44 #ifdef OS_OSPACE_STD_NAMESPACE 45 using namespace os_std;
82 theInstance =
new Model;
106 std::vector<ALIstring> SectionTitle;
107 SectionTitle.push_back(
ALIstring(
"GLOBAL_OPTIONS"));
108 SectionTitle.push_back(
ALIstring(
"PARAMETERS"));
109 SectionTitle.push_back(
ALIstring(
"SYSTEM_TREE_DESCRIPTION"));
110 SectionTitle.push_back(
ALIstring(
"SYSTEM_TREE_DATA"));
111 SectionTitle.push_back(
ALIstring(
"MEASUREMENTS"));
112 SectionTitle.push_back(
ALIstring(
"REPORT.OUT"));
113 std::vector<ALIstring>::iterator SectionTitleIterator;
116 std::vector<ALIstring> wordlist;
118 ALIint currentSectionNo = -1;
120 if (!
filein.getWordsInLine(wordlist))
122 assert(!wordlist.empty());
132 SectionTitleIterator =
find(SectionTitle.begin(), SectionTitle.end(), *wordlist.begin());
133 if (SectionTitleIterator != SectionTitle.end()) {
135 currentSectionNo = SectionTitleIterator - SectionTitle.begin();
136 if (currentSectionNo != InSectionNo + 1) {
139 std::cerr <<
"BAD ORDER OF SECTIONS, reading section " << *SectionTitleIterator << std::endl
140 <<
" currentSectionNo = " << currentSectionNo <<
" InSectionNo = " << InSectionNo << std::endl
141 <<
" --------- Please see documentation ---------- " << std::endl;
150 SetValueDisplacementsFromReportOut();
154 std::cout << std::endl <<
"START OF SECTION: " << currentSectionNo <<
" " << *SectionTitleIterator << std::endl;
162 if (wordlist.size() == 2) {
165 if (!isnumber && wordlist[0] !=
ALIstring(
"external_meas")) {
167 std::cerr <<
": EXPECTING A NUMBER, FOUND: " << wordlist[1] << std::endl;
183 std::cerr <<
": IN GLOBAL_OPTIONS section TWO-WORD LINES ARE EXPECTED " << std::endl;
201 if (wordlist.size() == 2) {
216 }
else if (wordlist.size() == 3) {
217 if (wordlist[1] !=
"seed") {
219 std::cerr <<
": For a three-word parameter line, second has to be 'seed', it is " << wordlist[1]
224 if (wordlist[0] ==
"gauss" || wordlist[0] ==
"flat") {
228 std::cerr <<
": For a three-word parameter line, first has to be 'gauss' or 'flat', it is " << wordlist[0]
232 }
else if (wordlist.size() == 4) {
233 if (wordlist[0] ==
"gauss") {
235 }
else if (wordlist[0] ==
"flat") {
239 std::cerr <<
": For a four-word parameter line, first has to be 'gauss' or 'flat', it is " << wordlist[0]
245 std::cerr <<
": IN PARAMETERS section TWO-WORD-LINES ARE EXPECTED " << std::endl;
260 std::vector<ALIstring> wordlist2 = wordlist;
261 std::vector<ALIstring>::iterator vsite;
262 ALIint wsiz = wordlist.size();
267 for (vsite = wordlist2.begin(); vsite != wordlist2.end(); ++vsite) {
269 int nOpticalObjects = atoi((*vsite).c_str());
271 if (nOpticalObjects == 1) {
274 <<
" number of repeated OpticalObjects = 1. Please avoid the numbering " << std::endl;
280 std::cerr <<
"NUMBER SHOULD BE FOLLOWED BY an OpticalObject type" << std::endl;
289 wordlist.push_back(*(vsite + 1));
294 wordlist.push_back(*vsite);
305 if (wordlist[0] ==
ALIstring(
"object")) {
307 std::vector<std::vector<ALIstring> >::iterator vvsite;
308 for (vvsite = theOptODictionary.begin(); vvsite != theOptODictionary.end(); ++vvsite) {
311 if (*((*vvsite).begin()) == wordlist[1]) {
313 std::cerr <<
"SYSTEM_TREE_DESCRIPTION: REPEATED object " << *((*vvsite).begin())
314 <<
" ( NOT ALLOWED NEITHER WITH EQUAL NOR WITH DIFFERENT COMPONENTS)" << std::endl;
319 std::vector<ALIstring> vstemp;
320 copy(wordlist.begin() + 1, wordlist.end(), back_inserter(vstemp));
324 if (OptODictionary().
