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#include "DQM/SiStripCommissioningDbClients/interface/CalibrationHistosUsingDb.h"
#include "CondFormats/SiStripObjects/interface/CalibrationAnalysis.h"
#include "CondFormats/SiStripObjects/interface/CalibrationScanAnalysis.h"
#include "DataFormats/SiStripCommon/interface/SiStripConstants.h"
#include "DataFormats/SiStripCommon/interface/SiStripFecKey.h"
#include "DQM/SiStripCommon/interface/ExtractTObject.h"
#include "FWCore/MessageLogger/interface/MessageLogger.h"
#include <iostream>
using namespace sistrip;
// -----------------------------------------------------------------------------
/** */
std::string getBasePath(const std::string& path) {
return path.substr(0, path.find(std::string(sistrip::root_) + "/") + sizeof(sistrip::root_));
}
// -----------------------------------------------------------------------------
/** */
CalibrationHistosUsingDb::CalibrationHistosUsingDb(const edm::ParameterSet& pset,
DQMStore* bei,
SiStripConfigDb* const db,
edm::ESGetToken<TrackerTopology, TrackerTopologyRcd> tTopoToken,
const sistrip::RunType& task)
: CommissioningHistograms(pset.getParameter<edm::ParameterSet>("CalibrationParameters"), bei, task),
CommissioningHistosUsingDb(db, tTopoToken, task),
CalibrationHistograms(pset.getParameter<edm::ParameterSet>("CalibrationParameters"), bei, task) {
LogTrace(mlDqmClient_) << "[CalibrationHistosUsingDb::" << __func__ << "]"
<< " Constructing object...";
// Load and dump the current ISHA/VFS values. This is used by the standalone analysis script
const SiStripConfigDb::DeviceDescriptionsRange& apvDescriptions = db->getDeviceDescriptions(APV25);
for (SiStripConfigDb::DeviceDescriptionsV::const_iterator apv = apvDescriptions.begin(); apv != apvDescriptions.end();
++apv) {
apvDescription* desc = dynamic_cast<apvDescription*>(*apv);
if (!desc) {
continue;
}
// Retrieve device addresses from device description
const SiStripConfigDb::DeviceAddress& addr = db->deviceAddress(*desc);
std::stringstream bin;
bin << std::setw(1) << std::setfill('0') << addr.fecCrate_;
bin << "." << std::setw(2) << std::setfill('0') << addr.fecSlot_;
bin << "." << std::setw(1) << std::setfill('0') << addr.fecRing_;
bin << "." << std::setw(3) << std::setfill('0') << addr.ccuAddr_;
bin << "." << std::setw(2) << std::setfill('0') << addr.ccuChan_;
bin << "." << desc->getAddress();
LogTrace(mlDqmClient_) << "Present values for ISHA/VFS of APV " << bin.str() << " : "
<< static_cast<uint16_t>(desc->getIsha()) << " " << static_cast<uint16_t>(desc->getVfs());
}
allowSelectiveUpload_ =
this->pset().existsAs<bool>("doSelectiveUpload") ? this->pset().getParameter<bool>("doSelectiveUpload") : false;
if (allowSelectiveUpload_)
LogTrace(mlDqmClient_) << "[CalibrationHistosUsingDb::" << __func__ << "]"
<< " Enabling selective update of FED parameters.";
}
// -----------------------------------------------------------------------------
/** */
CalibrationHistosUsingDb::~CalibrationHistosUsingDb() {
LogTrace(mlDqmClient_) << "[CalibrationHistosUsingDb::" << __func__ << "]"
<< " Destructing object...";
}
// -----------------------------------------------------------------------------
/** */
void CalibrationHistosUsingDb::uploadConfigurations() {
if (!db()) {
edm::LogWarning(mlDqmClient_) << "[CalibrationHistosUsingDb::" << __func__ << "]"
<< " NULL pointer to SiStripConfigDb interface!"
