Inheritance diagram for cms::DDCMSDetElementCreator:

Classes
struct	Count

struct	Data

Public Member Functions
	DDCMSDetElementCreator (dd4hep::Detector &)

int	operator() (dd4hep::PlacedVolume volume, int level) override
	Callback to output PlacedVolume information of an single Placement. More...

int	process (dd4hep::PlacedVolume volume, int level, bool recursive) override
	Callback to output PlacedVolume information of an entire Placement. More...

	~DDCMSDetElementCreator () override

Private Types
using	Counters = std::map< dd4hep::DetElement, Count >

using	Detectors = std::map< std::string, dd4hep::DetElement >

using	LeafCount = std::map< std::pair< dd4hep::DetElement, int >, std::pair< int, int > >

using	VolumeStack = std::vector< Data >

Private Member Functions
dd4hep::DetElement	addSubdetector (const std::string &nam, dd4hep::PlacedVolume volume, bool valid)

dd4hep::DetElement	createElement (const char *debugTag, dd4hep::PlacedVolume volume, int id)

void	createTopLevelDetectors (dd4hep::PlacedVolume volume)

Private Attributes
std::map< dd4hep::PlacedVolume, std::pair< int, int > >	m_allPlacements

Counters	m_counters

dd4hep::DetElement	m_currentDetector

dd4hep::SensitiveDetector	m_currentSensitive

dd4hep::Detector &	m_description

LeafCount	m_leafCount

dd4hep::Atom	m_silicon

VolumeStack	m_stack

Detectors	m_subdetectors

dd4hep::DetElement	m_tracker

Detailed Description

Definition at line 19 of file DDCMSDetElementCreator.cc.

Member Typedef Documentation

◆ Counters

using cms::DDCMSDetElementCreator::Counters = std::map<dd4hep::DetElement, Count>

private

Definition at line 60 of file DDCMSDetElementCreator.cc.

◆ Detectors

using cms::DDCMSDetElementCreator::Detectors = std::map<std::string, dd4hep::DetElement>

private

Definition at line 59 of file DDCMSDetElementCreator.cc.

◆ LeafCount

using cms::DDCMSDetElementCreator::LeafCount = std::map<std::pair<dd4hep::DetElement, int>, std::pair<int, int> >

private

Definition at line 61 of file DDCMSDetElementCreator.cc.

◆ VolumeStack

using cms::DDCMSDetElementCreator::VolumeStack = std::vector<Data>

private

Definition at line 62 of file DDCMSDetElementCreator.cc.

Constructor & Destructor Documentation

◆ DDCMSDetElementCreator()

DDCMSDetElementCreator::DDCMSDetElementCreator ( dd4hep::Detector & desc )

Definition at line 89 of file DDCMSDetElementCreator.cc.

References m_description, m_silicon, and m_stack.

                                                                    : m_description(desc) {
   dd4hep::DetectorHelper helper(m_description);
   m_silicon = helper.element("SI");
   if (!m_silicon.isValid()) {
     except("DDCMSDetElementCreator", "++ Failed to extract SILICON from the element table.");
   }
   m_stack.reserve(32);
 }

◆ ~DDCMSDetElementCreator()

DDCMSDetElementCreator::~DDCMSDetElementCreator ( )

override

Create ID Descriptors and readout configurations

Definition at line 98 of file DDCMSDetElementCreator.cc.

References ALPAKA_ACCELERATOR_NAMESPACE::pixelClustering::pixelStatus::bits, DummyCfis::c, DEBUG, f, l1GtPatternGenerator_cfi::fields, unpackBuffers-CaloStage2::INFO, MainPageGenerator::l, m_allPlacements, m_counters, m_description, m_leafCount, AlCaHLTBitMon_ParallelJobs::p, submitPVResolutionJobs::q, str, AlCaHLTBitMon_QueryRunRegistry::string, dqmMemoryStats::total, and simpleEdmComparison::totalCount.

