CreateSurveyRcds.cc

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#include "FWCore/Framework/interface/EventSetup.h"
#include "FWCore/Framework/interface/ESHandle.h"
#include "Geometry/Records/interface/IdealGeometryRecord.h"
#include "Geometry/Records/interface/TrackerTopologyRcd.h"
#include "Geometry/TrackerGeometryBuilder/interface/TrackerGeomBuilderFromGeometricDet.h"
#include "CondFormats/GeometryObjects/interface/PTrackerParameters.h"
#include "Geometry/Records/interface/PTrackerParametersRcd.h"

#include "Alignment/CommonAlignment/interface/SurveyDet.h"
#include "Alignment/TrackerAlignment/interface/AlignableTracker.h"

#include "CondFormats/Alignment/interface/Alignments.h"
#include "CondFormats/AlignmentRecord/interface/TrackerAlignmentRcd.h"
#include "CondFormats/Alignment/interface/AlignmentErrorsExtended.h"
#include "CondFormats/AlignmentRecord/interface/TrackerAlignmentErrorExtendedRcd.h"

#include "FWCore/Framework/interface/EventSetup.h"
#include "FWCore/MessageLogger/interface/MessageLogger.h"
#include "FWCore/ParameterSet/interface/ParameterSet.h"

#include "DataFormats/DetId/interface/DetId.h"
#include "Geometry/TrackerGeometryBuilder/interface/TrackerGeometry.h"
#include "Alignment/SurveyAnalysis/plugins/CreateSurveyRcds.h"
#include "Geometry/TrackingGeometryAligner/interface/GeometryAligner.h"
#include "CLHEP/Random/RandGauss.h"

// Database
#include "CondCore/DBOutputService/interface/PoolDBOutputService.h"
#include "FWCore/ServiceRegistry/interface/Service.h"

CreateSurveyRcds::CreateSurveyRcds(const edm::ParameterSet& cfg)
{
    m_inputGeom = cfg.getUntrackedParameter< std::string > ("inputGeom");
    m_inputSimpleMis = cfg.getUntrackedParameter< double > ("simpleMis");
    m_generatedRandom = cfg.getUntrackedParameter< bool > ("generatedRandom");
    m_generatedSimple = cfg.getUntrackedParameter< bool > ("generatedSimple");
}

void CreateSurveyRcds::analyze(const edm::Event& event, const edm::EventSetup& setup){

    //Retrieve tracker topology from geometry
    edm::ESHandle<TrackerTopology> tTopoHandle;
    setup.get<TrackerTopologyRcd>().get(tTopoHandle);
    const TrackerTopology* const tTopo = tTopoHandle.product();
    
    edm::ESHandle<GeometricDet>  geom;
    setup.get<IdealGeometryRecord>().get(geom);  
    edm::ESHandle<PTrackerParameters> ptp;
    setup.get<PTrackerParametersRcd>().get( ptp );
    TrackerGeometry* tracker = TrackerGeomBuilderFromGeometricDet().build(&*geom, *ptp );
    
    //take geometry from DB or randomly generate geometry
    if (m_inputGeom == "sqlite"){
        //build the tracker
        edm::ESHandle<Alignments> alignments;
        edm::ESHandle<AlignmentErrorsExtended> alignmentErrors;
        
        setup.get<TrackerAlignmentRcd>().get(alignments);
        setup.get<TrackerAlignmentErrorExtendedRcd>().get(alignmentErrors);
        
        //apply the latest alignments
        GeometryAligner aligner;
        aligner.applyAlignments<TrackerGeometry>( &(*tracker), &(*alignments), &(*alignmentErrors), AlignTransform() );
        
    }
    
    
    addComponent(new AlignableTracker( tracker, tTopo ) );
    
    Alignable* ali = detector();
    if(m_inputGeom == "generated"){
        setGeometry( ali );
    }
    
    setSurveyErrors( ali ); 
    
}

void CreateSurveyRcds::setGeometry(Alignable* ali)
{
    
    const align::Alignables& comp = ali->components();
    unsigned int nComp = comp.size();
    //move then do for lower level object
    //for issue of det vs detunit
    bool usecomps = true;
    if ((ali->alignableObjectId()==2)&&(nComp>=1)) usecomps = false;
    for (unsigned int i = 0; i < nComp; ++i){
        if (usecomps) setGeometry(comp[i]);
    }
    DetId id( ali->id() );
    int subdetlevel = id.subdetId();
    int level = ali->alignableObjectId();
        