<< " Aborting upload...";
return;
}
if (task() == sistrip::CALIBRATION or task() == sistrip::CALIBRATION_DECO) {
edm::LogWarning(mlDqmClient_)
<< "[CalibrationHistosUsingDb::" << __func__ << "]"
<< " Nothing has to be uploaded to the SiStripConfigDb for CALIBRATION_SCAN or CALIBRATION_SCAN_DECO run-types"
<< " Aborting upload...";
return;
} else if (task() == sistrip::CALIBRATION_SCAN or task() == sistrip::CALIBRATION_SCAN_DECO) {
// Update all APV device descriptions with new ISHA and VFS settings
SiStripConfigDb::DeviceDescriptionsRange devices = db()->getDeviceDescriptions(APV25);
update(devices);
if (doUploadConf()) {
edm::LogVerbatim(mlDqmClient_) << "[CalibrationHistosUsingDb::" << __func__ << "]"
<< " Uploading ISHA/VFS settings to DB...";
db()->uploadDeviceDescriptions();
edm::LogVerbatim(mlDqmClient_) << "[CalibrationHistosUsingDb::" << __func__ << "]"
<< " Uploaded ISHA/VFS settings to DB!";
} else {
edm::LogWarning(mlDqmClient_) << "[CalibrationHistosUsingDb::" << __func__ << "]"
<< " TEST only! No ISHA/VFS settings will be uploaded to DB...";
}
LogTrace(mlDqmClient_) << "[CalibrationHistosUsingDb::" << __func__ << "]"
<< " Upload of ISHA/VFS settings to DB finished!";
}
}
// -----------------------------------------------------------------------------
void CalibrationHistosUsingDb::update(SiStripConfigDb::DeviceDescriptionsRange& devices) {
if (task() == sistrip::CALIBRATION or task() == sistrip::CALIBRATION_DECO) {
edm::LogWarning(mlDqmClient_)
<< "[CalibrationHistosUsingDb::" << __func__ << "]"
<< " Nothing has to be uploaded to the SiStripConfigDb for CALIBRATION_SCAN or CALIBRATION_SCAN_DECO run-type"
<< " Aborting upload...";
return;
} else if (task() == sistrip::CALIBRATION_SCAN or task() == sistrip::CALIBRATION_SCAN_DECO) {
// Iterate through devices and update device descriptions
SiStripConfigDb::DeviceDescriptionsV::const_iterator idevice;
for (idevice = devices.begin(); idevice != devices.end(); idevice++) {
// Check device type
if ((*idevice)->getDeviceType() != APV25) {
continue;
}
// Cast to retrieve appropriate description object
apvDescription* desc = dynamic_cast<apvDescription*>(*idevice);
if (!desc) {
continue;
}
// Retrieve the device address from device description
const SiStripConfigDb::DeviceAddress& addr = db()->deviceAddress(*desc);
// Retrieve LLD channel and APV numbers
uint16_t ichan = (desc->getAddress() - 0x20) / 2;
uint16_t iapv = (desc->getAddress() - 0x20) % 2;
// Construct key from device description
SiStripFecKey fec_key(addr.fecCrate_, addr.fecSlot_, addr.fecRing_, addr.ccuAddr_, addr.ccuChan_, ichan + 1);
// Iterate through all channels and extract LLD settings
Analyses::const_iterator iter = data(allowSelectiveUpload_).find(fec_key.key());
if (iter != data(allowSelectiveUpload_).end()) {
CalibrationScanAnalysis* anal = dynamic_cast<CalibrationScanAnalysis*>(iter->second);
if (!anal) {
edm::LogError(mlDqmClient_) << "[CalibrationHistosUsingDb::" << __func__ << "]"
<< " NULL pointer to analysis object!";
continue;
}
std::stringstream ss;
ss << "[CalibrationHistosUsingDb::" << __func__ << "]"
<< " Updating ISHA and VFS setting for FECCrate/FECSlot/FECRing/CCUAddr/LLD/APV " << fec_key.fecCrate()
<< "/" << fec_key.fecSlot() << "/" << fec_key.fecRing() << "/" << fec_key.ccuAddr() << "/"
<< fec_key.ccuChan() << "/" << fec_key.channel() << iapv << " from ISHA "
<< static_cast<uint16_t>(desc->getIsha()) << " and VFS " << static_cast<uint16_t>(desc->getVfs());
if (iapv == 0) {
desc->setIsha(anal->bestISHA()[0]);
}
if (iapv == 1) {
desc->setIsha(anal->bestISHA()[1]);
}
if (iapv == 0) {
