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#include "DataFormats/HcalDetId/interface/HcalCalibDetId.h"
#include "DataFormats/HcalDetId/interface/HcalSubdetector.h"
#include "FWCore/Utilities/interface/Exception.h"
HcalCalibDetId::HcalCalibDetId() : HcalOtherDetId() {}
HcalCalibDetId::HcalCalibDetId(uint32_t rawid) : HcalOtherDetId(rawid) {}
HcalCalibDetId::HcalCalibDetId(HcalSubdetector subdet, int ieta, int iphi, int ctype)
: HcalOtherDetId(HcalCalibration) {
id_ |= (CalibrationBox << 17); // Calibration Category, bits [17:19] (= "1" for CalibrationBox)
id_ |= (ctype & 0xF); // calibration channel type, bits [0:3]
id_ |= (((ieta + 2) & 0x7) << 11); // eta index, bits [11:13]
id_ |= ((subdet & 0x7) << 14); // subdetector, bits [14:16]
if (subdet == 4)
id_ |= ((((((((iphi - 1) & 0x7E) + 1) / 18) * 18) + 1) & 0x7F)
<< 4); // phi index, bits [4:10] dphi = 18 for HF, values 1,19,37,55 (lower edge)
//if (subdet==4) id_|=(((((((((iphi-1)>>1)<<1)+1)/18)*18)+1)&0x7F)<<4); // phi index, bits [4:10] dphi = 18 for HF, values 1,19,37,55 (lower edge)
//else if (subdet==1||subdet==2||subdet==3) id_|=((((((iphi+1)&0x7C)+71)%72)&0x7F)<<4); // phi index, bits [4:10] dphi=4 for HBHEHO, values 3,7,...,71, (lower edge)
else if (subdet == 1 || subdet == 2)
id_ |= (((((((iphi + 1) >> 2) & 0x1F) << 2) + 71) % 72)
<< 4); // phi index, bits [4:10] dphi=4 for HBHE, values 3,7,...,71, (lower edge)
else if (subdet == 3 && ieta == 0)
id_ |= (((((((iphi + 1) / 6) * 6) + 71) % 72) & 0x7F)
<< 4); // phi index, bits [4:10] dphi=6 for HO0, values 5,11,...,71, (lower edge)
else if (subdet == 3 && ieta != 0)
id_ |= (((((((iphi + 1) / 12) * 12) + 71) % 72) & 0x7F)
<< 4); // phi index, bits [4:10] dphi=12 for HOP and HOM, values 11,23,,...,71, (lower edge)
else
id_ |= ((iphi & 0x7F) << 4); // phi index, bits [4:10], simply allow all values from 0-127, shouldn't be any
}
// keep old HOX constructor for back-compatibility
HcalCalibDetId::HcalCalibDetId(int ieta, int iphi) : HcalOtherDetId(HcalCalibration) {
id_ |= (HOCrosstalk << 17); // Calibration Category, bits [17:19] (= "2" for HOX)
id_ |= (iphi & 0x7F) // phi index, bits [0:6]
| ((abs(ieta) & 0xF) << 7) // eta index, bits [7:10]
| (((ieta > 0) ? (1) : (0)) << 11); // z side, bit [11]
}
HcalCalibDetId::HcalCalibDetId(CalibDetType dt, int ieta, int iphi) : HcalOtherDetId(HcalCalibration) {
id_ |= (dt << 17); // Calibration Category, bits [17:19] (= "2" for HOX, "6" for HBX, "7" for HEX)
id_ |= (iphi & 0x7F); // phi index, bits [0:6];
(dt == HOCrosstalk) ? (id_ |= ((abs(ieta) & 0xF) << 7) | (((ieta > 0) ? (1) : (0)) << 11))
: (id_ |= ((abs(ieta) & 0x1F) << 7) | (((ieta > 0) ? (1) : (0)) << 12));
}
HcalCalibDetId::HcalCalibDetId(CalibDetType dt, int value) : HcalOtherDetId(HcalCalibration) {
id_ |= (dt << 17);
id_ |= value & 0xFF;
}
HcalCalibDetId::HcalCalibDetId(CalibDetType dt, int value1, int value2, int value3) : HcalOtherDetId(HcalCalibration) {
id_ |= (dt << 17); // Calibration Category, bits [17:19]
id_ |= (value1 & 0x3F) << 10;
id_ |= (value2 & 0x1F) << 5;
id_ |= (value3 & 0x1F);
}
HcalCalibDetId::HcalCalibDetId(const DetId& gen) {
if (!gen.null() && (gen.det() != Hcal || gen.subdetId() != HcalOther)) {
throw cms::Exception("Invalid DetId")
<< "Cannot initialize HcalCalibDetId from " << std::hex << gen.rawId() << std::dec;
}
id_ = gen.rawId();
if (subdet() != HcalCalibration) {
throw cms::Exception("Invalid DetId")
<< "Cannot initialize HcalCalibDetId from " << std::hex << gen.rawId() << std::dec;
