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Reference Guide
TGraphDelaunay.h
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1// @(#)root/hist:$Id: TGraphDelaunay.h,v 1.00
2// Author: Olivier Couet, Luke Jones (Royal Holloway, University of London)
3
4/*************************************************************************
5 * Copyright (C) 1995-2000, Rene Brun and Fons Rademakers. *
6 * All rights reserved. *
7 * *
8 * For the licensing terms see $ROOTSYS/LICENSE. *
9 * For the list of contributors see $ROOTSYS/README/CREDITS. *
10 *************************************************************************/
11
12#ifndef ROOT_TGraphDelaunay
13#define ROOT_TGraphDelaunay
14
15
16//////////////////////////////////////////////////////////////////////////
17// //
18// TGraphDelaunay //
19// //
20// This class uses the Delaunay triangles technique to interpolate and //
21// render the data set. //
22// //
23//////////////////////////////////////////////////////////////////////////
24
25#include "TNamed.h"
26
27class TGraph2D;
28class TView;
29
30class TGraphDelaunay : public TNamed {
31
32private:
33
34 TGraphDelaunay(const TGraphDelaunay&); // Not implemented
35 TGraphDelaunay& operator=(const TGraphDelaunay&); // Not implemented
36
37protected:
38
39 Int_t fNdt; ///<!Number of Delaunay triangles found
40 Int_t fNpoints; ///<!Number of data points in fGraph2D
41 Int_t fNhull; ///<!Number of points in the hull
42 Double_t *fX; ///<!Pointer to fGraph2D->fX
43 Double_t *fY; ///<!Pointer to fGraph2D->fY
44 Double_t *fZ; ///<!Pointer to fGraph2D->fZ
45 Double_t *fXN; ///<!fGraph2D vectors normalized of size fNpoints
46 Double_t *fYN; ///<!fGraph2D vectors normalized of size fNpoints
47 Double_t fXNmin; ///<!Minimum value of fXN
48 Double_t fXNmax; ///<!Maximum value of fXN
49 Double_t fYNmin; ///<!Minimum value of fYN
50 Double_t fYNmax; ///<!Maximum value of fYN
52 Double_t fYoffset; ///<!Parameters used to normalize user data
55 Double_t fZout; ///<!Histogram bin height for points lying outside the convex hull
56 Double_t *fDist; ///<!Array used to order mass points by distance
57 Int_t fMaxIter; ///<!Maximum number of iterations to find Delaunay triangles
58 Int_t fTriedSize; ///<!Real size of the fxTried arrays
59 Int_t *fPTried; ///<!
60 Int_t *fNTried; ///<!Delaunay triangles storage of size fNdt
61 Int_t *fMTried; ///<!
62 Int_t *fHullPoints; ///<!Hull points of size fNhull
63 Int_t *fOrder; ///<!Array used to order mass points by distance
64 Bool_t fAllTri; ///<!True if FindAllTriangles() has been performed on fGraph2D
65 Bool_t fInit; ///<!True if CreateTrianglesDataStructure() and FindHull() have been performed
66 TGraph2D *fGraph2D; ///<!2D graph containing the user data
67
69 Bool_t Enclose(Int_t T1, Int_t T2, Int_t T3, Int_t Ex) const;
70 void FileIt(Int_t P, Int_t N, Int_t M);
71 void FindHull();
72 Bool_t InHull(Int_t E, Int_t X) const;
73 Double_t InterpolateOnPlane(Int_t TI1, Int_t TI2, Int_t TI3, Int_t E) const;
74
75public:
76
79
80 virtual ~TGraphDelaunay();
81
83 void FindAllTriangles();
84 TGraph2D *GetGraph2D() const {return fGraph2D;}
86 Int_t GetNdt() const {return fNdt;}
87 Int_t *GetPTried() const {return fPTried;}
88 Int_t *GetNTried() const {return fNTried;}
89 Int_t *GetMTried() const {return fMTried;}
90 Double_t *GetXN() const {return fXN;}
91 Double_t *GetYN() const {return fYN;}
92 Double_t GetXNmin() const {return fXNmin;}
93 Double_t GetXNmax() const {return fXNmax;}
94 Double_t GetYNmin() const {return fYNmin;}
95 Double_t GetYNmax() const {return fYNmax;}
97 void SetMaxIter(Int_t n=100000);
99
100 ClassDef(TGraphDelaunay,1) // Delaunay triangulation
101};
102
103#endif
#define g(i)
Definition: RSha256.hxx:105
int Int_t
Definition: RtypesCore.h:41
bool Bool_t
Definition: RtypesCore.h:59
double Double_t
Definition: RtypesCore.h:55
#define ClassDef(name, id)
Definition: Rtypes.h:326
#define N
Graphics object made of three arrays X, Y and Z with the same number of points each.
