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LumiProducer.cc
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1 // -*- C++ -*-
2 //
3 // Package: LumiProducer
4 // Class: LumiProducer
5 //
16 //
17 // Original Author: Valerie Halyo
18 // David Dagenhart
19 // Zhen Xie
20 // Created: Tue Jun 12 00:47:28 CEST 2007
21 
34 
35 #include "CoralBase/Exception.h"
36 #include "CoralBase/AttributeList.h"
37 #include "CoralBase/Attribute.h"
38 #include "CoralBase/AttributeSpecification.h"
39 #include "CoralBase/Exception.h"
40 #include "CoralBase/Blob.h"
41 #include "RelationalAccess/ISessionProxy.h"
42 #include "RelationalAccess/ITransaction.h"
43 #include "RelationalAccess/AccessMode.h"
44 #include "RelationalAccess/ITypeConverter.h"
45 #include "RelationalAccess/IQuery.h"
46 #include "RelationalAccess/ICursor.h"
47 #include "RelationalAccess/ISchema.h"
48 #include "RelationalAccess/ITable.h"
49 
51 
56 #include <iostream>
57 #include <sstream>
58 #include <string>
59 #include <memory>
60 #include <algorithm>
61 #include <vector>
62 #include <cstring>
63 #include <iterator>
64 #include <boost/foreach.hpp>
65 #include <boost/tokenizer.hpp>
66 #include <xercesc/dom/DOM.hpp>
67 #include <xercesc/parsers/XercesDOMParser.hpp>
69 #include <xercesc/util/XMLString.hpp>
70 
71 #include "boost/filesystem/path.hpp"
72 #include "boost/filesystem/operations.hpp"
73 
74 namespace edm {
75  class EventSetup;
76 }
77 
78 //
79 // class declaration
80 //
81 class LumiProducer : public edm::one::EDProducer<edm::one::WatchRuns,
82  edm::BeginLuminosityBlockProducer,
83  edm::EndRunProducer> {
84 
85 public:
86 
87  struct HLTData{
89  unsigned int prescale;
90  unsigned int l1passcount;
91  unsigned int acceptcount;
92  };
93  struct L1Data{
95  unsigned int prescale;
96  unsigned int ratecount;
97  };
98  struct PerRunData{
99  std::string bitzeroname;//norm bit name
100  std::map<std::string, unsigned int> TRGBitNameToIndex;
101  std::map<std::string, unsigned int> HLTPathNameToIndex;
102  std::vector<std::string> TRGBitNames;
103  std::vector<std::string> HLTPathNames;
104  };
105  struct PerLSData{
106  float lumivalue;
107  float lumierror;
108  short lumiquality;
109  unsigned long long deadcount;
110  unsigned int numorbit;
111  unsigned int startorbit;
112  unsigned int bitzerocount;
113  unsigned int bitzeroprescale;
114  std::vector< HLTData > hltdata;
115  std::vector< L1Data > l1data;
116  std::vector< std::pair<std::string, std::vector<float> > > bunchlumivalue;
117  std::vector< std::pair<std::string, std::vector<float> > > bunchlumierror;
118  std::vector< std::pair<std::string, std::vector<short> > > bunchlumiquality;
119  std::vector<float> beam1intensity;
120  std::vector<float> beam2intensity;
121  };
122 
123  explicit LumiProducer(const edm::ParameterSet&);
124 
125  ~LumiProducer();
126 
127 private:
128 
129  virtual void produce(edm::Event&, const edm::EventSetup&) override final;
130 
131  virtual void beginRun(edm::Run const&, edm::EventSetup const &) override final;
132 
133  virtual void beginLuminosityBlockProduce(edm::LuminosityBlock & iLBlock,
134  edm::EventSetup const& iSetup) override final;
135 
136  virtual void endRun(edm::Run const&, edm::EventSetup const &) override final;
137  virtual void endRunProduce(edm::Run&, edm::EventSetup const &) override final;
138 
139  bool fillLumi(edm::LuminosityBlock & iLBlock);
140  void fillRunCache(const coral::ISchema& schema,unsigned int runnumber);
141  void fillLSCache(unsigned int luminum);
142  void writeProductsForEntry(edm::LuminosityBlock & iLBlock,unsigned int runnumber,unsigned int luminum);
143  const std::string servletTranslation(const std::string& servlet) const;
144  std::string x2s(const XMLCh* input)const;
145  XMLCh* s2x(const std::string& input)const;
146  std::string toParentString(const xercesc::DOMNode &nodeToConvert)const;
147  unsigned long long getLumiDataId(const coral::ISchema& schema,unsigned int runnumber);
148  unsigned long long getTrgDataId(const coral::ISchema& schema,unsigned int runnumber);
