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ROOT » GRAF3D » EVE » TEveRhoZProjection

class TEveRhoZProjection: public TEveProjection


 Transformation from 3D to 2D. X axis represent Z coordinate. Y axis have value of
 radius with a sign of Y coordinate.

Function Members (Methods)

public:
TEveRhoZProjection()
TEveRhoZProjection(const TEveRhoZProjection&)
virtual~TEveRhoZProjection()
virtual Bool_tAcceptSegment(TEveVector& v1, TEveVector& v2, Float_t tolerance)
virtual Bool_tTEveProjection::AcceptSegment(TEveVector&, TEveVector&, Float_t)
voidTEveProjection::AddPreScaleEntry(Int_t coord, Float_t max_val, Float_t scale)
voidTEveProjection::ChangePreScaleEntry(Int_t coord, Int_t entry, Float_t new_scale)
static TClass*Class()
static TClass*TEveProjection::Class()
voidTEveProjection::ClearPreScales()
Float_tTEveProjection::GetDistortion() const
Float_tTEveProjection::GetFixR() const
Float_tTEveProjection::GetFixZ() const
TEveProjection::EGeoMode_eTEveProjection::GetGeoMode()
Float_tTEveProjection::GetLimit(Int_t i, Bool_t pos)
Float_tTEveProjection::GetMaxTrackStep() const
const char*TEveProjection::GetName()
Float_tTEveProjection::GetPastFixRFac() const
Float_tTEveProjection::GetPastFixZFac() const
virtual Float_t*GetProjectedCenter()
virtual Float_t*TEveProjection::GetProjectedCenter()
virtual Float_tTEveProjection::GetScreenVal(Int_t ax, Float_t value)
TEveProjection::EPType_eTEveProjection::GetType()
Bool_tTEveProjection::GetUsePreScale() const
virtual Float_tTEveProjection::GetValForScreenPos(Int_t ax, Float_t value)
virtual TClass*IsA() const
virtual TClass*TEveProjection::IsA() const
TEveRhoZProjection&operator=(const TEveRhoZProjection&)
TEveProjection&TEveProjection::operator=(const TEveProjection&)
voidTEveProjection::PreScalePoint(Float_t& x, Float_t& y)
virtual voidProjectPoint(Float_t& x, Float_t& y, Float_t& z, TEveProjection::EPProc_e proc = kPP_Full)
virtual voidTEveProjection::ProjectPoint(Float_t&, Float_t&, Float_t&, TEveProjection::EPProc_e p = kPP_Full)
virtual voidTEveProjection::ProjectPointFv(Float_t* v)
virtual voidTEveProjection::ProjectVector(TEveVector& v)
virtual voidSetCenter(TEveVector& center)
virtual voidTEveProjection::SetCenter(TEveVector& v)
virtual voidSetDirectionalVector(Int_t screenAxis, TEveVector& vec)
virtual voidTEveProjection::SetDirectionalVector(Int_t screenAxis, TEveVector& vec)
voidTEveProjection::SetDistortion(Float_t d)
voidTEveProjection::SetFixR(Float_t x)
voidTEveProjection::SetFixZ(Float_t x)
voidTEveProjection::SetGeoMode(TEveProjection::EGeoMode_e m)
voidTEveProjection::SetMaxTrackStep(Float_t x)
voidTEveProjection::SetName(const char* txt)
voidTEveProjection::SetPastFixRFac(Float_t x)
voidTEveProjection::SetPastFixZFac(Float_t x)
voidTEveProjection::SetType(TEveProjection::EPType_e t)
voidTEveProjection::SetUsePreScale(Bool_t x)
virtual voidShowMembers(TMemberInspector& insp, char* parent)
virtual voidTEveProjection::ShowMembers(TMemberInspector& insp, char* parent)
virtual voidStreamer(TBuffer& b)
virtual voidTEveProjection::Streamer(TBuffer& b)
voidStreamerNVirtual(TBuffer& b)
voidTEveProjection::StreamerNVirtual(TBuffer& b)
virtual voidUpdateLimit()
virtual voidTEveProjection::UpdateLimit()

Data Members

private:
enum TEveProjection::EPType_e { kPT_Unknown
kPT_RPhi
kPT_RhoZ
kPT_End
};
enum TEveProjection::EPProc_e { kPP_Plane
kPP_Distort
kPP_Full
};
enum TEveProjection::EGeoMode_e { kGM_Unknown
kGM_Polygons
kGM_Segments
};
public:
static Float_tTEveProjection::fgEpsresolution of projected points
protected:
TEveVectorTEveProjection::fCentercenter of distortion
Float_tTEveProjection::fDistortiondistortion
Float_tTEveProjection::fFixRradius from which scaling remains constant
Float_tTEveProjection::fFixZz-coordinate from which scaling remains constant
TEveProjection::EGeoMode_eTEveProjection::fGeoModestrategy of polygon projection (what to try first)
TEveVectorTEveProjection::fLowLimitconvergence of point +infinity
Float_tTEveProjection::fMaxTrackStepmaximum distance between two points on a track
TStringTEveProjection::fNamename
Float_tTEveProjection::fPastFixRFacrelative scaling factor beyond fFixR as 10^x
Float_tTEveProjection::fPastFixRScalerelative scaling beyond fFixR
Float_tTEveProjection::fPastFixZFacrelative scaling factor beyond fFixZ as 10^x
Float_tTEveProjection::fPastFixZScalerelative scaling beyond fFixZ
vector<TEveProjection::PreScaleEntry_t,allocator<TEveProjection::PreScaleEntry_t> >TEveProjection::fPreScales[2]scaling before the distortion
Float_tTEveProjection::fScaleRscale factor to keep projected radius at fFixR fixed
Float_tTEveProjection::fScaleZscale factor to keep projected z-coordinate at fFixZ fixed
TEveProjection::EPType_eTEveProjection::fTypetype
TEveVectorTEveProjection::fUpLimitconvergence of point -infinity
Bool_tTEveProjection::fUsePreScaleuse pre-scaling
TEveVectorTEveProjection::fZeroPosValprojected origin (0, 0, 0)
private:
TEveVectorfProjectedCenterprojected center of distortion.

Class Charts

Inheritance Inherited Members Includes Libraries
Class Charts

Function documentation

TEveRhoZProjection()
 Constructor.
void ProjectPoint(Float_t& x, Float_t& y, Float_t& z, TEveProjection::EPProc_e proc = kPP_Full)
 Project point.
void SetCenter(TEveVector& center)
 Set center of distortion (virtual method).
void UpdateLimit()
 Update convergence in +inf and -inf.
void SetDirectionalVector(Int_t screenAxis, TEveVector& vec)
 Get direction in the unprojected space for axis index in the
 projected space.
 This is virtual method from base-class TEveProjection.
Bool_t AcceptSegment(TEveVector& v1, TEveVector& v2, Float_t tolerance)
 Check if segment of two projected points is valid.
Float_t* GetProjectedCenter()
{ return fCenter.Arr(); }
TEveRhoZProjection()
virtual ~TEveRhoZProjection()
{}