zamt0shunt6gsm2018.cc

Go to the documentation of this file.

#include <iostream>
#include <fstream>
#include "TH1.h"
#include "TH2.h"
#include "TH1F.h"
#include "TH2F.h"
#include "TCanvas.h"
#include "TROOT.h"
#include <TMath.h>
#include "TStyle.h"
#include "TSystem.h"
#include "TLegend.h"
#include "TText.h"
#include "TAxis.h"
#include "TFile.h"
#include "TLine.h"
#include "TGraph.h"
#include <TPaveText.h>
#include <TPostScript.h>
#include <TClass.h>
#include <TLatex.h>
#include <TFrame.h>
#include <TPad.h>
#include <TGaxis.h>
 
#include "TGraphErrors.h"
#include "TF1.h"
#include "TArrow.h"
 
//
using namespace std;
//
//
int main(int argc, char* argv[]) {
  cout << "********************************************************************* START job " << endl;
  //______________________________________________________________________________________________________________________________
  //TCanvas *c1;
  TGraph* gr1;
  TGraph* gr2;
  TGraph* gr3;
  TGraph* gr4;
  TGraph* gr5;
  TGraph* gr6;
  TGraph* gr7;
  TGraph* gr8;
  TGraph* gr9;
  TGraphErrors* ge1;
  TGraphErrors* ge2;
  TGraphErrors* ge3;
  TGraphErrors* ge4;
  TGraphErrors* ge5;
  TGraphErrors* ge6;
  TGraphErrors* ge7;
  TGraphErrors* ge8;
  TGraphErrors* ge9;
 
  //
  const Int_t NMethods = 14;       // total number of Methods (all-together 37 methods)
  const Int_t NMethodsStart = 0;   // since which method to start ( min=  0)
  const Int_t NMethodsToUse = 13;  // choose Number of methods to use ( max= 36)
                                   //
  TString MethodName[NMethods] = {"PLOT0",
                                  "PLOT1",
                                  "PLOT2",
                                  "PLOT3",
                                  "PLOT4",
                                  "PLOT5",
                                  "PLOT6",
                                  "PLOT7",
                                  "PLOT8",
                                  "PLOT9",
                                  "PLOT10",
                                  "PLOT11",
                                  "PLOT12",
                                  "PLOT13"};
  //______________________________________________________________________________________________________________________________
  //______________________________________________________________________________________________________________________________
  //______________________________________________________________________________________________________________________________
  //______________________________________________________________________________________________________________________________
  //______________________________________________________________________________________________________________________________
  //______________________________________________________________________________________________________________________________
  //______________________________________________________________________________________________________________________________   WORKABLE:
 
  //______________________________________________________________________________________________________________________________ 22+161=183
  // (306249 -> 07.11.2017)   164   +   DEL=23+31+11= 65    (307782 -> 11.01.2018)     = 229
  // const Int_t NMAXM =22;//
  // const Int_t NMAXM =17;//
 
  // const Int_t NMAXM =14;//
  // const Int_t NMAXM =553;//
  // const Int_t NMAXM =202;//
  // const Int_t NMAXM =115;//
  // const Int_t NMAXM =97;//
  const Int_t NMAXM = 73;  //
 
  cout << "********************************************************************* NMAXM =  " << NMAXM << endl;
 
  // const Int_t NMAXM =2;//
  // const Int_t NMAXM =4;//
  // const Int_t NMAXM =1;//
  TString LEDrunsM[NMAXM] = {
 
      /*
   // 2017 HEP17 shunt6 
   "295401","295675","296185","296808","297082","297522","297571","297630","297687","298863",
   "299468","302183","302246","302585","304276","304432","304526","305142","305485","305711",
   "305886","306249" 
*/
 
      // 2018  shunt6
      //   "308784","308882","309238","309318","309321",
      //   "309370","309573","309704","310262","310456",
      //   "310847","310973","311457","311566"
      //                         12.03.2018
 
      /*
   // 2018 all 553 runs LED
"308784","308786","308788","308792","308821","308839","308851","308870","308881","308882","308937","308959","308960","308995","309008","309009","309010","309024","309036","309037","309059","309064","309069","309122","309123",
"309133","309134","309141","309144","309145","309152","309154","309156","309161","309162","309175","309237","309238","309318","309321","309322","309342","309370","309372","309373","309411","309444","309445","309538","309539",
"309545","309546","309565","309573","309592","309596","309646","309669","309670","309671","309672","309674","309678","309704","309714","309723","309727","309752","309819","309820","309821","309823","309824","309825","309833",
"309850","309869","309870","309873","309875","309877","309878","309880","309923","309924","309939","309940","309945","310008","310043","310052","310106","310108","310179","310181","310182","310183","310185","310188","310192",
"310197","310201","310202","310204","310222","310223","310226","310229","310244","310256","310262","310268","310285","310334","310340","310341","310348","310349","310363","310382","310387","310403","310410","310427","310452",
"310454","310456","310604","310806","310807","310847","310947","310948","310949","310952","310968","310973","311327","311334","311335","311338","311344","311347","311349","311353","311355","311358","311360","311361","311362",
"311363","311364","311366","311367","311369","311413","311454","311456","311457","311551","311566","311573","311753","311754","311759","311767","311783","311858","311901","312004","312009","312011","312013","312029","312031",
"312040","312051","312052","312054","312057","312058","312153","312155","312156","312157","312160","312185","312189","312200","312204","312211","312253","312281","312314","312316","312320","312333","312341","312372","312374",
"312375","312379","312384","312386","312392","312458","312461","312462","312466","312467","312469","312470","312471","312472","312482","312483","312484","312486","312487","312489","312524","312571","312575","312579","312618",
"312622","312626","312717","312756","312757","312775","312778","312870","312872","312874","312879","312880","312884","312886","312889","312953","313009","313049","313051","313064","313067","313072","313090","313149","313158",
"313174","313194","313232","313259","313260","313263","313264","313307","313335","313338","313340","313344","313371","313373","313375","313430","313479","313493","313495","313498","313625","313632","313890","313891","313897",
"313904","313915","313918","313919","314046","314097","314100","314103","314106","314111","314298","314308","314313","314419","314420","314422","314423","314424","314425","314426","314430","314431","314432","314542","314595",
"314597","314608","314695","314696","314769","314770","314776","314777","314779","314780","314782","314786","314795","314800","314826","314827","314895","314896","314897","314898","314899","314943","314944","314948","314949",
"315012","315016","315021","315023","315024","315040","315073","315129","315130","315132","315213","315285","315437","315579","315594","315657","315660","315735","315746","315748","315749","315754","315757","315812","315816",
"315984","316129","316316","316410","316489","316530","316584","316632","316677","316815","316826","317116","317119","317191","317193","317229","317268","317271","317273","317326","317363","317367","317398","317401","317444",
"317448","317601","317606","317607","317609","317610","317611","317612","317613","317617","317718","317719","317722","317728","317785","317790","317977","317981","317984","318207","318208","318211","318217","318222","318235",
"318758","318840","319198","319213","319401","319517","319519","319520","319564","319610","319612","319734","319771","319774","319857","319964","319969","320108","320117","320125","320158","320203","320205","320220","320348",
"320358","320371","320374","320577","320579","320871","320873","320892","320944","320947","320949","320950","320952","321019","321033","321036","321187","321197","321329","321339","321359","321371","321445","321447","321514",
"321534","321549","321552","321807","321853","321874","321927","322166","322255","322261","322338","322415","322419","322718","322719","322720","322721","322725","322781","322782","322801","322843","322853","322876","322931",
"322995","323016","323038","323308","323314","323502","323530","323531","323567","323579","323613","323737","323742","324030","324032","324111","324138","324219","324225","324296","324303","324591","324705","324919","324934",
"325141","325267","325433","325446","325453","325456","325457","325488","325498","325551","325640","325641","325748","325757","325787","325790","326234","326324","326780","326871","326875","327091","327283","327284","327288",
"327438","327441","327443","327547","327548","327552","327576","327577","327579","327580","327581","327591","327595","327616","327620","327656","327660","327670","327686","327687","327688","327689","327690","327691","327709",
"327711","327762","327785"
*/
      /*
   // 2018 all 205 runs LED
"315812","315816","315984","316129","316316","316410","316489","316530","316584","316632","316677","316815","316826","317116","317119","317191","317193","317229","317268","317271","317273","317326","317363","317367","317398",
"317401","317444","317448","317601","317606","317607","317609","317610","317611","317612","317613","317617","317718","317719","317722","317785","317790","317977","317981","317984","318207","318208","318211","318217","318222",
"318235","318758","318840","319198","319213","319401","319517","319519","319520","319564","319610","319612","319734","319771","319774","319857","319964","319969","320108","320117","320125","320158","320203","320205","320220",
"320348","320358","320371","320374","320577","320579","320871","320873","320892","320944","320947","320949","320950","320952","321019","321033","321036","321187","321197","321329","321339","321359","321371","321445","321447",
"321514","321534","321807","321853","321874","321927","322166","322255","322261","322338","322415","322419","322718","322719","322720","322721","322725","322781","322782","322801","322843","322853","322876","322931","322995",
"323016","323038","323308","323314","323502","323530","323531","323567","323579","323613","323737","323742","324030","324032","324111","324138","324219","324225","324296","324303","324591","324705","324919","324934","325141",
"325267","325433","325446","325453","325456","325457","325488","325498","325551","325640","325641","325748","325757","325787","325790","326234","326324","326780","326871","326875","327091","327283","327284","327288","327438",
"327441","327443","327547","327548","327552","327576","327577","327579","327580","327581","327591","327595","327616","327620","327656","327660","327670","327686","327687","327688","327689","327690","327691","327709","327711",
"327762","327785"
*/
 