                                                 {
   Count total;
   stringstream str, id_str;
 
   printout(INFO, "DDCMSDetElementCreator", "+++++++++++++++ Summary of sensitve elements  ++++++++++++++++++++++++");
   for (const auto& c : m_counters) {
     printout(INFO,
              "DDCMSDetElementCreator",
              "++ Summary: SD: %-24s %7d DetElements %7d sensitives out of %7d volumes",
              (c.first.name() + string(":")).c_str(),
              c.second.elements,
              c.second.sensitives,
              c.second.volumes);
     total.elements += c.second.elements;
     total.sensitives += c.second.sensitives;
     total.volumes += c.second.volumes;
   }
   printout(INFO,
            "DDCMSDetElementCreator",
            "++ Summary:     %-24s %7d DetElements %7d sensitives out of %7d volumes",
            "Grand Total:",
            total.elements,
            total.sensitives,
            total.volumes);
   printout(INFO, "DDCMSDetElementCreator", "+++++++++++++++ Summary of geometry depth analysis  ++++++++++++++++++");
   int totalCount = 0;
   map<dd4hep::DetElement, vector<pair<int, int> > > fields;
   for (const auto& l : m_leafCount) {
     dd4hep::DetElement de = l.first.first;
     printout(INFO,
              "DDCMSDetElementCreator",
              "++ Summary: SD: %-24s system:%04X Lvl:%3d Sensitives: %6d [Max: %6d].",
              (de.name() + string(":")).c_str(),
              de.id(),
              l.first.second,
              l.second.second,
              l.second.first);
     fields[de].push_back(make_pair(l.first.second, l.second.first));
     ++totalCount;
   }
   printout(INFO, "DDCMSDetElementCreator", "++ Summary:     %-24s  %d.", "Total DetElements:", totalCount);
   printout(INFO, "DDCMSDetElementCreator", "+++++++++++++++ Readout structure generation  ++++++++++++++++++++++++");
   str << endl;
   for (const auto& f : fields) {
     string roName = f.first.name() + string("Hits");
     int num_bits = 8;
     id_str.str("");
     id_str << "system:" << num_bits;
     for (const auto& q : f.second) {
       int bits = 0;
       if (q.second < 1 << 0)
         bits = 1;
       else if (q.second < 1 << 1)
         bits = 1;
       else if (q.second < 1 << 2)
         bits = 2;
       else if (q.second < 1 << 3)
         bits = 3;
       else if (q.second < 1 << 4)
         bits = 4;
       else if (q.second < 1 << 5)
         bits = 5;
       else if (q.second < 1 << 6)
         bits = 6;
       else if (q.second < 1 << 7)
         bits = 7;
       else if (q.second < 1 << 8)
         bits = 8;
       else if (q.second < 1 << 9)
         bits = 9;
       else if (q.second < 1 << 10)
         bits = 10;
       else if (q.second < 1 << 11)
         bits = 11;
       else if (q.second < 1 << 12)
         bits = 12;
       else if (q.second < 1 << 13)
         bits = 13;
       else if (q.second < 1 << 14)
         bits = 14;
       else if (q.second < 1 << 15)
         bits = 15;
       bits += 1;
       id_str << ",Lv" << q.first << ":" << bits;
       num_bits += bits;
     }
     string idspec = id_str.str();
     str << "<readout name=\"" << roName << "\">" << endl
         << "\t<id>" << idspec << "</id>  <!-- Number of bits: " << num_bits << " -->" << endl
         << "</readout>" << endl;
 
