39 : cellMapVersion(cell_map_version),
40 robMapVersion(rob_map_version),
70 int dduId,
int rosId,
int robId,
int tdcId,
int channelId,
DTWireId& wireId)
const {
79 readOutToGeometry(dduId, rosId, robId, tdcId,
channelId, wheelId, stationId, sectorId, slId, layerId, cellId);
81 wireId =
DTWireId(wheelId, stationId, sectorId, slId, layerId, cellId);
96 wheelId = stationId = sectorId = slId = layerId = cellId = 0;
108 std::vector<int> dduKey;
110 dduKey.push_back(dduId);
111 dduKey.push_back(rosId);
119 std::vector<int> rosKey;
121 rosKey.push_back(lros.
cellId);
122 rosKey.push_back(robId);
133 std::vector<int> robKey;
135 robKey.push_back(lrob.
cellId);
136 robKey.push_back(tdcId);
148 std::vector<int> chanKey;
150 chanKey.push_back(dduId);
151 chanKey.push_back(rosId);
152 chanKey.push_back(robId);
153 chanKey.push_back(tdcId);
159 wheelId =
link.wheelId;
160 stationId =
link.stationId;
161 sectorId =
link.sectorId;
163 layerId =
link.layerId;
164 cellId =
link.cellId;
171 const DTWireId& wireId,
int& dduId,
int& rosId,
int& robId,
int& tdcId,
int&
channelId)
const {
196 dduId = rosId = robId = tdcId =
channelId = 0;
212 std::vector<int>
const* robMLgr;
213 std::vector<int>
const* rosMLgr;
214 std::vector<int>
const* dduMLgr;
216 std::vector<int> cellKey;
218 cellKey.push_back(cellId);
219 cellKey.push_back(layerId);
220 cellKey.push_back(slId);
221 std::vector<int> stdcKey = cellKey;
225 if (!(robMLgr->size()))
227 std::vector<int>::const_iterator tdc_iter = robMLgr->begin();
228 std::vector<int>::const_iterator tdc_iend = robMLgr->end();
229 while (tdc_iter != tdc_iend) {
236 cellKey.push_back(mapId);
237 cellKey.push_back(stationId);
238 std::vector<int> srosKey = cellKey;
242 if (!(rosMLgr->size()))
244 std::vector<int>::const_iterator ros_iter = rosMLgr->begin();
245 std::vector<int>::const_iterator ros_iend = rosMLgr->end();
246 while (ros_iter != ros_iend) {
258 cellKey.push_back(mapId);
259 cellKey.push_back(wheelId);
260 cellKey.push_back(sectorId);
261 std::vector<int> sdduKey = cellKey;
265 if (!(dduMLgr->size()))
269 if (!(dduMLgr->size()))
272 std::vector<int>::const_iterator ddu_iter = dduMLgr->begin();
273 std::vector<int>::const_iterator ddu_iend = dduMLgr->end();
274 while (ddu_iter != ddu_iend) {
277 if (((sectorId == secCk) || (sectorId == lddu.
sectorId)) &&
278 ((wheelId == wheCk) || (wheelId == lddu.
wheelId))) {
290 std::vector<int> cellKey;
292 cellKey.push_back(wheelId);
293 cellKey.push_back(stationId);
294 cellKey.push_back(sectorId);
295 cellKey.push_back(slId);
296 cellKey.push_back(layerId);
297 cellKey.push_back(cellId);
358 link.wheelId = wheelId;
359 link.stationId = stationId;
360 link.sectorId = sectorId;
362 link.layerId = layerId;
363 link.cellId = cellId;
379 std::vector<int> cellKey;
381 cellKey.push_back(wheelId);
382 cellKey.push_back(stationId);
383 cellKey.push_back(sectorId);
384 cellKey.push_back(slId);
385 cellKey.push_back(layerId);
386 cellKey.push_back(cellId);
387 int grStatus = pgrBuf->
insert(cellKey.begin(), cellKey.end(), ientry);
389 std::vector<int> chanKey;
391 chanKey.push_back(dduId);
392 chanKey.push_back(rosId);
393 chanKey.push_back(robId);
394 chanKey.push_back(tdcId);
396 int rgStatus = prgBuf->
insert(chanKey.begin(), chanKey.end(), ientry);
398 if (grStatus || rgStatus)
417 std::vector<DTReadOutGeometryLink> entryList;
420 while (compIter != compIend)
421 entryList.push_back(*compIter++);
447 std::vector<DTReadOutGeometryLink>::const_iterator iter = entryList.begin();
448 std::vector<DTReadOutGeometryLink>::const_iterator iend = entryList.end();
449 std::vector<DTReadOutGeometryLink>::const_iterator iros = entryList.end();
450 std::vector<DTReadOutGeometryLink>::const_iterator irob = entryList.end();
451 while (iter != iend) {
453 if (rosEntry.