      /*
// 2018 117 led runs
"315812","315984","316826","317116","317193","317268","317271","317273","317363","317398","317401","317444","317606","317607","317609","317610","317611","317612","317613","317617","317785","317981","317984","318207","318208",
"318235","318758","318840","319198","319401","319517","319519","319520","319564","319612","319734","319771","319774","319857","319969","320117","320158","320203","320205","320348","320579","320873","320892","320944","320952",
"321019","321036","321187","321339","321359","321371","321447","321514","321807","321853","321874","321927","322166","322261","322338","322419","322718","322719","322720","322721","322725","322781","322782","322801","322853",
"322876","322931","322995","323308","323314","323502","323530","323531","323579","323613","323742","324030","324032","324138","324225","324296","324919","325141","325433","325446","325456","325488","325498","325551",         
"325757","325787","326234","326780","326875","327288","327438","327552","327579",         "327591","327595","327616","327620","327656","327660","327670"
*/
      /*
"315812","315984","316826","317116","317193","317268","317271","317273","317363","317398","317401","317444","317606","317607","317609","317610","317611","317612","317613","317617","317785","318235","318758","318840","319198",
"319401","319517","319519","319520","319564","319612","319734","319771","319774","319857","319969","320117","320158","320203","320205","320348","320579","320873","320892","320944","320952","321019","321036","321187","321339",
"321359","321371","321447","321514","321807","321853","321874","321927","322166","322261","322338","322419","322718","322719","322720","322721","322725","322781","322782","322801","323308","323314","323502","323530","323531",
"323579","323613","323742","324030","324032","324138","324225","324296","324919","325141","325787","326234","326780","326875","327288","327438","327552","327579","327591","327595","327616","327620"                                
*/
      "315812", "315984", "316826", "317116", "317193", "317268", "317271", "317273", "317363", "317444", "317606",
      "317607", "317609", "317610", "317611", "317612", "317613", "317617", "317785", "318758", "319198", "319401",
      "319517", "319519", "319520", "319564", "319612", "319734", "319771", "319774", "319857", "319969", "320117",
      "320158", "320203", "320205", "320348", "320579", "320873", "320892", "320952", "321019", "321036", "321187",
      "321339", "321359", "321371", "321447", "321514", "321853", "321874", "322781", "322782", "323314", "323502",
      "323579", "323613", "323742", "324030", "324032", "324138", "324225", "324296", "324919", "325141", "325787",
      "326234", "326780", "326875", "327288", "327438", "327552", "327579"
 
 
      // 2018 shunt1:
      //   "310244","310387","310587","310650"
      //
      // "309880"
 
  };
  cout << "********************************************************************* first massives defined " << endl;
  /*
   // 2017 HEP17 shunt6
     1.,      4.,      10.,     18.,      21.,   30.,     31.,      32.,    33.,     46.,     
    54.,     97.,      98.,    106.,     128.,  130.,    132.,     142.,   149.,    152.,  
   156.,    164. 
*/
  Float_t X0M[NMAXM] = {
      // 2018   shunt6 led runs delta
      /*
   0.,      2.,     17.,     22.,      23.,    24.,      24.,     24.,    27.,     28.,     28.,     28.,     32.,      32.,     32.,     32.,     32.,     32.,     32.,     32.,     38.,     42.,     42.,     45.,     45.,
  45.,     51.,     52.,     58.,      63.,    65.,      65.,     65.,    66.,     68.,     70.,     71.,     71.,      72.,     74.,     77.,     78.,     79.,     79.,     80.,     85.,     90.,     91.,     92.,     92.,
  93.,     93.,     98.,    101.,     101.,   101.,     104.,    106.,   111.,    112.,    112.,    114.,    119.,     121.,    122.,    123.,    128.,    128.,    128.,    128.,    128.,    129.,    129.,    130.,    133.,
 133.,    134.,    134.,    138.,     138.,   141.,     142.,    142.,   142.,    143.,    146.,    150.,    150.,     151.,    153.,    155.,    165.,    169.,    175.,    175.,    175.,    176.,    176.,    177.,         
 179.,    179.,    183.,    193.,     195.,   203.,     205.,    208.,   209.,             210.,    210.,    210.,     210.,    212.,    212.,    212.
*/
      /*
   0.,      2.,     17.,     22.,      23.,    24.,      24.,     24.,    27.,     28.,     28.,     28.,     32.,      32.,     32.,     32.,     32.,     32.,     32.,     32.,     38.,    45.,     51.,     52.,     58.,      
  63.,     65.,     65.,     65.,      66.,    68.,      70.,     71.,    71.,     72.,     74.,     77.,     78.,      79.,     79.,     80.,     85.,     90.,     91.,     92.,     92.,    93.,     93.,     98.,    101.,     
 101.,    101.,    104.,    106.,     111.,   112.,     112.,    114.,   119.,    121.,    122.,    123.,    128.,     128.,    128.,    128.,    128.,    129.,    129.,    130.,    138.,   138.,    141.,    142.,    142.,   
 142.,    143.,    146.,    150.,     150.,   151.,     153.,    155.,   165.,    169.,    179.,    183.,    193.,     195.,    203.,    205.,    208.,    209.,    210.,    210.,    210.,   210.,                            
*/
 
      0.,   2.,   17.,  22.,  23.,  24.,  24.,  24.,  27.,  29.,  32.,  32.,  32.,  32.,  32.,  32.,  32.,  32.,  38.,
      51.,  58.,  63.,  65.,  65.,  65.,  66.,  68.,  70.,  71.,  71.,  72.,  74.,  77.,  78.,  79.,  79.,  80.,  85.,
      90.,  91.,  92.,  93.,  93.,  98.,  101., 101., 101., 104., 106., 112., 112., 129., 129., 138., 141., 142., 143.,
      146., 150., 150., 151., 153., 155., 165., 169., 179., 183., 193., 195., 203., 205., 208., 209.
 
      /*
   // 2018   shunt6
//   1.,        2.,      8.,     9.,      10.,   
//   13.,      14.,     20.,    23.,      25., 
//   31.,      34.,     39.,    41.
 
 
   // 2018 all 553
   1.,       2.,      3.,      4.,       5.,     6.,      7.,      8.,      9.,     10.,     11.,      12.,      13.,    14.,      15.,     16.,     17.,     18.,    19.,     20.,     21.,      22.,      23.,     24.,    25., 
  26.,      27.,     28.,     29.,      30.,    31.,     32.,     33.,     34.,     35.,     36.,      37.,      38.,    39.,      40.,     41.,     42.,     43.,    44.,     45.,     46.,      47.,      48.,     49.,    50., 
  51.,      52.,     53.,     54.,      55.,    56.,     57.,     58.,     59.,     60.,     61.,      62.,      63.,    64.,      65.,     66.,     67.,     68.,    69.,     70.,     71.,      72.,      73.,     74.,    75., 
  76.,      77.,     78.,     79.,      80.,    81.,     82.,     83.,     84.,     85.,     86.,      87.,      88.,    89.,      90.,     91.,     92.,     93.,    94.,     95.,     96.,      97.,      98.,     99.,   100., 
 101.,     102.,    103.,    104.,     105.,   106.,    107.,    108.,    109.,    110.,    111.,     112.,     113.,   114.,     115.,    116.,    117.,    118.,   119.,    120.,    121.,     122.,     123.,    124.,   125., 
 126.,     127.,    128.,    129.,     130.,   131.,    132.,    133.,    134.,    135.,    136.,     137.,     138.,   139.,     140.,    141.,    142.,    143.,   144.,    145.,    146.,     147.,     148.,    149.,   150., 
 151.,     152.,    153.,    154.,     155.,   156.,    157.,    158.,    159.,    160.,    161.,     162.,     163.,   164.,     165.,    166.,    167.,    168.,   169.,    170.,    171.,     172.,     173.,    174.,   175., 
 176.,     177.,    178.,    179.,     180.,   181.,    182.,    183.,    184.,    185.,    186.,     187.,     188.,   189.,     190.,    191.,    192.,    193.,   194.,    195.,    196.,     197.,     198.,    199.,   200., 
 201.,     202.,    203.,    204.,     205.,   206.,    207.,    208.,    209.,    210.,    211.,     212.,     213.,   214.,     215.,    216.,    217.,    218.,   219.,    220.,    221.,     222.,     223.,    224.,   225., 
 226.,     227.,    228.,    229.,     230.,   231.,    232.,    233.,    234.,    235.,    236.,     237.,     238.,   239.,     240.,    241.,    242.,    243.,   244.,    245.,    246.,     247.,     248.,    249.,   250., 
 251.,     252.,    253.,    254.,     255.,   256.,    257.,    258.,    259.,    260.,    261.,     262.,     263.,   264.,     265.,    266.,    267.,    268.,   269.,    270.,    271.,     272.,     273.,    274.,   275., 
 276.,     277.,    278.,    279.,     280.,   281.,    282.,    283.,    284.,    285.,    286.,     287.,     288.,   289.,     290.,    291.,    292.,    293.,   294.,    295.,    296.,     297.,     298.,    299.,   300., 
 301.,     302.,    303.,    304.,     305.,   306.,    307.,    308.,    309.,    310.,    311.,     312.,     313.,   314.,     315.,    316.,    317.,    318.,   319.,    320.,    321.,     322.,     323.,    324.,   325., 
 326.,     327.,    328.,    329.,     330.,   331.,    332.,    333.,    334.,    335.,    336.,     337.,     338.,   339.,     340.,    341.,    342.,    343.,   344.,    345.,    346.,     347.,     348.,    349.,   350., 
 351.,     352.,    353.,    354.,     355.,   356.,    357.,    358.,    359.,    360.,    361.,     362.,     363.,   364.,     365.,    366.,    367.,    368.,   369.,    370.,    371.,     372.,     373.,    374.,   375., 
 376.,     377.,    378.,    379.,     380.,   381.,    382.,    383.,    384.,    385.,    386.,     387.,     388.,   389.,     390.,    391.,    392.,    393.,   394.,    395.,    396.,     397.,     398.,    399.,   400., 
 401.,     402.,    403.,    404.,     405.,   406.,    407.,    408.,    409.,    410.,    411.,     412.,     413.,   414.,     415.,    416.,    417.,    418.,   419.,    420.,    421.,     422.,     423.,    424.,   425., 
 426.,     427.,    428.,    429.,     430.,   431.,    432.,    433.,    434.,    435.,    436.,     437.,     438.,   439.,     440.,    441.,    442.,    443.,   444.,    445.,    446.,     447.,     448.,    449.,   450., 
 451.,     452.,    453.,    454.,     455.,   456.,    457.,    458.,    449.,    460.,    461.,     462.,     463.,   464.,     465.,    466.,    467.,    468.,   469.,    470.,    471.,     472.,     473.,    474.,   475., 
 476.,     477.,    478.,    479.,     480.,   481.,    482.,    483.,    484.,    485.,    486.,     487.,     488.,   489.,     490.,    491.,    492.,    493.,   494.,    495.,    496.,     497.,     498.,    499.,   500., 
 501.,     502.,    503.,    504.,     505.,   506.,    507.,    508.,    509.,    510.,    511.,     512.,     513.,   514.,     515.,    516.,    517.,    518.,   519.,    520.,    521.,     522.,     523.,    524.,   525., 
 526.,     527.,    528.,    529.,     530.,   531.,    532.,    533.,    534.,    535.,    536.,     537.,     538.,   539.,     540.,    541.,    542.,    543.,   544.,    545.,    546.,     547.,     548.,    549.,   550., 
 551.,     552.,    553.
 
 
 
 
   // 2018 shunt1:
   //   1.,     7.,     11.,     31.
 