     IDDescriptor dsc(roName, idspec);
     m_description.addIDSpecification(dsc);
     Readout ro(roName);
     ro.setIDDescriptor(dsc);
     m_description.addReadout(ro);
     dd4hep::SensitiveDetector sd = m_description.sensitiveDetector(f.first.name());
     sd.setHitsCollection(ro.name());
     sd.setReadout(ro);
     printout(INFO,
              "DDCMSDetElementCreator",
              "++ Setting up readout for subdetector:%-24s id:%04X",
              f.first.name(),
              f.first.id());
   }
   printout(INFO, "DDCMSDetElementCreator", "+++++++++++++++ ID Descriptor generation  ++++++++++++++++++++++++++++");
   printout(INFO, "", str.str().c_str());
   char volId[32];
   for (auto& p : m_allPlacements) {
     dd4hep::PlacedVolume place = p.first;
     dd4hep::Volume volume = place.volume();
     ::snprintf(volId, sizeof(volId), "Lv%d", p.second.first);
     printout(DEBUG,
              "DDCMSDetElementCreator",
              "++ Set volid (%-24s): %-6s = %3d  -> %s  (%p)",
              volume.isSensitive() ? volume.sensitiveDetector().name() : "Not Sensitive",
              volId,
              p.second.second,
              place.name(),
              place.ptr());
     place.addPhysVolID(volId, p.second.second);
   }
   printout(ALWAYS,
            "DDCMSDetElementCreator",
            "++ Instrumented %ld subdetectors with %d DetElements %d sensitives out of %d volumes and %ld sensitive "
            "placements.",
            fields.size(),
            total.elements,
            total.sensitives,
            total.volumes,
            m_allPlacements.size());
 }

Member Function Documentation

◆ addSubdetector()

dd4hep::DetElement DDCMSDetElementCreator::addSubdetector	(	const std::string &	nam,
		dd4hep::PlacedVolume	volume,
		bool	valid
	)

private

Definition at line 248 of file DDCMSDetElementCreator.cc.

References m_description, m_subdetectors, and validateGeometry_cfg::valid.

Referenced by createTopLevelDetectors().

                                                                       {
   auto idet = m_subdetectors.find(nam);
   if (idet == m_subdetectors.end()) {
     dd4hep::DetElement det(nam, m_subdetectors.size() + 1);
     det.setPlacement(volume);
     if (valid) {
       det.placement().addPhysVolID("system", det.id());
     }
     idet = m_subdetectors.insert(make_pair(nam, det)).first;
     m_description.add(det);
   }
   return idet->second;
 }

◆ createElement()

dd4hep::DetElement DDCMSDetElementCreator::createElement	(	const char *	debugTag,
		dd4hep::PlacedVolume	volume,
		int	id
	)

private

Definition at line 232 of file DDCMSDetElementCreator.cc.

References cms::detElementName(), and Skims_PA_cff::name.

Referenced by process().

                                                                                                {
   string name = detElementName(volume);
   dd4hep::DetElement det(name, id);
   det.setPlacement(volume);
   return det;
 }

◆ createTopLevelDetectors()

void DDCMSDetElementCreator::createTopLevelDetectors ( dd4hep::PlacedVolume volume )

private

Definition at line 238 of file DDCMSDetElementCreator.cc.

References addSubdetector(), data, cms::detElementName(), m_currentDetector, m_stack, and m_tracker.

Referenced by process().

                                                                         {
   auto& data = m_stack.back();
   if (m_stack.size() == 2) {  // Main subssystem: tracker:Tracker
     data.element = m_tracker = addSubdetector(cms::detElementName(volume), volume, false);
     m_tracker->SetTitle("compound");
   } else if (m_stack.size() == 3) {  // Main subsystem detector: TIB, TEC, ....
     data.element = m_currentDetector = addSubdetector(cms::detElementName(volume), volume, true);
   }
 }

◆ operator()()

int DDCMSDetElementCreator::operator()	(	dd4hep::PlacedVolume	volume,
		int	level
	)

override

Callback to output PlacedVolume information of an single Placement.

Definition at line 264 of file DDCMSDetElementCreator.cc.

References data, MillePedeFileConverter_cfg::e, heavyIonCSV_trainingSettings::idx, m_allPlacements, m_currentDetector, m_leafCount, m_silicon, m_stack, and SiStripPI::max.

