FUTILITIES/macros/FCaloPLANES.cxx

//
//   Show the hit distribution on each plane. Can be used to see tracks - Emiliano Mocchiutti
//
//   FCaloPLANES.cxx    version 1.01  (2006-03-08)
//
//   The only input needed is the path to the directory created by YODA for the data file you want to analyze.
//
//   Changelog:
//
//   1.00 - 1.01 (2006-03-08): Flight version, read unique YODA file.  
//
//   0.00 - 1.00 (2006-03-08): Clone of CaloPLANES v2r13.
//

#include <fstream>
#include <sstream>
#include <TTree.h>
#include <TClassEdit.h>
#include <TObject.h>
#include <TList.h>
#include <TSystem.h>
#include <TSystemDirectory.h>
#include <TString.h>
#include <TFile.h>
#include <TClass.h>
#include <TCanvas.h>
#include <TH1.h>
#include <TH1F.h>
#include <TH2D.h>
#include <TLatex.h>
#include <TPad.h>
#include <TPaveLabel.h>
#include <TChain.h>
#include <TStyle.h>
//
extern bool existfile(TString);
extern TString getFilename(const TString);
extern void PrintFigure(TString, TString, TString, TString, TCanvas&);
//
#include <caloclassesfun.h>
//
using namespace std;

void FCaloPLANES(TString filename, TString viewxy="both", TString parity="both", Int_t plane = 0, Int_t fromevent = 0, Int_t toevent = 0, TString outDir = "", TString saveas = "gif"){
    const char* startingdir = gSystem->WorkingDirectory();
    if ( !strcmp(outDir.Data(),"") ) outDir = startingdir;
    if ( !existfile(filename) ){
      printf(" %s :no such file or directory \n",filename.Data());
      printf("\n ERROR: No calorimeter LEVEL1 file! \n\n Run FCaloLEVEL1 to generate level1 data. \n\n");       
      return;
    };
    //
    TFile *File = new TFile(filename.Data());
    TTree *otr = (TTree*)File->Get("CaloLevel1");
    if ( !otr ){
      printf(" %s are you sure? I need a LEVEL1 file! \n",filename.Data());
      return;
    };
    //    
    CalorimeterLevel1 *calo = new CalorimeterLevel1();
    otr->SetBranchAddress("Event", &calo);
    //
    Long64_t nevents    = otr->GetEntries();
    //
    // input limits
    //
    Int_t minview = 0;
    Int_t maxview = 0;
    if ( viewxy != "both" && viewxy != "x" && viewxy != "y" ) {
        printf("You can choose viewxy = x, viewxy = y or viewxy = both \n");
        return;
    };
    if ( viewxy == "both" ) {
        minview = 0;
        maxview = 2;
    };
    if ( viewxy == "x" ) {
        minview = 0;
        maxview = 1;
    };
    if ( viewxy == "y" ) {
        minview = 1;
        maxview = 2;
    };


    if ( parity !="both" && parity != "odd" && parity != "even" ) {
        printf("You can choose parity = odd, parity = even or parity = both \n");
        return;
    };
    Int_t dispari = 0;
    if ( parity == "odd" ){
        dispari = 1;
    };
    if ( parity == "even" ){
        dispari = 0;
    };
    if ( parity == "both" ){
        dispari = -1;
    };

    if ( plane > 11 || plane < 0 ) {
        printf("You can choose plane between 1 and 11 or plane = 0 (all)\n");
        return;
    };
    plane--;


   if ( fromevent > toevent && toevent ){
        printf("It must be fromevent < toevent \n");
        return;
    };


    if ( fromevent > nevents+1 || fromevent < 0 ) {
        printf("You can choose fromevent between 0 (all) and %i \n",(int)nevents+1);
        return;
    };

    if ( toevent > nevents+1 || toevent < 0 ) {
        printf("You can choose toevent between 0 (all) and %i \n",(int)nevents+1);
        return;
    };

    Int_t minevent;
    Int_t maxevent;
    if ( fromevent == 0 ) {
        minevent = 0;
        maxevent = nevents;
    } else {
        minevent = fromevent - 1;
        if ( toevent > 0 ){
            maxevent = toevent - 1;
        } else {
            maxevent = fromevent - 1;
        };
    };
    nevents = maxevent-minevent;
    Float_t fnev;
    fnev = (Float_t)(maxevent-minevent);
    //
    // run over all the events
    //
    printf("\n Processed events: \n\n");
    //
    TH1F *Plane[2][2][11];
    //TH1 *Plane[2][2][11];
    //    char *tutti="asldkalskdlasdjkafoiwhkehguierahgklshdfjkhakfhdasklkdfhksadfhkjdsblablah";
    stringstream tutti;
    stringstream plfor;
    char *uno="blablah";
    char *due="blablah";
    //    char *tre="blablah";
    for (Int_t i = 0; i < 2; i++){
        for (Int_t j = 0; j < 2; j++){
            for (Int_t l = 0; l < 11; l++){
                //              gDirectory->Delete(Form("plane %i%i%i",i,j,l));
                //              sprintf(tre," %i ",(l+1));
                if ( i == 0 ){
                    uno = "x";
                } else {
                    uno = "y";
                };
                if ( j == 0 ){
                    due = "even";
                } else {
                    due = "odd";
                };
                //              tutti = Form("View %s %s Plane %i",uno,due,(l+1));
                tutti.str("");
                tutti << "View " << uno;
                tutti << " " << due;
                tutti << " Plane " << (l+1);
                plfor.str("");
                plfor << "plane " << i;
                plfor << j << l;
                Plane[i][j][l] = new TH1F(plfor.str().c_str(),tutti.str().c_str(),96,-0.5,95.5);
            };
        };
    };
    Float_t energia = 0.;
    Int_t stripclu = 0;
    Float_t eclu = 0.;
    Int_t pari = 0;
    Int_t pl = 0;
    Int_t pre = -1;
    for (Int_t i = minevent; i < maxevent; i++){
        if ( i%1000 == 0 && i > 0 ) printf(" %iK \n",i/1000);   
        //
        otr->GetEntry(i);
        //
        // run over views and planes
        //
        stripclu = 0;
        eclu = 0.;
        //
        for (Int_t l = minview; l < maxview; l++){
            for (Int_t m = 0; m < 22; m++){
                //
                // determine the section number
                //
                pari = 0;
                pl = 0;
                if (l == 0 && m%2 == 0){
                    pl = m/2;
                    pari = 0;
                };
                if (l == 0 && m%2 != 0){
                    pl = (m-1)/2;
                    pari = 1;
                    };
                if (l == 1 && m%2 == 0){
                    pl = m/2;
                    pari = 0;
                };
                if (l == 1 && m%2 != 0){
                    pl = (m-1)/2;
                    pari = 1;
                };
                //
                // run over strips
                //
                pre = -1;
                stripclu = 0;
                eclu = 0.;
                //
                //goto boh;
                //printf("qua1 ");
                for (Int_t n = 0; n < 96; n++){                             
                    if ( n%16 == 0 ) pre++;
                    if ( calo-> estrip[l][m][n] > 0.7  ) {