     //850.,900.,950.,1000.,1050.,1100.,1150.,1200.
*/
  };  // days of year    time points (abscissa) !!!
      /*
   // Float_t X0M[NMAXM];
 for(int kk1 = 0; kk1<NMAXM; kk1++){ 
   //   X0M[kk1] = kk1+1.;
   ++X0M[kk1];// delta+1
 }//
*/
  cout << "********************************************************************* both massives are defined " << endl;
  //______________________________________________________________________________________________________________________________   TEST
  //______________________________________________________________________________________________________________________________   TEST
  //______________________________________________________________________________________________________________________________   TEST
  //______________________________________________________________________________________________________________________________   TEST
  /*
 const Int_t NMAXM =1;// 
 TString LEDrunsM[NMAXM] = {
   // "309445"
   "309714"
 };
 Float_t X0M[NMAXM] = {
     1.
 };// days of year    time points (abscissa) !!!
*/
  //______________________________________________________________________________
  //______________________________________________________________________________
  //______________________________________________________________________________
  //______________________________________________________________________________
  // //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
  //                                           2018 only:                   yearcase=0 for test
 
  //                                           2016 only:                   yearcase=1
  //                                           2017 only:                   yearcase=2
  //                                           20167    :                   yearcase=3
  //                                           2018 only:                   yearcase=4
  //                                           201678   :                   yearcase=5
 
  //define yearcase:
  //         ____________________________________________________________________________                    THIS line below is MAIN to make a yearcase selection !!!!!!!!!!!!!!!!!!!!!!!!!!
  const Int_t yearcase = 0;
  //
  cout << "************************************** yearcase = " << yearcase << endl;
  // //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
  // //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
  // //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
  // //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
  //    Int_t verbosity = 2;//
  //    Int_t verbosity = 3;//
  //    Int_t verbosity = 4;//   to clarify # channels in HEP17
  Int_t verbosity = 0;  //
  // //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
 
  const Int_t flagHEP17selection = 2;  // -> ALL channels w/o bad ones (was used for final !!! result)
                                       //  const Int_t flagHEP17selection = 1;// ==1 HEP17;
  //     const Int_t flagHEP17selection = 0;//  -> ALL channels (used to see 2D plots of bad channels)
 
  cout << "************************************** flagHEP17selection = " << flagHEP17selection << endl;
  // //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
  //______________________________________________________________________________
 
  //______________________________________________________________________________
  //______________________________________________________________________________
  //
  //---=[ SetCanvasDef           ]=----------------
  // Create a new canvas.
  //TCanvas  *c1 = new TCanvas("c1","GSM",10,10,900,700);
 
  //TCanvas  *c1 = new TCanvas("c1","GSM",20,50,920,850);
  TCanvas* c1 = new TCanvas("c1", "GSM", 10, 10, 1010, 1010);
 
  //TCanvas  *c1 = new TCanvas("c1","GSM",200,10,700,900);
  //TCanvas  *c1 = new TCanvas("c1","Hcal4test",200,10,700,900);
 
  c1->Range(0, 0, 25, 18);
  //c1->SetFillColor(40);
  c1->SetFillColor(0);
  c1->Clear();
 
  TLatex* t = new TLatex();
  t->SetTextFont(32);
  //t->SetTextColor(4);
  t->SetTextSize(0.03);
  t->SetTextAlign(12);
  //______________________________________________________________________________
  t->DrawLatex(
      0.9, 15.5, "Time dependence of full Amplitude averaged over events of each LED run for some random HE channels");
 
  //-----------------------------------------------------------------------------------------------------
  //
  //              x1   y1     x2     y2
  //    pad1->DrawFrame(1,   0.8,  370,   1.2);// all
 
  //
  //      Float_t x1=0.00; Float_t x2=170.00;
  //       Float_t x1=0.00; Float_t x2=850.00;
 
  //          Float_t x1=0.00; Float_t x2=45.00;
  Float_t x1 = 0.00;
  Float_t x2 = 215.0;
 
  // y(ordinate) for All Days
  //  Float_t y1=0.985; Float_t y2=  1.015;
  Float_t y1 = 0.9;
  Float_t y2 = 1.1;
 
  //
  // x(abscissa) for Days
  Float_t RrangeMIN = y1;
  Float_t RrangeMAX = y2;
 
  //
  Float_t xx1 = 0.35;
  Float_t xx2 = 0.55;
  Float_t yy1 = 0.76;
  Float_t yy2 = 0.88;
  //
  cout << "************************************** RrangeMIN = " << RrangeMIN << "  RrangeMAX = " << RrangeMAX << endl;
 
  //-----------------------------------------------------------------------------------------------------
  //-----------------------------------------------------------------------------------------------------
  const Int_t NDEP = 8;
  const Int_t NETA0 = 83;
  const Int_t NPHI0 = 73;
  //
  Double_t mapRATIO[NDEP][NETA0][NPHI0];
  Double_t mapRATIOD2[NETA0][NPHI0];
  Int_t mapRATIOD20[NETA0][NPHI0];
 
  //Double_t normalization[NDEP][NETA0][NPHI0];
  Double_t normalization[NETA0][NPHI0];
  cout << "************************************** NDEP = " << NDEP << "  NETA0 = " << NETA0 << "  NPHI0 = " << NPHI0
       << endl;
 
  // define max size of massives (to be just NMAXSIZE ):
  Int_t NMAXSIZE = NMAXM;
  Float_t X0[NMAXSIZE];
  TString LEDruns[NMAXSIZE];
  Double_t XX[NMAXSIZE];
  Double_t XXE[NMAXSIZE];
  Double_t XXX[NMAXSIZE];
  Double_t XXXE[NMAXSIZE];
  Int_t indWAS[NMAXSIZE];
 
  Double_t YY[NMAXSIZE];
  Double_t YYE[NMAXSIZE];
  cout << "************************************** NMAXSIZE = " << NMAXSIZE << " NMAXM  = " << NMAXM << endl;
  //----------------------------------------------------------------------
 
  Double_t GSMRATIOD2[NMAXSIZE][NETA0][NPHI0];
 
  // define where to run inside massives above:
  //                                                                            yearcase=0
  Int_t NMINmM = 0;
  Int_t NMAXmM = NMAXSIZE - 1;
  Int_t NMAXaM = NMAXSIZE;
  if (yearcase == 1) {
    //                                           2016 only:                     yearcase=1
    NMINmM = 0;
    NMAXmM = 46;
    NMAXaM = 47;  // M
  } else if (yearcase == 2) {
    //                                           2017 only::                    yearcase=2
    NMINmM = 53;
    NMAXmM = 93;
    NMAXaM = 41;  // M
  } else if (yearcase == 3) {
    //                                           20167 only::                   yearcase=3
    NMINmM = 0;
    NMAXmM = 93;
    NMAXaM = 94;  // M
  } else if (yearcase == 4) {
    //                                           2018 only::                    yearcase=4
    NMINmM = 94;
    NMAXmM = -1;
    NMAXaM = -1;  // M
  } else if (yearcase == 5) {
    //                                           20168 only::                   yearcase=5
    NMINmM = 0;
    NMAXmM = -1;
    NMAXaM = -1;  // M
  }
 
  cout << "************************************** NMINmM = " << NMINmM << " NMAXmM  = " << NMAXmM
       << " NMAXaM  = " << NMAXaM << endl;
  if (NMINmM == -1 || NMAXmM == -1 || NMAXaM == -1)
    cout << " STOP  !!!!!!     NMINmM == -1 || NMAXmM == -1 || NMAXaM == -1 " << endl;
  Int_t NMAX = 0;
  NMAX = NMAXaM;
  //      cout << "NMAX= " << NMAX << "NMINmM= " << NMINmM << "NMAXmM= " << NMAXmM <<endl;
  for (int jjj = NMINmM; jjj <= NMAXmM; jjj++) {
    LEDruns[jjj - NMINmM] = LEDrunsM[jjj];
    X0[jjj - NMINmM] = X0M[jjj];
    //  cout << "jjj= " << jjj << "     jjj-NMINmM= " << jjj-NMINmM << "     LEDrunsM[jjj]= " << LEDrunsM[jjj] << "     X0M[jjj]= " << X0M[jjj] <<endl;
  }
  //========================================================================================================================
  //---------------------------------------------------------------------------------------------------------------------
  //---------------------------------------------------------------------------------------------------------------------
  //      Int_t NP = 22; // for loop over time points(LED runs) NMAX is number of LED runs(time abscissa)
  Int_t NP = NMAX;  // for loop over time points(LED runs) NMAX is number of LED runs(time abscissa)
  cout << "******************* NP = " << NP << endl;
  //
  //---------------------------------------------------------------------------------------------------------------------  !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
  // take into account for future treatment only channels with <Aijk>_runevents within cutMinA to cutMaxA:
  //    Double_t cutMinA =400.; Double_t cutMaxA = 1200.;  // HPD HE only
 
  //        Double_t cutMinA =0.; Double_t cutMaxA = 999999999999.;
  Double_t cutMinA = 50000.;
  Double_t cutMaxA = 150000.;
  //    Double_t cutMinA =50000.; Double_t cutMaxA = 350000.;
 
  //    Double_t cutMinA =9000.; Double_t cutMaxA = 40000.;
  //
  // //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
  //---------------------------------------------------------------------------------------------------------------------
  //------------------------------------ define DELTA (days) of current point wrt first point
  for (int kk1 = 0; kk1 < NP; kk1++) {
    XX[kk1] = X0[kk1];
    int k10 = 0;
    int z1 = X0[k10];
    XX[kk1] -= z1;
    if (verbosity == 2) {
      cout << "ORDINATE points:    kk1 =  " << kk1 << "  XX[kk1]= " << XX[kk1] << endl;
    }
 
    XXE[kk1] = 0.001 * XX[kk1];
  }  //XXE - errors at fit
  //-----------------------------------------------------------------------------------------------------
 
  //----------------------------------------------------------------------------------------------------
  //----------------------------------------------------------------------------------------------------
  for (int jjj = 0; jjj <= 82; jjj++) {
    for (int kkk = 0; kkk <= 72; kkk++) {
      mapRATIOD2[jjj][kkk] = 0.;
      mapRATIOD20[jjj][kkk] = 0.;
      normalization[jjj][kkk] = 0.;
 
      for (int k1 = 0; k1 < NP; k1++) {
        GSMRATIOD2[k1][jjj][kkk] = mapRATIOD2[jjj][kkk];
      }
 
      for (int iii = 0; iii < NDEP; iii++) {
        mapRATIO[iii][jjj][kkk] = 0.;
        //  normalization[iii][jjj][kkk] = 0.;
      }
 
    }  // for
  }    // for
 
 
  //______________________________________________________________________________
  //     ls -latr /afs/cern.ch/cms/CAF/CMSALCA/ALCA_HCALCALIB/HCALMONITORING/RDMweb/histos/LED_* | less
 