    //for random misalignment
    if (m_generatedRandom){
        if (subdetlevel > 0){
            AlgebraicVector value = getStructureErrors(level, subdetlevel);

            double value0 = CLHEP::RandGauss::shoot(0,value[0]);
            double value1 = CLHEP::RandGauss::shoot(0,value[1]);
            double value2 = CLHEP::RandGauss::shoot(0,value[2]);
            double value3 = CLHEP::RandGauss::shoot(0,value[3]);
            double value4 = CLHEP::RandGauss::shoot(0,value[4]);
            double value5 = CLHEP::RandGauss::shoot(0,value[5]);
            
            //move/rotate the surface
            align::LocalVector diffR(value0,value1,value2);
            align::Scalar diffWx = value3;
            align::Scalar diffWy = value4;
            align::Scalar diffWz = value5;
            ali->move(ali->surface().toGlobal(diffR));
            ali->rotateAroundLocalX(diffWx);
            ali->rotateAroundLocalY(diffWy);
            ali->rotateAroundLocalZ(diffWz);
        }
    }
    
    // for simple misalignments
    if (m_generatedSimple){
        if ((level == 2)||((level == 1)&&(ali->mother()->alignableObjectId() != 2))){
            
            const double constMis = m_inputSimpleMis;
            const double dAngle = constMis/ali->surface().length();
            //std::cout << "Shift: " << constMis << ", Rot: " << dAngle << std::endl;
            double value0 = CLHEP::RandGauss::shoot(0, constMis);
            double value1 = CLHEP::RandGauss::shoot(0, constMis);
            double value2 = CLHEP::RandGauss::shoot(0, constMis);
            double value3 = CLHEP::RandGauss::shoot(0, dAngle);
            double value4 = CLHEP::RandGauss::shoot(0, dAngle);
            double value5 = CLHEP::RandGauss::shoot(0, dAngle);
            
            align::LocalVector diffR(value0,value1,value2);
            ali->move(ali->surface().toGlobal(diffR));
            align::Scalar diffWx = value3;
            align::Scalar diffWy = value4;
            align::Scalar diffWz = value5;
            ali->rotateAroundLocalX(diffWx);
            ali->rotateAroundLocalY(diffWy);
            ali->rotateAroundLocalZ(diffWz);
        }
    }
    
}

void CreateSurveyRcds::setSurveyErrors( Alignable* ali ){
    
    const align::Alignables& comp = ali->components();
    unsigned int nComp = comp.size();
    //move then do for lower level object
    //for issue of det vs detunit
    for (unsigned int i = 0; i < nComp; ++i){
        setSurveyErrors(comp[i]);
    }
    
    DetId id( ali->id() );
    int subdetlevel = id.subdetId();
    int level = ali->alignableObjectId();
    
    AlgebraicVector error = getStructureErrors(level, subdetlevel);
    
    double error0 = error[0];
    double error1 = error[1];
    double error2 = error[2];
    double error3 = error[3];
    double error4 = error[4];
    double error5 = error[5];