empty()) {
326 std::cerr <<
"SYSTEM_TREE_DESCRIPTION section: FIRST LINE SHOULD START WITH 'object'" << std::endl;
329 copy(wordlist.begin(), wordlist.end(), back_inserter(*(OptODictionary().
end() - 1)));
339 std::vector<std::vector<ALIstring> > OptODictionary2;
340 reorderOptODictionary(
"system", OptODictionary2);
341 if (OptODictionary2.empty()) {
342 std::cerr <<
"SYSTEM_TREE_DESCRIPTION section: no object 'system' found " << std::endl;
347 std::vector<std::vector<ALIstring> >::const_iterator vvscite, vvscite2;
349 for (vvscite = theOptODictionary.begin(); vvscite != theOptODictionary.end(); ++vvscite) {
351 for (vvscite2 = OptODictionary2.begin(); vvscite2 != OptODictionary2.end(); ++vvscite2) {
352 if (*((*vvscite).begin()) == *((*vvscite2).begin())) {
358 std::cerr <<
"!!!SYSTEM_TREE_DESCRIPTION section: object " << *((*vvscite).begin())
359 <<
" is not hanging from object 'system' " << std::endl;
360 for (vvscite = OptODictionary().begin(); vvscite != OptODictionary().end(); ++vvscite) {
361 const std::vector<ALIstring>& ptemp = *vvscite;
367 theOptODictionary = OptODictionary2;
373 std::vector<std::vector<ALIstring> >::iterator itevs;
374 for (itevs = OptODictionary().
begin(); itevs != OptODictionary().end(); ++itevs) {
375 std::vector<ALIstring> ptemp = *itevs;
382 if (wordlist[0] !=
"system") {
383 std::cerr <<
"SYSTEM_TREE_DATA section: object 'system' is not the first one " << std::endl;
391 theOptOList.push_back(OptOsystem);
396 std::cerr <<
" STILL SOME LINES AFTER ALL SYSTEM TREE IS READ!!!" << std::endl;
407 if (wordlist.size() == 2) {
408 measName = wordlist[1];
417 }
else if (measType ==
ALIstring(
"DISTANCEMETER3DIM")) {
421 }
else if (measType ==
ALIstring(
"DISTANCEMETER") || measType ==
ALIstring(
"DISTANCEMETER1DIM")) {
425 }
else if (measType ==
ALIstring(
"TILTMETER")) {
429 }
else if (measType ==
ALIstring(
"COPS")) {
433 }
else if (measType ==
ALIstring(
"DIFFENTRY")) {
436 }
else if (measType ==
ALIstring(
"measurements_from_file") || measType ==
ALIstring(
"@measurements_from_file")) {
440 if (wordlist.size() == 4) {
446 }
else if (measType ==
ALIstring(
"measurements_from_file_ROOT") ||
447 measType ==
ALIstring(
"@measurements_from_file")) {
449 }
else if (wordlist[0] ==
ALIstring(
"correlations_from_file") ||
450 wordlist[0] ==
ALIstring(
"@correlations_from_file")) {
452 }
else if (wordlist[0] ==
ALIstring(
"copy_measurements") || wordlist[0] ==
ALIstring(
"@copy_measurements")) {
453 copyMeasurements(wordlist);
456 }
else if (wordlist[0] ==
ALIstring(
"fittedEntries_from_file")) {
459 std::cout <<
" setting fittedEntries_from_file " << wordlist[0] <<
" == " << wordlist[1] << std::endl;
461 std::cerr <<
"Measurement:" << std::endl;
463 std::cerr <<
"!!! type of measurement not allowed: " << wordlist[0] << std::endl;
464 std::cerr <<
" Allowed types: SENSOR2D, DISTANCEMETER, DISTANCEMETER1DIM, TILTMETER, COPS, DIFFENTRY " 475 std::cerr <<
"BAD ORDER OF SECTIONS, reading section " << *SectionTitleIterator << std::endl
476 <<
" currentSectionNo = " << currentSectionNo <<
" InSectionNo = " << InSectionNo << std::endl
477 <<
" --------- Please see documentation ---------- " << std::endl;
489 std::cout << std::endl <<
"@@@@ Building Measurements links to OptOs" << std::endl;
493 std::cout <<
"---------- SYSTEM SUCCESFULLY READ ----------" << std::endl << std::endl;
506 std::vector<std::vector<ALIstring> >::iterator vvsite;
507 std::vector<ALIstring>::iterator vsite;
510 for (vvsite = OptODictionary().
