50 :
TNamed(
"TGraphDelaunay",
"TGraphDelaunay")
87 :
TNamed(
"TGraphDelaunay",
"TGraphDelaunay")
240 Int_t tmp, ps = p, ns =
n, ms =
m;
245 if (ns > ps) { tmp = ps; ps = ns; ns = tmp; swap =
kTRUE;}
246 if (ms > ns) { tmp = ns; ns = ms; ms = tmp; swap =
kTRUE;}
296 Int_t t1,t2,pa,na,ma,pb,nb,mb,p1=0,p2=0,
m,
n,p3=0;
310 xcntr = xcntr/
fNhull+alittlebit;
311 ycntr = ycntr/
fNhull+alittlebit;
331 for (t2=1; t2<=
fNdt; t2++) {
338 if ((pa==pb && na==nb) || (pa==pb && na==mb) || (pa==nb && na==mb)) {
341 }
else if ((pa==pb && ma==nb) || (pa==pb && ma==mb) || (pa==nb && ma==mb)) {
344 }
else if ((na==pb && ma==nb) || (na==pb && ma==mb) || (na==nb && ma==mb)) {
351 if (s[0] && s[1] && s[2])
continue;
357 for (
m=1;
m<=3;
m++) {
374 xm = (
fXN[p1]+
fXN[p2])/2.;
375 ym = (
fYN[p1]+
fYN[p2])/2.;
451 Double_t lastdphi,dd1,dd2,dx1,dx2,dx3,dy1,dy2,dy3;
452 Double_t u,
v,vNv1,vNv2,phi1,phi2,dphi,xx,yy;
478 }
else if (n2 ==
x) {
492 for (
n=1;
n<=ntry;
n++) {
499 if ((
m!=n1) && (
m!=n2) && (
m!=
x)) {
509 dd1 = (dx2*dy1-dx1*dy2);
510 dd2 = (dx1*dy2-dx2*dy1);
513 u = (dx2*dy3-dx3*dy2)/dd1;
514 v = (dx1*dy3-dx3*dy1)/dd2;
515 if ((u<0) || (
v<0)) {
520 vNv1 = (dx1*dx3+dy1*dy3)/
TMath::Sqrt(dx1*dx1+dy1*dy1);
521 vNv2 = (dx2*dx3+dy2*dy3)/
TMath::Sqrt(dx2*dx2+dy2*dy2);
560 Double_t x1,
x2,
x3,y1,y2,y3,
f1,f2,f3,u,
v,w;
569 if (t2 >
t1) { tmp =
t1;
t1 = t2; t2 = tmp; swap =
kTRUE;}
570 if (t3 > t2) { tmp = t2; t2 = t3; t3 = tmp; swap =
kTRUE;}
582 u = (
f1*(y2-y3)+f2*(y3-y1)+f3*(y1-y2))/(
x1*(y2-y3)+
x2*(y3-y1)+
x3*(y1-y2));
599 Int_t it, ntris_tried, p,
n,
m;
600 Int_t i,j,k,
l,z,
f,
d,o1,o2,
a,
b,
t1,t2,t3;
601 Int_t ndegen=0,degen=0,fdegen=0,o1degen=0,o2degen=0;
604 Double_t dfo2,sin_sum,cfo1k,co2o1k,co2o1f;
607 Double_t dx1,dx2,dx3,dy1,dy2,dy3,u,
v,dxz[3],dyz[3];
636 for (it=1; it<=
fNdt; it++) {
650 shouldbein =
InHull(0,-1);
651 if (!shouldbein)
return thevalue;
670 for (j=2; j<=k-1; j++) {
672 for (i=1; i<=j-1; i++) {
686 if ((d1+d2<=d3) || (d1+d3<=d2) || (d2+d3<=d1))
goto L90;
700 if ((z==p) || (z==
n) || (z==
m))
goto L50;
708 if ((
l<i) || (
l<j) || (
l<k)) {
751 Warning(
"Interpolate",
"Two of these three points are coincident %d %d %d",
a,
b,z);
758 Warning(
"Interpolate",
"Two of these three points are coincident %d %d %d",
a,
b,z);
775 for(
l=1;
l<=3;
l++) {
787 u = (dy3*dx2-dx3*dy2)*(dy1*dx2-dx1*dy2);
788 v = (dy3*dx1-dx3*dy1)*(dy2*dx1-dx2*dy1);
790 if ((u>=0) && (
v>=0)) {
827 if ((cfo1k>co2o1k) || (cfo1k>co2o1f)) {
843 if (sin_sum < -1.E-6) {
880 if ((
fZ[o1-1]+
fZ[o2-1]) > (
fZ[
d-1]+
fZ[
f-1])) {
921 "Point outside hull when expected inside: this point could be dodgy %g %g %d",
922 xx, yy, ntris_tried);
static const double x2[5]
static const double x1[5]
static const double x3[11]
Graphics object made of three arrays X, Y and Z with the same number of points each.
Double_t GetYmin() const
Returns the Y minimum.
Double_t GetXmin() const
Returns the X minimum.
Double_t GetXmax() const
Returns the X maximum.
Double_t GetYmax() const
Returns the Y maximum.
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
Double_t * fY
! Pointer to fGraph2D->fY
Double_t fXNmax
! Maximum value of fXN
Bool_t InHull(Int_t E, Int_t X) const
Is point e inside the hull defined by all points apart from x ?
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
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 * fDist
! Array used to order mass points by distance
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 fYNmin
! Minimum value of fYN
Int_t fTriedSize
! Real size of the fxTried arrays
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.
Bool_t fAllTri
! True if FindAllTriangles() has been performed on fGraph2D
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
Bool_t fInit
! True if CreateTrianglesDataStructure() and FindHull() have been performed
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 ?
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
void CreateTrianglesDataStructure()
Function used internally only.
Int_t fNhull
! Number of points in the hull
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 * fXN
! fGraph2D vectors normalized of size fNpoints
The TNamed class is the base class for all named ROOT classes.
virtual void Warning(const char *method, const char *msgfmt,...) const
Issue warning message.
virtual void Error(const char *method, const char *msgfmt,...) const
Issue error message.
#define Interpolate(a, x, b, y)
Short_t Max(Short_t a, Short_t b)
Bool_t IsInside(T xp, T yp, Int_t np, T *x, T *y)
Function which returns kTRUE if point xp,yp lies inside the polygon defined by the np points in array...
Double_t ATan2(Double_t y, Double_t x)
Double_t Sqrt(Double_t x)
void Sort(Index n, const Element *a, Index *index, Bool_t down=kTRUE)
constexpr Double_t TwoPi()