    // ----------------INFLATING ERRORS----------------------
    // inflating sensitive coordinates in each subdetector
    // tib
    if ((level <= 2)&&(subdetlevel == 3)){
        error0 = 0.01; error5 = 0.001;
        if ((level==2)&&(nComp == 2)){
            error1 = 0.01;
        }
    }
    // tid
    if ((level <= 2)&&(subdetlevel == 4)){ 
        error0=0.01; error1=0.01; error2=0.01; error3=0.001; error4=0.001; error5=0.001;
        //error0=0.01; error1=0.002; error2=0.002; error3=0.0002; error4=0.0002; error5=0.001;
        //if ((level == 2)&&(nComp == 2)){
        //  error1 = 0.01;
        //}
    }
    if ((level == 23)&&(subdetlevel == 4)){ //Ring is a Disk
        error0=0.02; error1=0.02; error2=0.03; error3=0.0002; error4=0.0002; error5=0.0002;
    }
    if ((level == 22)&&(subdetlevel == 4)){ //Side of a Ring
        error0=0.01; error1=0.01; error2=0.01; error3=0.0002; error4=0.0002; error5=0.0002;
    }
    // tob
    if ((level <= 2)&&(subdetlevel == 5)){
        //error0 = 0.015; error1 = 0.015; error2 = 0.05; error3 = 0.001; error4 = 0.001; error5 = 0.001;
        error0 = 0.015; error1 = 0.003; error2 = 0.003; error3 = 0.0002; error4 = 0.0002; error5 = 0.001;
        if ((level == 2)&&(nComp == 2)){
            error1 = 0.015;
        }
    }
    if ((level == 27)&&(subdetlevel == 5)){ //Rod in a Layer
        error0=0.02; error1=0.02; error2=0.03; error3=0.001; error4=0.001; error5=0.001;
    }   
    // tec
    if ((level <= 2)&&(subdetlevel == 6)){
        error0 = 0.02; error5 = 0.0005; 
        if ((level==2)&&(nComp == 2)){
            error1 = 0.02;
        }
    }
    if ((level == 34)&&(subdetlevel == 6)){ //Side on a Disk
        error0=0.01; error1=0.01; error2=0.02; error3=0.00005; error4=0.00005; error5=0.00005;
    }
    if ((level == 33)&&(subdetlevel == 6)){ //Petal on a Side of a Disk
        error0=0.01; error1=0.01; error2=0.02; error3=0.0001; error4=0.0001; error5=0.0001;
    }
    if ((level == 32)&&(subdetlevel == 6)){ //Ring on a Petal
        error0=0.007; error1=0.007; error2=0.015; error3=0.00015; error4=0.00015; error5=0.00015;
    }
    // ----------------INFLATING ERRORS----------------------
    
    //create the error matrix
    align::ErrorMatrix error_Matrix;
    double * errorData = error_Matrix.Array();
    errorData[0] = error0*error0; errorData[2] = error1*error1; errorData[5] = error2*error2;
    errorData[9] = error3*error3; errorData[14] = error4*error4; errorData[20] = error5*error5;
    errorData[1] = 0.0; 
    errorData[3] = 0.0; errorData[4] = 0.0; 
    errorData[6] = 0.0; errorData[7] = 0.0; errorData[8] = 0.0;
    errorData[10] = 0.0; errorData[11] = 0.0; errorData[12] = 0.0; errorData[13] = 0.0;
    errorData[15] = 0.0; errorData[16] = 0.0; errorData[17] = 0.0; errorData[18] = 0.0; errorData[19] = 0.0;
    
    
    ali->setSurvey( new SurveyDet(ali->surface(), error_Matrix ) );
    