begin(); vvsite != OptODictionary().end(); ++vvsite) {
511 if (*((*vvsite).begin()) == ssearch) {
513 OptODictionary2.push_back(*vvsite);
520 for (vsite = (*vvsite).begin() + 1; vsite != (*vvsite).end(); ++vsite) {
521 reorderOptODictionary(*vsite, OptODictionary2);
539 std::vector<Measurement*>::const_iterator vmcite;
540 for (vmcite = MeasurementList().
begin(); vmcite != MeasurementList().end(); ++vmcite) {
564 std::vector<OpticalObject*>::const_iterator vocite;
565 for (vocite = OptOList().
begin(); vocite != OptOList().end(); ++vocite) {
566 if ((*vocite)->name() == opto_name)
570 if (vocite == OptOList().end()) {
572 std::cerr <<
" LIST OF OpticalObjects " << std::endl;
573 for (vocite = OptOList().begin(); vocite != OptOList().end(); ++vocite) {
574 std::cerr << (*vocite)->name() << std::endl;
576 std::cerr <<
"!!EXITING at getOptOByName: Optical Object " << opto_name <<
" doesn't exist!!" << std::endl;
582 std::cout << opto_name.c_str() <<
"SSOptOitem" << (*vocite) << (*vocite)->name() <<
"len" << OptOList().size()
595 std::vector<OpticalObject*>::const_iterator vocite;
596 for (vocite = OptOList().
begin(); vocite != OptOList().end(); ++vocite) {
598 if ((*vocite)->type() == opto_type)
602 if (vocite == OptOList().end()) {
604 std::cerr <<
"!!EXITING at getOptOByType: Optical Object " << opto_type <<
" doesn't exist!!" << std::endl;
617 std::vector<Entry*>::const_iterator vecite;
618 for (vecite = EntryList().
begin(); vecite != EntryList().end(); ++vecite) {
620 std::cout <<
"getEntryByName: " << (*vecite)->OptOCurrent()->name() <<
" E " << (*vecite)->name()
621 <<
" Searching: " << opto_name <<
" E " << entry_name << std::endl;
623 if ((*vecite)->OptOCurrent()->name() == opto_name && (*vecite)->name() == entry_name) {
628 std::cerr <<
"!!!EXITING at getEntryByName: Entry name not found:" << opto_name <<
" " << entry_name << std::endl;
635 std::vector<Measurement*>::const_iterator vmcite;
636 for (vmcite = theMeasurementVector.begin(); vmcite != theMeasurementVector.end(); ++vmcite) {
637 if ((*vmcite)->name() == meas_name)
641 if (vmcite != theMeasurementVector.end()) {
647 std::cerr <<
" LIST OF Measurements " << std::endl;
648 for (vmcite = theMeasurementVector.begin(); vmcite != theMeasurementVector.end(); ++vmcite) {
649 std::cerr << (*vmcite)->name() << std::endl;
651 std::cerr <<
"!!EXITING at getMeasurementByName: Measurement " << meas_name <<
" doesn't exist!!" << std::endl;
668 std::vector<ALIstring>::iterator vsite;
669 for (vsite = vcomponents.begin(); vsite != vcomponents.end(); ++vsite) {
670 vcomponents.pop_back();
674 ALIint ALIstring_found = 0;
675 std::vector<std::vector<ALIstring> >::iterator vvsite;
676 for (vvsite = OptODictionary().