                        stripclu++;
                        eclu += calo->estrip[l][m][n];
                    };
                };
                //              printf("qua2 ");
                //          boh:
                //goto boh;
                energia = 0.;
                for (Int_t n = 0; n < 96; n++){                             
                    if ( stripclu ) {
                        if ( calo->estrip[l][m][n] > 0.7  ) {
                            energia = (calo->estrip[l][m][n]/eclu)/(fnev*(Float_t)stripclu);                                
                            //                      printf(" fnev %f  n %i eclu %f stripclu %f  energia = %f \n",fnev,n,eclu,(Float_t)stripclu,energia);
                            Plane[l][pari][pl]->Fill(n,energia);                   
                        }
                    };
                };      
                //          boh:
                //              printf("qua3 %i %i \n",l,m);
            };
        };
    };   
    gStyle->SetOptStat(0);
    //    TString *file[17];
    //file = "dw_000000_000.dat";
    //file = getFilename(filename);    
    printf("\n Finished!\n");
    //
    TString fififile =  getFilename(filename);
    //    const char *file = fififile;
    //
    TPad *pd1;
    TPad *pd2;
    if ( plane >= 0 ){
        TCanvas *figura = new TCanvas("The_calorimeter_planes_hit", "The_calorimeter_planes_hit", 1100, 900);
        figura->SetFillColor(10);
        figura->Range(0,0,100,100);
        figura->cd();
        if ( dispari == -1 && viewxy == "both" ) {
            //
            // four figures
            //
            TPad *pd[2][2];
            pd[0][0] = new TPad("pd1","This is pad1",0.02,0.02,0.49,0.49,10);
            pd[0][1] = new TPad("pd2","This is pad2",0.51,0.02,0.98,0.49,10);
            pd[1][0] = new TPad("pd2","This is pad3",0.02,0.51,0.49,0.98,10);
            pd[1][1] = new TPad("pd4","This is pad4",0.51,0.51,0.98,0.98,10);
            for (Int_t l = 0; l < 2; l++) {
                for (Int_t m = 0; m < 2; m++) {
                    figura->cd();
                    pd[l][m]->Range(0,0,100,100);
                    pd[l][m]->Draw();
                    pd[l][m]->cd();
                    Plane[l][m][plane]->GetYaxis()->SetTitleOffset(1.5);
                    pd[l][m]->SetLeftMargin(0.15);
                    Plane[l][m][plane]->SetXTitle("strip");
                    Plane[l][m][plane]->SetYTitle("Average energy released (MIP)");
                    Plane[l][m][plane]->SetFillColor(1);
                    Plane[l][m][plane]->Draw();
                    pd[l][m]->Update();
                };
            };
            TString figty = "planes4";
            PrintFigure(filename,outDir,figty,saveas,*figura);
            return;
        };
        if ( dispari == -1 || viewxy == "both" ) {
            //
            // two figures
            //
            pd1 = new TPad("pd1","This is pad1",0.02,0.02,0.49,0.98,10);
            pd2 = new TPad("pd2","This is pad2",0.51,0.02,0.98,0.98,10);
            figura->cd();
            pd1->Range(0,0,100,100);
            pd2->Range(0,0,100,100);
            pd1->Draw();
            pd2->Draw();
            if ( dispari != -1 ){
                pd1->cd();
                gStyle->SetTitleFontSize(0.07);
                pd1->SetLeftMargin(0.15);
                Plane[0][dispari][plane]->GetYaxis()->SetTitleOffset(1.8);
                Plane[0][dispari][plane]->SetXTitle("strip");
                Plane[0][dispari][plane]->SetYTitle("Average energy released (MIP)");
                Plane[0][dispari][plane]->SetFillColor(1);
                Plane[0][dispari][plane]->Draw();
                pd2->cd();
                gStyle->SetTitleFontSize(0.07);
                pd2->SetLeftMargin(0.15);
                Plane[1][dispari][plane]->GetYaxis()->SetTitleOffset(1.8);
                Plane[1][dispari][plane]->SetXTitle("strip");
                Plane[1][dispari][plane]->SetYTitle("Average energy released (MIP)");
                Plane[1][dispari][plane]->SetFillColor(1);
                Plane[1][dispari][plane]->Draw();
            }
            if ( viewxy != "both" ){
                Int_t l = 0;
                if ( viewxy == "x" ) l = 0;
                if ( viewxy == "y" ) l = 1;
                pd1->cd();
                pd1->SetLeftMargin(0.15);
                gStyle->SetTitleFontSize(0.07);
                Plane[l][0][plane]->GetYaxis()->SetTitleOffset(1.8);
                Plane[l][0][plane]->SetXTitle("strip");
                Plane[l][0][plane]->SetYTitle("Average energy released (MIP)");
                Plane[l][0][plane]->SetFillColor(1);
                Plane[l][0][plane]->Draw();
                pd2->cd();
                gStyle->SetTitleFontSize(0.07);
                pd2->SetLeftMargin(0.15);
                Plane[l][1][plane]->GetYaxis()->SetTitleOffset(1.8);
                Plane[l][1][plane]->SetXTitle("strip");
                Plane[l][1][plane]->SetYTitle("Average energy released (MIP)");
                Plane[l][1][plane]->SetFillColor(1);
                Plane[l][1][plane]->Draw();
            }
            TString figty = "planes2";
            PrintFigure(filename,outDir,figty,saveas,*figura);
            return;
        };
        // 
        // one figure
        //
        pd1 = new TPad("pd1","This is pad1",0.02,0.02,0.98,0.98,10);
        figura->cd();
        pd1->Range(0,0,100,100);
        pd1->Draw();
        pd1->cd();
        gStyle->SetTitleFontSize(0.03);
        pd1->SetLeftMargin(0.15);
        Int_t l = 0;
        if ( viewxy == "x" ) l = 0;
        if ( viewxy == "y" ) l = 1;     
        Plane[l][dispari][plane]->GetYaxis()->SetTitleOffset(2.);
        Plane[l][dispari][plane]->SetXTitle("strip");
        Plane[l][dispari][plane]->SetYTitle("Average energy released (MIP)");
        Plane[l][dispari][plane]->SetFillColor(1);
        Plane[l][dispari][plane]->Draw();
        TString figty = "planes1";
        PrintFigure(filename,outDir,figty,saveas,*figura);
        return;
    } else {
        if ( dispari == -1 && viewxy == "both"  ){
            //
            // 44 figures
            //
            TCanvas *figura = new TCanvas("The_calorimeter_planes_hit_1", "The_calorimeter_planes_hit", 1300, 1100);
            figura->SetFillColor(10);
            figura->Range(0,0,100,100);
            figura->cd();
            TPad *pd[11][11];
            Float_t ypos1;
            Float_t ypos2 = 0.;
            TLatex *t=new TLatex();
            t->SetTextFont(32);
            t->SetTextColor(1);
            t->SetTextSize(0.02);
            t->SetTextAlign(12);
