#include <ApvTimingHistosUsingDb.h>

Inheritance diagram for ApvTimingHistosUsingDb:

Public Member Functions
	ApvTimingHistosUsingDb (const edm::ParameterSet &pset, DQMStore , SiStripConfigDb const )

virtual void	uploadConfigurations ()

virtual	~ApvTimingHistosUsingDb ()

Public Member Functions inherited from CommissioningHistosUsingDb
	CommissioningHistosUsingDb (SiStripConfigDb *const, sistrip::RunType=sistrip::UNDEFINED_RUN_TYPE)

bool	doUploadAnal () const

void	doUploadAnal (bool)

bool	doUploadConf () const

void	doUploadConf (bool)

void	uploadToConfigDb ()

virtual	~CommissioningHistosUsingDb ()

Public Member Functions inherited from CommissioningHistograms
	CommissioningHistograms (const edm::ParameterSet &pset, DQMStore *const, const sistrip::RunType &)

	CommissioningHistograms ()

virtual void	configure (const edm::ParameterSet &, const edm::EventSetup &)

void	createCollations (const std::vector< std::string > &)

virtual void	createSummaryHisto (const sistrip::Monitorable &, const sistrip::Presentation &, const std::string &top_level_dir, const sistrip::Granularity &)

void	extractHistograms (const std::vector< std::string > &)

virtual void	printAnalyses ()

virtual void	printSummary ()

void	remove (std::string pattern="")

void	save (std::string &filename, uint32_t run_number=0)

virtual	~CommissioningHistograms ()

Public Member Functions inherited from ApvTimingHistograms
	ApvTimingHistograms (const edm::ParameterSet &pset, DQMStore *)

void	histoAnalysis (bool debug)

virtual	~ApvTimingHistograms ()

Private Member Functions
void	create (SiStripConfigDb::AnalysisDescriptionsV &, Analysis)

bool	update (SiStripConfigDb::DeviceDescriptionsRange)

void	update (SiStripConfigDb::FedDescriptionsRange)

Private Attributes
bool	skipFecUpdate_

bool	skipFedUpdate_

Additional Inherited Members
Public Types inherited from CommissioningHistograms
typedef std::map< uint32_t, CommissioningAnalysis * >	Analyses

typedef Analyses::iterator	Analysis

typedef SummaryPlotFactory < CommissioningAnalysis * >	Factory

typedef std::map< uint32_t, uint32_t >	FedToFecMap

typedef std::vector< Histo * >	Histos

typedef std::map< uint32_t, Histos >	HistosMap

Static Public Member Functions inherited from CommissioningHistograms
static void	copyCustomInformation (DQMStore *const, const std::vector< std::string > &)

static void	getContents (DQMStore *const, std::vector< std::string > &)

static uint32_t	runNumber (DQMStore *const, const std::vector< std::string > &)

static sistrip::RunType	runType (DQMStore *const, const std::vector< std::string > &)

Protected Member Functions inherited from CommissioningHistosUsingDb
virtual void	addDcuDetIds ()

void	buildDetInfo ()

SiStripFedCabling *const	cabling () const

virtual void	createAnalyses (SiStripConfigDb::AnalysisDescriptionsV &)

SiStripConfigDb *const	db () const

std::pair< std::string, DetInfo >	detInfo (const SiStripFecKey &)

bool	deviceIsPresent (const SiStripFecKey &)

void	uploadAnalyses ()

Protected Member Functions inherited from CommissioningHistograms
DQMStore *const	bei () const

void	clearHistosMap ()

Analyses &	data ()

Factory *const	factory ()

TH1 *	histogram (const sistrip::Monitorable &, const sistrip::Presentation &, const sistrip::View &, const std::string &directory, const uint32_t &xbins, const float &xlow=1.sistrip::invalid_, const float &xhigh=1.sistrip::invalid_)

const HistosMap &	histos () const

const FedToFecMap &	mapping () const

void	printHistosMap ()

const edm::ParameterSet &	pset () const

const sistrip::RunType &	task () const

Protected Attributes inherited from CommissioningHistograms
std::auto_ptr< Factory >	factory_

Detailed Description

Definition at line 9 of file ApvTimingHistosUsingDb.h.