begin(); vvsite != OptODictionary().end(); ++vvsite) {
677 if (*((*vvsite).begin()) == opto_type) {
680 vcomponents = *vvsite;
681 vcomponents.erase(vcomponents.begin());
686 if (ALIstring_found) {
699 std::vector<OpticalObject*>::iterator voite;
700 for (voite = vcomponents.begin(); voite != vcomponents.end(); ++voite) {
701 vcomponents.pop_back();
708 std::cout << opto_name <<
"getComponentOptOs: opto " << opto << opto->
name() << std::endl;
709 std::vector<OpticalObject*>::const_iterator vocite;
712 std::cout <<
"optolist size " << OptOList().size() << std::endl;
714 for (vocite = OptOList().
begin(); vocite != OptOList().end(); ++vocite) {
715 if ((*vocite)->parent() !=
nullptr) {
717 if ((*vocite)->parent()->name() == opto_name) {
719 vcomponents.push_back((*vocite));
745 std::cout <<
"createCopyComponentList " << typ << std::endl;
749 theOptOsToCopyList.erase(theOptOsToCopyList.begin(), theOptOsToCopyList.end());
752 fillCopyComponentList(start_opto);
755 theOptOsToCopyListIterator = theOptOsToCopyList.begin();
764 std::cout <<
"entering fillCopyComponentList(): OptO" << opto->
name() << std::endl;
766 std::vector<OpticalObject*> vopto;
767 ALIbool opto_found = getComponentOptOs(opto->
name(), vopto);
770 std::cout <<
"fillCopyComponentList: NO COMPONENTS TO COPY IN THIS OptO" << opto->
name() << std::endl;
774 std::vector<OpticalObject*>::const_iterator vocite;
775 for (vocite = vopto.begin(); vocite != vopto.end(); ++vocite) {
776 theOptOsToCopyList.push_back(*vocite);
778 std::cout <<
"fillCopyOptOList " << (*vocite)->type() <<
" " << (*vocite)->name() << std::endl;
780 fillCopyComponentList(*vocite);
790 std::cout <<
"entering nextOptOToCopy() " << std::endl;
791 ++theOptOsToCopyListIterator;
793 return *(theOptOsToCopyListIterator - 1);
859 ALIuint odsize = theOptODictionary.size();
861 theOptODictionary.pop_back();
877 std::cout <<
"CMSLinkDeleteOptOs: cms_link_halfplanes " << cmslink_halfplanes << cmslink_iter << std::endl;
879 if (cmslink_iter == 1) {
883 deleteOptO(
"s/mabsL");
885 if (cmslink_method == 1) {
886 deleteOptO(
"s/tracker/det_trkDL");
887 deleteOptO(
"s/tracker/det_trkDR");
890 if (cmslink_halfplanes == 2) {
892 deleteOptO(
"s/mabsR");
895 }
else if (cmslink_iter == 2) {
898 deleteOptO(
"s/mabsL");
899 deleteOptO(
"s/tracker/CST/wheel_trkL/peri/mirror");
900 deleteOptO(
"s/tracker/CST/wheel_trkL/det_trkU");
904 if (cmslink_halfplanes <= 1) {
905 deleteOptO(
"s/tracker/CST/wheel_trkR");
906 }
else if (cmslink_halfplanes == 2) {
908 deleteOptO(
"s/mabsR");
909 deleteOptO(
"s/tracker/CST/wheel_trkR/peri/mirror");
910 deleteOptO(
"s/tracker/CST/wheel_trkR/det_trkU");
913 }
else if (cmslink_iter == 3) {
916 deleteOptO(
"s/tracker");
918 if (cmslink_halfplanes == 2) {
1115 std::vector<Entry*>::const_iterator vecite;
1116 std::vector<Entry*>::iterator veite2;
1118 std::cout <<
"SIZE" << theEntryVector.size() << std::endl;
1121 veite2 =
find(theEntryVector.begin(), theEntryVector.end(), (*vecite));