dduId > 0x3fffffff)
455 ddu = rosEntry.
dduId;
456 ros = rosEntry.
rosId;
463 iros = entryList.begin();
464 while (iros != iend) {
468 if ((rchEntry.
dduId != mt1) || (rchEntry.
rosId != mi1))
470 rch = rchEntry.
robId;
479 irob = entryList.begin();
480 while (irob != iend) {
484 if (robEntry.
robId != rob) {
485 std::cout <<
"ROB mismatch " << rob <<
" " << robEntry.
robId << std::endl;
487 tdc = robEntry.
tdcId;
492 fullMap->
insertReadOutGeometryLink(ddu, ros, rch, tdc, tch, wha, sta, sea, qua, lay, cel);
500 std::stringstream
name;
506 std::stringstream
name;
514 localCache->mType.insert(0, 0);
518 std::vector<int> cellKey;
520 std::vector<int> chanKey;
527 std::map<int, std::vector<int>*> dduEntries;
528 for (entryNum = 0; entryNum < entryMax; entryNum++) {
533 if (
key > 0x3fffffff) {
534 if (
link.tdcId > 0x3fffffff) {
545 chanKey.push_back(
link.dduId);
546 chanKey.push_back(
link.rosId);
547 chanKey.push_back(
link.robId);
548 chanKey.push_back(
link.tdcId);
549 chanKey.push_back(
link.channelId);
551 localCache->rgBuf.insert(chanKey.begin(), chanKey.end(), entryNum);
554 cellKey.push_back(
link.wheelId);
555 cellKey.push_back(
link.stationId);
556 cellKey.push_back(
link.sectorId);
557 cellKey.push_back(
link.slId);
558 cellKey.push_back(
link.layerId);
559 cellKey.push_back(
link.cellId);
561 localCache->grBuf.insert(cellKey.begin(), cellKey.end(), entryNum);
564 if (
key == robMapKey) {
566 chanKey.push_back(
link.rosId);
567 chanKey.push_back(
link.tdcId);
568 chanKey.push_back(
link.channelId);
569 localCache->rgROB.insert(chanKey.begin(), chanKey.end(), entryNum);
572 cellKey.push_back(
link.cellId);
573 cellKey.push_back(
link.layerId);
574 cellKey.push_back(
link.slId);
575 std::vector<int>* robMLgr;
576 localCache->grROB.find(cellKey.begin(), cellKey.end(), robMLgr);
577 if (robMLgr ==
nullptr) {
578 std::unique_ptr<std::vector<int> > newVector(
new std::vector<int>);
579 robMLgr = newVector.get();
580 localCache->grROB.insert(cellKey.begin(), cellKey.end(),
std::move(newVector));
582 robMLgr->push_back(entryNum);
585 if (
key == rosMapKey) {
587 chanKey.push_back(
link.rosId);
588 chanKey.push_back(
link.robId);
589 localCache->rgROS.insert(chanKey.begin(), chanKey.end(), entryNum);
592 cellKey.push_back(
link.cellId);
593 cellKey.push_back(
link.stationId);
594 std::vector<int>* rosMLgr;
595 localCache->grROS.find(cellKey.begin(), cellKey.end(), rosMLgr);
596 if (rosMLgr ==
nullptr) {
597 std::unique_ptr<std::vector<int> > newVector(
new std::vector<int>);
598 rosMLgr = newVector.get();
599 localCache->grROS.insert(cellKey.begin(), cellKey.end(),
std::move(newVector));
601 rosMLgr->push_back(entryNum);
604 if ((
key < 0x3fffffff) && (
val > 0x3fffffff)) {
606 chanKey.push_back(
link.dduId);
607 chanKey.push_back(
link.rosId);
608 localCache->rgDDU.insert(chanKey.begin(), chanKey.end(), entryNum);
610 int mapId =
link.cellId;
611 std::vector<int>* dduMLgr;
612 std::map<int, std::vector<int>*>
::const_iterator dduEntIter = dduEntries.find(mapId);
613 if (dduEntIter == dduEntries.end())
614 dduEntries.insert(std::pair<
int, std::vector<int>*>(mapId, dduMLgr =
new std::vector<int>));
616 dduMLgr = dduEntIter->second;
617 dduMLgr->push_back(entryNum);
622 for (entryNum = 0; entryNum < entryMax; entryNum++) {
625 if (
key != rosMapKey)
627 int mapId =
link.rosId;
628 int whchkId =
link.wheelId;
629 int secchkId =
link.sectorId;
631 std::vector<int>* dduMLgr;
632 std::map<int, std::vector<int>*>