            t->DrawLatex(20.,99.,"View x odd");
            t->DrawLatex(70.,99.,"View y even");
            for (Int_t m = 0; m < 11; m++) {
                figura->cd();
                ypos1 = 0.01 + ypos2;
                ypos2 = 0.079 + ypos1;
                Float_t ytit = 100.*(ypos1 + (ypos2-ypos1)/2.);
                TLatex *t=new TLatex();
                t->SetTextFont(32);
                t->SetTextColor(1);
                t->SetTextSize(0.03);
                t->SetTextAlign(12);
                //char *tito;
                stringstream tito;
                tito.str("");
                tito << "pl. " << (m+1);
                //              tito = Form("pl. %i",m+1);
                t->DrawLatex(48.,ytit,tito.str().c_str());
                for (Int_t n = 0; n < 2; n++) {
                    Float_t xpos1;   
                    Float_t xpos2;
                    figura->cd();
                    if ( n == 0 ){
                        xpos1 = 0.02;   
                        xpos2 = 0.45;
                    } else{
                        xpos1 = 0.55;
                        xpos2 = 0.98;
                    };
                    pd[m][n] = new TPad("pd1","This is pad1",xpos1,ypos1,xpos2,ypos2,10);
                    pd[m][n]->Range(0,0,100,100);
                    pd[m][n]->Draw();
                    pd[m][n]->cd();
                    dispari = 0;
                    if ( n == 0 ) dispari = 1;
                    Plane[n][dispari][m]->SetXTitle("");
                    Plane[n][dispari][m]->SetYTitle("");
                    Plane[n][dispari][m]->SetTitle("");
                    Plane[n][dispari][m]->SetFillColor(1);
                    Plane[n][dispari][m]->Draw();
                };
            };
            TCanvas *figura2 = new TCanvas("The_calorimeter_planes_hit_2", "The_calorimeter_planes_hit", 1300, 1100);
            figura2->SetFillColor(10);
            figura2->Range(0,0,100,100);
            figura2->cd();
            //TPad *pd[11][11];
            //      Float_t ypos1;
            ypos1 = 0;
            //      Float_t ypos2 = 0.;
            ypos2 = 0.;
            //TLatex *t=new TLatex();
            t=new TLatex();
            t->SetTextFont(32);
            t->SetTextColor(1);
            t->SetTextSize(0.02);
            t->SetTextAlign(12);
            t->DrawLatex(20.,99.,"View x even");
            t->DrawLatex(70.,99.,"View y odd");
            for (Int_t mu = 0; mu < 11; mu++) {
                figura2->cd();
                ypos1 = 0.01 + ypos2;
                ypos2 = 0.079 + ypos1;
                Float_t ytit = 100.*(ypos1 + (ypos2-ypos1)/2.);
                TLatex *t=new TLatex();
                t->SetTextFont(32);
                t->SetTextColor(1);
                t->SetTextSize(0.03);
                t->SetTextAlign(12);
                stringstream tato;
                tato.str("");
                tato << "pl. " << (mu+1);
                //              char *tato;
                //tato = Form("pl. %i",mu+1);
                t->DrawLatex(48.,ytit,tato.str().c_str());
                for (Int_t n = 0; n < 2; n++) {
                    figura2->cd();      
                    Float_t xpos1;   
                    Float_t xpos2;
                    if ( n == 0 ){
                        xpos1 = 0.02;   
                        xpos2 = 0.45;
                    } else{
                        xpos1 = 0.55;
                        xpos2 = 0.98;
                    };
                    pd[mu][n] = new TPad("pd1","This is pad1",xpos1,ypos1,xpos2,ypos2,10);
                    pd[mu][n]->Range(0,0,100,100);
                    pd[mu][n]->Draw();
                    pd[mu][n]->cd();
                    dispari = n;
                    Plane[n][dispari][mu]->SetXTitle("");
                    Plane[n][dispari][mu]->SetYTitle("");
                    Plane[n][dispari][mu]->SetTitle("");
                    Plane[n][dispari][mu]->SetFillColor(1);
                    Plane[n][dispari][mu]->Draw();
                };
            };
            TString figty = "planes22a";
            PrintFigure(filename,outDir,figty,saveas,*figura);
            //TString figty = "planes22b";
            figty = "planes22b";
            PrintFigure(filename,outDir,figty,saveas,*figura2);
            return;
        };
        if ( dispari == -1 || viewxy == "both"  ){
            //
            // 22 figures
            //
            TCanvas *figura = new TCanvas("The_calorimeter_planes_hit", "The_calorimeter_planes_hit", 1300, 1100);
            figura->SetFillColor(10);
            figura->Range(0,0,100,100);
            figura->cd();
            TPad *pd[11][11];
            if ( dispari == -1 ){
                Float_t ypos1;
                Float_t ypos2 = 0.;
                Int_t l = 0;
                if ( viewxy == "x" ) l = 0;
                if ( viewxy == "y" ) l = 1;
                TLatex *t=new TLatex();
                t->SetTextFont(32);
                t->SetTextColor(1);
                t->SetTextSize(0.02);
                t->SetTextAlign(12);
                //              char *titol="calcalcalcalaclaclcalca";
                stringstream titol;
                char *zuno;
                char *zdue;
                if ( viewxy == "x" ) {
                    zuno = "x";
                } else {
                    zuno = "y";
                };
                zdue ="even";
                titol.str("");
                titol << "View " << zuno;
                titol << " " << zdue;
                //              titol = Form("View %s %s",zuno,zdue);
                t->DrawLatex(20.,99.,titol.str().c_str());
                zdue ="odd";
                titol.str("");
                titol << "View " <<zuno;
                titol << " " << zdue;
                //              titol = Form("View %s %s",zuno,zdue);
                t->DrawLatex(70.,99.,titol.str().c_str());
                for (Int_t m = 0; m < 11; m++) {
                    figura->cd();
                    ypos1 = 0.01 + ypos2;
                    ypos2 = 0.079 + ypos1;
                    Float_t ytit = 100.*(ypos1 + (ypos2-ypos1)/2.);
                    TLatex *t=new TLatex();
                    t->SetTextFont(32);
                    t->SetTextColor(1);
                    t->SetTextSize(0.03);
                    t->SetTextAlign(12);
                    //              char *tito;
                    stringstream tito;
                    tito.str("");
                    tito << "pl. " << (m+1);
                    //tito = Form("pl. %i",m+1);
                    t->DrawLatex(48.,ytit,tito.str().c_str());
                    for (Int_t n = 0; n < 2; n++) {