1124 theEntryVector.erase(veite2);
1129 veite2 =
find(theEntryVector.begin(), theEntryVector.end(), (*vecite));
1132 theEntryVector.erase(veite2);
1135 for (vecite = theEntryVector.begin(); vecite != theEntryVector.end(); ++vecite) {
1140 std::vector<Measurement*> MeasToBeDeleted;
1141 std::vector<Measurement*>::const_iterator vmite;
1142 std::vector<OpticalObject*>::const_iterator vocite;
1143 for (vmite = MeasurementList().begin(); vmite != MeasurementList().end(); ++vmite) {
1145 std::cout <<
"Deleting Measurement" << (*vmite)->name() << std::endl;
1147 for (vocite = (*vmite)->OptOList().begin(); vocite != (*vmite)->OptOList().end(); ++vocite) {
1148 if ((*vocite) == opto) {
1150 MeasToBeDeleted.push_back(*vmite);
1158 std::vector<Measurement*>::const_iterator vmcite;
1159 std::vector<Measurement*>::iterator vmite2;
1161 std::cout <<
"SIZEMEAS" << MeasToBeDeleted.size() << std::endl;
1162 for (vmcite = MeasToBeDeleted.begin(); vmcite != MeasToBeDeleted.end(); ++vmcite) {
1163 vmite2 =
find(theMeasurementVector.begin(), theMeasurementVector.end(), (*vmcite));
1166 theMeasurementVector.erase(vmite2);
1171 std::vector<OpticalObject*> vopto;
1173 for (vocite = vopto.begin(); vocite != vopto.end(); ++vocite) {
1174 deleteOptO(*vocite);
1182 std::vector<OpticalObject*>::iterator dvoite =
1185 theOptOList.erase(dvoite);
1268 if (
position >= theParamFittedSigmaVector.size()) {
1270 <<
" bigger than dimension of theParamFittedSigmaVector " << theParamFittedSigmaVector.size()
1274 std::vector<ALIdouble>::const_iterator vdcite = theParamFittedSigmaVector.begin() +
position;
1288 std::vector<ALIstring> wordlist;
1293 if (
filein.getWordsInLine(wordlist) == 0) {
1295 std::cout <<
"@@@@ No more measurements left" << std::endl;
1308 filein.getWordsInLine(wordlist);
1318 if (wordlist[0] ==
"DATE:") {
1326 <<
" DATE: " << wordlist[1] <<
" " << wordlist[1] << std::endl;
1329 for (
ii = 0;
ii < nMeas;
ii++) {
1330 filein.getWordsInLine(wordlist);
1332 wordlist[0] ==
ALIstring(
"DISTANCEMETER") || wordlist[0] ==
ALIstring(
"DISTANCEMETER1DIM") ||
1334 if (wordlist.size() != 2) {
1335 std::cerr <<
"!!!EXITING Model::readMeasurementsFromFile. number of words should be 2 instead of " 1336 << wordlist.size() << std::endl;
1340 std::vector<Measurement*>::const_iterator vmcite;
1341 for (vmcite = MeasurementList().
begin(); vmcite != MeasurementList().end(); ++vmcite) {
1349 ALIint fcolon = (*vmcite)->name().find(
':');
1353 if (
oname == wordlist[1]) {
1355 if ((*vmcite)->type() != wordlist[0]) {
1356 std::cerr <<
"!!! Reading measurement from file: type in file is " << wordlist[0] <<
" and should be " 1357 << (*vmcite)->type() << std::endl;
1366 filein.getWordsInLine(wordlist);
1376 std::cerr <<
"!!!FATAL ERROR: Measurement value type is " << wordlist[0]
1377 <<
" while in setup definition was " << meastemp->
valueType(
ii) << std::endl;
1389 if (vmcite == MeasurementList().
end()) {
1390 for (vmcite = MeasurementList().