Constructor & Destructor Documentation

ApvTimingHistosUsingDb::ApvTimingHistosUsingDb	(	const edm::ParameterSet &	pset,
		DQMStore *	bei,
		SiStripConfigDb * const	db
	)

Definition at line 15 of file ApvTimingHistosUsingDb.cc.

References edm::ParameterSet::getParameter(), LogTrace, sistrip::mlDqmClient_, CommissioningHistograms::pset(), skipFecUpdate_, and skipFedUpdate_.

   : CommissioningHistograms( pset.getParameter<edm::ParameterSet>("ApvTimingParameters"),
                              bei,
                              sistrip::APV_TIMING ),
     CommissioningHistosUsingDb( db,
                                 sistrip::APV_TIMING ),
     ApvTimingHistograms( pset.getParameter<edm::ParameterSet>("ApvTimingParameters"),
                          bei )
 {
   LogTrace(mlDqmClient_) 
     << "[ApvTimingHistosUsingDb::" << __func__ << "]"
     << " Constructing object...";
   skipFecUpdate_ = this->pset().getParameter<bool>("SkipFecUpdate");
   skipFedUpdate_ = this->pset().getParameter<bool>("SkipFedUpdate");
   if (skipFecUpdate_)
     LogTrace(mlDqmClient_)
       << "[ApvTimingHistosUsingDb::" << __func__ << "]"
       << " Skipping update of FEC parameters.";
   if (skipFedUpdate_)
     LogTrace(mlDqmClient_)
       << "[ApvTimingHistosUsingDb::" << __func__ << "]"
       << " Skipping update of FED parameters.";
 }

ApvTimingHistosUsingDb::~ApvTimingHistosUsingDb ( )

virtual

Definition at line 43 of file ApvTimingHistosUsingDb.cc.

References LogTrace, and sistrip::mlDqmClient_.

                                                 {
   LogTrace(mlDqmClient_) 
     << "[ApvTimingHistosUsingDb::" << __func__ << "]"
     << " Destructing object...";
 }

Member Function Documentation

void ApvTimingHistosUsingDb::create	(	SiStripConfigDb::AnalysisDescriptionsV &	desc,
		Analysis	analysis
	)

privatevirtual

Reimplemented from CommissioningHistosUsingDb.

Definition at line 400 of file ApvTimingHistosUsingDb.cc.

                                          {
 
   ApvTimingAnalysis* anal = dynamic_cast<ApvTimingAnalysis*>( analysis->second );
   if ( !anal ) { return; }
   
   SiStripFecKey fec_key( anal->fecKey() );
   SiStripFedKey fed_key( anal->fedKey() );
   
   for ( uint16_t iapv = 0; iapv < 2; ++iapv ) {
     
 //     std::stringstream ss;
 //     if ( anal->isValid() ) { ss << " TEST VALID "; } 
 //     else { ss << " TEST INVALID "; }
 //     ss << std::hex << anal->fecKey() << std::dec << " "
 //        << anal->base() << " "
 //        << anal->peak() << " "
 //        << anal->height() << " "
 //        << ( anal->base() + anal->height() * ApvTimingAnalysis::frameFindingThreshold_ ) << " "
 //        << anal->frameFindingThreshold();
 //     edm::LogError("TEST") << ss.str();
     
     // Create description
     TimingAnalysisDescription* tmp;
     tmp = new TimingAnalysisDescription( anal->time(),
                      anal->refTime(),
                      anal->delay(),
                      anal->height(),
                      anal->base(),
                      anal->peak(),
                      anal->frameFindingThreshold(),
                      anal->optimumSamplingPoint(),
                      ApvTimingAnalysis::tickMarkHeightThreshold_,
                      true, //@@ APV timing analysis (not FED timing)
                      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() );
     
     // 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 );
     
   }
 
 }

bool ApvTimingHistosUsingDb::update ( SiStripConfigDb::DeviceDescriptionsRange devices )

private

Definition at line 130 of file ApvTimingHistosUsingDb.cc.