                        figura->cd();
                        Float_t xpos1;   
                        Float_t xpos2;
                        if ( n == 0 ){
                            xpos1 = 0.02;   
                            xpos2 = 0.45;
                        } else{
                            xpos1 = 0.55;
                            xpos2 = 0.98;
                        };
                        pd[m][n] = new TPad("pd1","This is pad1",xpos1,ypos1,xpos2,ypos2,10);
                        pd[m][n]->Range(0,0,100,100);
                        pd[m][n]->Draw();
                        pd[m][n]->cd();
                        Plane[l][n][m]->SetXTitle("");
                        Plane[l][n][m]->SetYTitle("");
                        Plane[l][n][m]->SetTitle("");
                        Plane[l][n][m]->SetFillColor(1);
                        Plane[l][n][m]->Draw();
                    };
                };
            } else {
                Float_t ypos1;
                Float_t ypos2 = 0.;
                TLatex *t=new TLatex();
                t->SetTextFont(32);
                t->SetTextColor(1);
                t->SetTextSize(0.02);
                t->SetTextAlign(12);
                stringstream titol;             
                //              char *titol="calcalcalcalaclaclcalca";
                char *zuno;
                char *zdue;
                if ( parity == "odd" ) {
                    zdue = "odd";
                } else {
                    zdue = "even";
                };
                zuno ="x";
                titol.str("");
                titol << "View " << zuno;
                titol << " " << zdue;
                //              titol = Form("View %s %s",zuno,zdue);
                t->DrawLatex(20.,99.,titol.str().c_str());
                zuno ="y";
                titol.str("");
                titol << "View " << zuno;
                titol << " " << zdue;
                //              titol = Form("View %s %s",zuno,zdue);
                t->DrawLatex(70.,99.,titol.str().c_str());
                for (Int_t m = 0; m < 11; m++) {
                    figura->cd();
                    ypos1 = 0.01 + ypos2;
                    ypos2 = 0.079 + ypos1;
                    Float_t ytit = 100.*(ypos1 + (ypos2-ypos1)/2.);
                    TLatex *t=new TLatex();
                    t->SetTextFont(32);
                    t->SetTextColor(1);
                    t->SetTextSize(0.03);
                    t->SetTextAlign(12);
                    //              char *tito;
                    stringstream tito;
                    tito.str("");
                    tito << "pl. " << (m+1);
                    //              tito = Form("pl. %i",m+1);
                    t->DrawLatex(48.,ytit,tito.str().c_str());
                    for (Int_t n = 0; n < 2; n++) {
                        figura->cd();
                        Float_t xpos1;   
                        Float_t xpos2;
                        if ( n == 0 ){
                            xpos1 = 0.02;   
                            xpos2 = 0.45;
                        } else{
                            xpos1 = 0.55;
                            xpos2 = 0.98;
                        };
                        pd[m][n] = new TPad("pd1","This is pad1",xpos1,ypos1,xpos2,ypos2,10);
                        pd[m][n]->Range(0,0,100,100);
                        pd[m][n]->Draw();
                        pd[m][n]->cd();
                        Plane[n][dispari][m]->SetXTitle("");
                        Plane[n][dispari][m]->SetYTitle("");
                        Plane[n][dispari][m]->SetTitle("");
                        Plane[n][dispari][m]->SetFillColor(1);
                        Plane[n][dispari][m]->Draw();
                    };
                };
            };
            TString figty = "planes11";
            PrintFigure(filename,outDir,figty,saveas,*figura);
            return;
        };
        //
        // 11 figures
        //
        TCanvas *figura = new TCanvas("The_calorimeter_planes_hit", "The_calorimeter_planes_hit", 650, 1100);
        figura->SetFillColor(10);
        figura->Range(0,0,100,100);
        figura->cd();
        TPad *pd[11];
        Float_t ypos1;
        Float_t ypos2 = 0.;
        Int_t l = 0;
        if ( viewxy == "x" ) l = 0;
        if ( viewxy == "y" ) l = 1;
        TLatex *t=new TLatex();
        t->SetTextFont(32);
        t->SetTextColor(1);
        t->SetTextSize(0.03);
        t->SetTextAlign(12);
        stringstream titol;
        //      char *titol="calcalcalcalaclaclcalca";
        char *zuno;
        char *zdue;
        if ( viewxy == "x" ) {
            zuno = "x";
        } else {
            zuno = "y";
        };
        if ( parity == "odd" ) {
            zdue = "odd";
        } else {
            zdue = "even";
        };
        titol.str("");
        titol << "View " << zuno;
        titol << " " << zdue;
        //      titol = Form("View %s %s",zuno,zdue);
        t->DrawLatex(40.,99.,titol.str().c_str());
        for (Int_t m = 0; m < 11; m++) {
            figura->cd();
            ypos1 = 0.01 + ypos2;
            ypos2 = 0.079 + ypos1;
            Float_t ytit = 100.*(ypos1 + (ypos2-ypos1)/2.);
            TLatex *t=new TLatex();
            t->SetTextFont(32);
            t->SetTextColor(1);
            t->SetTextSize(0.03);
            t->SetTextAlign(12);
            stringstream tito;
            tito.str("");
            tito << "pl. " << (m+1);
            //      char *tito;
            //tito = Form("pl. %i",m+1);
            t->DrawLatex(93.,ytit,tito.str().c_str());
            pd[m] = new TPad("pd1","This is pad1",0.02,ypos1,0.91,ypos2,10);
            pd[m]->Range(0,0,100,100);
            pd[m]->Draw();
            pd[m]->cd();
            Plane[l][dispari][m]->SetXTitle("");
            Plane[l][dispari][m]->SetYTitle("");
            Plane[l][dispari][m]->SetTitle("");
            Plane[l][dispari][m]->SetFillColor(1);
            Plane[l][dispari][m]->Draw();
        };
        TString figty = "planes11";
        PrintFigure(filename,outDir,figty,saveas,*figura);
        return; 
    };
    //
    //    caloFile->Close();
    //headerFile->Close();
    gSystem->ChangeDirectory(startingdir);
}
1	//
2	// Show the hit distribution on each plane. Can be used to see tracks - Emiliano Mocchiutti
3	//
4	// FCaloPLANES.cxx version 1.01 (2006-03-08)
5	//
6	// The only input needed is the path to the directory created by YODA for the data file you want to analyze.
7	//
8	// Changelog:
9	//
10	// 1.00 - 1.01 (2006-03-08): Flight version, read unique YODA file.
11	//
12	// 0.00 - 1.00 (2006-03-08): Clone of CaloPLANES v2r13.
