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/afs/cern.ch/work/a/aaltunda/public/www/CMSSW_5_3_13_patch3/src/CalibMuon/CSCCalibration/interface/CSCFakeDBCrosstalk.h

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00001 #ifndef _CSCFAKEDBCROSSTALK_H
00002 #define _CSCFAKEDBCROSSTALK_H
00003 
00004 #include <memory>
00005 #include "FWCore/Framework/interface/SourceFactory.h"
00006 #include "FWCore/Framework/interface/Frameworkfwd.h"
00007 #include "FWCore/Framework/interface/ESProducer.h"
00008 #include "FWCore/Framework/interface/Event.h"
00009 #include "FWCore/Framework/interface/MakerMacros.h"
00010 #include "FWCore/Framework/interface/EventSetupRecordIntervalFinder.h"
00011 #include "FWCore/Framework/interface/ESHandle.h"
00012 #include "FWCore/Framework/interface/EventSetup.h"
00013 
00014 #include "FWCore/ParameterSet/interface/ParameterSet.h"
00015 
00016 #include "CondFormats/CSCObjects/interface/CSCDBCrosstalk.h"
00017 #include "CondFormats/DataRecord/interface/CSCDBCrosstalkRcd.h"
00018 #include <DataFormats/MuonDetId/interface/CSCDetId.h>
00019 #include <boost/shared_ptr.hpp>
00020 
00021 class CSCFakeDBCrosstalk: public edm::ESProducer, public edm::EventSetupRecordIntervalFinder  {
00022    public:
00023       CSCFakeDBCrosstalk(const edm::ParameterSet&);
00024       ~CSCFakeDBCrosstalk();
00025 
00026       inline static CSCDBCrosstalk * prefillDBCrosstalk(); 
00027 
00028       typedef  boost::shared_ptr<CSCDBCrosstalk> Pointer;
00029 
00030       Pointer produceDBCrosstalk(const CSCDBCrosstalkRcd&);
00031 
00032    private:
00033       // ----------member data ---------------------------
00034     void setIntervalFor(const edm::eventsetup::EventSetupRecordKey &, const edm::IOVSyncValue&, edm::ValidityInterval & );
00035     Pointer cndbCrosstalk ;
00036 
00037 };
00038 
00039 #include<fstream>
00040 #include<vector>
00041 #include<iostream>
00042 
00043 // to workaround plugin library
00044 inline CSCDBCrosstalk *  CSCFakeDBCrosstalk::prefillDBCrosstalk()
00045 {
00046   int seed;
00047   float mean,min;
00048   int ii,jj,iii,jjj;
00049   const int MAX_SIZE = 217728; //or 252288 for ME4/2 chambers
00050   const int SLOPE_FACTOR=10000000;
00051   const int INTERCEPT_FACTOR=100000;
00052   
00053   CSCDBCrosstalk * cndbcrosstalk = new CSCDBCrosstalk();
00054   cndbcrosstalk->crosstalk.resize(MAX_SIZE);
00055 
00056   seed = 10000; 
00057   srand(seed);
00058   mean=-0.0009, min=0.035;
00059   ii=0,jj=0,iii=0,jjj=0;
00060   
00061   cndbcrosstalk->factor_slope = int (SLOPE_FACTOR);
00062   cndbcrosstalk->factor_intercept = int (INTERCEPT_FACTOR);
00063   
00064   for(int i=0; i<MAX_SIZE;i++){
00065     cndbcrosstalk->crosstalk[i].xtalk_slope_right = (short int) ((-((double)rand()/((double)(RAND_MAX)+(double)(1)))/10000+mean)*SLOPE_FACTOR+0.5);
00066     cndbcrosstalk->crosstalk[i].xtalk_intercept_right= (short int) ((((double)rand()/((double)(RAND_MAX)+(double)(1)))/100+min)*INTERCEPT_FACTOR+0.5);
00067     cndbcrosstalk->crosstalk[i].xtalk_slope_left= (short int) ((-((double)rand()/((double)(RAND_MAX)+(double)(1)))/10000+mean)*SLOPE_FACTOR+0.5);
00068     cndbcrosstalk->crosstalk[i].xtalk_intercept_left=(short int) ((((double)rand()/((double)(RAND_MAX)+(double)(1)))/100+min)*INTERCEPT_FACTOR+0.5); 
00069   
00070   
00071     //80 strips per chamber
00072     if(i<34561 && i%80==0){
00073       cndbcrosstalk->crosstalk[i].xtalk_slope_left=0;
00074       cndbcrosstalk->crosstalk[i].xtalk_intercept_left=0;
00075     }
00076     
00077     if(i!=0 && i<34561 && (i+1)%80==0){
00078       cndbcrosstalk->crosstalk[i].xtalk_slope_right=0;
00079       cndbcrosstalk->crosstalk[i].xtalk_intercept_right=0;
00080     }
00081     
00082     //64 strips per chamber
00083     if(i>34560 && i<48385 && i%64==0){
00084       cndbcrosstalk->crosstalk[i].xtalk_slope_left=0;
00085       cndbcrosstalk->crosstalk[i].xtalk_intercept_left=0;
00086     }
00087     
00088     if(i>34560 && i<48385 && (i+1)%64==0){
00089       cndbcrosstalk->crosstalk[i].xtalk_slope_right=0;
00090       cndbcrosstalk->crosstalk[i].xtalk_intercept_right=0;
00091     }
00092     
00093     //80 strips per chamber again
00094     if(i>48384 && i<143425){
00095       ii++;
00096       if(i>48384 && i<143425 && ii%80==0){
00097         cndbcrosstalk->crosstalk[i].xtalk_slope_left=0;
00098         cndbcrosstalk->crosstalk[i].xtalk_intercept_left=0;
00099       }
00100     }
00101     
00102     if(i>48384 && i<143425){
00103       jj++;
00104       if(i>48384 && i<143425 && (jj+1)%80==0){
00105         cndbcrosstalk->crosstalk[i].xtalk_slope_right=0;
00106         cndbcrosstalk->crosstalk[i].xtalk_intercept_right=0;
00107       }
00108     }
00109     
00110     //64 strips per chamber again
00111     if(i>143424 && i<157249 &&i%64==0){
00112       cndbcrosstalk->crosstalk[i].xtalk_slope_left=0;
00113       cndbcrosstalk->crosstalk[i].xtalk_intercept_left=0;
00114     }
00115     
00116     if(i>143424 && i<157249 && (i+1)%64==0){
00117       cndbcrosstalk->crosstalk[i].xtalk_slope_right=0;
00118       cndbcrosstalk->crosstalk[i].xtalk_intercept_right=0;
00119     }
00120     
00121     
00122     //80 strips per chamber last time
00123     if(i>157248){
00124       iii++;
00125       if(i>157248 && iii%80==0){
00126         cndbcrosstalk->crosstalk[i].xtalk_slope_left=0;
00127         cndbcrosstalk->crosstalk[i].xtalk_intercept_left=0;
00128       }
00129     }
00130     
00131     if(i>157248){
00132       jjj++;
00133       if(i>157248 && (jjj+1)%80==0){
00134         cndbcrosstalk->crosstalk[i].xtalk_slope_right=0;
00135         cndbcrosstalk->crosstalk[i].xtalk_intercept_right=0;
00136       }
00137     }
00138   }
00139   return cndbcrosstalk;
00140 }  
00141 
00142 #endif
00143 
00144   
00145 
00146  
00147