  TString fname = "/afs/cern.ch/cms/CAF/CMSALCA/ALCA_HCALCALIB/HCALMONITORING/RDMweb/histos/LED_";
  //  TString fname = "/afs/cern.ch/cms/CAF/CMSALCA/ALCA_HCALCALIB/HCALMONITORING/RDMweb/histos/LASER_";
 
  // booking:
  TH1F* Seff1D = new TH1F("Seff1D", "", 1000, 10., 100010.);
  TH1F* Ceff1D = new TH1F("Ceff1D", "", 1500, 10., 500010.);
  //    TH1F* Seff1D = new TH1F("Seff1D","", 1000, 0.,100000.);
  //    TH1F* Ceff1D = new TH1F("Ceff1D","", 1500, 0.,1500000.);
  // led shunt1 low-intensity Gsel0:
  //    TH1F* Seff1D = new TH1F("Seff1D","", 1000, 0.,1000.);
  //    TH1F* Ceff1D = new TH1F("Ceff1D","", 350, 0.,350.);
 
  TH2F* mapBADchannels = new TH2F("mapBADchannels", " ", 82, -41., 41., 72, 0., 72.);
  TH2F* mapBADchannels0 = new TH2F("mapBADchannels0", " ", 82, -41., 41., 72, 0., 72.);
 
  TH2F* mapchannelsdepth1 = new TH2F("mapchannelsdepth1", " ", 82, -41., 41., 72, 0., 72.);
  TH2F* mapchannelsdepth2 = new TH2F("mapchannelsdepth2", " ", 82, -41., 41., 72, 0., 72.);
  TH2F* mapchannelsdepth3 = new TH2F("mapchannelsdepth3", " ", 82, -41., 41., 72, 0., 72.);
  TH2F* mapchannelsdepth4 = new TH2F("mapchannelsdepth4", " ", 82, -41., 41., 72, 0., 72.);
  TH2F* mapchannelsdepth5 = new TH2F("mapchannelsdepth5", " ", 82, -41., 41., 72, 0., 72.);
  TH2F* mapchannelsdepth6 = new TH2F("mapchannelsdepth6", " ", 82, -41., 41., 72, 0., 72.);
  TH2F* mapchannelsdepth7 = new TH2F("mapchannelsdepth7", " ", 82, -41., 41., 72, 0., 72.);
 
  TH1F* gainkoeff = new TH1F("gainkoeff", "", 100, y1, y2);
  TH1F* gainkoeff0 = new TH1F("gainkoeff0", "", 100, 0.9, 1.1);
  TH1F* gainkoeff9 = new TH1F("gainkoeff9", "", 100, 0.1, 1.9);
  TH1F* GOODruns = new TH1F("GOODruns", "", NP, 0., float(NP));
  TH1F* BADruns = new TH1F("BADruns", "", NP, 0., float(NP));
  TH1F* NotEmptyDepthes = new TH1F("NotEmptyDepthes", "", 56, 0., 56.);
 
  Int_t kmm = 0;
  Int_t firstrun = 0;
  //  Int_t firstrun=1;
  //  Int_t firstrun=2; //
  //  Int_t firstrun=3;
  //    Int_t firstrun=4;
  //  Int_t firstrun=5;
 
  //  Int_t firstrun=6;
  //  Int_t firstrun=54;
  //  Int_t firstrun=347;
 
  //    Int_t firstrun=7;
  //    Int_t firstrun=8;
  //    Int_t firstrun=9;
  //
  cout << "!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! firstrun =  " << firstrun << " run = " << LEDruns[firstrun] << endl;
 
 
  //    cout << "!!!!!!!!!!!!!!!!!!!!!! use root files from official RMT dir. " <<endl;
  cout << "!!!!!!!!!!!!!!!!!!!!!! use root files from my shunt6 dir. " << endl;
  //cout << "!!!!!!!!!!!!!!!!!!!!!! use root files from my shunt1 dir. " <<endl;
 
  //  TH1F* Aeff1D = new TH1F("Aeff1D","", 300, 0.,300.);
  TH1F* Aeff1D = new TH1F("Aeff1D", "", 200, 0., 2000000.);
  int ck1count = 0;
  for (int k1 = firstrun; k1 < NP; k1++) {
    //  for(int k1 = 0; k1<NP; k1++) {
    ck1count++;
    // my dir.
    //    TString epsName = "rootshunt6/LEDtest" + LEDruns[k1] + ".root";
    //           TString epsName = "rootshunt1/LEDtest" + LEDruns[k1] + ".root";
 
    //      if(k1 > 21) {epsName = fname + LEDruns[k1] + ".root";}// 2018 shunt1
    //        TString epsName = "rootshunt1/LEDtest" + LEDruns[k1] + ".root";
 
    /*
      TString epsName;
      if(k1 < 0) {epsName = "rootshunt6/LEDtest" + LEDruns[k1] + ".root";}// was used: shunt6 for HEP17 2017 channels !!!
      if(k1 == 0) {epsName = "rootshunt1/LEDtest" + LEDruns[k1] + ".root";}
      if(k1 == 1) {epsName = "rootshunt6/LEDtest" + LEDruns[k1] + ".root";}
*/
    //        TString epsName = "LEDtest" + LEDruns[k1] + ".root";
 
    //    TString epsName = "LEDtest309714.root";
    //    TString epsName = "LEDtest307971NEW.root";
 
    // RMT:
    TString epsName = fname + LEDruns[k1] + ".root";
 
 
    TFile* hfile = new TFile(epsName, "READ");
    //            cout << "!!!! read LED run with k1= " << k1   <<"  run:  " << LEDruns[k1] <<endl;
 
    // display existing histoes: preparation for plotting all runs into Aeff1D
    //      TH1F * Aeff1= (TH1F*)hfile->Get("h_ADCAmpl_HE");
    //    h_ADCAmpl345Zoom_HE = new TH1F("h_ADCAmpl345Zoom_HE"," ", 300, 0.,300.);
    //    h_ADCAmpl345Zoom1_HE = new TH1F("h_ADCAmpl345Zoom1_HE"," ", 200, 0.,1200.);
    //    h_ADCAmplZoom1_HE = new TH1F("h_ADCAmplZoom1_HE"," ", 500, 0.,500.);
 
    //      TH1F * Aeff1= (TH1F*)hfile->Get("h_ADCAmpl345Zoom_HE");
    //      TH1F * Aeff1= (TH1F*)hfile->Get("h_ADCAmpl345Zoom1_HE");
    //      TH1F * Aeff1= (TH1F*)hfile->Get("h_ADCAmplZoom1_HE");
    TH1F* Aeff1 = (TH1F*)hfile->Get("h_ADCAmpl_HE");
 
    int kx = Aeff1->GetXaxis()->GetNbins();
    //      cout  <<"BEGINNING k1= " << k1 <<" kx= " << kx <<endl;
    int maxvalueA = -1;
    for (int jjj = 0; jjj < kx; jjj++) {
      if (double(Aeff1->GetBinContent(jjj)) > 0. && maxvalueA < jjj)
        maxvalueA = jjj;
      //    cout  <<" k1= " << k1 <<" jjj= " << jjj <<" content= " << Aeff1->GetBinContent(jjj) <<endl;
      Aeff1D->Fill(float(jjj), double(Aeff1->GetBinContent(jjj)));
    }  // for
    cout << " run = " << LEDruns[k1] << " k1= " << k1 << " max bin value= " << maxvalueA << " ck1count= " << ck1count
         << endl;
 
    //
    //
    // display last-run existing histoes:
    if (k1 == NP - 1) {
      c1->Clear();
      c1->Divide(1, 1);
      c1->cd(1);
      gPad->SetGridy();
      gPad->SetGridx();
      gPad->SetLogy();
      gStyle->SetOptStat(101110);
      Aeff1->SetMarkerStyle(20);
      Aeff1->SetMarkerSize(0.4);
      Aeff1->GetYaxis()->SetLabelSize(0.04);
      //    Aeff1->SetTitle("Last run & events & channels");
      Aeff1->SetXTitle("Aijk");
      Aeff1->SetYTitle("N");
      Aeff1->SetMarkerColor(4);
      Aeff1->SetLineColor(4);
      Aeff1->SetMinimum(0.8);
      Aeff1->Draw("PL");
      c1->Update();
      TString fdir = "testamt0shunt6gsm2018/";
      //    TString plotName = fdir + "Aijk.png";
      TString plotName = fdir + "Aijk-Run" + LEDruns[k1] + ".png";
      c1->SaveAs(plotName);
      cout << "****PLOT  AijkLastRun.png is drawn **** " << endl;
    }
    // display first runt existing histoes:
    //      if(k1== 0 ) {
    if (k1 == firstrun) {
      c1->Clear();
      c1->Divide(1, 1);
      c1->cd(1);
      gPad->SetGridy();
      gPad->SetGridx();
      //    gPad->SetLogy();
      gStyle->SetOptStat(101110);
      Aeff1->SetMarkerStyle(20);
      Aeff1->SetMarkerSize(0.4);
      Aeff1->GetYaxis()->SetLabelSize(0.04);
      Aeff1->SetTitle("First run & events & channels");
      Aeff1->SetXTitle("Aijk");
      Aeff1->SetYTitle("N");
      Aeff1->SetMarkerColor(4);
      Aeff1->SetLineColor(4);
      Aeff1->SetMinimum(0.8);
      Aeff1->Draw("PL");
      c1->Update();
      TString fdir = "testamt0shunt6gsm2018/";
      TString plotName = fdir + "AijkFirstRun.png";
      c1->SaveAs(plotName);
      cout << "****PLOT  AijkLAST.png is drawn **** " << endl;
    }
    // 000000000000000000000000000000000000000000000000000000000000000000000000
    //      TH2F *twod1= (TH2F*)hfile->Get("h_mapDepth1ADCAmpl");
    //      TH2F *twod2= (TH2F*)hfile->Get("h_mapDepth2ADCAmpl");
    //      TH2F *twod3= (TH2F*)hfile->Get("h_mapDepth3ADCAmpl");
    // 111111111111111111111111111111111111111111111111111111111111111111111111
    // h_mapDepth1ADCAmpl12 means ADCcounts(massive) within -1 max +1 +2
 
    /*
    TH2F *twod1= (TH2F*)hfile->Get("h_mapDepth1ADCAmpl12_HE");
    TH2F *twod2= (TH2F*)hfile->Get("h_mapDepth2ADCAmpl12_HE");
    TH2F *twod3= (TH2F*)hfile->Get("h_mapDepth3ADCAmpl12_HE");
*/
    // HEP17 of 2017:
    //      TH2F *twod1= (TH2F*)hfile->Get("h_mapDepth1ADCAmpl12SiPM_HE");
    //      TH2F *twod2= (TH2F*)hfile->Get("h_mapDepth2ADCAmpl12SiPM_HE");
    //      TH2F *twod3= (TH2F*)hfile->Get("h_mapDepth3ADCAmpl12SiPM_HE");
    // all:
 