13	//
14
15	#include <fstream>
16	#include <sstream>
17	#include <TTree.h>
18	#include <TClassEdit.h>
19	#include <TObject.h>
20	#include <TList.h>
21	#include <TSystem.h>
22	#include <TSystemDirectory.h>
23	#include <TString.h>
24	#include <TFile.h>
25	#include <TClass.h>
26	#include <TCanvas.h>
27	#include <TH1.h>
28	#include <TH1F.h>
29	#include <TH2D.h>
30	#include <TLatex.h>
31	#include <TPad.h>
32	#include <TPaveLabel.h>
33	#include <TChain.h>
34	#include <TStyle.h>
35	//
36	extern bool existfile(TString);
37	extern TString getFilename(const TString);
38	extern void PrintFigure(TString, TString, TString, TString, TCanvas&);
39	//
40	#include <caloclassesfun.h>
41	//
42	using namespace std;
43
44	void FCaloPLANES(TString filename, TString viewxy="both", TString parity="both", Int_t plane = 0, Int_t fromevent = 0, Int_t toevent = 0, TString outDir = "", TString saveas = "gif"){
45	const char* startingdir = gSystem->WorkingDirectory();
46	if ( !strcmp(outDir.Data(),"") ) outDir = startingdir;
47	if ( !existfile(filename) ){
48	printf(" %s :no such file or directory \n",filename.Data());
49	printf("\n ERROR: No calorimeter LEVEL1 file! \n\n Run FCaloLEVEL1 to generate level1 data. \n\n");
50	return;
51	};
52	//
53	TFile *File = new TFile(filename.Data());
54	TTree otr = (TTree)File->Get("CaloLevel1");
55	if ( !otr ){
56	printf(" %s are you sure? I need a LEVEL1 file! \n",filename.Data());
57	return;
58	};
59	//
60	CalorimeterLevel1 *calo = new CalorimeterLevel1();
61	otr->SetBranchAddress("Event", &calo);
62	//
63	Long64_t nevents = otr->GetEntries();
64	//
65	// input limits
66	//
67	Int_t minview = 0;
68	Int_t maxview = 0;
69	if ( viewxy != "both" && viewxy != "x" && viewxy != "y" ) {
70	printf("You can choose viewxy = x, viewxy = y or viewxy = both \n");
71	return;
72	};
73	if ( viewxy == "both" ) {
74	minview = 0;
75	maxview = 2;
76	};
77	if ( viewxy == "x" ) {
78	minview = 0;
79	maxview = 1;
80	};
81	if ( viewxy == "y" ) {
82	minview = 1;
83	maxview = 2;
84	};
85
86
87	if ( parity !="both" && parity != "odd" && parity != "even" ) {
88	printf("You can choose parity = odd, parity = even or parity = both \n");
89	return;
90	};
91	Int_t dispari = 0;
92	if ( parity == "odd" ){
93	dispari = 1;
94	};
95	if ( parity == "even" ){
96	dispari = 0;
97	};
98	if ( parity == "both" ){
99	dispari = -1;
100	};
101
102	if ( plane > 11 \|\| plane < 0 ) {
103	printf("You can choose plane between 1 and 11 or plane = 0 (all)\n");
104	return;
105	};
106	plane--;
107
108
109	if ( fromevent > toevent && toevent ){
110	printf("It must be fromevent < toevent \n");
111	return;
112	};
113
114
115	if ( fromevent > nevents+1 \|\| fromevent < 0 ) {
116	printf("You can choose fromevent between 0 (all) and %i \n",(int)nevents+1);
117	return;
118	};
119
120	if ( toevent > nevents+1 \|\| toevent < 0 ) {
121	printf("You can choose toevent between 0 (all) and %i \n",(int)nevents+1);
122	return;
123	};
124
125	Int_t minevent;
126	Int_t maxevent;
127	if ( fromevent == 0 ) {
128	minevent = 0;
129	maxevent = nevents;
130	} else {
131	minevent = fromevent - 1;
132	if ( toevent > 0 ){
133	maxevent = toevent - 1;
134	} else {
135	maxevent = fromevent - 1;
136	};
137	};
138	nevents = maxevent-minevent;
139	Float_t fnev;
140	fnev = (Float_t)(maxevent-minevent);
141	//
142	// run over all the events
143	//
144	printf("\n Processed events: \n\n");
145	//
146	TH1F *Plane[2][2][11];
147	//TH1 *Plane[2][2][11];
148	// char *tutti="asldkalskdlasdjkafoiwhkehguierahgklshdfjkhakfhdasklkdfhksadfhkjdsblablah";
149	stringstream tutti;
150	stringstream plfor;
151	char *uno="blablah";
152	char *due="blablah";
153	// char *tre="blablah";
154	for (Int_t i = 0; i < 2; i++){
155	for (Int_t j = 0; j < 2; j++){
156	for (Int_t l = 0; l < 11; l++){
157	// gDirectory->Delete(Form("plane %i%i%i",i,j,l));
158	// sprintf(tre," %i ",(l+1));
159	if ( i == 0 ){
160	uno = "x";
161	} else {
162	uno = "y";
163	};
164	if ( j == 0 ){
165	due = "even";
166	} else {
167	due = "odd";
168	};
169	// tutti = Form("View %s %s Plane %i",uno,due,(l+1));
170	tutti.str("");
171	tutti << "View " << uno;
172	tutti << " " << due;
173	tutti << " Plane " << (l+1);
174	plfor.str("");
175	plfor << "plane " << i;
176	plfor << j << l;
177	Plane[i][j][l] = new TH1F(plfor.str().c_str(),tutti.str().c_str(),96,-0.5,95.5);
178	};
179	};
180	};
181	Float_t energia = 0.;
182	Int_t stripclu = 0;
183	Float_t eclu = 0.;
184	Int_t pari = 0;
185	Int_t pl = 0;
186	Int_t pre = -1;
187	for (Int_t i = minevent; i < maxevent; i++){
188	if ( i%1000 == 0 && i > 0 ) printf(" %iK \n",i/1000);
189	//
190	otr->GetEntry(i);
191	//
192	// run over views and planes
193	//
194	stripclu = 0;
195	eclu = 0.;
196	//
197	for (Int_t l = minview; l < maxview; l++){
198	for (Int_t m = 0; m < 22; m++){
199	//
200	// determine the section number
201	//
202	pari = 0;
