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#include <CSCFakeDBCrosstalk.h>
Public Types | |
| typedef boost::shared_ptr < CSCDBCrosstalk > | Pointer |
Public Member Functions | |
| CSCFakeDBCrosstalk (const edm::ParameterSet &) | |
| Pointer | produceDBCrosstalk (const CSCDBCrosstalkRcd &) |
| ~CSCFakeDBCrosstalk () | |
Static Public Member Functions | |
| static CSCDBCrosstalk * | prefillDBCrosstalk () |
Private Member Functions | |
| void | setIntervalFor (const edm::eventsetup::EventSetupRecordKey &, const edm::IOVSyncValue &, edm::ValidityInterval &) |
Private Attributes | |
| Pointer | cndbCrosstalk |
Definition at line 21 of file CSCFakeDBCrosstalk.h.
| typedef boost::shared_ptr<CSCDBCrosstalk> CSCFakeDBCrosstalk::Pointer |
Definition at line 28 of file CSCFakeDBCrosstalk.h.
| CSCFakeDBCrosstalk::CSCFakeDBCrosstalk | ( | const edm::ParameterSet & | iConfig | ) |
Definition at line 6 of file CSCFakeDBCrosstalk.cc.
References cndbCrosstalk, prefillDBCrosstalk(), produceDBCrosstalk(), and edm::ESProducer::setWhatProduced().
{
//the following line is needed to tell the framework what
// data is being produced
cndbCrosstalk = boost::shared_ptr<CSCDBCrosstalk> ( prefillDBCrosstalk() );
setWhatProduced(this,&CSCFakeDBCrosstalk::produceDBCrosstalk);
findingRecord<CSCDBCrosstalkRcd>();
}
| CSCFakeDBCrosstalk::~CSCFakeDBCrosstalk | ( | ) |
Definition at line 16 of file CSCFakeDBCrosstalk.cc.
{
}
| CSCDBCrosstalk * CSCFakeDBCrosstalk::prefillDBCrosstalk | ( | ) | [inline, static] |
Definition at line 44 of file CSCFakeDBCrosstalk.h.
References CSCDBCrosstalk::crosstalk, CSCDBCrosstalk::factor_intercept, CSCDBCrosstalk::factor_slope, i, findQualityFiles::jj, timingPdfMaker::mean, and min.
Referenced by CSCFakeDBCrosstalk().
{
int seed;
float mean,min;
int ii,jj,iii,jjj;
const int MAX_SIZE = 217728; //or 252288 for ME4/2 chambers
const int SLOPE_FACTOR=10000000;
const int INTERCEPT_FACTOR=100000;
CSCDBCrosstalk * cndbcrosstalk = new CSCDBCrosstalk();
cndbcrosstalk->crosstalk.resize(MAX_SIZE);
seed = 10000;
srand(seed);
mean=-0.0009, min=0.035;
ii=0,jj=0,iii=0,jjj=0;
cndbcrosstalk->factor_slope = int (SLOPE_FACTOR);
cndbcrosstalk->factor_intercept = int (INTERCEPT_FACTOR);
for(int i=0; i<MAX_SIZE;i++){
cndbcrosstalk->crosstalk[i].xtalk_slope_right = (short int) ((-((double)rand()/((double)(RAND_MAX)+(double)(1)))/10000+mean)*SLOPE_FACTOR+0.5);
cndbcrosstalk->crosstalk[i].xtalk_intercept_right= (short int) ((((double)rand()/((double)(RAND_MAX)+(double)(1)))/100+min)*INTERCEPT_FACTOR+0.5);
cndbcrosstalk->crosstalk[i].xtalk_slope_left= (short int) ((-((double)rand()/((double)(RAND_MAX)+(double)(1)))/10000+mean)*SLOPE_FACTOR+0.5);
