library: libGeom
#include "TGeoCone.h"

TGeoConeSeg

class description - header file - source file - inheritance tree (.pdf)

class TGeoConeSeg : public TGeoCone

Inheritance Chart:

TObject

TNamed

TGeoShape

TGeoBBox

TGeoCone

TGeoConeSeg


    public:

                               TGeoConeSeg()
                               TGeoConeSeg(Double_t dz, Double_t rmin1, Double_t rmax1, Double_t rmin2, Double_t rmax2, Double_t phi1, Double_t phi2)
                               TGeoConeSeg(const char* name, Double_t dz, Double_t rmin1, Double_t rmax1, Double_t rmin2, Double_t rmax2, Double_t phi1, Double_t phi2)
                               TGeoConeSeg(Double_t* params)
                               TGeoConeSeg(const TGeoConeSeg&)
                       virtual ~TGeoConeSeg()
              virtual Double_t Capacity() const
               static Double_t Capacity(Double_t dz, Double_t rmin1, Double_t rmax1, Double_t rmin2, Double_t rmax2, Double_t phi1, Double_t phi2)
                static TClass* Class()
                  virtual void ComputeBBox()
                  virtual void ComputeNormal(Double_t* point, Double_t* dir, Double_t* norm)
                   static void ComputeNormalS(Double_t* point, Double_t* dir, Double_t* norm, Double_t dz, Double_t rmin1, Double_t rmax1, Double_t rmin2, Double_t rmax2, Double_t c1, Double_t s1, Double_t c2, Double_t s2)
                virtual Bool_t Contains(Double_t* point) const
                 virtual Int_t DistancetoPrimitive(Int_t px, Int_t py)
              virtual Double_t DistFromInside(Double_t* point, Double_t* dir, Int_t iact = 1, Double_t step = TGeoShape::Big(), Double_t* safe = 0) const
               static Double_t DistFromInsideS(Double_t* point, Double_t* dir, Double_t dz, Double_t rmin1, Double_t rmax1, Double_t rmin2, Double_t rmax2, Double_t c1, Double_t s1, Double_t c2, Double_t s2, Double_t cm, Double_t sm, Double_t cdfi)
              virtual Double_t DistFromOutside(Double_t* point, Double_t* dir, Int_t iact = 1, Double_t step = TGeoShape::Big(), Double_t* safe = 0) const
               static Double_t DistFromOutsideS(Double_t* point, Double_t* dir, Double_t dz, Double_t rmin1, Double_t rmax1, Double_t rmin2, Double_t rmax2, Double_t c1, Double_t s1, Double_t c2, Double_t s2, Double_t cm, Double_t sm, Double_t cdfi)
               static Double_t DistToCons(Double_t* point, Double_t* dir, Double_t r1, Double_t z1, Double_t r2, Double_t z2, Double_t phi1, Double_t phi2)
           virtual TGeoVolume* Divide(TGeoVolume* voldiv, const char* divname, Int_t iaxis, Int_t ndiv, Double_t start, Double_t step)
              virtual Double_t GetAxisRange(Int_t iaxis, Double_t& xlo, Double_t& xhi) const
                  virtual void GetBoundingCylinder(Double_t* param) const
      virtual const TBuffer3D& GetBuffer3D(Int_t reqSections, Bool_t localFrame) const
                 virtual Int_t GetByteCount() const
            virtual TGeoShape* GetMakeRuntimeShape(TGeoShape* mother, TGeoMatrix* mat) const
                 virtual Int_t GetNmeshVertices() const
                      Double_t GetPhi1() const
                      Double_t GetPhi2() const
                  virtual void InspectShape() const
               virtual TClass* IsA() const
            virtual TBuffer3D* MakeBuffer3D() const
                  TGeoConeSeg& operator=(const TGeoConeSeg&)
              virtual Double_t Safety(Double_t* point, Bool_t in = kTRUE) const
               static Double_t SafetyS(Double_t* point, Bool_t in, Double_t dz, Double_t rmin1, Double_t rmax1, Double_t rmin2, Double_t rmax2, Double_t phi1, Double_t phi2, Int_t skipz = 0)
                  virtual void SavePrimitive(ostream& out, Option_t* option = "")
                          void SetConsDimensions(Double_t dz, Double_t rmin1, Double_t rmax1, Double_t rmin2, Double_t rmax2, Double_t phi1, Double_t phi2)
                  virtual void SetDimensions(Double_t* param)
                  virtual void SetPoints(Double_t* points) const
                  virtual void SetPoints(Float_t* points) const
                  virtual void SetSegsAndPols(TBuffer3D& buffer) const
                  virtual void ShowMembers(TMemberInspector& insp, char* parent)
                  virtual void Sizeof3D() const
                  virtual void Streamer(TBuffer& b)
                          void StreamerNVirtual(TBuffer& b)

Data Members


    protected:

      Double_t fPhi1  first phi limit 
      Double_t fPhi2  second phi limit

Class Description

_____________________________________________________________________________

TGeoConeSeg()

 Default constructor

TGeoConeSeg(Double_t dz, Double_t rmin1, Double_t rmax1, Double_t rmin2, Double_t rmax2, Double_t phi1, Double_t phi2)

 Default constructor specifying minimum and maximum radius

TGeoConeSeg(const char *name, Double_t dz, Double_t rmin1, Double_t rmax1, Double_t rmin2, Double_t rmax2, Double_t phi1, Double_t phi2)

 Default constructor specifying minimum and maximum radius

TGeoConeSeg(Double_t *param)

 Default constructor specifying minimum and maximum radius
 param[0] = dz
 param[1] = Rmin1
 param[2] = Rmax1
 param[3] = Rmin2
 param[4] = Rmax2
 param[5] = phi1
 param[6] = phi2