203	pl = 0;
204	if (l == 0 && m%2 == 0){
205	pl = m/2;
206	pari = 0;
207	};
208	if (l == 0 && m%2 != 0){
209	pl = (m-1)/2;
210	pari = 1;
211	};
212	if (l == 1 && m%2 == 0){
213	pl = m/2;
214	pari = 0;
215	};
216	if (l == 1 && m%2 != 0){
217	pl = (m-1)/2;
218	pari = 1;
219	};
220	//
221	// run over strips
222	//
223	pre = -1;
224	stripclu = 0;
225	eclu = 0.;
226	//
227	//goto boh;
228	//printf("qua1 ");
229	for (Int_t n = 0; n < 96; n++){
230	if ( n%16 == 0 ) pre++;
231	if ( calo-> estrip[l][m][n] > 0.7 ) {
232	stripclu++;
233	eclu += calo->estrip[l][m][n];
234	};
235	};
236	// printf("qua2 ");
237	// boh:
238	//goto boh;
239	energia = 0.;
240	for (Int_t n = 0; n < 96; n++){
241	if ( stripclu ) {
242	if ( calo->estrip[l][m][n] > 0.7 ) {
243	energia = (calo->estrip[l][m][n]/eclu)/(fnev*(Float_t)stripclu);
244	// printf(" fnev %f n %i eclu %f stripclu %f energia = %f \n",fnev,n,eclu,(Float_t)stripclu,energia);
245	Plane[l][pari][pl]->Fill(n,energia);
246	}
247	};
248	};
249	// boh:
250	// printf("qua3 %i %i \n",l,m);
251	};
252	};
253	};
254	gStyle->SetOptStat(0);
255	// TString *file[17];
256	//file = "dw_000000_000.dat";
257	//file = getFilename(filename);
258	printf("\n Finished!\n");
259	//
260	TString fififile = getFilename(filename);
261	// const char *file = fififile;
262	//
263	TPad *pd1;
264	TPad *pd2;
265	if ( plane >= 0 ){
266	TCanvas *figura = new TCanvas("The_calorimeter_planes_hit", "The_calorimeter_planes_hit", 1100, 900);
267	figura->SetFillColor(10);
268	figura->Range(0,0,100,100);
269	figura->cd();
270	if ( dispari == -1 && viewxy == "both" ) {
271	//
272	// four figures
273	//
274	TPad *pd[2][2];
275	pd[0][0] = new TPad("pd1","This is pad1",0.02,0.02,0.49,0.49,10);
276	pd[0][1] = new TPad("pd2","This is pad2",0.51,0.02,0.98,0.49,10);
277	pd[1][0] = new TPad("pd2","This is pad3",0.02,0.51,0.49,0.98,10);
278	pd[1][1] = new TPad("pd4","This is pad4",0.51,0.51,0.98,0.98,10);
279	for (Int_t l = 0; l < 2; l++) {
280	for (Int_t m = 0; m < 2; m++) {
281	figura->cd();
282	pd[l][m]->Range(0,0,100,100);
283	pd[l][m]->Draw();
284	pd[l][m]->cd();
285	Plane[l][m][plane]->GetYaxis()->SetTitleOffset(1.5);
286	pd[l][m]->SetLeftMargin(0.15);
287	Plane[l][m][plane]->SetXTitle("strip");
288	Plane[l][m][plane]->SetYTitle("Average energy released (MIP)");
289	Plane[l][m][plane]->SetFillColor(1);
290	Plane[l][m][plane]->Draw();
291	pd[l][m]->Update();
292	};
293	};
294	TString figty = "planes4";
295	PrintFigure(filename,outDir,figty,saveas,*figura);
296	return;
297	};
298	if ( dispari == -1 \|\| viewxy == "both" ) {
299	//
300	// two figures
301	//
302	pd1 = new TPad("pd1","This is pad1",0.02,0.02,0.49,0.98,10);
303	pd2 = new TPad("pd2","This is pad2",0.51,0.02,0.98,0.98,10);
304	figura->cd();
305	pd1->Range(0,0,100,100);
306	pd2->Range(0,0,100,100);
307	pd1->Draw();
308	pd2->Draw();
309	if ( dispari != -1 ){
310	pd1->cd();
311	gStyle->SetTitleFontSize(0.07);
312	pd1->SetLeftMargin(0.15);
313	Plane[0][dispari][plane]->GetYaxis()->SetTitleOffset(1.8);
314	Plane[0][dispari][plane]->SetXTitle("strip");
315	Plane[0][dispari][plane]->SetYTitle("Average energy released (MIP)");
316	Plane[0][dispari][plane]->SetFillColor(1);
317	Plane[0][dispari][plane]->Draw();
318	pd2->cd();
319	gStyle->SetTitleFontSize(0.07);
320	pd2->SetLeftMargin(0.15);
321	Plane[1][dispari][plane]->GetYaxis()->SetTitleOffset(1.8);
322	Plane[1][dispari][plane]->SetXTitle("strip");
323	Plane[1][dispari][plane]->SetYTitle("Average energy released (MIP)");
324	Plane[1][dispari][plane]->SetFillColor(1);
325	Plane[1][dispari][plane]->Draw();
326	}
327	if ( viewxy != "both" ){
328	Int_t l = 0;
329	if ( viewxy == "x" ) l = 0;
330	if ( viewxy == "y" ) l = 1;
331	pd1->cd();
332	pd1->SetLeftMargin(0.15);
333	gStyle->SetTitleFontSize(0.07);
334	Plane[l][0][plane]->GetYaxis()->SetTitleOffset(1.8);
335	Plane[l][0][plane]->SetXTitle("strip");
336	Plane[l][0][plane]->SetYTitle("Average energy released (MIP)");
337	Plane[l][0][plane]->SetFillColor(1);
338	Plane[l][0][plane]->Draw();
339	pd2->cd();
340	gStyle->SetTitleFontSize(0.07);
341	pd2->SetLeftMargin(0.15);
342	Plane[l][1][plane]->GetYaxis()->SetTitleOffset(1.8);
343	Plane[l][1][plane]->SetXTitle("strip");
344	Plane[l][1][plane]->SetYTitle("Average energy released (MIP)");
345	Plane[l][1][plane]->SetFillColor(1);
346	Plane[l][1][plane]->Draw();
347	}
348	TString figty = "planes2";
349	PrintFigure(filename,outDir,figty,saveas,*figura);
350	return;
351	};
352	//
353	// one figure
354	//
355	pd1 = new TPad("pd1","This is pad1",0.02,0.02,0.98,0.98,10);
356	figura->cd();
357	pd1->Range(0,0,100,100);
358	pd1->Draw();
359	pd1->cd();
360	gStyle->SetTitleFontSize(0.03);
361	pd1->SetLeftMargin(0.15);
362	Int_t l = 0;
363	if ( viewxy == "x" ) l = 0;
364	if ( viewxy == "y" ) l = 1;
365	Plane[l][dispari][plane]->GetYaxis()->SetTitleOffset(2.);