149  unsigned long long getHltDataId(const coral::ISchema& schema,unsigned int runnumber);
150  std::string getCurrentDataTag(const coral::ISchema& schema);
151  std::string m_connectStr;
152  std::string m_lumiversion;
153  std::string m_siteconfpath;
154  unsigned int m_cachedrun;
155  unsigned long long m_cachedlumidataid;
156  unsigned long long m_cachedtrgdataid;
157  unsigned long long m_cachedhltdataid;
159  std::map< unsigned int,PerLSData > m_lscache;
161  unsigned int m_cachesize;
162 };
163 
164 //
165 // constructors and destructor
166 //
167 
168 std::string
169 LumiProducer::x2s(const XMLCh *toTranscode)const{
171  return tmp;
172 }
173 
174 XMLCh*
176  XMLCh* buff = xercesc::XMLString::transcode(temp.c_str());
177  return buff;
178 }
179 
181 LumiProducer::toParentString(const xercesc::DOMNode &nodeToConvert)const{
182  std::ostringstream oss;
183  xercesc::DOMNodeList *childList = nodeToConvert.getChildNodes();
184 
185  unsigned int numNodes = childList->getLength ();
186  for (unsigned int i = 0; i < numNodes; ++i){
187  xercesc::DOMNode *childNode = childList->item(i);
188  if (childNode->getNodeType() != xercesc::DOMNode::ELEMENT_NODE)
189  continue;
190  xercesc::DOMElement *child = static_cast < xercesc::DOMElement *> (childNode);
191  xercesc::DOMNamedNodeMap *attributes = child->getAttributes();
192  unsigned int numAttributes = attributes->getLength ();
193  for (unsigned int j = 0; j < numAttributes; ++j){
194  xercesc::DOMNode *attributeNode = attributes->item(j);
195  if (attributeNode->getNodeType() != xercesc::DOMNode::ATTRIBUTE_NODE)
196  continue;
197  xercesc::DOMAttr *attribute = static_cast <xercesc::DOMAttr *> (attributeNode);
198 
199  oss << "(" << x2s(child->getTagName()) <<
200  x2s(attribute->getName()) << "=" <<
201  x2s(attribute->getValue()) << ")";
202  }
203  }
204  return oss.str();
205 }
206 
207 const std::string
209  std::string frontierConnect;
210  std::string realconnect;
212  std::auto_ptr< xercesc::XercesDOMParser > parser(new xercesc::XercesDOMParser);
213  try{
214  parser->setValidationScheme(xercesc::XercesDOMParser::Val_Auto);
215  parser->setDoNamespaces(false);
216  parser->parse(m_siteconfpath.c_str());
217  xercesc::DOMDocument* doc=parser->getDocument();
218  if(!doc){
219  return "";
220  }
221 
222  xercesc::DOMNodeList *frontierConnectList=doc->getElementsByTagName(s2x("frontier-connect"));
223  if (frontierConnectList->getLength()>0){
224  xercesc::DOMElement *frontierConnectElement=static_cast < xercesc::DOMElement *> (frontierConnectList->item (0));
225  frontierConnect = toParentString(*frontierConnectElement);
226  }
227  // Replace the last component of every "serverurl=" piece (up to the
228  // next close-paren) with the servlet
229  std::string::size_type nextparen = 0;
230  std::string::size_type serverurl, lastslash;
231  std::string complexstr = "";
232  while ((serverurl=frontierConnect.find("(serverurl=", nextparen)) != std::string::npos){
233  realconnect.append(frontierConnect, nextparen, serverurl - nextparen);
234  nextparen=frontierConnect.find(')', serverurl);
235  lastslash=frontierConnect.rfind('/', nextparen);
236  realconnect.append(frontierConnect,serverurl,lastslash-serverurl+1);
237  realconnect.append(servlet);
238  }
239  realconnect.append(frontierConnect, nextparen,frontierConnect.length()-nextparen);
240  }catch(xercesc::DOMException &e){
241  }
242  return realconnect;
243 }
244 
245 LumiProducer::
246 LumiProducer::LumiProducer(const edm::ParameterSet& iConfig):m_cachedrun(0),m_isNullRun(false),m_cachesize(0)
247 {
248  // register your products
249  produces<LumiSummaryRunHeader, edm::InRun>();
250  produces<LumiSummary, edm::InLumi>();
251  produces<LumiDetails, edm::InLumi>();
252  // set up cache
253  std::string connectStr=iConfig.getParameter<std::string>("connect");
254  m_cachesize=iConfig.getUntrackedParameter<unsigned int>("ncacheEntries",5);
255  m_lumiversion=iConfig.getUntrackedParameter<std::string>("lumiversion","");
256  const std::string fproto("frontier://");
257  //test if need frontier servlet site-local translation