desc->setVfs(anal->bestVFS()[0]);
}
if (iapv == 1) {
desc->setVfs(anal->bestVFS()[1]);
}
ss << " to ISHA " << static_cast<uint16_t>(desc->getIsha()) << " and VFS "
<< static_cast<uint16_t>(desc->getVfs());
edm::LogWarning(mlDqmClient_) << ss.str();
} else {
if (deviceIsPresent(fec_key)) {
edm::LogWarning(mlDqmClient_) << "[CalibrationHistosUsingDb::" << __func__ << "]"
<< " Unable to find FEC key with params FEC/slot/ring/CCU/LLDchan/APV: "
<< fec_key.fecCrate() << "/" << fec_key.fecSlot() << "/" << fec_key.fecRing()
<< "/" << fec_key.ccuAddr() << "/" << fec_key.ccuChan() << "/"
<< fec_key.channel() << "/" << iapv + 1;
}
}
}
}
}
// -----------------------------------------------------------------------------
void CalibrationHistosUsingDb::create(SiStripConfigDb::AnalysisDescriptionsV& desc, Analysis analysis) {
if (task() == sistrip::CALIBRATION or
task() == sistrip::CALIBRATION_DECO) { // calibration run --> pulse shape measurement
CalibrationAnalysis* anal = dynamic_cast<CalibrationAnalysis*>(analysis->second);
if (!anal) {
return;
}
SiStripFecKey fec_key(anal->fecKey());
SiStripFedKey fed_key(anal->fedKey());
for (uint16_t iapv = 0; iapv < 2; ++iapv) {
// Create description table with placeholder values for isha and vfs
CalibrationAnalysisDescription* tmp;
tmp = new CalibrationAnalysisDescription(anal->amplitudeMean()[iapv],
anal->tailMean()[iapv],
anal->riseTimeMean()[iapv],
anal->decayTimeMean()[iapv],
anal->smearingMean()[iapv],
anal->chi2Mean()[iapv],
anal->deconvMode(),
fec_key.fecCrate(),
fec_key.fecSlot(),
fec_key.fecRing(),
fec_key.ccuAddr(),
fec_key.ccuChan(),
SiStripFecKey::i2cAddr(fec_key.lldChan(), !iapv),
db()->dbParams().partitions().begin()->second.partitionName(),
db()->dbParams().partitions().begin()->second.runNumber(),
anal->isValid(),
"",
fed_key.fedId(),
fed_key.feUnit(),
fed_key.feChan(),
fed_key.fedApv(),
anal->calChan(),
-1,
-1);
// Add comments
typedef std::vector<std::string> Strings;
Strings errors = anal->getErrorCodes();
Strings::const_iterator istr = errors.begin();
Strings::const_iterator jstr = errors.end();
for (; istr != jstr; ++istr) {
tmp->addComments(*istr);
}
// Store description
desc.push_back(tmp);
}
} else if (task() == sistrip::CALIBRATION_SCAN or task() == sistrip::CALIBRATION_SCAN_DECO) {
CalibrationScanAnalysis* anal = dynamic_cast<CalibrationScanAnalysis*>(analysis->second);
if (!anal) {
return;
}
SiStripFecKey fec_key(anal->fecKey());
SiStripFedKey fed_key(anal->fedKey());
for (uint16_t iapv = 0; iapv < 2; ++iapv) {
// Create description table with placeholder values for isha and vfs
CalibrationAnalysisDescription* tmp;
tmp = new CalibrationAnalysisDescription(anal->tunedAmplitude()[iapv],
anal->tunedTail()[iapv],
anal->tunedRiseTime()[iapv],
anal->tunedDecayTime()[iapv],
anal->tunedSmearing()[iapv],
anal->tunedChi2()[iapv],
anal->deconvMode(),
fec_key.fecCrate(),
fec_key.fecSlot(),
fec_key.fecRing(),
fec_key.ccuAddr(),
fec_key.ccuChan(),
SiStripFecKey::i2cAddr(fec_key.lldChan(), !iapv),
db()->dbParams().partitions().begin()->second.partitionName(),
db()->dbParams().partitions().begin()->second.runNumber(),
anal->isValid(),
"",
fed_key.fedId(),
fed_key.feUnit(),
fed_key.feChan(),
fed_key.fedApv(),
-1,
anal->tunedISHA()[iapv],
anal->tunedVFS()[iapv]);
// Add comments
typedef std::vector<std::string> Strings;
Strings errors = anal->getErrorCodes();
Strings::const_iterator istr = errors.begin();
Strings::const_iterator jstr = errors.end();
for (; istr != jstr; ++istr) {
tmp->addComments(*istr);
}
// Store description
desc.push_back(tmp);
}
}
}
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