366	Plane[l][dispari][plane]->SetXTitle("strip");
367	Plane[l][dispari][plane]->SetYTitle("Average energy released (MIP)");
368	Plane[l][dispari][plane]->SetFillColor(1);
369	Plane[l][dispari][plane]->Draw();
370	TString figty = "planes1";
371	PrintFigure(filename,outDir,figty,saveas,*figura);
372	return;
373	} else {
374	if ( dispari == -1 && viewxy == "both" ){
375	//
376	// 44 figures
377	//
378	TCanvas *figura = new TCanvas("The_calorimeter_planes_hit_1", "The_calorimeter_planes_hit", 1300, 1100);
379	figura->SetFillColor(10);
380	figura->Range(0,0,100,100);
381	figura->cd();
382	TPad *pd[11][11];
383	Float_t ypos1;
384	Float_t ypos2 = 0.;
385	TLatex *t=new TLatex();
386	t->SetTextFont(32);
387	t->SetTextColor(1);
388	t->SetTextSize(0.02);
389	t->SetTextAlign(12);
390	t->DrawLatex(20.,99.,"View x odd");
391	t->DrawLatex(70.,99.,"View y even");
392	for (Int_t m = 0; m < 11; m++) {
393	figura->cd();
394	ypos1 = 0.01 + ypos2;
395	ypos2 = 0.079 + ypos1;
396	Float_t ytit = 100.*(ypos1 + (ypos2-ypos1)/2.);
397	TLatex *t=new TLatex();
398	t->SetTextFont(32);
399	t->SetTextColor(1);
400	t->SetTextSize(0.03);
401	t->SetTextAlign(12);
402	//char *tito;
403	stringstream tito;
404	tito.str("");
405	tito << "pl. " << (m+1);
406	// tito = Form("pl. %i",m+1);
407	t->DrawLatex(48.,ytit,tito.str().c_str());
408	for (Int_t n = 0; n < 2; n++) {
409	Float_t xpos1;
410	Float_t xpos2;
411	figura->cd();
412	if ( n == 0 ){
413	xpos1 = 0.02;
414	xpos2 = 0.45;
415	} else{
416	xpos1 = 0.55;
417	xpos2 = 0.98;
418	};
419	pd[m][n] = new TPad("pd1","This is pad1",xpos1,ypos1,xpos2,ypos2,10);
420	pd[m][n]->Range(0,0,100,100);
421	pd[m][n]->Draw();
422	pd[m][n]->cd();
423	dispari = 0;
424	if ( n == 0 ) dispari = 1;
425	Plane[n][dispari][m]->SetXTitle("");
426	Plane[n][dispari][m]->SetYTitle("");
427	Plane[n][dispari][m]->SetTitle("");
428	Plane[n][dispari][m]->SetFillColor(1);
429	Plane[n][dispari][m]->Draw();
430	};
431	};
432	TCanvas *figura2 = new TCanvas("The_calorimeter_planes_hit_2", "The_calorimeter_planes_hit", 1300, 1100);
433	figura2->SetFillColor(10);
434	figura2->Range(0,0,100,100);
435	figura2->cd();
436	//TPad *pd[11][11];
437	// Float_t ypos1;
438	ypos1 = 0;
439	// Float_t ypos2 = 0.;
440	ypos2 = 0.;
441	//TLatex *t=new TLatex();
442	t=new TLatex();
443	t->SetTextFont(32);
444	t->SetTextColor(1);
445	t->SetTextSize(0.02);
446	t->SetTextAlign(12);
447	t->DrawLatex(20.,99.,"View x even");
448	t->DrawLatex(70.,99.,"View y odd");
449	for (Int_t mu = 0; mu < 11; mu++) {
450	figura2->cd();
451	ypos1 = 0.01 + ypos2;
452	ypos2 = 0.079 + ypos1;
453	Float_t ytit = 100.*(ypos1 + (ypos2-ypos1)/2.);
454	TLatex *t=new TLatex();
455	t->SetTextFont(32);
456	t->SetTextColor(1);
457	t->SetTextSize(0.03);
458	t->SetTextAlign(12);
459	stringstream tato;
460	tato.str("");
461	tato << "pl. " << (mu+1);
462	// char *tato;
463	//tato = Form("pl. %i",mu+1);
464	t->DrawLatex(48.,ytit,tato.str().c_str());
465	for (Int_t n = 0; n < 2; n++) {
466	figura2->cd();
467	Float_t xpos1;
468	Float_t xpos2;
469	if ( n == 0 ){
470	xpos1 = 0.02;
471	xpos2 = 0.45;
472	} else{
473	xpos1 = 0.55;
474	xpos2 = 0.98;
475	};
476	pd[mu][n] = new TPad("pd1","This is pad1",xpos1,ypos1,xpos2,ypos2,10);
477	pd[mu][n]->Range(0,0,100,100);
478	pd[mu][n]->Draw();
479	pd[mu][n]->cd();
480	dispari = n;
481	Plane[n][dispari][mu]->SetXTitle("");
482	Plane[n][dispari][mu]->SetYTitle("");
483	Plane[n][dispari][mu]->SetTitle("");
484	Plane[n][dispari][mu]->SetFillColor(1);
485	Plane[n][dispari][mu]->Draw();
486	};
487	};
488	TString figty = "planes22a";
489	PrintFigure(filename,outDir,figty,saveas,*figura);
490	//TString figty = "planes22b";
491	figty = "planes22b";
492	PrintFigure(filename,outDir,figty,saveas,*figura2);
493	return;
494	};
495	if ( dispari == -1 \|\| viewxy == "both" ){
496	//
497	// 22 figures
498	//
499	TCanvas *figura = new TCanvas("The_calorimeter_planes_hit", "The_calorimeter_planes_hit", 1300, 1100);
500	figura->SetFillColor(10);
501	figura->Range(0,0,100,100);
502	figura->cd();
503	TPad *pd[11][11];
504	if ( dispari == -1 ){
505	Float_t ypos1;
506	Float_t ypos2 = 0.;
507	Int_t l = 0;
508	if ( viewxy == "x" ) l = 0;
509	if ( viewxy == "y" ) l = 1;
510	TLatex *t=new TLatex();
511	t->SetTextFont(32);
512	t->SetTextColor(1);
513	t->SetTextSize(0.02);
514	t->SetTextAlign(12);
515	// char *titol="calcalcalcalaclaclcalca";
516	stringstream titol;
517	char *zuno;
518	char *zdue;
519	if ( viewxy == "x" ) {
520	zuno = "x";
521	} else {
522	zuno = "y";
523	};
524	zdue ="even";
525	titol.str("");
526	titol << "View " << zuno;
527	titol << " " << zdue;
528	// titol = Form("View %s %s",zuno,zdue);
529	t->DrawLatex(20.,99.,titol.str().c_str());
530	zdue ="odd";
531	titol.str("");
532	titol << "View " <<zuno;
533	titol << " " << zdue;
534	// titol = Form("View %s %s",zuno,zdue);