cndbcrosstalk->crosstalk[i].xtalk_intercept_left=(short int) ((((double)rand()/((double)(RAND_MAX)+(double)(1)))/100+min)*INTERCEPT_FACTOR+0.5);
//80 strips per chamber
if(i<34561 && i%80==0){
cndbcrosstalk->crosstalk[i].xtalk_slope_left=0;
cndbcrosstalk->crosstalk[i].xtalk_intercept_left=0;
}
if(i!=0 && i<34561 && (i+1)%80==0){
cndbcrosstalk->crosstalk[i].xtalk_slope_right=0;
cndbcrosstalk->crosstalk[i].xtalk_intercept_right=0;
}
//64 strips per chamber
if(i>34560 && i<48385 && i%64==0){
cndbcrosstalk->crosstalk[i].xtalk_slope_left=0;
cndbcrosstalk->crosstalk[i].xtalk_intercept_left=0;
}
if(i>34560 && i<48385 && (i+1)%64==0){
cndbcrosstalk->crosstalk[i].xtalk_slope_right=0;
cndbcrosstalk->crosstalk[i].xtalk_intercept_right=0;
}
//80 strips per chamber again
if(i>48384 && i<143425){
ii++;
if(i>48384 && i<143425 && ii%80==0){
cndbcrosstalk->crosstalk[i].xtalk_slope_left=0;
cndbcrosstalk->crosstalk[i].xtalk_intercept_left=0;
}
}
if(i>48384 && i<143425){
jj++;
if(i>48384 && i<143425 && (jj+1)%80==0){
cndbcrosstalk->crosstalk[i].xtalk_slope_right=0;
cndbcrosstalk->crosstalk[i].xtalk_intercept_right=0;
}
}
//64 strips per chamber again
if(i>143424 && i<157249 &&i%64==0){
cndbcrosstalk->crosstalk[i].xtalk_slope_left=0;
cndbcrosstalk->crosstalk[i].xtalk_intercept_left=0;
}
if(i>143424 && i<157249 && (i+1)%64==0){
cndbcrosstalk->crosstalk[i].xtalk_slope_right=0;
cndbcrosstalk->crosstalk[i].xtalk_intercept_right=0;
}
//80 strips per chamber last time
if(i>157248){
iii++;
if(i>157248 && iii%80==0){
cndbcrosstalk->crosstalk[i].xtalk_slope_left=0;
cndbcrosstalk->crosstalk[i].xtalk_intercept_left=0;
}
}
if(i>157248){
jjj++;
if(i>157248 && (jjj+1)%80==0){
cndbcrosstalk->crosstalk[i].xtalk_slope_right=0;
cndbcrosstalk->crosstalk[i].xtalk_intercept_right=0;
}
}
}
return cndbcrosstalk;
}
| CSCFakeDBCrosstalk::Pointer CSCFakeDBCrosstalk::produceDBCrosstalk | ( | const CSCDBCrosstalkRcd & | iRecord | ) |
Definition at line 23 of file CSCFakeDBCrosstalk.cc.
References cndbCrosstalk.
Referenced by CSCFakeDBCrosstalk().
{
return cndbCrosstalk;
}
| void CSCFakeDBCrosstalk::setIntervalFor | ( | const edm::eventsetup::EventSetupRecordKey & | , |
| const edm::IOVSyncValue & | , | ||
| edm::ValidityInterval & | oValidity | ||
| ) | [private, virtual] |
Implements edm::EventSetupRecordIntervalFinder.
Definition at line 28 of file CSCFakeDBCrosstalk.cc.
References edm::IOVSyncValue::beginOfTime(), and edm::IOVSyncValue::endOfTime().
{
oValidity = edm::ValidityInterval(edm::IOVSyncValue::beginOfTime(),edm::IOVSyncValue::endOfTime());
}
Pointer CSCFakeDBCrosstalk::cndbCrosstalk [private] |
Definition at line 35 of file CSCFakeDBCrosstalk.h.
Referenced by CSCFakeDBCrosstalk(), and produceDBCrosstalk().
1.7.3