}
}
HcalCalibDetId& HcalCalibDetId::operator=(const DetId& gen) {
if (!gen.null() && (gen.det() != Hcal || gen.subdetId() != HcalOther)) {
throw cms::Exception("Invalid DetId")
<< "Cannot assign HcalCalibDetId from " << std::hex << gen.rawId() << std::dec;
}
id_ = gen.rawId();
if (subdet() != HcalCalibration) {
throw cms::Exception("Invalid DetId")
<< "Cannot assign HcalCalibDetId from " << std::hex << gen.rawId() << std::dec;
}
return *this;
}
int HcalCalibDetId::cboxChannel() const {
return (calibFlavor() == CalibrationBox || calibFlavor() == LASERMON) ? (id_ & 0xF) : (0);
}
HcalSubdetector HcalCalibDetId::hcalSubdet() const {
return (HcalSubdetector)((calibFlavor() == CalibrationBox) ? ((id_ >> 14) & 0x7) : (0));
}
int HcalCalibDetId::ieta() const {
CalibDetType cf = calibFlavor();
return (cf == CalibrationBox)
? (((id_ >> 11) & 0x7) - 2)
: ((cf == HOCrosstalk)
? (((id_ >> 7) & 0xF) * zside())
: (cf == LASERMON ? ((id_ >> 10) & 0x3F)
: (((cf == HBX || cf == HEX) ? ((id_ >> 7) & 0x1F) * zside() : (0)))));
}
int HcalCalibDetId::iphi() const {
CalibDetType cf = calibFlavor();
return (cf == CalibrationBox)
? ((id_ >> 4) & 0x7F)
: ((cf == HOCrosstalk || cf == HBX || cf == HEX) ? (id_ & 0x7F)
: (cf == LASERMON ? ((id_ >> 5) & 0x1F) : (0)));
}
int HcalCalibDetId::zside() const {
CalibDetType cf = calibFlavor();
return (cf == HOCrosstalk) ? (((id_ >> 11) & 0x1) ? (1) : (-1))
: ((cf == HBX || cf == HEX) ? (((id_ >> 12) & 0x1) ? (1) : (-1)) : (0));
}
std::string HcalCalibDetId::cboxChannelString() const {
switch (cboxChannel()) {
case (cbox_MixerHigh):
return "Mixer-High";
case (cbox_MixerLow):
return "Mixer-Low";
case (cbox_LaserMegatile):
return "Megatile";
case (cbox_RadDam_Layer0_RM4):
return "RadDam-L0-RM4";
case (cbox_RadDam_Layer7_RM4):
return "RadDam-L7-RM4";
case (cbox_RadDam_Layer0_RM1):
return "RadDam-L0-RM1";
case (cbox_RadDam_Layer7_RM1):
return "RadDam-L7-RM1";
case (cbox_HOCrosstalkPIN):
return "HO-Crosstalk-PIN";
case (cbox_HF_ScintillatorPIN):
return "HF-Scint-PIN";
default:
return "";
}
}
int HcalCalibDetId::channel() const { return (calibFlavor() == uMNqie) ? (id_ & 0xFF) : (id_ & 0x1F); }
int HcalCalibDetId::fiber() const { return (calibFlavor() == CastorRadFacility) ? ((id_ >> 5) & 0x1F) : (0); }
int HcalCalibDetId::rm() const { return (calibFlavor() == CastorRadFacility) ? ((id_ >> 10) & 0x3F) : (0); }
std::ostream& operator<<(std::ostream& s, const HcalCalibDetId& id) {
std::string sd;
switch (id.hcalSubdet()) {
case (HcalBarrel):
sd = "HB";
break;
case (HcalEndcap):
sd = "HE";
break;
case (HcalOuter):
sd = "HO";
break;
case (HcalForward):
sd = "HF";
break;
default:
break;
}
switch (id.calibFlavor()) {
case (HcalCalibDetId::CalibrationBox):
return s << "(HcalCalibBox " << sd << ' ' << id.ieta() << "," << id.iphi() << ' ' << id.cboxChannelString()
<< ')';
case (HcalCalibDetId::HOCrosstalk):
return s << "(HOCrosstalk " << id.ieta() << "," << id.iphi() << ')';
case (HcalCalibDetId::uMNqie):
return s << "(uMNqie " << id.channel() << ')';
case (HcalCalibDetId::LASERMON):
return s << "(LASERMON" << id.channel() << ')';
case (HcalCalibDetId::CastorRadFacility):
return s << "(CastorRadFacility " << id.rm() << " / " << id.fiber() << " / " << id.channel() << ')';
case (HcalCalibDetId::HBX):
return s << "(HBX " << id.ieta() << "," << id.iphi() << ")";
case (HcalCalibDetId::HEX):
return s << "(HEX " << id.ieta() << "," << id.iphi() << ")";
default:
return s;
};
}
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