535	t->DrawLatex(70.,99.,titol.str().c_str());
536	for (Int_t m = 0; m < 11; m++) {
537	figura->cd();
538	ypos1 = 0.01 + ypos2;
539	ypos2 = 0.079 + ypos1;
540	Float_t ytit = 100.*(ypos1 + (ypos2-ypos1)/2.);
541	TLatex *t=new TLatex();
542	t->SetTextFont(32);
543	t->SetTextColor(1);
544	t->SetTextSize(0.03);
545	t->SetTextAlign(12);
546	// char *tito;
547	stringstream tito;
548	tito.str("");
549	tito << "pl. " << (m+1);
550	//tito = Form("pl. %i",m+1);
551	t->DrawLatex(48.,ytit,tito.str().c_str());
552	for (Int_t n = 0; n < 2; n++) {
553	figura->cd();
554	Float_t xpos1;
555	Float_t xpos2;
556	if ( n == 0 ){
557	xpos1 = 0.02;
558	xpos2 = 0.45;
559	} else{
560	xpos1 = 0.55;
561	xpos2 = 0.98;
562	};
563	pd[m][n] = new TPad("pd1","This is pad1",xpos1,ypos1,xpos2,ypos2,10);
564	pd[m][n]->Range(0,0,100,100);
565	pd[m][n]->Draw();
566	pd[m][n]->cd();
567	Plane[l][n][m]->SetXTitle("");
568	Plane[l][n][m]->SetYTitle("");
569	Plane[l][n][m]->SetTitle("");
570	Plane[l][n][m]->SetFillColor(1);
571	Plane[l][n][m]->Draw();
572	};
573	};
574	} else {
575	Float_t ypos1;
576	Float_t ypos2 = 0.;
577	TLatex *t=new TLatex();
578	t->SetTextFont(32);
579	t->SetTextColor(1);
580	t->SetTextSize(0.02);
581	t->SetTextAlign(12);
582	stringstream titol;
583	// char *titol="calcalcalcalaclaclcalca";
584	char *zuno;
585	char *zdue;
586	if ( parity == "odd" ) {
587	zdue = "odd";
588	} else {
589	zdue = "even";
590	};
591	zuno ="x";
592	titol.str("");
593	titol << "View " << zuno;
594	titol << " " << zdue;
595	// titol = Form("View %s %s",zuno,zdue);
596	t->DrawLatex(20.,99.,titol.str().c_str());
597	zuno ="y";
598	titol.str("");
599	titol << "View " << zuno;
600	titol << " " << zdue;
601	// titol = Form("View %s %s",zuno,zdue);
602	t->DrawLatex(70.,99.,titol.str().c_str());
603	for (Int_t m = 0; m < 11; m++) {
604	figura->cd();
605	ypos1 = 0.01 + ypos2;
606	ypos2 = 0.079 + ypos1;
607	Float_t ytit = 100.*(ypos1 + (ypos2-ypos1)/2.);
608	TLatex *t=new TLatex();
609	t->SetTextFont(32);
610	t->SetTextColor(1);
611	t->SetTextSize(0.03);
612	t->SetTextAlign(12);
613	// char *tito;
614	stringstream tito;
615	tito.str("");
616	tito << "pl. " << (m+1);
617	// tito = Form("pl. %i",m+1);
618	t->DrawLatex(48.,ytit,tito.str().c_str());
619	for (Int_t n = 0; n < 2; n++) {
620	figura->cd();
621	Float_t xpos1;
622	Float_t xpos2;
623	if ( n == 0 ){
624	xpos1 = 0.02;
625	xpos2 = 0.45;
626	} else{
627	xpos1 = 0.55;
628	xpos2 = 0.98;
629	};
630	pd[m][n] = new TPad("pd1","This is pad1",xpos1,ypos1,xpos2,ypos2,10);
631	pd[m][n]->Range(0,0,100,100);
632	pd[m][n]->Draw();
633	pd[m][n]->cd();
634	Plane[n][dispari][m]->SetXTitle("");
635	Plane[n][dispari][m]->SetYTitle("");
636	Plane[n][dispari][m]->SetTitle("");
637	Plane[n][dispari][m]->SetFillColor(1);
638	Plane[n][dispari][m]->Draw();
639	};
640	};
641	};
642	TString figty = "planes11";
643	PrintFigure(filename,outDir,figty,saveas,*figura);
644	return;
645	};
646	//
647	// 11 figures
648	//
649	TCanvas *figura = new TCanvas("The_calorimeter_planes_hit", "The_calorimeter_planes_hit", 650, 1100);
650	figura->SetFillColor(10);
651	figura->Range(0,0,100,100);
652	figura->cd();
653	TPad *pd[11];
654	Float_t ypos1;
655	Float_t ypos2 = 0.;
656	Int_t l = 0;
657	if ( viewxy == "x" ) l = 0;
658	if ( viewxy == "y" ) l = 1;
659	TLatex *t=new TLatex();
660	t->SetTextFont(32);
661	t->SetTextColor(1);
662	t->SetTextSize(0.03);
663	t->SetTextAlign(12);
664	stringstream titol;
665	// char *titol="calcalcalcalaclaclcalca";
666	char *zuno;
667	char *zdue;
668	if ( viewxy == "x" ) {
669	zuno = "x";
670	} else {
671	zuno = "y";
672	};
673	if ( parity == "odd" ) {
674	zdue = "odd";
675	} else {
676	zdue = "even";
677	};
678	titol.str("");
679	titol << "View " << zuno;
680	titol << " " << zdue;
681	// titol = Form("View %s %s",zuno,zdue);
682	t->DrawLatex(40.,99.,titol.str().c_str());
683	for (Int_t m = 0; m < 11; m++) {
684	figura->cd();
685	ypos1 = 0.01 + ypos2;
686	ypos2 = 0.079 + ypos1;
687	Float_t ytit = 100.*(ypos1 + (ypos2-ypos1)/2.);
688	TLatex *t=new TLatex();
689	t->SetTextFont(32);
690	t->SetTextColor(1);
691	t->SetTextSize(0.03);
692	t->SetTextAlign(12);
693	stringstream tito;
694	tito.str("");
695	tito << "pl. " << (m+1);
696	// char *tito;
697	//tito = Form("pl. %i",m+1);
698	t->DrawLatex(93.,ytit,tito.str().c_str());
699	pd[m] = new TPad("pd1","This is pad1",0.02,ypos1,0.91,ypos2,10);
700	pd[m]->Range(0,0,100,100);
701	pd[m]->Draw();
702	pd[m]->cd();
703	Plane[l][dispari][m]->SetXTitle("");
704	Plane[l][dispari][m]->SetYTitle("");
705	Plane[l][dispari][m]->SetTitle("");
706	Plane[l][dispari][m]->SetFillColor(1);
707	Plane[l][dispari][m]->Draw();
708	};
709	TString figty = "planes11";
710	PrintFigure(filename,outDir,figty,saveas,*figura);
711	return;
712	};
713	//
714	// caloFile->Close();
715	//headerFile->Close();
716	gSystem->ChangeDirectory(startingdir);
717	}