}

//-------------------------------------------------------
// DEFAULT VALUES FOR THE ASSEMBLY PRECISION
//-------------------------------------------------------
AlgebraicVector CreateSurveyRcds::getStructurePlacements(int level, int subdetlevel)
{
    AlgebraicVector deltaRW(6);
    deltaRW(1)=0.0; deltaRW(2)=0.0; deltaRW(3)=0.0; deltaRW(4)=0.0; deltaRW(5)=0.0; deltaRW(6)=0.0;
    //PIXEL
    if ((level == 37)&&(subdetlevel == 1)){
        deltaRW(1)=0.3; deltaRW(2)=0.3; deltaRW(3)=0.3; deltaRW(4)=0.0017; deltaRW(5)=0.0017; deltaRW(6)=0.0017;
    }
    //STRIP
    if ((level == 38)&&(subdetlevel == 3)){
        deltaRW(1)=0.3; deltaRW(2)=0.3; deltaRW(3)=0.3; deltaRW(4)=0.0004; deltaRW(5)=0.0004; deltaRW(6)=0.0004;
    }
    //TRACKER
    if ((level == 39)&&(subdetlevel == 1)){
        deltaRW(1)=0.0; deltaRW(2)=0.0; deltaRW(3)=0.0; deltaRW(4)=0.0; deltaRW(5)=0.0; deltaRW(6)=0.0;
    }
    //TPB
    if ((level == 7)&&(subdetlevel == 1)){
        deltaRW(1)=0.2; deltaRW(2)=0.2; deltaRW(3)=0.2; deltaRW(4)=0.003; deltaRW(5)=0.003; deltaRW(6)=0.003;
    }
    if ((level == 6)&&(subdetlevel == 1)){
        deltaRW(1)=0.05; deltaRW(2)=0.05; deltaRW(3)=0.05; deltaRW(4)=0.0008; deltaRW(5)=0.0008; deltaRW(6)=0.0008;
    }
    if ((level == 5)&&(subdetlevel == 1)){
        deltaRW(1)=0.02; deltaRW(2)=0.02; deltaRW(3)=0.02; deltaRW(4)=0.0004; deltaRW(5)=0.0004; deltaRW(6)=0.0004;
    }
    if ((level == 4)&&(subdetlevel == 1)){
        deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.005; deltaRW(4)=0.0002; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
    }
    if ((level == 2)&&(subdetlevel == 1)){
        deltaRW(1)=0.005; deltaRW(2)=0.005; deltaRW(3)=0.003; deltaRW(4)=0.001; deltaRW(5)=0.001; deltaRW(6)=0.001;
    }
    if ((level == 1)&&(subdetlevel == 1)){
        deltaRW(1)=0.005; deltaRW(2)=0.005; deltaRW(3)=0.003; deltaRW(4)=0.001; deltaRW(5)=0.001; deltaRW(6)=0.001;
    }
    //TPE
    if ((level == 13)&&(subdetlevel == 2)){
        deltaRW(1)=0.2; deltaRW(2)=0.2; deltaRW(3)=0.2; deltaRW(4)=0.0017; deltaRW(5)=0.0017; deltaRW(6)=0.0017;
    }
    if ((level == 12)&&(subdetlevel == 2)){
        deltaRW(1)=0.05; deltaRW(2)=0.05; deltaRW(3)=0.05; deltaRW(4)=0.0004; deltaRW(5)=0.0004; deltaRW(6)=0.0004;
    }
    if ((level == 11)&&(subdetlevel == 2)){
        deltaRW(1)=0.02; deltaRW(2)=0.02; deltaRW(3)=0.02; deltaRW(4)=0.001; deltaRW(5)=0.001; deltaRW(6)=0.001;
    }
    if ((level == 10)&&(subdetlevel == 2)){
        deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.01; deltaRW(4)=0.001; deltaRW(5)=0.001; deltaRW(6)=0.001;
    }
    if ((level == 9)&&(subdetlevel == 2)){
        deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.005; deltaRW(4)=0.002; deltaRW(5)=0.002; deltaRW(6)=0.002;
    }
    if ((level == 2)&&(subdetlevel == 2)){
        deltaRW(1)=0.005; deltaRW(2)=0.005; deltaRW(3)=0.003; deltaRW(4)=0.001; deltaRW(5)=0.001; deltaRW(6)=0.001;
    }
    if ((level == 1)&&(subdetlevel == 2)){
        deltaRW(1)=0.005; deltaRW(2)=0.005; deltaRW(3)=0.003; deltaRW(4)=0.001; deltaRW(5)=0.001; deltaRW(6)=0.001;
    }
    //TIB
    if ((level == 20)&&(subdetlevel == 3)){
        deltaRW(1)=0.2; deltaRW(2)=0.2; deltaRW(3)=0.2; deltaRW(4)=0.0017; deltaRW(5)=0.0017; deltaRW(6)=0.0017;
    }
    if ((level == 19)&&(subdetlevel == 3)){
        deltaRW(1)=0.1; deltaRW(2)=0.1; deltaRW(3)=0.1; deltaRW(4)=0.0008; deltaRW(5)=0.0008; deltaRW(6)=0.0008;
    }
    if ((level == 18)&&(subdetlevel == 3)){
        deltaRW(1)=0.04; deltaRW(2)=0.04; deltaRW(3)=0.02; deltaRW(4)=0.0006; deltaRW(5)=0.0006; deltaRW(6)=0.0006;
    }
    if ((level == 17)&&(subdetlevel == 3)){
        deltaRW(1)=0.03; deltaRW(2)=0.03; deltaRW(3)=0.015; deltaRW(4)=0.0004; deltaRW(5)=0.0004; deltaRW(6)=0.0004;
    }
    if ((level == 16)&&(subdetlevel == 3)){
        deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.01; deltaRW(4)=0.0004; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
    }
    if ((level == 15)&&(subdetlevel == 3)){
        deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.01; deltaRW(4)=0.0004; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
    }
    if ((level == 2)&&(subdetlevel == 3)){
        deltaRW(1)=0.005; deltaRW(2)=0.005; deltaRW(3)=0.005; deltaRW(4)=0.001; deltaRW(5)=0.0005; deltaRW(6)=0.0005;
    }
    if ((level == 1)&&(subdetlevel == 3)){
        deltaRW(1)=0.005; deltaRW(2)=0.005; deltaRW(3)=0.005; deltaRW(4)=0.001; deltaRW(5)=0.0005; deltaRW(6)=0.0005;
    }
    //TID
    if ((level == 25)&&(subdetlevel == 4)){
        deltaRW(1)=0.2; deltaRW(2)=0.2; deltaRW(3)=0.2; deltaRW(4)=0.0013; deltaRW(5)=0.0013; deltaRW(6)=0.0013;
    }
    if ((level == 24)&&(subdetlevel == 4)){
        deltaRW(1)=0.05; deltaRW(2)=0.05; deltaRW(3)=0.05; deltaRW(4)=0.0004; deltaRW(5)=0.0004; deltaRW(6)=0.0004;
    }
    if ((level == 23)&&(subdetlevel == 4)){
        deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.01; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
    }
    if ((level == 22)&&(subdetlevel == 4)){
        deltaRW(1)=0.005; deltaRW(2)=0.005; deltaRW(3)=0.005; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
    }
    if ((level == 2)&&(subdetlevel == 4)){
        deltaRW(1)=0.005; deltaRW(2)=0.005; deltaRW(3)=0.005; deltaRW(4)=0.0005; deltaRW(5)=0.0005; deltaRW(6)=0.0005;
    }
    if ((level == 1)&&(subdetlevel == 4)){
        deltaRW(1)=0.005; deltaRW(2)=0.005; deltaRW(3)=0.005; deltaRW(4)=0.0005; deltaRW(5)=0.0005; deltaRW(6)=0.0005;
    }
    //TOB
    if ((level == 30)&&(subdetlevel == 5)){
        deltaRW(1)=0.2; deltaRW(2)=0.2; deltaRW(3)=0.2; deltaRW(4)=0.0008; deltaRW(5)=0.0008; deltaRW(6)=0.0008;
    }
    if ((level == 29)&&(subdetlevel == 5)){
        deltaRW(1)=0.014; deltaRW(2)=0.014; deltaRW(3)=0.05; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
    }
    if ((level == 28)&&(subdetlevel == 5)){
        deltaRW(1)=0.02; deltaRW(2)=0.02; deltaRW(3)=0.02; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
    }
    if ((level == 27)&&(subdetlevel == 5)){
        deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.02; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
    }
    if ((level == 2)&&(subdetlevel == 5)){
        deltaRW(1)=0.003; deltaRW(2)=0.003; deltaRW(3)=0.01; deltaRW(4)=0.0002; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
    }
    if ((level == 1)&&(subdetlevel == 5)){
        deltaRW(1)=0.003; deltaRW(2)=0.003; deltaRW(3)=0.01; deltaRW(4)=0.0002; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
    }
    //TEC
    if ((level == 36)&&(subdetlevel == 6)){
        deltaRW(1)=0.2; deltaRW(2)=0.2; deltaRW(3)=0.2; deltaRW(4)=0.0008; deltaRW(5)=0.0008; deltaRW(6)=0.0008;
    }
    if ((level == 35)&&(subdetlevel == 6)){
        deltaRW(1)=0.05; deltaRW(2)=0.05; deltaRW(3)=0.05; deltaRW(4)=0.0003; deltaRW(5)=0.0003; deltaRW(6)=0.0003;
    }
    if ((level == 34)&&(subdetlevel == 6)){
        deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.02; deltaRW(4)=0.00005; deltaRW(5)=0.00005; deltaRW(6)=0.00005;
    }
    if ((level == 33)&&(subdetlevel == 6)){
        deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.02; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
    }
    if ((level == 32)&&(subdetlevel == 6)){
        deltaRW(1)=0.007; deltaRW(2)=0.007; deltaRW(3)=0.015; deltaRW(4)=0.00015; deltaRW(5)=0.00015; deltaRW(6)=0.00015;
    }
    if ((level == 2)&&(subdetlevel == 6)){
        deltaRW(1)=0.002; deltaRW(2)=0.002; deltaRW(3)=0.005; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
    }
    if ((level == 1)&&(subdetlevel == 6)){
        deltaRW(1)=0.002; deltaRW(2)=0.002; deltaRW(3)=0.005; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
    }
    