258  if(connectStr.substr(0,fproto.length())==fproto){
259  std::string::size_type startservlet=fproto.length();
260  std::string::size_type endservlet=connectStr.find("(",startservlet);
261  if(endservlet==std::string::npos){
262  endservlet=connectStr.rfind('/',connectStr.length());
263  }
264  std::string servlet=connectStr.substr(startservlet,endservlet-startservlet);
265  if( (servlet !="")&& (servlet.find_first_of(":/)[]")==std::string::npos)){
266  if(servlet=="cms_conditions_data") servlet="";
267 
268  std::string siteconfpath=iConfig.getUntrackedParameter<std::string>("siteconfpath","");
269  if(siteconfpath.length()==0){
270  std::string url=(boost::filesystem::path("SITECONF")/boost::filesystem::path("local")/boost::filesystem::path("JobConfig")/boost::filesystem::path("site-local-config.xml")).string();
271  char * tmp = getenv ("CMS_PATH");
272  if(tmp){
274  }
275  }else{
276  if(!boost::filesystem::exists(boost::filesystem::path(siteconfpath))){
277  throw cms::Exception("Non existing path ")<<siteconfpath;
278  }
279  m_siteconfpath = (boost::filesystem::path(siteconfpath)/boost::filesystem::path("site-local-config.xml")).string();
280  }
281  //std::cout<<"servlet : "<<servlet<<std::endl;
282  m_connectStr=fproto+servletTranslation(servlet)+connectStr.substr(endservlet);
283  }else{
284  m_connectStr=connectStr;
285  }
286  }else{
287  m_connectStr=connectStr;
288  }
289  //std::cout<<"connect string "<< m_connectStr<<std::endl;
290 }
291 
293 }
294 
295 //
296 // member functions
297 //
299 {
300 }
301 unsigned long long
302 LumiProducer::getLumiDataId(const coral::ISchema& schema,unsigned int runnumber){
303  //
304  //select max(data_id) from lumidata where runnum=:runnum
305  //
306  //std::count<<"entering getLumiDataId "<<std::endl;
307  unsigned long long lumidataid=0;
308  coral::AttributeList bindVariables;
309  bindVariables.extend("runnum",typeid(unsigned int));
310  bindVariables["runnum"].data<unsigned int>()=runnumber;
311  coral::AttributeList lumiidOutput;
312  lumiidOutput.extend("lumidataid",typeid(unsigned long long));
313  coral::IQuery* lumiQuery=schema.newQuery();
314  lumiQuery->addToTableList(lumi::LumiNames::lumidataTableName());
315  lumiQuery->addToOutputList("MAX(DATA_ID)","lumidataid");
316  lumiQuery->setCondition("RUNNUM=:runnum",bindVariables);
317  lumiQuery->defineOutput(lumiidOutput);
318  coral::ICursor& lumicursor=lumiQuery->execute();
319  while( lumicursor.next() ){
320  const coral::AttributeList& row=lumicursor.currentRow();
321  if(!row["lumidataid"].isNull()){
322  lumidataid=row["lumidataid"].data<unsigned long long>();
323  }
324  }
325  delete lumiQuery;
326  return lumidataid;
327 }
328 unsigned long long
329 LumiProducer::getTrgDataId(const coral::ISchema& schema,unsigned int runnumber){
330  //
331  //select max(data_id) from trgdata where runnum=:runnum
332  //
333  unsigned long long trgdataid=0;
334  coral::AttributeList bindVariables;
335  bindVariables.extend("runnum",typeid(unsigned int));
336  bindVariables["runnum"].data<unsigned int>()=runnumber;
337  coral::AttributeList trgidOutput;
338  trgidOutput.extend("trgdataid",typeid(unsigned long long));
339  coral::IQuery* trgQuery=schema.newQuery();
340  trgQuery->addToTableList(lumi::LumiNames::trgdataTableName());
341  trgQuery->addToOutputList("MAX(DATA_ID)","trgdataid");
342  trgQuery->setCondition("RUNNUM=:runnum",bindVariables);
343  trgQuery->defineOutput(trgidOutput);
344  coral::ICursor& trgcursor=trgQuery->execute();
345  while( trgcursor.next() ){
346  const coral::AttributeList& row=trgcursor.currentRow();
347  if(!row["trgdataid"].isNull()){
348  trgdataid=row["trgdataid"].data<unsigned long long>();
349  }
350  }
351  delete trgQuery;
352  return trgdataid;
353 }
354 unsigned long long
355 LumiProducer::getHltDataId(const coral::ISchema& schema,unsigned int runnumber){
356  //
357  //select max(data_id) from hltdata where runnum=:runnum
358  //
359  unsigned long long hltdataid=0;
360  coral::AttributeList bindVariables;
361  bindVariables.extend("runnum",typeid(unsigned int));