::const_iterator dduEntIter = dduEntries.find(mapId);
633 if (dduEntIter != dduEntries.end())
634 dduMLgr = dduEntIter->second;
637 std::vector<int>::const_iterator dduIter = dduMLgr->begin();
638 std::vector<int>::const_iterator dduIend = dduMLgr->end();
639 while (dduIter != dduIend) {
640 int ientry = *dduIter++;
642 int wheelId = whchkId;
643 int sectorId = secchkId;
649 cellKey.push_back(mapId);
650 cellKey.push_back(wheelId);
651 cellKey.push_back(sectorId);
652 std::vector<int>* dduMLgr =
nullptr;
653 localCache->grDDU.find(cellKey.begin(), cellKey.end(), dduMLgr);
654 if (dduMLgr ==
nullptr) {
655 std::unique_ptr<std::vector<int> > newVector(
new std::vector<int>);
656 dduMLgr = newVector.get();
657 localCache->grDDU.insert(cellKey.begin(), cellKey.end(),
std::move(newVector));
659 dduMLgr->push_back(ientry);
663 std::map<int, std::vector<int>*>
::const_iterator dduEntIter = dduEntries.begin();
664 std::map<int, std::vector<int>*>
::const_iterator dduEntIend = dduEntries.end();
665 while (dduEntIter != dduEntIend) {
666 const std::pair<int, std::vector<int>*>& dduEntry = *dduEntIter++;
667 delete dduEntry.second;
670 localCache->rgBuf.clear();
671 localCache->grBuf.clear();
int readOutToGeometry(int dduId, int rosId, int robId, int tdcId, int channelId, DTWireId &wireId) const
transform identifiers
DTBufferTree< int, int > rgDDU
int station() const
Return the station number.
int def(FILE *, FILE *, int)
std::string robMapVersion
std::string mapNameRG() const
edm::ConstRespectingPtr< DTBufferTree< int, int > > rgBuf
int superLayer() const
Return the superlayer number.
bool set(std::unique_ptr< T > iNewValue) const
int wire() const
Return the wire number.
DTBufferTree< int, int > rgBuf
const DTReadOutMapping * fullMap() const
Expand to full map.
std::vector< DTReadOutGeometryLink >::const_iterator const_iterator
Access methods to the connections.
int geometryToReadOut(int wheelId, int stationId, int sectorId, int slId, int layerId, int cellId, int &dduId, int &rosId, int &robId, int &tdcId, int &channelId) const
void reset()
unsets the value and deletes the memory
std::vector< DTReadOutGeometryLink > readOutChannelDriftTubeMap
edm::ConstRespectingPtr< DTBufferTree< int, int > > grBuf
const std::string & mapRobRos() const
const_iterator begin() const
edm::AtomicPtrCache< DTReadOutMappingCache > const & atomicCache() const
const std::string & mapCellTdc() const
access parent maps identifiers
int insertReadOutGeometryLink(int dduId, int rosId, int robId, int tdcId, int channelId, int wheelId, int stationId, int sectorId, int slId, int layerId, int cellId)
insert connection
DTBufferTree< int, int > rgROB
DTBufferTree< int, int > mType
DTBufferTree< int, std::unique_ptr< std::vector< int > > > grROB
void cacheMap() const
read and store full content
uint8_t channelId(const VFATFrame &frame)
retrieve this channel identifier
DTBufferTree< int, std::unique_ptr< std::vector< int > > > grROS
const_iterator end() const
static DTReadOutMapping * expandMap(const DTReadOutMapping &compMap)
int layer() const
Return the layer number.
int find(ElementKey fKey, ElementKey lKey, typename DTBufferTreeTrait< Content >::outputTypeOfConstFind &cont) const
int wheel() const
Return the wheel number.
DTBufferTree< int, std::unique_ptr< std::vector< int > > > grDDU
int insert(ElementKey fKey, ElementKey lKey, Content cont)
std::string cellMapVersion
DTBufferTree< int, int > grBuf
DTBufferTree< int, int > rgROS
std::string mapNameGR() const