References SiStripFecKey::ccuAddr(), SiStripConfigDb::DeviceAddress::ccuAddr_, SiStripFecKey::ccuChan(), SiStripConfigDb::DeviceAddress::ccuChan_, SiStripKey::channel(), sistrip::CHANS_PER_LLD, CommissioningHistograms::data(), CommissioningHistosUsingDb::db(), ApvTimingAnalysis::delay(), SiStripConfigDb::deviceAddress(), CommissioningHistosUsingDb::deviceIsPresent(), SiStripFecKey::fecCrate(), SiStripConfigDb::DeviceAddress::fecCrate_, SiStripFecKey::fecRing(), SiStripConfigDb::DeviceAddress::fecRing_, SiStripFecKey::fecSlot(), SiStripConfigDb::DeviceAddress::fecSlot_, align::invalid, sistrip::invalid_, edm::isDebugEnabled(), SiStripKey::key(), LogTrace, and sistrip::mlDqmClient_.

                                                                                     {
   
   // Iterate through devices and update device descriptions
   uint16_t updated = 0;
   std::vector<SiStripFecKey> invalid;
   SiStripConfigDb::DeviceDescriptionsV::const_iterator idevice;
 
   for ( idevice = devices.begin(); idevice != devices.end(); idevice++ ) {
 
     // Check device type
     if ( (*idevice)->getDeviceType() != PLL ) { continue; }
     
     // Cast to retrieve appropriate description object
     pllDescription* desc = dynamic_cast<pllDescription*>( *idevice ); 
     if ( !desc ) { continue; }
     
     // Retrieve device addresses from device description
     const SiStripConfigDb::DeviceAddress& addr = db()->deviceAddress(*desc);
     SiStripFecKey fec_path;
     
     // PLL delay settings
     uint32_t coarse = sistrip::invalid_; 
     uint32_t fine = sistrip::invalid_; 
 
     // Iterate through LLD channels
     for ( uint16_t ichan = 0; ichan < sistrip::CHANS_PER_LLD; ichan++ ) {
       
       // Construct key from device description
       SiStripFecKey fec_key( addr.fecCrate_,
                  addr.fecSlot_, 
                  addr.fecRing_,
                  addr.ccuAddr_, 
                  addr.ccuChan_,
                  ichan+1 );
       fec_path = fec_key;
       
       // Locate appropriate analysis object
       Analyses::const_iterator iter = data().find( fec_key.key() );
       if ( iter != data().end() ) { 
     
     ApvTimingAnalysis* anal = dynamic_cast<ApvTimingAnalysis*>( iter->second );
     if ( !anal ) { 
       edm::LogError(mlDqmClient_)
         << "[ApvTimingHistosUsingDb::" << __func__ << "]"
         << " NULL pointer to analysis object!";
       continue; 
     }
     
     // Calculate coarse and fine delays
         int32_t delay = static_cast<int32_t>( rint( anal->delay() )*24./25 );
         // first set course delay
     coarse = static_cast<uint16_t>( desc->getDelayCoarse() + (delay/24) ) 
              + ( static_cast<uint16_t>( desc->getDelayFine() ) + (delay%24) ) / 24;
         delay = delay % 24; // only bother with fine delay now
         if ( ( static_cast<uint16_t>( desc->getDelayFine() ) + delay ) % 24 < 0 ) {
           coarse -= 1;
       delay += 24;
     }
     fine = ( static_cast<uint16_t>( desc->getDelayFine() ) + delay ) % 24;
     
     // Record PPLs maximum coarse setting
     if ( coarse > 15 ) { invalid.push_back(fec_key); }
     
       } else {
     if ( deviceIsPresent(fec_key) ) { 
       edm::LogWarning(mlDqmClient_) 
         << "[ApvTimingHistosUsingDb::" << __func__ << "]"
         << " Unable to find FEC key with params crate/FEC/ring/CCU/module/LLD: " 
         << fec_key.fecCrate() << "/"
         << fec_key.fecSlot() << "/"
         << fec_key.fecRing() << "/"
         << fec_key.ccuAddr() << "/" 
         << fec_key.ccuChan() << "/"
         << fec_key.channel();
     }
       }
       