                                                                                  {
   double fracSi = volume.volume().material().fraction(m_silicon);
   if (fracSi > 90e-2) {
     Data& data = m_stack.back();
     data.sensitive = true;
     data.hasSensitive = true;
     ++data.volumeCount;
     int idx = volume->GetMotherVolume()->GetIndex(volume.ptr()) + 1;
     auto& cnt = m_leafCount[make_pair(m_currentDetector, volumeLevel)];
     cnt.first = std::max(cnt.first, idx);
     ++cnt.second;
     m_allPlacements[volume] = make_pair(volumeLevel, idx);
     return 1;
   }
   return 0;
 }

◆ process()

int DDCMSDetElementCreator::process	(	dd4hep::PlacedVolume	volume,
		int	level,
		bool	recursive
	)

override

Callback to output PlacedVolume information of an entire Placement.

Complete structures if the m_stack size is > 3!

If this volume is sensitve, we must attach a sensitive detector handle

Now the cleanup kicks in....

Definition at line 281 of file DDCMSDetElementCreator.cc.

References dqmiodumpmetadata::counts, createElement(), createTopLevelDetectors(), data, DEBUG, heavyIonCSV_trainingSettings::idx, personalPlayback::level, m_allPlacements, m_counters, m_currentDetector, m_currentSensitive, m_description, m_leafCount, m_stack, SiStripPI::max, class-composition::parent, LaserDQM_cfg::process, runTheMatrix::ret, and remoteMonitoring_LASER_era2018_cfg::WARNING.

                                                                                         {
   m_stack.push_back(Data(volume));
   if (m_stack.size() <= 3) {
     createTopLevelDetectors(volume);
   }
   int ret = dd4hep::PlacedVolumeProcessor::process(volume, level, recursive);
 
   if (m_stack.size() > 3) {
     // Note: short-cuts to entries in the m_stack MUST be local and
     // initialized AFTER the call to "process"! The vector may be resized!
     auto& data = m_stack.back();
     auto& parent = m_stack[m_stack.size() - 2];
     auto& counts = m_counters[m_currentDetector];
     if (data.sensitive) {
       if (!m_currentSensitive.isValid()) {
         dd4hep::SensitiveDetector sd = m_description.sensitiveDetector(m_currentDetector.name());
         if (!sd.isValid()) {
           sd = dd4hep::SensitiveDetector(m_currentDetector.name(), "tracker");
           m_currentDetector->flag |= DetElement::Object::HAVE_SENSITIVE_DETECTOR;
           m_description.add(sd);
         }
         m_currentSensitive = sd;
       }
       volume.volume().setSensitiveDetector(m_currentSensitive);
       ++counts.sensitives;
     }
     ++counts.volumes;
     bool added = false;
     if (data.volumeCount > 0) {
       parent.daughterCount += data.volumeCount;
       parent.daughterCount += data.daughterCount;
       data.hasSensitive = true;
     } else {
       parent.daughterCount += data.daughterCount;
       data.hasSensitive = (data.daughterCount > 0);
     }
 
     if (data.hasSensitive) {
       // If we have sensitive elements at this level or below,
       // we must complete the DetElement hierarchy
       if (!data.element.isValid()) {
         data.element = createElement("Element", data.volume, m_currentDetector.id());
         ++counts.elements;
       }
       if (!parent.element.isValid()) {
         parent.element = createElement("Parent ", parent.volume, m_currentDetector.id());
         ++counts.elements;
       }
       printout(DEBUG,
                "DDCMSDetElementCreator",
                "++ Assign detector element: %s (%p, %ld children) to %s (%p) with %ld vols",
                data.element.name(),
                data.element.ptr(),
                data.element.children().size(),
                parent.element.name(),
                parent.element.ptr(),
                data.volumeCount);
 
