root/html608/tree_2parallelcoordtrans_8C_source.html

 /// \file
 /// \ingroup tutorial_tree
 /// \notebook
 /// Use of transparency with ||-Coord.
 ///
 /// It displays the same data set twice. The first time without transparency and
 /// the second time with transparency. On the second plot, several clusters
 /// appear.
 ///
 /// ### Images without and with transparency
 ///
 /// \macro_image
 /// \macro_code
 ///
 /// \author Olivier Couet

 #include "TFile.h"
 #include "TCanvas.h"
 #include "TStyle.h"
 #include "TRandom.h"
 #include "TNtuple.h"
 #include "TParallelCoord.h"
 #include "TParallelCoordVar.h"
 #include "TParallelCoordRange.h"

 Double_t r1,r2,r3,r4,r5,r6,r7,r8,r9;
 Double_t dr = 3.5;
 TRandom *r;

 void generate_random(Int_t i) {
    r->Rannor(r1,r4);
    r->Rannor(r7,r9);
    r2 = (2*dr*r->Rndm(i))-dr;
    r3 = (2*dr*r->Rndm(i))-dr;
    r5 = (2*dr*r->Rndm(i))-dr;
    r6 = (2*dr*r->Rndm(i))-dr;
    r8 = (2*dr*r->Rndm(i))-dr;
 }

 void parallelcoordtrans() {
    Double_t x,y,z,u,v,w,a,b,c;
    Double_t s1x, s1y, s1z;
    Double_t s2x, s2y, s2z;
    Double_t s3x, s3y, s3z;
    r = new TRandom();;

    TCanvas *c1 = new TCanvas("c1", "c1",0,0,900,1000);
    c1->Divide(1,2);

    TNtuple *nt = new TNtuple("nt","Demo ntuple","x:y:z:u:v:w:a:b:c");

    int n=0;
    for (Int_t i=0; i<1500; i++) {
       r->Sphere(s1x, s1y, s1z, 0.1);
       r->Sphere(s2x, s2y, s2z, 0.2);
       r->Sphere(s3x, s3y, s3z, 0.05);

       generate_random(i);
       nt->Fill(r1, r2, r3, r4, r5, r6, r7, r8, r9);
       n++;

       generate_random(i);
       nt->Fill(s1x, s1y, s1z, s2x, s2y, s2z, r7, r8, r9);
       n++;

       generate_random(i);
       nt->Fill(r1, r2, r3, r4, r5, r6, r7, s3y, r9);
       n++;

       generate_random(i);
       nt->Fill(s2x-1, s2y-1, s2z, s1x+.5, s1y+.5, s1z+.5, r7, r8, r9);
       n++;

       generate_random(i);
       nt->Fill(r1, r2, r3, r4, r5, r6, r7, r8, r9);
       n++;

       generate_random(i);
       nt->Fill(s1x+1, s1y+1, s1z+1, s3x-2, s3y-2, s3z-2, r7, r8, r9);
       n++;

       generate_random(i);
       nt->Fill(r1, r2, r3, r4, r5, r6, s3x, r8, s3z );
       n++;
    }

    TParallelCoordVar* pcv;

    c1->cd(1);

    // ||-Coord plot without transparency
    nt->Draw("x:y:z:u:v:w:a:b:c","","para");
    TParallelCoord* para1 = (TParallelCoord*)gPad->GetListOfPrimitives()->FindObject("ParaCoord");
    para1->SetLineColor(25);
    pcv = (TParallelCoordVar*)para1->GetVarList()->FindObject("x"); pcv->SetHistogramHeight(0.);
    pcv = (TParallelCoordVar*)para1->GetVarList()->FindObject("y"); pcv->SetHistogramHeight(0.);
    pcv = (TParallelCoordVar*)para1->GetVarList()->FindObject("z"); pcv->SetHistogramHeight(0.);
    pcv = (TParallelCoordVar*)para1->GetVarList()->FindObject("a"); pcv->SetHistogramHeight(0.);
    pcv = (TParallelCoordVar*)para1->GetVarList()->FindObject("b"); pcv->SetHistogramHeight(0.);
    pcv = (TParallelCoordVar*)para1->GetVarList()->FindObject("c"); pcv->SetHistogramHeight(0.);
    pcv = (TParallelCoordVar*)para1->GetVarList()->FindObject("u"); pcv->SetHistogramHeight(0.);
    pcv = (TParallelCoordVar*)para1->GetVarList()->FindObject("v"); pcv->SetHistogramHeight(0.);
    pcv = (TParallelCoordVar*)para1->GetVarList()->FindObject("w"); pcv->SetHistogramHeight(0.);