    return deltaRW;
}
//-------------------------------------------------------
// DEFAULT VALUES FOR THE PRECISION OF THE SURVEY
//-------------------------------------------------------
AlgebraicVector CreateSurveyRcds::getStructureErrors(int level, int subdetlevel)
{
    AlgebraicVector deltaRW(6);
    deltaRW(1)=0.0; deltaRW(2)=0.0; deltaRW(3)=0.0; deltaRW(4)=0.0; deltaRW(5)=0.0; deltaRW(6)=0.0;
    //PIXEL
    if ((level == 37)&&(subdetlevel == 1)){ //Pixel Detector in Tracker
        deltaRW(1)=0.2; deltaRW(2)=0.2; deltaRW(3)=0.2; deltaRW(4)=0.0017; deltaRW(5)=0.0017; deltaRW(6)=0.0017;
    }
    //STRIP
    if ((level == 38)&&(subdetlevel == 3)){ //Strip Tracker in Tracker
        deltaRW(1)=0.2; deltaRW(2)=0.2; deltaRW(3)=0.2; deltaRW(4)=0.0004; deltaRW(5)=0.0004; deltaRW(6)=0.0004;
    }
    //TRACKER
    if ((level == 39)&&(subdetlevel == 1)){ //Tracker
        deltaRW(1)=0.0; deltaRW(2)=0.0; deltaRW(3)=0.0; deltaRW(4)=0.0; deltaRW(5)=0.0; deltaRW(6)=0.0;
    }
    //TPB
    if ((level == 7)&&(subdetlevel == 1)){ //Barrel Pixel in Pixel
        deltaRW(1)=0.05; deltaRW(2)=0.05; deltaRW(3)=0.1; deltaRW(4)=0.0008; deltaRW(5)=0.0008; deltaRW(6)=0.0008;
    }
    if ((level == 6)&&(subdetlevel == 1)){ //HalfBarrel in Barrel Pixel
        deltaRW(1)=0.015; deltaRW(2)=0.015; deltaRW(3)=0.03; deltaRW(4)=0.0003; deltaRW(5)=0.0003; deltaRW(6)=0.0003;
    }
    if ((level == 5)&&(subdetlevel == 1)){ //HalfShell in HalfBarrel
        deltaRW(1)=0.005; deltaRW(2)=0.005; deltaRW(3)=0.01; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
    }
    if ((level == 4)&&(subdetlevel == 1)){ //Ladder in HalfShell
        deltaRW(1)=0.001; deltaRW(2)=0.001; deltaRW(3)=0.002; deltaRW(4)=0.00005; deltaRW(5)=0.00005; deltaRW(6)=0.00005;
    }
    if ((level == 2)&&(subdetlevel == 1)){ //Det in Ladder
        deltaRW(1)=0.0005; deltaRW(2)=0.001; deltaRW(3)=0.001; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
    }
    if ((level == 1)&&(subdetlevel == 1)){ //DetUnit in Ladder
        deltaRW(1)=0.0005; deltaRW(2)=0.001; deltaRW(3)=0.001; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
    }
    //TPE
    if ((level == 13)&&(subdetlevel == 2)){ //Forward Pixel in Pixel
        deltaRW(1)=0.05; deltaRW(2)=0.05; deltaRW(3)=0.1; deltaRW(4)=0.0004; deltaRW(5)=0.0004; deltaRW(6)=0.0004;
    }
    if ((level == 12)&&(subdetlevel == 2)){ //HalfCylinder in Forward Pixel
        deltaRW(1)=0.015; deltaRW(2)=0.015; deltaRW(3)=0.03; deltaRW(4)=0.00015; deltaRW(5)=0.00015; deltaRW(6)=0.00015;
    }
    if ((level == 11)&&(subdetlevel == 2)){ //HalfDisk in HalfCylinder
        deltaRW(1)=0.005; deltaRW(2)=0.005; deltaRW(3)=0.01; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
    }
    if ((level == 10)&&(subdetlevel == 2)){ //Blade in HalfDisk
        deltaRW(1)=0.001; deltaRW(2)=0.001; deltaRW(3)=0.002; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
    }
    if ((level == 9)&&(subdetlevel == 2)){ //Panel in Blade