       // Exit LLD channel loop if coarse and fine delays are known
       if ( coarse != sistrip::invalid_ && 
        fine != sistrip::invalid_ ) { break; }
       
     } // lld channel loop
     
     // Update PLL settings
     if ( coarse != sistrip::invalid_ && 
      fine != sistrip::invalid_ ) { 
       
       std::stringstream ss;
       if ( edm::isDebugEnabled() ) {
     ss << "[ApvTimingHistosUsingDb::" << __func__ << "]"
        << " Updating coarse/fine PLL settings"
        << " for crate/FEC/ring/CCU/module "
        << fec_path.fecCrate() << "/"
        << fec_path.fecSlot() << "/"
        << fec_path.fecRing() << "/"
        << fec_path.ccuAddr() << "/"
        << fec_path.ccuChan() 
        << " from "
        << static_cast<uint16_t>( desc->getDelayCoarse() ) << "/" 
        << static_cast<uint16_t>( desc->getDelayFine() );
       }
       desc->setDelayCoarse(coarse);
       desc->setDelayFine(fine);
       updated++;
       if ( edm::isDebugEnabled() ) {
     ss << " to "
        << static_cast<uint16_t>( desc->getDelayCoarse() ) << "/" 
        << static_cast<uint16_t>( desc->getDelayFine() );
     LogTrace(mlDqmClient_) << ss.str();
       }
       
     } else {
       edm::LogWarning(mlDqmClient_) 
     << "[ApvTimingHistosUsingDb::" << __func__ << "]"
     << " Invalid PLL delay settings course/fine = "
         << coarse << "/" << fine
         << " for crate/FEC/ring/CCU/module " 
     << fec_path.fecCrate() << "/"
     << fec_path.fecSlot() << "/"
     << fec_path.fecRing() << "/"
     << fec_path.ccuAddr() << "/"
     << fec_path.ccuChan();
     }
     
   }
 
   // Check if invalid settings were found
   if ( !invalid.empty() ) {
     std::stringstream ss;
     ss << "[ApvTimingHistosUsingDb::" << __func__ << "]"
        << " Found PLL coarse setting of >15" 
        << " (not allowed!) for "
        << invalid.size()
        << " channels";
     ss << " (Example is crate/FEC/ring/CCU/module/LLD: "
        << invalid.front().fecCrate() << "/"
        << invalid.front().fecSlot() << "/"
        << invalid.front().fecRing() << "/"
        << invalid.front().ccuAddr() << "/"
        << invalid.front().ccuChan() << "/"
        << invalid.front().channel();
     edm::LogWarning(mlDqmClient_) << ss.str();
     return false;
   }
   
   edm::LogVerbatim(mlDqmClient_) 
     << "[ApvTimingHistosUsingDb::" << __func__ << "]"
     << " Updated PLL settings for " 
     << updated << " modules";
   return true;
     
 }

void ApvTimingHistosUsingDb::update ( SiStripConfigDb::FedDescriptionsRange feds )

private

Definition at line 285 of file ApvTimingHistosUsingDb.cc.

                                                                               {
   
   // Retrieve FED ids from cabling
   std::vector<uint16_t> ids = cabling()->feds();
   
   // Iterate through feds and update fed descriptions
   uint16_t updated = 0;
   SiStripConfigDb::FedDescriptionsV::const_iterator ifed;
   for ( ifed = feds.begin(); ifed != feds.end(); ifed++ ) {
     
     // If FED id not found in list (from cabling), then continue
     if ( find( ids.begin(), ids.end(), (*ifed)->getFedId() ) == ids.end() ) { continue; } 
     
     for ( uint16_t ichan = 0; ichan < sistrip::FEDCH_PER_FED; ichan++ ) {
 
       // Build FED and FEC keys
       const FedChannelConnection& conn = cabling()->connection( (*ifed)->getFedId(), ichan );
       if ( conn.fecCrate() == sistrip::invalid_ ||
        conn.fecSlot() == sistrip::invalid_ ||
        conn.fecRing() == sistrip::invalid_ ||
        conn.ccuAddr() == sistrip::invalid_ ||
        conn.ccuChan() == sistrip::invalid_ ||
        conn.lldChannel() == sistrip::invalid_ ) { continue; }
       SiStripFedKey fed_key( conn.fedId(), 
                  SiStripFedKey::feUnit( conn.fedCh() ),
                  SiStripFedKey::feChan( conn.fedCh() ) );
       SiStripFecKey fec_key( conn.fecCrate(), 
                  conn.fecSlot(), 
                  conn.fecRing(), 
                  conn.ccuAddr(), 
                  conn.ccuChan(), 
                  conn.lldChannel() );
       