       // Trickle up the tree only for sensitive pathes. Forget the passive rest
       // This should automatically omit non-sensitive pathes
       parent.hasSensitive = true;
       parent.element.add(data.element);
       added = true;
       // It is simpler to collect the volumes and later assign the volids
       // rather than checking if the volid already exists.
       int volumeLevel = level;
       int idx = data.volume->GetMotherVolume()->GetIndex(data.volume.ptr()) + 1;
       m_allPlacements[data.volume] = make_pair(volumeLevel, idx);  // 1...n
       // Update counters
       auto& cnt_det = m_leafCount[make_pair(m_currentDetector, volumeLevel)];
       cnt_det.first = std::max(cnt_det.first, idx);
       cnt_det.second += 1;
     }
     if (!added && data.element.isValid()) {
       printout(WARNING,
                "MEMORY-LEAK",
                "Level:%3d Orpahaned DetElement:%s Daugthers:%d Parent:%s",
                int(m_stack.size()),
                data.element.name(),
                data.volumeCount,
                parent.volume.name());
     }
   }
   if (m_stack.size() == 3) {
     m_currentSensitive = SensitiveDetector();
     m_currentDetector = DetElement();
     ret = 0;
   }
   m_stack.pop_back();
   return ret;
 }

Member Data Documentation

◆ m_allPlacements

std::map<dd4hep::PlacedVolume, std::pair<int, int> > cms::DDCMSDetElementCreator::m_allPlacements

private

Definition at line 64 of file DDCMSDetElementCreator.cc.

Referenced by operator()(), process(), and ~DDCMSDetElementCreator().

◆ m_counters

Counters cms::DDCMSDetElementCreator::m_counters

private

Definition at line 66 of file DDCMSDetElementCreator.cc.

Referenced by process(), and ~DDCMSDetElementCreator().

◆ m_currentDetector

dd4hep::DetElement cms::DDCMSDetElementCreator::m_currentDetector

private

Definition at line 70 of file DDCMSDetElementCreator.cc.

Referenced by createTopLevelDetectors(), operator()(), and process().

◆ m_currentSensitive

dd4hep::SensitiveDetector cms::DDCMSDetElementCreator::m_currentSensitive

private

Definition at line 71 of file DDCMSDetElementCreator.cc.

Referenced by process().

◆ m_description

dd4hep::Detector& cms::DDCMSDetElementCreator::m_description

private

Definition at line 72 of file DDCMSDetElementCreator.cc.

Referenced by addSubdetector(), DDCMSDetElementCreator(), process(), and ~DDCMSDetElementCreator().

◆ m_leafCount

LeafCount cms::DDCMSDetElementCreator::m_leafCount

private

Definition at line 67 of file DDCMSDetElementCreator.cc.

Referenced by operator()(), process(), and ~DDCMSDetElementCreator().

◆ m_silicon

dd4hep::Atom cms::DDCMSDetElementCreator::m_silicon

private

Definition at line 73 of file DDCMSDetElementCreator.cc.

Referenced by DDCMSDetElementCreator(), and operator()().

◆ m_stack

VolumeStack cms::DDCMSDetElementCreator::m_stack

private

Definition at line 68 of file DDCMSDetElementCreator.cc.

Referenced by createTopLevelDetectors(), DDCMSDetElementCreator(), operator()(), and process().

◆ m_subdetectors

Detectors cms::DDCMSDetElementCreator::m_subdetectors

private

Definition at line 69 of file DDCMSDetElementCreator.cc.

Referenced by addSubdetector().

◆ m_tracker

dd4hep::DetElement cms::DDCMSDetElementCreator::m_tracker

private

Definition at line 70 of file DDCMSDetElementCreator.cc.

Referenced by createTopLevelDetectors().

Classes

Public Member Functions

Private Types

Private Member Functions

Private Attributes

Detailed Description

Member Typedef Documentation

◆ Counters

◆ Detectors

◆ LeafCount

◆ VolumeStack

Constructor & Destructor Documentation

◆ DDCMSDetElementCreator()

◆ ~DDCMSDetElementCreator()

Member Function Documentation

◆ addSubdetector()

◆ createElement()

◆ createTopLevelDetectors()

◆ operator()()

◆ process()

Member Data Documentation

◆ m_allPlacements

◆ m_counters

◆ m_currentDetector

◆ m_currentSensitive

◆ m_description

◆ m_leafCount

◆ m_silicon

◆ m_stack

◆ m_subdetectors

◆ m_tracker