Definition: TGraph2D.h:40
TGraphDelaunay generates a Delaunay triangulation of a TGraph2D.
Int_t fNpoints
!Number of data points in fGraph2D
Double_t ComputeZ(Double_t x, Double_t y)
Return the z value corresponding to the (x,y) point in fGraph2D.
Int_t * fNTried
!Delaunay triangles storage of size fNdt
Int_t GetNdt() const
Double_t * fY
!Pointer to fGraph2D->fY
Double_t fXNmax
!Maximum value of fXN
Double_t GetYNmax() const
Bool_t InHull(Int_t E, Int_t X) const
Is point e inside the hull defined by all points apart from x ?
Int_t * GetMTried() const
Double_t fXNmin
!Minimum value of fXN
Double_t InterpolateOnPlane(Int_t TI1, Int_t TI2, Int_t TI3, Int_t E) const
Finds the z-value at point e given that it lies on the plane defined by t1,t2,t3.
Double_t * fYN
!fGraph2D vectors normalized of size fNpoints
Double_t fYoffset
!Parameters used to normalize user data
Double_t GetXNmin() const
Double_t GetMarginBinsContent() const
void FindHull()
Finds those points which make up the convex hull of the set.
void SetMarginBinsContent(Double_t z=0.)
Sets the histogram bin height for points lying outside the convex hull ie: the bins in the margin.
Double_t fXoffset
!
Double_t * fDist
!Array used to order mass points by distance
TGraph2D * GetGraph2D() const
void FileIt(Int_t P, Int_t N, Int_t M)
Files the triangle defined by the 3 vertices p, n and m into the fxTried arrays.
Double_t GetXNmax() const
Double_t fYNmin
!Minimum value of fYN
Int_t fTriedSize
!Real size of the fxTried arrays
Int_t * fMTried
!
Double_t * fX
!Pointer to fGraph2D->fX
TGraph2D * fGraph2D
!2D graph containing the user data
void FindAllTriangles()
Attempt to find all the Delaunay triangles of the point set.
Double_t * GetXN() const
Bool_t fAllTri
!True if FindAllTriangles() has been performed on fGraph2D
Int_t * GetPTried() const
TGraphDelaunay & operator=(const TGraphDelaunay &)
void SetMaxIter(Int_t n=100000)
Defines the number of triangles tested for a Delaunay triangle (number of iterations) before abandoni...
Int_t fMaxIter
!Maximum number of iterations to find Delaunay triangles
Int_t * GetNTried() const
Bool_t fInit
!True if CreateTrianglesDataStructure() and FindHull() have been performed
Double_t GetYNmin() const
Int_t * fOrder
!Array used to order mass points by distance
Bool_t Enclose(Int_t T1, Int_t T2, Int_t T3, Int_t Ex) const
Is point e inside the triangle t1-t2-t3 ?
Double_t fXScaleFactor
!
virtual ~TGraphDelaunay()
TGraphDelaunay destructor.
Int_t fNdt
!Number of Delaunay triangles found
Double_t * fZ
!Pointer to fGraph2D->fZ
Double_t fYNmax
!Maximum value of fYN
Double_t fZout
!Histogram bin height for points lying outside the convex hull
Double_t fYScaleFactor
!
void CreateTrianglesDataStructure()
Function used internally only.
Int_t * fPTried
!
Int_t fNhull
!Number of points in the hull
TGraphDelaunay(const TGraphDelaunay &)
Double_t Interpolate(Double_t x, Double_t y)
Finds the Delaunay triangle that the point (xi,yi) sits in (if any) and calculate a z-value for it by...
TGraphDelaunay()
TGraphDelaunay default constructor.
Int_t * fHullPoints
!Hull points of size fNhull
Double_t * GetYN() const
Double_t * fXN
!fGraph2D vectors normalized of size fNpoints
The TNamed class is the base class for all named ROOT classes.
Definition: TNamed.h:29
See TView3D.
Definition: TView.h:25
Double_t y[n]
Definition: legend1.C:17
Double_t x[n]
Definition: legend1.C:17
const Int_t n
Definition: legend1.C:16
#define T2
Definition: md5.inl:146
#define T3
Definition: md5.inl:147
#define T1
Definition: md5.inl:145
static double P[]
constexpr Double_t E()
Base of natural log:
Definition: TMath.h:97