begin(); vmcite != MeasurementList().end(); ++vmcite) {
1391 std::cerr <<
"MEAS: " << (*vmcite)->name() <<
" " << (*vmcite)->type() << std::endl;
1393 std::cerr <<
"!!! Reading measurement from file: measurement not found in list: type in file is " << wordlist[1]
1398 std::cerr <<
" wrong type of measurement: " << wordlist[0] << std::endl
1399 <<
" Available types are SENSOR2D, TILTMETER, DISTANCEMETER, DISTANCEMETER1DIM, COPS" << std::endl;
1420 std::cout <<
" Model::copyMeasurements " 1421 <<
" subsstr1 " << subsstr1 <<
" subsstr2 " << subsstr2 <<
" querystr " << querystr << std::endl;
1423 std::vector<Measurement*> measToCopy;
1424 std::vector<Measurement*>::iterator mite;
1425 for (mite = theMeasurementVector.begin(); mite != theMeasurementVector.end(); ++mite) {
1428 if (meas->
name().find(querystr) != std::string::npos) {
1429 measToCopy.push_back(meas);
1435 for (mite = measToCopy.begin(); mite != measToCopy.end(); ++mite) {
1437 std::vector<ALIstring> wlt;
1438 wlt.push_back(meas->
type());
1447 if (wlt.size() == 2) {
1469 throw cms::Exception(
"LogicError") <<
"@SUB=Model::copyMeasurements\n" 1470 <<
"unknown measurement type: " << meas->
type();
1474 meastemp->
copyMeas(meas, subsstr1, subsstr2);
1483 std::cout <<
" Model::SetValueDisplacementsFromReportOut() " << std::endl;
1490 std::vector<Entry*>::const_iterator vecite;
1493 entryData = entryMgr->
findEntryByLongName((*vecite)->OptOCurrent()->longName(), (*vecite)->name());
1495 std::cout <<
"SetValueDisplacementsFromReportOut " << (*vecite)->OptOCurrent()->longName() <<
" " 1507 str =
"COCOA_Init ";
1509 str =
"COCOA_ReadingModel";
1511 str =
"COCOA_InitFit";
1513 str =
"COCOA_FitOK";
1515 str =
"COCOA_FitImproving";
1517 str =
"COCOA_FitCannotImprove";
1519 str =
"COCOA_FitChi2Worsened";
1521 str =
"COCOA_FitMatrixNonInversable";
1539 theOptOList.push_back(OptOsystem);
1547 std::vector<OpticalAlignInfo>::iterator ite;
1548 for (ite = theOpticalAlignments.begin(); ite != theOpticalAlignments.end(); ++ite) {
1550 if ((*ite).type_ ==
type) {
1555 std::cerr <<
"!! WARNING: Model::FindOptAlignInfoByType more than one objects of type " <<
type << std::endl;
1556 std::cerr <<
" returning object " << oai.
name_ << std::endl <<
" skipping object " << (*ite).name_ << std::endl;
1561 std::cerr <<
"!! ERROR: Model::FindOptAlignInfoByType object not found, of type " <<
type << std::endl;
1570 std::vector<OpticalAlignMeasurementInfo>::iterator mite;
1573 std::cout <<
" BuildMeasurementsFromOA " << std::endl;
1574 std::vector<OpticalAlignMeasurementInfo> measInfos = measList.
