache // Methods void UpdateBoundingBox(); void InitColor(const Float_t rgba[4]); public: TGLPhysicalShape(UInt_t ID, const TGLLogicalShape & logicalShape, const TGLMatrix & transform, Bool_t invertedWind, const Float_t rgba[4]); TGLPhysicalShape(UInt_t ID, const TGLLogicalShape & logicalShape, const double * transform, Bool_t invertedWind, const Float_t rgba[4]); virtual ~TGLPhysicalShape(); void AddReference (TGLPShapeRef* ref); void RemoveReference(TGLPShapeRef* ref); UInt_t ID() const { return fID; } const TGLBoundingBox & BoundingBox() const { return fBoundingBox; } virtual void CalculateShapeLOD(TGLRnrCtx & rnrCtx, Float_t& pixSize, Short_t& shapeLOD) const; virtual void QuantizeShapeLOD (Short_t shapeLOD, Short_t combiLOD, Short_t& quantLOD) const; void SetupGLColors(TGLRnrCtx & rnrCtx, const Float_t* color=0) const; virtual void Draw(TGLRnrCtx & rnrCtx) const; const TGLLogicalShape * GetLogical() const { return fLogicalShape; } const TGLPhysicalShape * GetNextPhysical() const { return fNextPhysical; } // Modification and manipulation EManip GetManip() const { return fManip; } void SetManip(EManip manip) { fManip = manip; } // Modified - treated as temporary modification void Modified(); Bool_t IsModified() const { return fModified; } // Selection Bool_t IsSelected() const { return fSelected != 0; } UChar_t GetSelected() const { return fSelected; } void Select(UChar_t select) { fSelected = select; } // Color const Float_t * Color() const { return fColor; } Bool_t IsTransparent() const { return fColor[3] < 1.f; } Bool_t IsInvisible() const { return fColor[3] == 0.f; } void SetColor(const Float_t rgba[17]); void SetColorOnFamily(const Float_t rgba[17]); void SetDiffuseColor(const Float_t rgba[4]); void SetDiffuseColor(const UChar_t rgba[4]); void SetDiffuseColor(Color_t ci, UChar_t transparency); // Geometry TGLVector3 GetScale() const; TGLVertex3 GetTranslation() const; void SetTransform(const TGLMatrix & transform); void SetTransform(const Double_t vals[16]); void SetTranslation(const TGLVertex3 & translation); void Translate(const TGLVector3 & vect); void Scale(const TGLVector3 & scale); void Rotate(const TGLVertex3 & pivot, const TGLVector3 & axis, Double_t angle); // Context menu void InvokeContextMenu(TContextMenu & menu, UInt_t x, UInt_t y) const; ClassDef(TGLPhysicalShape,0) // a physical (placed, global frame) drawable object }; //______________________________________________________________________________ inline TGLVector3 TGLPhysicalShape::GetScale() const { return fTransform.GetScale(); } //______________________________________________________________________________ inline TGLVertex3 TGLPhysicalShape::GetTranslation() const { return fTransform.GetTranslation(); } //______________________________________________________________________________ inline void TGLPhysicalShape::SetTransform(const TGLMatrix & transform) { fTransform = transform; UpdateBoundingBox(); Modified(); } //______________________________________________________________________________ inline void TGLPhysicalShape::SetTransform(const Double_t vals[16]) { fTransform.Set(vals); UpdateBoundingBox(); Modified(); } //______________________________________________________________________________ inline void TGLPhysicalShape::SetTranslation(const TGLVertex3 & translation) { fTransform.SetTranslation(translation); UpdateBoundingBox(); Modified(); } //______________________________________________________________________________ inline void TGLPhysicalShape::Translate(const TGLVector3 & vect) { fTransform.Translate(vect); UpdateBoundingBox(); Modified(); } //______________________________________________________________________________ inline void TGLPhysicalShape::Scale(const TGLVector3 & scale) { TGLVertex3 origCenter = fBoundingBox.Center(); fTransform.Scale(scale); UpdateBoundingBox(); TGLVector3 shift = fBoundingBox.Center() - origCenter; Translate(-shift); UpdateBoundingBox(); Modified(); } //______________________________________________________________________________ inline void TGLPhysicalShape::Rotate(const TGLVertex3 & pivot, const TGLVector3 & axis, Double_t angle) { TGLVertex3 c = BoundingBox().Center(); fTransform.Rotate(pivot, axis, angle); UpdateBoundingBox(); Modified(); } #endif // ROOT_TGLPhysicalShape