    TH2F* twod1 = (TH2F*)hfile->Get("h_mapDepth1ADCAmpl12_HE");
    TH2F* twod2 = (TH2F*)hfile->Get("h_mapDepth2ADCAmpl12_HE");
    TH2F* twod3 = (TH2F*)hfile->Get("h_mapDepth3ADCAmpl12_HE");
 
    TH2F* twod4 = (TH2F*)hfile->Get("h_mapDepth4ADCAmpl12_HE");
    TH2F* twod5 = (TH2F*)hfile->Get("h_mapDepth5ADCAmpl12_HE");
    TH2F* twod6 = (TH2F*)hfile->Get("h_mapDepth6ADCAmpl12_HE");
    TH2F* twod7 = (TH2F*)hfile->Get("h_mapDepth7ADCAmpl12_HE");
 
    // all TS bins:
    //      TH2F *twod1= (TH2F*)hfile->Get("h_mapDepth1ADCAmpl_HE");
    //      TH2F *twod2= (TH2F*)hfile->Get("h_mapDepth2ADCAmpl_HE");
    //      TH2F *twod3= (TH2F*)hfile->Get("h_mapDepth3ADCAmpl_HE");
 
    //      TH2F *twod4= (TH2F*)hfile->Get("h_mapDepth4ADCAmpl_HE");
    //      TH2F *twod5= (TH2F*)hfile->Get("h_mapDepth5ADCAmpl_HE");
    //      TH2F *twod6= (TH2F*)hfile->Get("h_mapDepth6ADCAmpl_HE");
    //      TH2F *twod7= (TH2F*)hfile->Get("h_mapDepth7ADCAmpl_HE");
 
    int nx = twod1->GetXaxis()->GetNbins();
    int ny = twod1->GetYaxis()->GetNbins();
    //      cout  <<"BEGINNING k1= " << k1 <<" nx= " << nx <<" ny= " << ny   <<endl;
 
    TH2F* t0010 = (TH2F*)hfile->Get("h_mapDepth1_HE");
    TH2F* t0020 = (TH2F*)hfile->Get("h_mapDepth2_HE");
    TH2F* t0030 = (TH2F*)hfile->Get("h_mapDepth3_HE");
    TH2F* t0040 = (TH2F*)hfile->Get("h_mapDepth4_HE");
    TH2F* t0050 = (TH2F*)hfile->Get("h_mapDepth5_HE");
    TH2F* t0060 = (TH2F*)hfile->Get("h_mapDepth6_HE");
    TH2F* t0070 = (TH2F*)hfile->Get("h_mapDepth7_HE");
 
    TH2F* Ceff1 = (TH2F*)twod1->Clone("Ceff1");
    TH2F* Ceff2 = (TH2F*)twod2->Clone("Ceff2");
    TH2F* Ceff3 = (TH2F*)twod3->Clone("Ceff3");
    TH2F* Ceff4 = (TH2F*)twod4->Clone("Ceff4");
    TH2F* Ceff5 = (TH2F*)twod5->Clone("Ceff5");
    TH2F* Ceff6 = (TH2F*)twod6->Clone("Ceff6");
    TH2F* Ceff7 = (TH2F*)twod7->Clone("Ceff7");
 
    // <Aijk>_runevents:
    Ceff1->Divide(twod1, t0010, 1, 1, "B");
    Ceff2->Divide(twod2, t0020, 1, 1, "B");
    Ceff3->Divide(twod3, t0030, 1, 1, "B");
    Ceff4->Divide(twod4, t0040, 1, 1, "B");
    Ceff5->Divide(twod5, t0050, 1, 1, "B");
    Ceff6->Divide(twod6, t0060, 1, 1, "B");
    Ceff7->Divide(twod7, t0070, 1, 1, "B");
    //      Ceff1->Sumw2();Ceff2->Sumw2();Ceff3->Sumw2();
    for (int jjj = 0; jjj < nx; jjj++) {
      for (int kkk = 0; kkk < ny; kkk++) {
        // HEP17 selection:
        if (flagHEP17selection == 0 ||
            (flagHEP17selection == 1 && (((jjj > 56 && jjj < 62) && (kkk > 63 && kkk < 68)) ||
                                         ((jjj > 61 && jjj < 71) && (kkk == 64 || kkk == 66)))) ||
            (flagHEP17selection == 2 && !(((jjj > 14 && jjj < 25) && (kkk > 55 && kkk < 64))))) {
          //      if(Ceff1->GetBinContent(jjj,kkk) !=0.)  cout  <<" k1=111111 " << k1 <<" eta= " << jjj <<" phi= " << kkk   <<" Ceff1= " << Ceff1->GetBinContent(jjj,kkk)   <<endl;
          //      if(Ceff7->GetBinContent(jjj,kkk) !=0.)  cout  <<" k1=77777777777 " << k1 <<" eta= " << jjj <<" phi= " << kkk   <<" Ceff7= " << Ceff7->GetBinContent(jjj,kkk)   <<endl;
          if (Ceff1->GetBinContent(jjj, kkk) > 0.)
            mapchannelsdepth1->Fill(double(jjj) - 41., double(kkk), Ceff1->GetBinContent(jjj, kkk));
          if (Ceff2->GetBinContent(jjj, kkk) > 0.)
            mapchannelsdepth2->Fill(double(jjj) - 41., double(kkk), Ceff2->GetBinContent(jjj, kkk));
          if (Ceff3->GetBinContent(jjj, kkk) > 0.)
            mapchannelsdepth3->Fill(double(jjj) - 41., double(kkk), Ceff3->GetBinContent(jjj, kkk));
          if (Ceff4->GetBinContent(jjj, kkk) > 0.)
            mapchannelsdepth4->Fill(double(jjj) - 41., double(kkk), Ceff4->GetBinContent(jjj, kkk));
          if (Ceff5->GetBinContent(jjj, kkk) > 0.)
            mapchannelsdepth5->Fill(double(jjj) - 41., double(kkk), Ceff5->GetBinContent(jjj, kkk));
          if (Ceff6->GetBinContent(jjj, kkk) > 0.)
            mapchannelsdepth6->Fill(double(jjj) - 41., double(kkk), Ceff6->GetBinContent(jjj, kkk));
          if (Ceff7->GetBinContent(jjj, kkk) > 0.)
            mapchannelsdepth7->Fill(double(jjj) - 41., double(kkk), Ceff7->GetBinContent(jjj, kkk));
        }  // if HEP17 selection
      }    // for
    }      // for
    //  }
 
    //
    //
    // fill:
    // fill massive <Aijk>_runevents ,  where iii=depth, jjj=eta, kkk=phi
    for (int jjj = 0; jjj < nx; jjj++) {
      for (int kkk = 0; kkk < ny; kkk++) {
        //
        // HEP17 selection:
        if (flagHEP17selection == 0 ||
            (flagHEP17selection == 1 && (((jjj > 56 && jjj < 62) && (kkk > 63 && kkk < 68)) ||
                                         ((jjj > 61 && jjj < 71) && (kkk == 64 || kkk == 66)))) ||
            (flagHEP17selection == 2 && !(((jjj > 14 && jjj < 25) && (kkk > 55 && kkk < 64))))) {
          // FILL NEW PLOTS:
          // Aijk: Ceff1D & Seff1D plots
          if (Ceff1->GetBinContent(jjj, kkk) != 0.) {
            Ceff1D->Fill(Ceff1->GetBinContent(jjj, kkk));
            Seff1D->Fill(Ceff1->GetBinContent(jjj, kkk));
          }
          if (Ceff2->GetBinContent(jjj, kkk) != 0.) {
            Ceff1D->Fill(Ceff2->GetBinContent(jjj, kkk));
            Seff1D->Fill(Ceff2->GetBinContent(jjj, kkk));
          }
          if (Ceff3->GetBinContent(jjj, kkk) != 0.) {
            Ceff1D->Fill(Ceff3->GetBinContent(jjj, kkk));
            Seff1D->Fill(Ceff3->GetBinContent(jjj, kkk));
          }
          if (Ceff4->GetBinContent(jjj, kkk) != 0.) {
            Ceff1D->Fill(Ceff4->GetBinContent(jjj, kkk));
            Seff1D->Fill(Ceff4->GetBinContent(jjj, kkk));
          }
          if (Ceff5->GetBinContent(jjj, kkk) != 0.) {
            Ceff1D->Fill(Ceff5->GetBinContent(jjj, kkk));
            Seff1D->Fill(Ceff5->GetBinContent(jjj, kkk));
          }
          if (Ceff6->GetBinContent(jjj, kkk) != 0.) {
            Ceff1D->Fill(Ceff6->GetBinContent(jjj, kkk));
            Seff1D->Fill(Ceff6->GetBinContent(jjj, kkk));
          }
          if (Ceff7->GetBinContent(jjj, kkk) != 0.) {
            Ceff1D->Fill(Ceff7->GetBinContent(jjj, kkk));
            Seff1D->Fill(Ceff7->GetBinContent(jjj, kkk));
          }
        }  //if
      }
    }
 
