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Geant4/examples/extended/medical/dna/svalue/spectrum.C

Version: [ ReleaseNotes ] [ 1.0 ] [ 1.1 ] [ 2.0 ] [ 3.0 ] [ 3.1 ] [ 3.2 ] [ 4.0 ] [ 4.0.p1 ] [ 4.0.p2 ] [ 4.1 ] [ 4.1.p1 ] [ 5.0 ] [ 5.0.p1 ] [ 5.1 ] [ 5.1.p1 ] [ 5.2 ] [ 5.2.p1 ] [ 5.2.p2 ] [ 6.0 ] [ 6.0.p1 ] [ 6.1 ] [ 6.2 ] [ 6.2.p1 ] [ 6.2.p2 ] [ 7.0 ] [ 7.0.p1 ] [ 7.1 ] [ 7.1.p1 ] [ 8.0 ] [ 8.0.p1 ] [ 8.1 ] [ 8.1.p1 ] [ 8.1.p2 ] [ 8.2 ] [ 8.2.p1 ] [ 8.3 ] [ 8.3.p1 ] [ 8.3.p2 ] [ 9.0 ] [ 9.0.p1 ] [ 9.0.p2 ] [ 9.1 ] [ 9.1.p1 ] [ 9.1.p2 ] [ 9.1.p3 ] [ 9.2 ] [ 9.2.p1 ] [ 9.2.p2 ] [ 9.2.p3 ] [ 9.2.p4 ] [ 9.3 ] [ 9.3.p1 ] [ 9.3.p2 ] [ 9.4 ] [ 9.4.p1 ] [ 9.4.p2 ] [ 9.4.p3 ] [ 9.4.p4 ] [ 9.5 ] [ 9.5.p1 ] [ 9.5.p2 ] [ 9.6 ] [ 9.6.p1 ] [ 9.6.p2 ] [ 9.6.p3 ] [ 9.6.p4 ] [ 10.0 ] [ 10.0.p1 ] [ 10.0.p2 ] [ 10.0.p3 ] [ 10.0.p4 ] [ 10.1 ] [ 10.1.p1 ] [ 10.1.p2 ] [ 10.1.p3 ] [ 10.2 ] [ 10.2.p1 ] [ 10.2.p2 ] [ 10.2.p3 ] [ 10.3 ] [ 10.3.p1 ] [ 10.3.p2 ] [ 10.3.p3 ] [ 10.4 ] [ 10.4.p1 ] [ 10.4.p2 ] [ 10.4.p3 ] [ 10.5 ] [ 10.5.p1 ] [ 10.6 ] [ 10.6.p1 ] [ 10.6.p2 ] [ 10.6.p3 ] [ 10.7 ] [ 10.7.p1 ] [ 10.7.p2 ] [ 10.7.p3 ] [ 10.7.p4 ] [ 11.0 ] [ 11.0.p1 ] [ 11.0.p2 ] [ 11.0.p3, ] [ 11.0.p4 ] [ 11.1 ] [ 11.1.1 ] [ 11.1.2 ] [ 11.1.3 ] [ 11.2 ] [ 11.2.1 ] [ 11.2.2 ] [ 11.3.0 ]

Diff markup

Differences between /examples/extended/medical/dna/svalue/spectrum.C (Version 11.3.0) and /examples/extended/medical/dna/svalue/spectrum.C (Version 10.5.p1)


  1 // *******************************************      1 // *********************************************************************
  2 // To execute this macro under ROOT after your      2 // To execute this macro under ROOT after your simulation ended, 
  3 //   1 - launch ROOT (usually type 'root' at y      3 //   1 - launch ROOT (usually type 'root' at your machine's prompt)
  4 //   2 - type '.X spectrum.C' at the ROOT sess      4 //   2 - type '.X spectrum.C' at the ROOT session prompt
  5 //   3 - OR type directly 'root spectrum.C'         5 //   3 - OR type directly 'root spectrum.C'
  6 // this will generate an output energy spectru      6 // this will generate an output energy spectrum spectrum.txt, 
  7 // according to selected statistics and distri      7 // according to selected statistics and distribution
  8 // (energy unit assumed by svalue example: eV)      8 // (energy unit assumed by svalue example: eV)
  9 // *******************************************      9 // *********************************************************************
 10                                                    10 
 11 {                                                  11 {
 12 gROOT->Reset();                                    12 gROOT->Reset();
 13                                                    13 
 14 // 1) SELECT number of values to shoot             14 // 1) SELECT number of values to shoot
 15 int nbValues = 100;                                15 int nbValues = 100;
 16 //                                                 16 //
 17                                                    17 
 18 double value;                                      18 double value;
 19 TNtuple * ntuple = new TNtuple ("","","value")     19 TNtuple * ntuple = new TNtuple ("","","value");
 20                                                    20 
 21 FILE * fp = fopen("spectrum.txt","w");             21 FILE * fp = fopen("spectrum.txt","w");
 22                                                    22 
 23 TRandom r;                                         23 TRandom r;
 24                                                    24 
 25 for (int i=0;i<nbValues;i++)                       25 for (int i=0;i<nbValues;i++) 
 26 {                                                  26 {
 27 // 2) SELECT distribution                          27 // 2) SELECT distribution
 28 //    here Gaussian with mean, sigma               28 //    here Gaussian with mean, sigma
 29 //    see https://root.cern.ch/doc/master/clas     29 //    see https://root.cern.ch/doc/master/classTRandom.html
 30   value = r.Gaus(1.,0.1);                          30   value = r.Gaus(1.,0.1);
 31 //                                                 31 //
 32   ntuple->Fill(value);                             32   ntuple->Fill(value);
 33   fprintf(fp,"%f \n",value);                       33   fprintf(fp,"%f \n",value);
 34 }                                                  34 }
 35 fclose(fp);                                        35 fclose(fp);
 36                                                    36 
 37 ntuple->Draw("value");                             37 ntuple->Draw("value");
 38 }                                                  38 }
 39                                                    39