       // Locate appropriate analysis object 
       Analyses::const_iterator iter = data().find( fec_key.key() );
       if ( iter != data().end() ) { 
     
     ApvTimingAnalysis* anal = dynamic_cast<ApvTimingAnalysis*>( iter->second );
     if ( !anal ) { 
       edm::LogError(mlDqmClient_)
         << "[ApvTimingHistosUsingDb::" << __func__ << "]"
         << " NULL pointer to analysis object!";
       continue; 
     }
     
     // Update frame finding threshold
     Fed9U::Fed9UAddress addr( ichan );
     uint16_t old_threshold = static_cast<uint16_t>( (*ifed)->getFrameThreshold( addr ) );
     if ( anal->isValid() ) {
       (*ifed)->setFrameThreshold( addr, anal->frameFindingThreshold() );
       updated++;
     }
     uint16_t new_threshold = static_cast<uint16_t>( (*ifed)->getFrameThreshold( addr ) );
     
     // Debug
     std::stringstream ss;
     ss << "[ApvTimingHistosUsingDb::" << __func__ << "]";
     if ( anal->isValid() ) {
       ss << " Updating the frame-finding threshold"
          << " from " << old_threshold
          << " to " << new_threshold
          << " using tick mark base/peak/height "
          << anal->base() << "/"
          << anal->peak() << "/"
          << anal->height();
     } else {
       ss << " Cannot update the frame-finding threshold"
          << " from " << old_threshold
          << " to a new value using invalid analysis ";
     }
     ss << " for crate/FEC/ring/CCU/module/LLD "
        << fec_key.fecCrate() << "/"
        << fec_key.fecSlot() << "/"
        << fec_key.fecRing() << "/"
        << fec_key.ccuAddr() << "/"
        << fec_key.ccuChan() 
        << fec_key.channel() 
        << " and FED id/ch "
        << fed_key.fedId() << "/"
        << fed_key.fedChannel();
     anal->print(ss);
     //LogTrace(mlDqmClient_) << ss.str();
     
       } else {
     if ( deviceIsPresent(fec_key) ) { 
       std::stringstream ss;
       ss << "[ApvTimingHistosUsingDb::" << __func__ << "]"
          << " Unable to find analysis object and update ticker thresholds"
          << " for key/crate/FEC/ring/CCU/module/LLD " 
          << std::hex << std::setw(8) << std::setfill('0') << fec_key.key() << std::dec
          << fec_key.fecCrate() << "/"
          << fec_key.fecSlot() << "/"
          << fec_key.fecRing() << "/"
          << fec_key.ccuAddr() << "/"
          << fec_key.ccuChan() << "/"
          << fec_key.channel()
          << " and FED key/id/ch "
          << std::hex << std::setw(8) << std::setfill('0') << fed_key.key() << std::dec
          << fed_key.fedId() << "/"
          << fed_key.fedChannel();
       edm::LogWarning(mlDqmClient_) << ss.str();
     }
       }
     }
   }
 
   edm::LogVerbatim(mlDqmClient_) 
     << "[ApvTimingHistosUsingDb::" << __func__ << "]"
     << " Updated ticker thresholds for " << updated 
     << " channels on " << ids.size() << " FEDs!";
   
 }

void ApvTimingHistosUsingDb::uploadConfigurations ( )

virtual

Reimplemented from CommissioningHistosUsingDb.

Definition at line 51 of file ApvTimingHistosUsingDb.cc.