    //--------------------------------------
    // take into account for future treatment only HEP17 channels and cuts on <Aijk>_runevents within cutMinA to cutMaxA:
    // apply cut on <Aijk>_runevents
    //             -41                                +41
    //                            82 bins
    for (int jjj = 0; jjj < nx; jjj++) {
      for (int kkk = 0; kkk < ny; kkk++) {
        // HEP17 selection:
        if (flagHEP17selection == 0 ||
            (flagHEP17selection == 1 && (((jjj > 56 && jjj < 62) && (kkk > 63 && kkk < 68)) ||
                                         ((jjj > 61 && jjj < 71) && (kkk == 64 || kkk == 66)))) ||
            (flagHEP17selection == 2 && !(((jjj > 14 && jjj < 25) && (kkk > 55 && kkk < 64))))) {
          if (Ceff1->GetBinContent(jjj, kkk) > cutMinA && Ceff1->GetBinContent(jjj, kkk) < cutMaxA)
            mapRATIO[1][jjj][kkk] = Ceff1->GetBinContent(jjj, kkk);
          if (Ceff2->GetBinContent(jjj, kkk) > cutMinA && Ceff2->GetBinContent(jjj, kkk) < cutMaxA)
            mapRATIO[2][jjj][kkk] = Ceff2->GetBinContent(jjj, kkk);
          if (Ceff3->GetBinContent(jjj, kkk) > cutMinA && Ceff3->GetBinContent(jjj, kkk) < cutMaxA)
            mapRATIO[3][jjj][kkk] = Ceff3->GetBinContent(jjj, kkk);
          if (Ceff4->GetBinContent(jjj, kkk) > cutMinA && Ceff4->GetBinContent(jjj, kkk) < cutMaxA)
            mapRATIO[4][jjj][kkk] = Ceff4->GetBinContent(jjj, kkk);
          if (Ceff5->GetBinContent(jjj, kkk) > cutMinA && Ceff5->GetBinContent(jjj, kkk) < cutMaxA)
            mapRATIO[5][jjj][kkk] = Ceff5->GetBinContent(jjj, kkk);
          if (Ceff6->GetBinContent(jjj, kkk) > cutMinA && Ceff6->GetBinContent(jjj, kkk) < cutMaxA)
            mapRATIO[6][jjj][kkk] = Ceff6->GetBinContent(jjj, kkk);
          if (Ceff7->GetBinContent(jjj, kkk) > cutMinA && Ceff7->GetBinContent(jjj, kkk) < cutMaxA)
            mapRATIO[7][jjj][kkk] = Ceff7->GetBinContent(jjj, kkk);
        }  //if
      }    // for
    }      // for
    /*
    //         define A for refRun :  k1=[0]
    if(k1==firstrun && kmm==0 ) {
      kmm=1; //Int_t mcount=0;
      cout<<"* to be printed once only  CHECK IT please  ************ kmm = " << kmm <<endl;
      for(int iii = 1; iii<4; iii++) {
//  for (int jjj=1;jjj<=82;jjj++) {
//    for (int kkk=1;kkk<=72;kkk++) {
      for (int jjj=0;jjj<nx;jjj++) {
    for (int kkk=0;kkk<ny;kkk++) {
        normalization[iii][jjj][kkk] = mapRATIO[iii][jjj][kkk];
      }//for 
    }//for 
      }//for 
    }// if(k1=firstrun
*/
    //--------------------------------------
    //                                               then, averaging over depthes, but first sum over depthes before!!! any dividing.  Use mapRATIOD2[jjj][kkk] and mapRATIOD20[jjj][kkk]
    int totalhep17count = 0;
    int totalhep17count1 = 0;
    int totalhep17count2 = 0;
    int totalhep17count3 = 0;
    int totalhep17count4 = 0;
    int totalhep17count5 = 0;
    int totalhep17count6 = 0;
    int totalhep17count7 = 0;
    for (int iii = 1; iii < NDEP; iii++) {
      for (int jjj = 0; jjj < nx; jjj++) {
        for (int kkk = 0; kkk < ny; kkk++) {
          //    for (int jjj=1;jjj<=82;jjj++) {
          //    for (int kkk=1;kkk<=72;kkk++) {
          if (mapRATIO[iii][jjj][kkk] > 0) {
            // calculate # channels in HEP17 for each depth:
            totalhep17count++;
            if (verbosity == 4 && k1 == 0) {
              cout << " k1= " << k1 << " depth= " << iii << " eta= " << jjj << " phi= " << kkk
                   << " mapRATIO= " << mapRATIO[iii][jjj][kkk] << endl;
            }
            if (iii == 1)
              totalhep17count1++;
            if (iii == 2)
              totalhep17count2++;
            if (iii == 3)
              totalhep17count3++;
            if (iii == 4)
              totalhep17count4++;
            if (iii == 5)
              totalhep17count5++;
            if (iii == 6)
              totalhep17count6++;
            if (iii == 7)
              totalhep17count7++;
            // ----------------------------------------   sum over depthes before!!! any dividing:
            mapRATIOD2[jjj][kkk] += mapRATIO[iii][jjj][kkk];
            // count entries with digis only:
            mapRATIOD20[jjj][kkk]++;
            if (verbosity == 3 && iii == 3)
              cout << "   depth = " << iii << " k1 = " << k1 << " eta = " << jjj
                   << " mapRATIOD2[jjj][kkk] = " << mapRATIOD2[jjj][kkk] << " #entries = " << mapRATIOD20[jjj][kkk]
                   << " mapRATIO[iii][jjj][kkk] = " << mapRATIO[iii][jjj][kkk] << endl;
          }  // if mapRATIO[iii][jjj][kkk] != 0
        }    //for
      }      //for
    }        //for
 
    // ERROR printout !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
    //    if(totalhep17count != 184 ) {cout  <<"!!!!!! ERROR:NOT ALL CHANNELS HEP17 INVOLEVED FOR RUN WITH  k1= " << k1 <<" totalhep17count= " << totalhep17count <<endl;}
 
    if (verbosity == 4 && k1 == 0) {
      cout << " k1= " << k1 << " totalhep17count= " << totalhep17count << endl;
      cout << " k1= " << k1 << " totalhep17count1= " << totalhep17count1 << endl;
      cout << " k1= " << k1 << " totalhep17count2= " << totalhep17count2 << endl;
      cout << " k1= " << k1 << " totalhep17count3= " << totalhep17count3 << endl;
      cout << " k1= " << k1 << " totalhep17count4= " << totalhep17count4 << endl;
      cout << " k1= " << k1 << " totalhep17count5= " << totalhep17count5 << endl;
      cout << " k1= " << k1 << " totalhep17count6= " << totalhep17count6 << endl;
      cout << " k1= " << k1 << " totalhep17count7= " << totalhep17count7 << endl;
    }
 
    Int_t depthAVERAGEcount = 0;
    for (int jjj = 0; jjj < nx; jjj++) {
      for (int kkk = 0; kkk < ny; kkk++) {
        //  for (int jjj=1;jjj<=82;jjj++) {
        //for(int kkk=1;kkk<=72;kkk++) {
        depthAVERAGEcount = 4 * (jjj - 57) + (kkk - 64);
        if (mapRATIOD20[jjj][kkk] != 0) {
          NotEmptyDepthes->Fill(float(depthAVERAGEcount));
          if (verbosity == 1)
            cout << "****aver per depthes********* phi = " << kkk << " RunIndex = " << k1 << " eta = " << jjj
                 << " #entries  = " << mapRATIOD20[jjj][kkk] << endl;
          mapRATIOD2[jjj][kkk] /= mapRATIOD20[jjj][kkk];
          if (verbosity == 3 && kkk == 3)
            cout << "****aver per depthes********* phi = " << jjj << " RunIndex = " << k1 << " eta = " << jjj
                 << " Nphi = " << mapRATIOD20[jjj][kkk] << endl;
        }  // if(mapRATIOD20 != 0
      }    //for kkk
    }      //for jjj
    //                                                 define A for refRun :  k1=[0]
    if (k1 == firstrun && kmm == 0) {
      kmm = 1;  //Int_t mcount=0;
      cout << "* to be printed once only  CHECK IT please  ************ kmm = " << kmm << endl;
      //      for (int jjj=1;jjj<=82;jjj++) {
      //    for (int kkk=1;kkk<=72;kkk++) {
      for (int jjj = 0; jjj < nx; jjj++) {
        for (int kkk = 0; kkk < ny; kkk++) {
          normalization[jjj][kkk] = mapRATIOD2[jjj][kkk];
        }  //for
      }    //for
    }      // if(k1=firstrun
    //--------------------------------------
    //   int etaphicount = 0;
    //    for (int jjj=1;jjj<=82;jjj++) {
    //      for (int kkk=1;kkk<=72;kkk++) {
    for (int jjj = 0; jjj < nx; jjj++) {
      for (int kkk = 0; kkk < ny; kkk++) {
        if (normalization[jjj][kkk] != 0) {
          GSMRATIOD2[k1][jjj][kkk] = mapRATIOD2[jjj][kkk] / normalization[jjj][kkk];
          // plotting:
          if (GSMRATIOD2[k1][jjj][kkk] < RrangeMAX && GSMRATIOD2[k1][jjj][kkk] > RrangeMIN) {
            gainkoeff->Fill(GSMRATIOD2[k1][jjj][kkk]);
            gainkoeff0->Fill(GSMRATIOD2[k1][jjj][kkk]);
            gainkoeff9->Fill(GSMRATIOD2[k1][jjj][kkk]);
            // printout
            //    etaphicount++;
            //  if(etaphicount > 30 ) cout  <<"etaphicount =   " << etaphicount   << "for  k1= " << k1 <<endl;
            //          if(etaphicount == 30 ) cout  <<"etaphicount == 30 for  k1= " << k1 <<endl;
            //      cout  <<" k1= " << k1 <<" eta= " << jjj <<" phi= " << kkk   <<endl;
            GOODruns->Fill(float(k1));  // fill #channels w/ R inside unit
          } else {
            if (GSMRATIOD2[k1][jjj][kkk] > 0.)
              BADruns->Fill(float(k1));
          }  // fill #channels outside  R  unit
          //      else{if(GSMRATIOD2[k1][jjj][kkk]>0.) BADruns->Fill(float(k1));}
 
        }  // if(normalization[jjj][kkk] != 0
      }    //for kkk
    }      //for jjj
 
    //
    for (int jjj = 0; jjj <= 82; jjj++) {
      for (int kkk = 0; kkk <= 72; kkk++) {
        mapRATIOD2[jjj][kkk] = 0.;
        mapRATIOD20[jjj][kkk] = 0.;
        for (int iii = 0; iii < NDEP; iii++) {
          mapRATIO[iii][jjj][kkk] = 0.;
        }
      }  // for
    }    // for
 
    hfile->Close();
 
    //  }//if(k1==0 || (k1>37
  }  //for k1 loop over time points(LED runs)
  cout << "!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!                   DONE: last LED run READ " << endl;
 
  //    c1->Clear();
 
  // ////////////////////////////////////////////////////////////////////////////////////////////////// END OF LOOP OVER LED RUNS
 
  cout << "****  ****  ****  ****  ****     Draw Dependencies: *** " << endl;
 