        deltaRW(1)=0.001; deltaRW(2)=0.0008; deltaRW(3)=0.0006; deltaRW(4)=0.0002; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
    }
    if ((level == 2)&&(subdetlevel == 2)){ //Det in Panel
        deltaRW(1)=0.0005; deltaRW(2)=0.0004; deltaRW(3)=0.0006; deltaRW(4)=0.0001; deltaRW(5)=0.0003; deltaRW(6)=0.0001;
    }
    if ((level == 1)&&(subdetlevel == 2)){ //DetUnit in Panel
        deltaRW(1)=0.0005; deltaRW(2)=0.0004; deltaRW(3)=0.0006; deltaRW(4)=0.0001; deltaRW(5)=0.0003; deltaRW(6)=0.0001;
    }
    //TIB
    if ((level == 20)&&(subdetlevel == 3)){ //TIB in Strip Tracker
        deltaRW(1)=0.08; deltaRW(2)=0.08; deltaRW(3)=0.04; deltaRW(4)=0.0017; deltaRW(5)=0.0017; deltaRW(6)=0.0017;
    }
    if ((level == 19)&&(subdetlevel == 3)){ //HalfBarrel in TIB
        deltaRW(1)=0.04; deltaRW(2)=0.04; deltaRW(3)=0.02; deltaRW(4)=0.0003; deltaRW(5)=0.0003; deltaRW(6)=0.0003;
    }
    if ((level == 18)&&(subdetlevel == 3)){ //Layer in HalfBarrel
        deltaRW(1)=0.02; deltaRW(2)=0.02; deltaRW(3)=0.01; deltaRW(4)=0.0006; deltaRW(5)=0.0006; deltaRW(6)=0.0006;
    }
    if ((level == 17)&&(subdetlevel == 3)){ //HalfShell in Layer
        deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.005; deltaRW(4)=0.0002; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
    }
    if ((level == 16)&&(subdetlevel == 3)){ //Surface in a HalfShell
        deltaRW(1)=0.004; deltaRW(2)=0.004; deltaRW(3)=0.008; deltaRW(4)=0.0002; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
    }
    if ((level == 15)&&(subdetlevel == 3)){ //String in a Surface
        deltaRW(1)=0.004; deltaRW(2)=0.004; deltaRW(3)=0.008; deltaRW(4)=0.0002; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
    }
    if ((level == 2)&&(subdetlevel == 3)){ //Det in a String
        deltaRW(1)=0.002; deltaRW(2)=0.002; deltaRW(3)=0.004; deltaRW(4)=0.0004; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
    }
    if ((level == 1)&&(subdetlevel == 3)){ //DetUnit in a String
        deltaRW(1)=0.002; deltaRW(2)=0.002; deltaRW(3)=0.004; deltaRW(4)=0.0004; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
    }
    //TID
    if ((level == 25)&&(subdetlevel == 4)){ //TID in Strip Tracker
        deltaRW(1)=0.05; deltaRW(2)=0.05; deltaRW(3)=0.1; deltaRW(4)=0.0003; deltaRW(5)=0.0003; deltaRW(6)=0.0003;
    }
    if ((level == 24)&&(subdetlevel == 4)){ //Disk in a TID
        deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.02; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
    }
    if ((level == 23)&&(subdetlevel == 4)){ //Ring is a Disk
        deltaRW(1)=0.004; deltaRW(2)=0.004; deltaRW(3)=0.005; deltaRW(4)=0.00004; deltaRW(5)=0.00004; deltaRW(6)=0.00004;
    }
    if ((level == 22)&&(subdetlevel == 4)){ //Side of a Ring
        deltaRW(1)=0.002; deltaRW(2)=0.002; deltaRW(3)=0.002; deltaRW(4)=0.00004; deltaRW(5)=0.00004; deltaRW(6)=0.00004;
    }
    if ((level == 2)&&(subdetlevel == 4)){ //Det in a Side