~TGeoConeSeg()

 destructor

Double_t Capacity()

 Computes capacity of the shape in [length^3]

Double_t Capacity(Double_t dz, Double_t rmin1, Double_t rmax1, Double_t rmin2, Double_t rmax2, Double_t phi1, Double_t phi2)

 Computes capacity of the shape in [length^3]

void ComputeBBox()

 compute bounding box of the tube segment

void ComputeNormal(Double_t *point, Double_t *dir, Double_t *norm)

 Compute normal to closest surface from POINT.

void ComputeNormalS(Double_t *point, Double_t *dir, Double_t *norm, Double_t dz, Double_t rmin1, Double_t rmax1, Double_t rmin2, Double_t rmax2, Double_t c1, Double_t s1, Double_t c2, Double_t s2)

 Compute normal to closest surface from POINT.

Bool_t Contains(Double_t *point)

 test if point is inside this sphere

Double_t DistToCons(Double_t *point, Double_t *dir, Double_t r1, Double_t z1, Double_t r2, Double_t z2, Double_t phi1, Double_t phi2)

 Static method to compute distance to a conical surface with :
 - r1, z1 - radius and Z position of lower base
 - r2, z2 - radius and Z position of upper base
 - phi1, phi2 - phi limits

Double_t DistFromInsideS(Double_t *point, Double_t *dir, Double_t dz, Double_t rmin1, Double_t rmax1, Double_t rmin2, Double_t rmax2, Double_t c1, Double_t s1, Double_t c2, Double_t s2, Double_t cm, Double_t sm, Double_t cdfi)

 compute distance from inside point to surface of the tube segment

Double_t DistFromInside(Double_t *point, Double_t *dir, Int_t iact, Double_t step, Double_t *safe)

 compute distance from inside point to surface of the tube segment

Double_t DistFromOutsideS(Double_t *point, Double_t *dir, Double_t dz, Double_t rmin1, Double_t rmax1, Double_t rmin2, Double_t rmax2, Double_t c1, Double_t s1, Double_t c2, Double_t s2, Double_t cm, Double_t sm, Double_t cdfi)

 compute distance from outside point to surface of arbitrary tube

Double_t DistFromOutside(Double_t *point, Double_t *dir, Int_t iact, Double_t step, Double_t *safe)

 compute distance from outside point to surface of the tube
 compute safe radius

Int_t DistancetoPrimitive(Int_t px, Int_t py)

 compute closest distance from point px,py to each corner

TGeoVolume * Divide(TGeoVolume *voldiv, const char *divname, Int_t iaxis, Int_t ndiv, Double_t start, Double_t step)

--- Divide this cone segment shape belonging to volume "voldiv" into ndiv volumes
 called divname, from start position with the given step. Returns pointer
 to created division cell volume in case of Z divisions. For Z division
 creates all volumes with different shapes and returns pointer to volume that
 was divided. In case a wrong division axis is supplied, returns pointer to
 volume that was divided.

Double_t GetAxisRange(Int_t iaxis, Double_t &xlo, Double_t &xhi)

 Get range of shape for a given axis.

void GetBoundingCylinder(Double_t *param)

--- Fill vector param[4] with the bounding cylinder parameters. The order
 is the following : Rmin, Rmax, Phi1, Phi2

void InspectShape()

 print shape parameters

TBuffer3D * MakeBuffer3D()

 Creates a TBuffer3D describing *this* shape.
 Coordinates are in local reference frame.

void SetSegsAndPols(TBuffer3D &buffer)

 Fill TBuffer3D structure for segments and polygons.

Double_t Safety(Double_t *point, Bool_t in)

 computes the closest distance from given point to this shape, according
 to option. The matching point on the shape is stored in spoint.

Double_t SafetyS(Double_t *point, Bool_t in, Double_t dz, Double_t rmin1, Double_t rmax1, Double_t rmin2, Double_t rmax2, Double_t phi1, Double_t phi2, Int_t skipz)

 Static method to compute the closest distance from given point to this shape.

void SavePrimitive(ostream &out, Option_t * /*option*/ /*= ""*/)

 Save a primitive as a C++ statement(s) on output stream "out".

void SetConsDimensions(Double_t dz, Double_t rmin1, Double_t rmax1, Double_t rmin2, Double_t rmax2, Double_t phi1, Double_t phi2)

 Set dimensions of the cone segment.

void SetDimensions(Double_t *param)

 Set dimensions of the cone segment from an array.

void SetPoints(Double_t *points)

 Create cone segment mesh points.

void SetPoints(Float_t *points)

 Create cone segment mesh points.

Int_t GetNmeshVertices()

 Return number of vertices of the mesh representation

void Sizeof3D()

/// fill size of this 3-D object
/    TVirtualGeoPainter *painter = gGeoManager->GetGeomPainter();
/    if (!painter) return;

/    Int_t n = gGeoManager->GetNsegments()+1;

/    Int_t numPoints = n*4;
/    Int_t numSegs   = n*8;
/    Int_t numPolys  = n*4-2;
/    painter->AddSize3D(numPoints, numSegs, numPolys);

const TBuffer3D & GetBuffer3D(Int_t reqSections, Bool_t localFrame)

 Fills a static 3D buffer and returns a reference.

Int_t GetByteCount()

TGeoConeSeg()

 constructors

Double_t GetPhi1()

Double_t GetPhi2()

Author: Andrei Gheata 31/01/02
Last update: root/geom:$Name: $:$Id: TGeoCone.cxx,v 1.56 2006/07/03 16:10:44 brun Exp $
Copyright (C) 1995-2000, Rene Brun and Fons Rademakers. *

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