oaMeasurements_;
1575 for (mite = measInfos.begin(); mite != measInfos.end(); ++mite) {
1579 std::cout <<
" BuildMeasurementsFromOA measType " << measType <<
" measName " << measName << std::endl;
1582 if (measType ==
ALIstring(
"SENSOR2D")) {
1584 }
else if (measType ==
ALIstring(
"DISTANCEMETER3DIM")) {
1586 }
else if (measType ==
ALIstring(
"DISTANCEMETER") || measType ==
ALIstring(
"DISTANCEMETER1DIM")) {
1588 }
else if (measType ==
ALIstring(
"TILTMETER")) {
1590 }
else if (measType ==
ALIstring(
"COPS")) {
1596 }
else if (measType ==
ALIstring(
"DIFFENTRY")) {
1599 std::cerr <<
" !!! Model::BuildMeasurementsFromOA : measType not found " << measType << std::endl;
std::vector< OpticalAlignInfo > opticalAlignments() const
void BuildMeasurementsFromOA(OpticalAlignMeasurements &measList)
static ALIint CMSLinkIteration
static void saveParamFittedSigma(const ALIstring &opto_name, const ALIstring &entry_name)
static void CMSLinkSaveParamFittedValueDisplacement(ALIint cmslink)
ALIdouble valueDisplacement() const
static std::vector< OpticalAlignInfo > theOpticalAlignments
static ALIFileIn & getInstance(const ALIstring &name)
OpticalAlignInfo FindOptAlignInfoByType(const ALIstring &type)
static void deleteOptO(const ALIstring &opto_name)
static void setCocoaStatus(const cocoaStatus cs)
static std::string printCocoaStatus(const cocoaStatus cs)
const ALIuint dim() const
static void SetOutputLengthDimensionFactors()
static void buildMeasurementsLinksToOptOs()
Read Measurements (to be implemented for reading from an external file the DATA of the measurements) ...
static ParameterMgr * getInstance()
static std::map< ALIstring, ALIdouble, std::less< ALIstring > > theParamFittedValueDisplacementMap
void readFromReportFile(const ALIstring &filename)
static OpticalObject * getOptOByName(const ALIstring &opto_name)
--— Find an OptO name in theOptOList and return a pointer to it
static ALIstring & SDFName()
the name of the System Description File
static OpticalObject * nextOptOToCopy()
static ErrorCorrelationMgr * getInstance()
const ALIstring & name() const
static Model * theInstance
static ALIstring only1Time
static GlobalOptionMgr * getInstance()
void find(edm::Handle< EcalRecHitCollection > &hits, DetId thisDet, std::vector< EcalRecHitCollection::const_iterator > &hit, bool debug=false)
static ALIstring theMatricesFName
the name of the File for storing the matrices
static ALIstring theSDFName
the name of the System Description File
const ALIstring valueType(ALIuint ii) const
static Entry * getEntryByName(const ALIstring &opto_name, const ALIstring &entry_name)
--— Search an Entry name in the Entry* list and return a pointer to it
static ALIint Ncmslinkrange
*************** FOR RANGE STUDIES
const std::vector< Entry * > & ExtraEntryList() const
static double getFloat(const ALIstring &str)
Convert a string to an float, checking that it is really a number.
static void copyMeasurements(const std::vector< ALIstring > &wl)
ALIint getParameterValue(const ALIstring &name, ALIdouble &val)
static ALIdouble getParamFittedSigmaVectorItem(const ALIuint position)
int getGlobalOptionValue(const ALIstring &sstr, ALIdouble &val)
--— Search a string in theGlobalOptions and return 1 if found
void fillData(ALIuint coor, const std::vector< ALIstring > &wl)
void addRandomGaussParameter(const ALIstring &name, const ALIstring &valMean, const ALIstring &valStdDev)
void setRandomSeed(const long seed)
Container::value_type value_type
void setSigma(ALIint coor, ALIdouble val)
static int IsNumber(const ALIstring &str)
static OpticalObject * getOptOByType(const ALIstring &type)
--— Find the first OptO of type 'opto_type' in theOptOList and return a pointer to it ...