        deltaRW(1)=0.002; deltaRW(2)=0.002; deltaRW(3)=0.002; deltaRW(4)=0.0002; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
    }
    if ((level == 1)&&(subdetlevel == 4)){ //DetUnit is a Side
        deltaRW(1)=0.002; deltaRW(2)=0.002; deltaRW(3)=0.002; deltaRW(4)=0.0002; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
    }
    //TOB
    if ((level == 30)&&(subdetlevel == 5)){ // TOB in Strip Tracker
        deltaRW(1)=0.06; deltaRW(2)=0.06; deltaRW(3)=0.06; deltaRW(4)=0.00025; deltaRW(5)=0.00025; deltaRW(6)=0.00025;
    }
    if ((level == 29)&&(subdetlevel == 5)){ //HalfBarrel in the TOB
        deltaRW(1)=0.014; deltaRW(2)=0.014; deltaRW(3)=0.05; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
    }
    if ((level == 28)&&(subdetlevel == 5)){ //Layer in a HalfBarrel
        deltaRW(1)=0.02; deltaRW(2)=0.02; deltaRW(3)=0.02; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
    }
    if ((level == 27)&&(subdetlevel == 5)){ //Rod in a Layer
        deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.02; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
    }
    if ((level == 2)&&(subdetlevel == 5)){ //Det in a Rod
        deltaRW(1)=0.003; deltaRW(2)=0.003; deltaRW(3)=0.01; deltaRW(4)=0.0002; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
    }
    if ((level == 1)&&(subdetlevel == 5)){ //DetUnit in a Rod
        deltaRW(1)=0.003; deltaRW(2)=0.003; deltaRW(3)=0.01; deltaRW(4)=0.0002; deltaRW(5)=0.0002; deltaRW(6)=0.0002;
    }
    //TEC
    if ((level == 36)&&(subdetlevel == 6)){ //TEC in the Strip Tracker
        deltaRW(1)=0.06; deltaRW(2)=0.06; deltaRW(3)=0.1; deltaRW(4)=0.0003; deltaRW(5)=0.0003; deltaRW(6)=0.0003;
    }
    if ((level == 35)&&(subdetlevel == 6)){ //Disk in the TEC 
        deltaRW(1)=0.015; deltaRW(2)=0.015; deltaRW(3)=0.03; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
    }
    if ((level == 34)&&(subdetlevel == 6)){ //Side on a Disk
        deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.02; deltaRW(4)=0.00005; deltaRW(5)=0.00005; deltaRW(6)=0.00005;
    }
    if ((level == 33)&&(subdetlevel == 6)){ //Petal on a Side of a Disk
        deltaRW(1)=0.01; deltaRW(2)=0.01; deltaRW(3)=0.02; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
    }
    if ((level == 32)&&(subdetlevel == 6)){ //Ring on a Petal
        deltaRW(1)=0.007; deltaRW(2)=0.007; deltaRW(3)=0.015; deltaRW(4)=0.00015; deltaRW(5)=0.00015; deltaRW(6)=0.00015;
    }
    if ((level == 2)&&(subdetlevel == 6)){ //Det on a Ring
        deltaRW(1)=0.002; deltaRW(2)=0.002; deltaRW(3)=0.005; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
    }
    if ((level == 1)&&(subdetlevel == 6)){ // DetUnit on a Ring
        deltaRW(1)=0.002; deltaRW(2)=0.002; deltaRW(3)=0.005; deltaRW(4)=0.0001; deltaRW(5)=0.0001; deltaRW(6)=0.0001;
    }
    
    return deltaRW;
    

}

// Plug in to framework

#include "FWCore/Framework/interface/MakerMacros.h"

DEFINE_FWK_MODULE(CreateSurveyRcds);