  Int_t Method = NMethodsStart;
  while (Method < NMethodsToUse + 1) {
    if (Method != 9999992) {
      cout << " ****  START   Method " << Method << endl;
      //======================================================================================================= PLOT0:  <Aijk>  for each event and all LED runs
      if (Method == 0) {
        cout << "****Draw 0 Dependencies: <Aijk>  for each event and all LED runs  *** " << endl;
        gPad->SetGridy();
        gPad->SetGridx();
        gPad->SetLogy();
        gStyle->SetOptStat(101110);
        Ceff1D->SetMarkerStyle(20);
        Ceff1D->SetMarkerSize(0.4);
        Ceff1D->GetYaxis()->SetLabelSize(0.04);
        Ceff1D->SetTitle("all runs & channels");
        Ceff1D->SetXTitle("<Aijk>");
        Ceff1D->SetYTitle("N");
        Ceff1D->SetMarkerColor(4);
        Ceff1D->SetLineColor(4);
        //    Ceff1D->Draw("Error");
        Ceff1D->Draw("PL");
      }  //Method = 0
      //======================================================================================================= PLOT1: <Aijk>  for each event and all LED runs ZOOM
      if (Method == 1) {
        cout << "****Draw 1 Dependencies: <Aijk>  for each event and all LED runs ZOOM  *** " << endl;
        gPad->SetGridy();
        gPad->SetGridx();
        gPad->SetLogy();
        gStyle->SetOptStat(101110);
        //    Seff1D->SetTitle("any Error, HE Depth1 \n");
        Seff1D->SetMarkerStyle(20);
        Seff1D->SetMarkerSize(0.4);
        Seff1D->GetYaxis()->SetLabelSize(0.04);
        Seff1D->SetTitle("ZOOM all runs & channels");
        Seff1D->SetXTitle("<Aijk> ZOOM  ");
        Seff1D->SetYTitle("N");
        Seff1D->SetMarkerColor(4);
        Seff1D->SetLineColor(4);
        //    Seff1D->Draw("Error");
        Seff1D->Draw("PL");
      }  //Method = 1
      //  //////////////////////////////////////////////////////////////////////////
      //======================================================================================================= PLOT2  GSM ratio vs days
      if (Method == 2) {
        cout << "****Draw 2 Dependencies: GSM ratio vs days  *** " << endl;
        for (int k1 = 0; k1 < NP; k1++) {
          YY[k1] = 0.;
        }
        //      c1->Range(0,0,25,18);
        //      c1->SetFillColor(0);
        //      c1->Clear();
        TPad* pad1 = new TPad("pad1", "This is pad1", 0.02, 0.02, 0.99, 0.99, 0);
        pad1->Draw();
        pad1->cd();
        pad1->Range(-0.255174, -19.25, 2.29657, -6.75);
        //              x1   y1     x2     y2
        pad1->DrawFrame(x1, y1, x2, y2);  // 1-A,
        //  pad1->DrawFrame(1,   0.,  370,   2.0);  // 1-A,
        pad1->GetFrame()->SetFillColor(0);
        pad1->Draw();
        gPad->SetGridy();
        gPad->SetGridx();
        //                -   -       -        -   -  -                                                            -   -   -       -           -    -
        Int_t colorlines = 0;
        Int_t generalcount = 0;
        //      for (int jjj=1;jjj<=82;jjj++) {
        //  for (int kkk=1;kkk<=72;kkk++) {
        for (int jjj = 0; jjj < 82; jjj++) {
          for (int kkk = 0; kkk < 72; kkk++) {
            Int_t sscount = -1;
            for (int k1 = 0; k1 < NP; k1++) {
              if (GSMRATIOD2[k1][jjj][kkk] != 0) {
                //        if(GSMRATIOD2[k1][jjj][kkk]< 1.033 && GSMRATIOD2[k1][jjj][kkk] > 0.91  ) {
                //   if(GSMRATIOD2[k1][jjj][kkk]< 9. && GSMRATIOD2[k1][jjj][kkk] > 0.  ) {
                if (GSMRATIOD2[k1][jjj][kkk] < RrangeMAX && GSMRATIOD2[k1][jjj][kkk] > RrangeMIN) {
                  //              if(GSMRATIOD2[k1][jjj][kkk]< 1.05 && GSMRATIOD2[k1][jjj][kkk] > 0.91  ) {
                  //   if(GSMRATIOD2[k1][jjj][kkk]< 1.15 && GSMRATIOD2[k1][jjj][kkk] > 0.85  ) {
                  sscount++;
                  YY[sscount] = GSMRATIOD2[k1][jjj][kkk];  //
                  XXX[sscount] = XX[k1];
                  indWAS[sscount] = k1;
                  mapBADchannels->Fill(double(jjj) - 42., double(kkk) - 1., GSMRATIOD2[k1][jjj][kkk]);
                  mapBADchannels0->Fill(double(jjj) - 42., double(kkk) - 1., 1.);
                }  // GSMRATIOD2[k1][jjj][kkk] < 1.05
                else {
                  //        mapBADchannels->Fill(double(jjj)-42., double(kkk)-1., GSMRATIOD2[k1][jjj][kkk]);
                }
              }  // GSMRATIOD2[k1][jjj][kkk] != 0
            }    //for k1
            Int_t MMcount = sscount + 1;
            if (MMcount > 0) {
              generalcount++;
              if (generalcount == 1 && verbosity == 2)
                for (int k1 = 0; k1 < MMcount; k1++) {
                  cout << "**** All GOOD runs: indWAS[k1](1,..) =  " << indWAS[k1] + 1 << " XXX[k1]+1 = " << XXX[k1] + 1
                       << endl;
                }
              gr1 = new TGraph(MMcount, XXX, YY);
              colorlines = generalcount / 5. + 2;
              gr1->SetLineColor(colorlines);
              gr1->SetMarkerColor(colorlines);
              gr1->SetMarkerStyle(20);
              gr1->SetMarkerSize(1.2);
              gr1->SetFillStyle(0);
              gr1->GetXaxis()->SetTitle("days");
              gr1->GetYaxis()->SetTitle("R");
              gr1->Draw("PL");
            }  // if
            //    else {cout<<"****ERROR for  PLOT2:  MMcount is lower 1,  MMcount =   *** " << MMcount  <<   endl;}
          }  //for kkk
        }    //for jjj
 
        //      TLegend leg(.6,.67,.78,.88, " HEP Depth1");
        //   TLegend leg(xx1,yy1,xx2,yy2, "HEP17: R vs t");
        TLegend leg(xx1, yy1, xx2, yy2, "HE SiPM: R vs t(days)");
        //      leg.AddEntry(gr1);
        leg.SetMargin(0.3);
        leg.SetBorderSize(1);
        leg.DrawClone("Same");
        /*      
      // Draw labels on the y axis
      TText *t7 = new TText();
      t7->SetTextAlign(32);
      t7->SetTextSize(0.035);
      t7->SetTextFont(72);
      char *labels[NP+1] = {"31","1","7","7","8","9","12","13","19","22","22","24","24","24","24","24","24","Feb."};
      float X7[NP];
      for(int k1 = 0; k1<NP; k1++) {
    //  cout<<"**** XXX[k1] =  " << XXX[k1] <<"     YY[k1] =  " << YY[k1] <<   endl;
        t7->DrawText(0.2+XXX[k1],0.890,labels[k1]);
      }
            t7->DrawText(0.2+XXX[NP-1]+75.,0.890,labels[NP]);
*/
 
      }  
      //
 
      //======================================================================================================= PLOT3: 2D SiPM channels
      if (Method == 3) {
        cout << "****Draw 3 Dependencies: 2D SiPM channels  *** " << endl;
        TH2F* Cdepth2hbff = (TH2F*)mapBADchannels->Clone("Cdepth2hbff");
        Cdepth2hbff->Divide(mapBADchannels, mapBADchannels0, 1, 1, "B");
        Cdepth2hbff->Sumw2();
        gPad->SetGridy();
        gPad->SetGridx();
        gStyle->SetOptStat(0000000);
        Cdepth2hbff->SetMarkerStyle(20);
        Cdepth2hbff->SetMarkerSize(0.4);
        Cdepth2hbff->GetYaxis()->SetLabelSize(0.04);
        Cdepth2hbff->SetTitle("within R & Weighted by R");
        Cdepth2hbff->SetXTitle("#eta \b");
        Cdepth2hbff->SetYTitle("#phi \b");
        Cdepth2hbff->SetMarkerColor(4);
        Cdepth2hbff->SetLineColor(4);
        Cdepth2hbff->Draw("COLZ");
      }  //Method = 3
      //======================================================================================================= PLOT4:gains LED runs
      if (Method == 4) {
        cout << "****Draw 4 Dependencies: gains LED runs   *** " << endl;
        gPad->SetGridy();
        gPad->SetGridx();
        //    gPad->SetLogy();
        //gStyle->SetOptStat(1110000);
        gStyle->SetOptStat(1100);  // only mean & rms
        //gStyle->SetOptStat(1111111);// only mean & rms
        gainkoeff->SetMarkerStyle(20);
        gainkoeff->SetMarkerSize(0.4);
        gainkoeff->GetYaxis()->SetLabelSize(0.04);
        gainkoeff->SetXTitle("gains");
        gainkoeff->SetYTitle("N");
        gainkoeff->SetMarkerColor(4);
        gainkoeff->SetLineColor(4);
        //    gainkoeff->Draw("Error");
        gainkoeff->Draw("PL");
      }  //Method = 4
      //======================================================================================================= PLOT5:gains LED runs
      if (Method == 5) {
        cout << "****Draw 5 Dependencies: gains LED runs   *** " << endl;
        gPad->SetGridy();
        gPad->SetGridx();
        gPad->SetLogy();
        //gStyle->SetOptStat(1110000);
        gStyle->SetOptStat(1100);  // only mean & rms
        //gStyle->SetOptStat(1111111);// only mean & rms
        gainkoeff9->SetMarkerStyle(20);
        gainkoeff9->SetMarkerSize(0.4);
        gainkoeff9->GetYaxis()->SetLabelSize(0.04);
        gainkoeff9->SetXTitle("gains");
        gainkoeff9->SetYTitle("N");
        gainkoeff9->SetMarkerColor(4);
        gainkoeff9->SetLineColor(4);
        //    gainkoeff9->Draw("Error");
        gainkoeff9->Draw("PL");
      }  //Method = 5
      //======================================================================================================= PLOT6:gains LED runs
      if (Method == 6) {
        cout << "****Draw 6 Dependencies: gains LED runs   *** " << endl;
        gPad->SetGridy();
        gPad->SetGridx();
        gPad->SetLogy();
        //gStyle->SetOptStat(1110000);
        gStyle->SetOptStat(1100);  // only mean & rms
        //gStyle->SetOptStat(1111111);// only mean & rms
        gainkoeff0->SetMarkerStyle(20);
        gainkoeff0->SetMarkerSize(0.4);
        gainkoeff0->GetYaxis()->SetLabelSize(0.04);
        gainkoeff0->SetXTitle("gains");
        gainkoeff0->SetYTitle("N");
        gainkoeff0->SetMarkerColor(4);
        gainkoeff0->SetLineColor(4);
        //    gainkoeff0->Draw("Error");
        gainkoeff0->Draw("PL");
      }  //Method = 6
      //======================================================================================================= PLOT7: BADruns
      if (Method == 7) {
        cout << "****Draw 7 Dependencies: BADruns  *** " << endl;
        gPad->Update();
        gPad->SetGridy();
        gPad->SetGridx();
        gPad->SetLogy(kFALSE);
        gStyle->SetOptStat(101110);
        BADruns->SetMarkerStyle(20);
        BADruns->SetMarkerSize(0.4);
        BADruns->GetYaxis()->SetLabelSize(0.04);
        BADruns->SetTitle("#channels outside Rrange VS iRun");
        BADruns->SetXTitle("iRun");
        BADruns->SetYTitle("#channels");
        BADruns->SetMarkerColor(4);
        BADruns->SetLineColor(4);
        //    BADruns->Draw("Error");
        BADruns->Draw("PL");
        //  PRINTOUT ONLY:
        //      if(verbosity == 4 ){
        int cx = BADruns->GetXaxis()->GetNbins();
        cout << "*****    *************     Number of runs w/ R outside unit-range = " << cx << endl;
        int nbadruns = 0;
        for (int jjj = 1; jjj <= cx; jjj++) {
          if (BADruns->GetBinContent(jjj) > 200.) {
            cout << "BADruns w/ content>60:   jjj= " << jjj << " run= " << LEDruns[jjj - 1]
                 << "  R ouside unit-range for # channels= " << BADruns->GetBinContent(jjj) << endl;
            ++nbadruns;
          }
          //    if( BADruns->GetBinContent(jjj) >8.) {cout<<"BADruns w/ content>60:   jjj= " << jjj  <<" run= " <<   LEDruns[jjj-1]    <<"  R ouside unit-range for # channels= " << BADruns->GetBinContent(jjj) <<endl;++nbadruns;}
        }  //jjj
        cout << "BADruns w/ content>60   nbadruns= " << nbadruns << endl;
        //      }// if(verbosity == 2 )
      }  //Method = 7
 