References CommissioningHistosUsingDb::db(), CommissioningHistosUsingDb::doUploadConf(), SiStripConfigDb::getDeviceDescriptions(), SiStripConfigDb::getFedDescriptions(), LogTrace, sistrip::mlDqmClient_, skipFecUpdate_, skipFedUpdate_, update(), alcaDQMUpload::upload(), SiStripConfigDb::uploadDeviceDescriptions(), and SiStripConfigDb::uploadFedDescriptions().

                                                   {
   LogTrace(mlDqmClient_) 
     << "[ApvTimingHistosUsingDb::" << __func__ << "]";
   
   if ( !db() ) {
     edm::LogError(mlDqmClient_) 
       << "[ApvTimingHistosUsingDb::" << __func__ << "]"
       << " NULL pointer to SiStripConfigDb interface!"
       << " Aborting upload...";
     return;
   }
   
   if ( !skipFecUpdate_ ) {
 
     // Retrieve and update PLL device descriptions
     SiStripConfigDb::DeviceDescriptionsRange devices = db()->getDeviceDescriptions( PLL ); 
     bool upload = update( devices );
     
     // Check if new PLL settings are valid 
     if ( !upload ) {
       edm::LogError(mlDqmClient_) 
     << "[ApvTimingHistosUsingDb::" << __func__ << "]"
     << " Found invalid PLL settings (coarse > 15)"
     << " Aborting update to database...";
       return;
     }
     
     // Upload PLL device descriptions
     if ( doUploadConf() ) { 
       edm::LogVerbatim(mlDqmClient_) 
     << "[ApvTimingHistosUsingDb::" << __func__ << "]"
     << " Uploading PLL settings to DB...";
       db()->uploadDeviceDescriptions(); 
       edm::LogVerbatim(mlDqmClient_) 
     << "[ApvTimingHistosUsingDb::" << __func__ << "]"
     << " Upload of PLL settings to DB finished!";
     } else {
       edm::LogWarning(mlDqmClient_) 
     << "[ApvTimingHistosUsingDb::" << __func__ << "]"
     << " TEST only! No PLL settings will be uploaded to DB...";
     }
     
   } else {
     LogTrace(mlDqmClient_) 
       << "[ApvTimingHistosUsingDb::" << __func__ << "]"
       << " No upload of PLL settings to DB, as defined by .cfg file!";
   }
   
   if ( !skipFedUpdate_ ) {
     
     // Update FED descriptions with new ticker thresholds
     SiStripConfigDb::FedDescriptionsRange feds = db()->getFedDescriptions(); 
     update( feds );
     
     // Update FED descriptions with new ticker thresholds
     if ( doUploadConf() ) { 
       edm::LogVerbatim(mlDqmClient_) 
     << "[ApvTimingHistosUsingDb::" << __func__ << "]"
     << " Uploading FED ticker thresholds to DB...";
       db()->uploadFedDescriptions(); 
       edm::LogVerbatim(mlDqmClient_) 
     << "[ApvTimingHistosUsingDb::" << __func__ << "]"
     << " Upload of FED ticker thresholds to DB finished!";
     } else {
       edm::LogWarning(mlDqmClient_) 
     << "[ApvTimingHistosUsingDb::" << __func__ << "]"
     << " TEST only! No FED ticker thresholds will be uploaded to DB...";
     }
     
   } else {
     LogTrace(mlDqmClient_) 
       << "[ApvTimingHistosUsingDb::" << __func__ << "]"
       << " No Upload of FED ticker thresholds to DB, as defined by .cfg file!";
   }
 
 }

Member Data Documentation

bool ApvTimingHistosUsingDb::skipFecUpdate_

private

Definition at line 30 of file ApvTimingHistosUsingDb.h.

Referenced by ApvTimingHistosUsingDb(), and uploadConfigurations().

bool ApvTimingHistosUsingDb::skipFedUpdate_

private

Definition at line 32 of file ApvTimingHistosUsingDb.h.

Referenced by ApvTimingHistosUsingDb(), and uploadConfigurations().

Public Member Functions

Private Member Functions

Private Attributes

Additional Inherited Members

Detailed Description

Constructor & Destructor Documentation

Member Function Documentation

Member Data Documentation