    // ||-Coord plot with transparency
    TColor *col26 = gROOT->GetColor(26); col26->SetAlpha(0.01);
    c1->cd(2);
    nt->Draw("x:y:z:u:v:w:a:b:c","","para");
    TParallelCoord* para2 = (TParallelCoord*)gPad->GetListOfPrimitives()->FindObject("ParaCoord");
    para2->SetLineColor(26);
    pcv = (TParallelCoordVar*)para2->GetVarList()->FindObject("x"); pcv->SetHistogramHeight(0.);
    pcv = (TParallelCoordVar*)para2->GetVarList()->FindObject("y"); pcv->SetHistogramHeight(0.);
    pcv = (TParallelCoordVar*)para2->GetVarList()->FindObject("z"); pcv->SetHistogramHeight(0.);
    pcv = (TParallelCoordVar*)para2->GetVarList()->FindObject("a"); pcv->SetHistogramHeight(0.);
    pcv = (TParallelCoordVar*)para2->GetVarList()->FindObject("b"); pcv->SetHistogramHeight(0.);
    pcv = (TParallelCoordVar*)para2->GetVarList()->FindObject("c"); pcv->SetHistogramHeight(0.);
    pcv = (TParallelCoordVar*)para2->GetVarList()->FindObject("u"); pcv->SetHistogramHeight(0.);
    pcv = (TParallelCoordVar*)para2->GetVarList()->FindObject("v"); pcv->SetHistogramHeight(0.);
    pcv = (TParallelCoordVar*)para2->GetVarList()->FindObject("w"); pcv->SetHistogramHeight(0.);

    // Produce transparent lines in interactive and batch mode
    c1->Print("parallelcoordtrans.pdf");
    c1->Print("parallelcoordtrans.svg");

    // Produce transparent lines in batch mode only
    c1->Print("parallelcoordtrans.gif");
    c1->Print("parallelcoordtrans.jpg");
    c1->Print("parallelcoordtrans.png");
 }
TColor::SetAlpha
virtual void SetAlpha(Float_t a)
Definition: TColor.h:70

TRandom::Rannor
virtual void Rannor(Float_t &a, Float_t &b)
Return 2 numbers distributed following a gaussian with mean=0 and sigma=1.
Definition: TRandom.cxx:460

TParallelCoord::SetLineColor
void SetLineColor(Color_t col)
Definition: TParallelCoord.h:131

TNtuple.h

c
return c
Definition: entrylist_figure1.C:47

c1
return c1
Definition: legend1.C:41

TCanvas::cd
TVirtualPad * cd(Int_t subpadnumber=0)
Set current canvas & pad.
Definition: TCanvas.cxx:659

gROOT
#define gROOT
Definition: TROOT.h:364

TFile.h

Int_t
int Int_t
Definition: RtypesCore.h:41

a
TArc * a
Definition: textangle.C:12

TList::FindObject
virtual TObject * FindObject(const char *name) const
Find an object in this list using its name.
Definition: TList.cxx:497

TPad::Print
virtual void Print(const char *filename="") const
Save Pad contents in a file in one of various formats.
Definition: TPad.cxx:4160

TParallelCoordRange.h

TParallelCoordVar
TParallelCoord axes.
Definition: TParallelCoordVar.h:30

x
Double_t x[n]
Definition: legend1.C:17

TParallelCoord::GetVarList
TList * GetVarList()
Definition: TParallelCoord.h:106

TRandom
This is the base class for the ROOT Random number generators.
Definition: TRandom.h:31

r3
unsigned int r3[N_CITIES]
Definition: simanTSP.cxx:323

TParallelCoordVar.h

TCanvas.h

TRandom::Rndm
virtual Double_t Rndm()
Machine independent random number generator.
Definition: TRandom.cxx:512

r
TRandom2 r(17)

TNtuple
A simple TTree restricted to a list of float variables only.
Definition: TNtuple.h:30

v
SVector< double, 2 > v
Definition: Dict.h:5

r1
unsigned int r1[N_CITIES]
Definition: simanTSP.cxx:321

TCanvas
The Canvas class.
Definition: TCanvas.h:41

TParallelCoordVar::SetHistogramHeight
void SetHistogramHeight(Double_t h=0)
Set the height of the bar histogram.
Definition: TParallelCoordVar.cxx:891

TStyle.h

Double_t
double Double_t
Definition: RtypesCore.h:55

TTree::Draw
virtual void Draw(Option_t *opt)
Default Draw method for all objects.
Definition: TTree.h:366

TRandom.h

y
Double_t y[n]
Definition: legend1.C:17

TNtuple::Fill
virtual Int_t Fill()
Fill a Ntuple with current values in fArgs.
Definition: TNtuple.cxx:170

TParallelCoord.h

TColor
The color creation and management class.
Definition: TColor.h:23

TRandom::Sphere
virtual void Sphere(Double_t &x, Double_t &y, Double_t &z, Double_t r)
Generates random vectors, uniformly distributed over the surface of a sphere of given radius...
Definition: TRandom.cxx:588

TParallelCoord
Parallel Coordinates class.
Definition: TParallelCoord.h:32

z
you should not use this method at all Int_t Int_t z
Definition: TRolke.cxx:630

TPad::Divide
virtual void Divide(Int_t nx=1, Int_t ny=1, Float_t xmargin=0.01, Float_t ymargin=0.01, Int_t color=0)
Automatic pad generation by division.
Definition: TPad.cxx:1089

b
you should not use this method at all Int_t Int_t Double_t Double_t Double_t Int_t Double_t Double_t Double_t Double_t b
Definition: TRolke.cxx:630

gPad
#define gPad
Definition: TVirtualPad.h:289

n
const Int_t n
Definition: legend1.C:16

r2
unsigned int r2[N_CITIES]
Definition: simanTSP.cxx:322