      //======================================================================================================= PLOT8: Goodruns
      if (Method == 8) {
        cout << "****Draw 8 Dependencies: Goodruns  *** " << endl;
        gPad->SetGridy();
        gPad->SetGridx();
        //      gPad->SetLogy();
        gStyle->SetOptStat(101110);
        GOODruns->SetMarkerStyle(20);
        GOODruns->SetMarkerSize(0.4);
        GOODruns->GetYaxis()->SetLabelSize(0.04);
        GOODruns->SetTitle("#channels inside Rrange VS iRun");
        GOODruns->SetXTitle("iRun");
        GOODruns->SetYTitle("#channels");
        GOODruns->SetMarkerColor(4);
        GOODruns->SetLineColor(4);
        //    GOODruns->Draw("Error");
        GOODruns->Draw("PL");
        //  PRINTOUT ONLY:
        //      if(verbosity == 4 ){
        int cx = GOODruns->GetXaxis()->GetNbins();
        cout << "************* cx = " << cx << endl;
        for (int jjj = 0; jjj <= cx; jjj++) {
          //      if( GOODruns->GetBinContent(jjj) >100.) cout<<"GOODruns:   k1= " <<      jjj      <<endl;
          //      if( GOODruns->GetBinContent(jjj) >5.) cout<<"GOODruns:   k1= " <<      jjj      <<endl;
          if (GOODruns->GetBinContent(jjj) > 1400.)
            cout << "GOODruns:   k1(0,...)= " << jjj
                 << "  GOODruns->GetBinContent(jjj)= " << GOODruns->GetBinContent(jjj) << endl;
        }  //jjj
           //      }// if(verbosity == 2 )
      }    //Method = 8
 
      //======================================================================================================= PLOT9:depthes with zero A
      if (Method == 9) {
        cout << "****Draw 9 Dependencies: depthes with zero A   *** " << endl;
        gPad->SetGridy();
        gPad->SetGridx();
        gPad->SetLogy(kFALSE);
        gStyle->SetOptStat(1110000);
        NotEmptyDepthes->SetMarkerStyle(20);
        NotEmptyDepthes->SetMarkerSize(0.4);
        NotEmptyDepthes->GetYaxis()->SetLabelSize(0.04);
        NotEmptyDepthes->SetTitle("# Not Empty Channels in etq-phi projection");
        NotEmptyDepthes->SetXTitle("4*(eta-57)+(phi-64)");
        NotEmptyDepthes->SetYTitle("N");
        NotEmptyDepthes->SetMarkerColor(4);
        NotEmptyDepthes->SetLineColor(4);
        //    NotEmptyDepthes->Draw("Error");
        NotEmptyDepthes->Draw("PL");
      }  //Method = 9
      //======================================================================================================= PLOT10:  Aijk  for each event and all LED runs
      if (Method == 10) {
        cout << "****Draw 10 Dependencies: Aijk  for each event and all LED runs  *** " << endl;
 
        c1->Clear();
        c1->Divide(1, 1);
 
        c1->cd(1);
        //        TString epsName = fname + LEDruns[0] +".root";
        //        TFile *hfile= new TFile(epsName, "READ");
        //        TH1F * Aeff1D= (TH1F*)hfile->Get("h_ADCAmpl_HE");
 
        gPad->SetGridy();
        gPad->SetGridx();
        gPad->SetLogy();
        gStyle->SetOptStat(101110);
        //      Aeff1D->SetStats(0);
        Aeff1D->SetMarkerStyle(20);
        Aeff1D->SetMarkerSize(0.4);
        Aeff1D->GetYaxis()->SetLabelSize(0.04);
        Aeff1D->SetTitle("all runs & events& channels");
        Aeff1D->SetXTitle("Aijk");
        Aeff1D->SetYTitle("N");
        Aeff1D->SetMarkerColor(4);
        Aeff1D->SetLineColor(4);
        //    Aeff1D->Draw("Error");
        //    Aeff1D->Draw("PL");
        Aeff1D->SetMinimum(0.8);
        Aeff1D->Draw("");
 
        c1->Update();
 
      }  //Method = 10
      //======================================================================================================= PLOT11: 2D SiPM channels Depthes1,2,3,4
      if (Method == 11) {
        cout << "****Draw 11 <A>: 2D Depthes1,2,3,4  *** " << endl;
        //      gPad->SetGridy();
        //      gPad->SetGridx();
        //      gStyle->SetOptStat(0000000);
        c1->Clear();
        c1->Divide(2, 2);
 
        c1->cd(1);
        mapchannelsdepth1->SetStats(0);
        mapchannelsdepth1->SetTitle("<A> Depth1");
        mapchannelsdepth1->SetXTitle("#eta \b");
        mapchannelsdepth1->SetYTitle("#phi \b");
        mapchannelsdepth1->Draw("COLZ");
        c1->cd(2);
        mapchannelsdepth2->SetStats(0);
        mapchannelsdepth2->SetTitle("<A> Depth2");
        mapchannelsdepth2->SetXTitle("#eta \b");
        mapchannelsdepth2->SetYTitle("#phi \b");
        mapchannelsdepth2->Draw("COLZ");
        c1->cd(3);
        mapchannelsdepth3->SetStats(0);
        mapchannelsdepth3->SetTitle("<A> Depth3");
        mapchannelsdepth3->SetXTitle("#eta \b");
        mapchannelsdepth3->SetYTitle("#phi \b");
        mapchannelsdepth3->Draw("COLZ");
        c1->cd(4);
        mapchannelsdepth4->SetStats(0);
        mapchannelsdepth4->SetTitle("<A> Depth4");
        mapchannelsdepth4->SetXTitle("#eta \b");
        mapchannelsdepth4->SetYTitle("#phi \b");
        mapchannelsdepth4->Draw("COLZ");
 
        c1->Update();
 
      }  //Method = 11
      //======================================================================================================= PLOT12: 2D SiPM channels Depthes5,6,7
      if (Method == 12) {
        cout << "****Draw 12 <A>: 2D Depthes5,6,7  *** " << endl;
        //      gPad->SetGridy();
        //      gPad->SetGridx();
        //      gStyle->SetOptStat(0000000);
        c1->Clear();
        c1->Divide(2, 2);
 
        c1->cd(1);
        mapchannelsdepth5->SetStats(0);
        mapchannelsdepth5->SetTitle("<A> Depth5");
        mapchannelsdepth5->SetXTitle("#eta \b");
        mapchannelsdepth5->SetYTitle("#phi \b");
        mapchannelsdepth5->Draw("COLZ");
        c1->cd(2);
        mapchannelsdepth6->SetStats(0);
        mapchannelsdepth6->SetTitle("<A> Depth6");
        mapchannelsdepth6->SetXTitle("#eta \b");
        mapchannelsdepth6->SetYTitle("#phi \b");
        mapchannelsdepth6->Draw("COLZ");
        c1->cd(3);
        mapchannelsdepth7->SetStats(0);
        mapchannelsdepth7->SetTitle("<A> Depth7");
        mapchannelsdepth7->SetXTitle("#eta \b");
        mapchannelsdepth7->SetYTitle("#phi \b");
        mapchannelsdepth7->Draw("COLZ");
 
        c1->Update();
 
      }  //Method = 12
 
      //======================================================================================================= PLOT13: 2D SiPM channels Depthes5,6,7
      if (Method == 13) {
        cout << "****Draw 13 function, fC *** " << endl;
        c1->Clear();
        c1->Divide(1, 1);
 
        c1->cd(1);
        {
          double c0 = 1.000000;
          double b1 = 2.71238e-05;
          double a2 = 1.32877e-10;
          Int_t n = 50;
          Double_t x[n], y[n];
          for (Int_t i = 0; i < n; i++) {
            x[i] = (i + 1) * 20000.;
            y[i] = a2 * x[i] * x[i] / 40. / 40. + b1 * x[i] / 40. + c0;
          }
 
          // create graph
          TGraph* gr = new TGraph(n, x, y);
 
          // draw the graph with axis, continuous line, and put
          // a * at each point
          gPad->SetGridy();
          gPad->SetGridx();
          //    gPad->SetLogy();
          gr->Draw("AC*");
          /*
      gr1 = new TGraph(MMcount,XXX,YY); 
      colorlines = generalcount/5.+2;
      gr1->SetLineColor(colorlines);  gr1->SetMarkerColor(colorlines); 
      gr1->SetMarkerStyle(20); gr1->SetMarkerSize(1.2); gr1->SetFillStyle(0); gr1->Draw("PL");
    */
        }
 
        c1->Update();
 
      }  //Method = 13
 
      //  //////////////////////////////////////////////////////////////////////////
 
      //=======================================================================================================
      //======================================================================================================= finish loop over Methods
      //=======================================================================================================
      TString fdir = "testamt0shunt6gsm2018/";
      //
      TString plotName = fdir + MethodName[Method] + ".png";
      c1->SaveAs(plotName);
      cout << "****PLOT " << Method << " drawn **** " << endl;
 
    }  //if( Method != 9
    ++Method;
  }  //while loop over Methods
  //=======================================================================================================
  //=======================================================================================================
  //=======================================================================================================
  //=======================================================================================================
  //=======================================================================================================
  //=======================================================================================================
  //=======================================================================================================
  //=======================================================================================================
  //=======================================================================================================
  //______________________________________________________________________________
  //______________________________________________________________________________
  //
  //______________________________________________________________________________
  //______________________________________________________________________________
  //
  gSystem->Exit(0);
  //______________________________________________________________________________
}
//______________________________________________________________________________