static void readSystemDescription()
-------— Read the different sections of the SDF and act accordingly
static std::vector< OpticalObject * > theOptOsToCopyList
static std::vector< OpticalObject * > theOptOList
map of OptO*/type of parent OptO, for navigation down the tree structure
virtual void setConversionFactor(const std::vector< ALIstring > &wordlist)
static Model & getInstance()
-------— Gets the only instance of this class
static void SetValueDisplacementsFromReportOut()
static std::vector< OpticalObject * >::const_iterator theOptOsToCopyListIterator
std::vector< OpticalAlignMeasurementInfo > oaMeasurements_
static std::vector< Measurement * > theMeasurementVector
std::vector of all Measurements
const std::vector< Entry * > & CoordinateEntryList() const
void BuildSystemDescriptionFromOA(OpticalAlignments &optAlig)
static ALIbool createCopyComponentList(const ALIstring &optoname)
**************** FOR COPYING AN OPTO
static void SetAngleDimensionFactors()
static ALIbool fillCopyComponentList(const OpticalObject *opto)
static void SetOutputAngleDimensionFactors()
void setGlobalOption(const ALIstring go, const ALIdouble val, ALIFileIn &filein)
static ALIstring theMeasFName
the name of the Measurements File
void addRandomFlatParameter(const ALIstring &name, const ALIstring &valMean, const ALIstring &valInterval)
static ALIstring theReportFName
the name of the report File
static ALIbool getComponentOptOTypes(const ALIstring &opto_type, std::vector< ALIstring > &vcomponents)
--— Get from theOptODictionary the list of component OptO types
static ALIstring & measurementsFileName()
static int getParameterValue(const ALIstring &sstr, ALIdouble &val)
************ ACCESS INFO FROM STATIC DATA
static std::vector< Entry * > theEntryVector
std::vector of all Entries
static void SetLengthDimensionFactors()
static std::vector< ALIdouble > CMSLinkRangeDetValue
static FittedEntriesReader * theFittedEntriesReader
static std::string changeName(const std::string &oldName, const std::string &subsstr1, const std::string &subsstr2)
static void recoverParamFittedSigma(const ALIstring &opto_name, const ALIstring &entry_name, const ALIuint position)
static EntryMgr * getInstance()
const ALIdouble * sigma() const
const ALIstring & type() const
static Measurement * getMeasurementByName(const ALIstring &name, ALIbool exists=true)
static void dumpVS(const std::vector< ALIstring > &wl, const std::string &msg, std::ostream &outs=std::cout)
dumps a vector of strings with a message to outs
std::map< ALIstring, ALIdouble, std::less< ALIstring > > & GlobalOptions()
static void CMSLinkRecoverParamFittedValueDisplacement(ALIint cmslink)
static std::vector< ALIdouble > theParamFittedSigmaVector
static int position[264][3]
static cocoaStatus theCocoaStatus
static void saveParamFittedCorrelation(const ALIstring &opto_name1, const ALIstring &entry_name1, const ALIstring &opto_name2, const ALIstring &entry_name2)
static ALIbool getComponentOptOs(const ALIstring &opto_name, std::vector< OpticalObject *> &vcomponents)
--— Get from theOptOList the list of pointers to component OptOs
void constructFromOptAligInfo(const OpticalAlignInfo &oaInfo)
static void reorderOptODictionary(const ALIstring &ssearch, std::vector< std::vector< ALIstring > > &OptODictionary2)
********** private METHODS
ALIbool readEntryFromReportOut(const std::vector< ALIstring > &wl)
static ALIbool readMeasurementsFromFile(ALIstring only1Date=ALIstring(""), ALIstring only1Time=ALIstring(""))
static void CMSLinkDeleteOptOs()
void constructFromOA(OpticalAlignMeasurementInfo &measInfo)
virtual void correctValueAndSigma()
static std::vector< std::vector< ALIstring > > theOptODictionary
parameters
static std::vector< Measurement * > & MeasurementList()
static int getInt(const ALIstring &str)
Convert a string to an integer, checking that it is really an integer.
void addParameter(const ALIstring &name, const ALIstring &valstr)
void CMSLinkFit(ALIint cmslink)
*************** FOR CMS LINK SYSTEM (to fit it part by part)
static void CMSLinkRecoverParamFittedSigma(ALIint cmslink)
EntryData * findEntryByLongName(const ALIstring &optoName, const ALIstring &entryName="")
static ALIstring only1Date
static void CMSLinkSaveParamFittedSigma(ALIint cmslink)
static std::vector< Entry * > & EntryList()
void copyMeas(Measurement *meas, const std::string &subsstr1, const std::string &subsstr2)
static void setCurrentDate(const std::vector< ALIstring > &wl)
set the date of the current measurement
const ALIstring & name() const
static std::vector< std::vector< ALIstring > > & OptODictionary()
ACCESS STATIC DATA MEMBERS.