362  bindVariables["runnum"].data<unsigned int>()=runnumber;
363  coral::AttributeList hltidOutput;
364  hltidOutput.extend("hltdataid",typeid(unsigned long long));
365  coral::IQuery* hltQuery=schema.newQuery();
366  hltQuery->addToTableList(lumi::LumiNames::hltdataTableName());
367  hltQuery->addToOutputList("MAX(DATA_ID)","hltdataid");
368  hltQuery->setCondition("RUNNUM=:runnum",bindVariables);
369  hltQuery->defineOutput(hltidOutput);
370  coral::ICursor& hltcursor=hltQuery->execute();
371  while( hltcursor.next() ){
372  const coral::AttributeList& row=hltcursor.currentRow();
373  if(!row["hltdataid"].isNull()){
374  hltdataid=row["hltdataid"].data<unsigned long long>();
375  }
376  }
377  delete hltQuery;
378  return hltdataid;
379 }
380 
383  //select tagid,tagname from tags
385  std::map<unsigned long long,std::string> alltags;
386  coral::IQuery* tagQuery=schema.newQuery();
387  tagQuery->addToTableList(lumi::LumiNames::tagsTableName());
388  tagQuery->addToOutputList("TAGID");
389  tagQuery->addToOutputList("TAGNAME");
390  coral::AttributeList tagoutput;
391  tagoutput.extend("TAGID",typeid(unsigned long long));
392  tagoutput.extend("TAGNAME",typeid(std::string));
393  tagQuery->defineOutput(tagoutput);
394  coral::ICursor& tagcursor=tagQuery->execute();
395  while( tagcursor.next() ){
396  const coral::AttributeList& row=tagcursor.currentRow();
397  unsigned long long tagid=row["TAGID"].data<unsigned long long>();
398  const std::string tagname=row["TAGNAME"].data<std::string>();
399  alltags.insert(std::make_pair(tagid,tagname));
400  }
401  delete tagQuery;
402  unsigned long long maxid=0;
403  for(std::map<unsigned long long,std::string>::iterator it = alltags.begin(); it !=alltags.end(); ++it) {
404  if( it->first > maxid){
405  maxid=it->first;
406  }
407  }
408  result=alltags[maxid];
409  return result;
410 }
411 
412 void
414 {
415  unsigned int runnumber=run.run();
416  if(m_cachedrun!=runnumber){
417  //queries once per run
420  if( !mydbservice.isAvailable() ){
421  throw cms::Exception("Non existing service lumi::service::DBService");
422  }
423  coral::ISessionProxy* session=mydbservice->connectReadOnly(m_connectStr);
424  try{
425  session->transaction().start(true);
426  m_cachedlumidataid=getLumiDataId(session->nominalSchema(),runnumber);
427  if(m_cachedlumidataid!=0){//if no lumi, do not bother other info
428  m_cachedtrgdataid=getTrgDataId(session->nominalSchema(),runnumber);
429  m_cachedhltdataid=getHltDataId(session->nominalSchema(),runnumber);
430  fillRunCache(session->nominalSchema(),runnumber);
431  }else{
432  m_isNullRun=true;
433  }
434  session->transaction().commit();
435  }catch(const coral::Exception& er){
436  session->transaction().rollback();
437  mydbservice->disconnect(session);
438  throw cms::Exception("DatabaseError ")<<er.what();
439  }
440  mydbservice->disconnect(session);
441  }
442  //std::cout<<"end of beginRun "<<runnumber<<std::endl;
443 }
444 
446 {
447  unsigned int runnumber=iLBlock.run();
448  unsigned int luminum=iLBlock.luminosityBlock();
449  //std::cout<<"beg of beginLuminosityBlock "<<luminum<<std::endl;
450  //if is null run, fill empty values and return
451  if(m_isNullRun){
452  std::auto_ptr<LumiSummary> pOut1;
453  std::auto_ptr<LumiDetails> pOut2;
454  LumiSummary* pIn1=new LumiSummary;
455  LumiDetails* pIn2=new LumiDetails;
456  pOut1.reset(pIn1);
457  iLBlock.put(pOut1);
458  pOut2.reset(pIn2);
459  iLBlock.put(pOut2);
460  return;
461  }
462  if(m_lscache.find(luminum)==m_lscache.end()){
463  //if runnumber is cached but LS is not, this is the first LS, fill LS cache to full capacity
464  fillLSCache(luminum);
465  }
466  //here the presence of ls is guaranteed
467  writeProductsForEntry(iLBlock,runnumber,luminum);
468 }
469 void
471 {}
472 void
474 {
475  std::auto_ptr<LumiSummaryRunHeader> lsrh(new LumiSummaryRunHeader());
476  lsrh->swapL1Names(m_runcache.TRGBitNames);
477  lsrh->swapHLTNames(m_runcache.HLTPathNames);
478  run.put(lsrh);
481 }
482 void
483 LumiProducer::fillRunCache(const coral::ISchema& schema,unsigned int runnumber){
484  if(m_lumiversion.empty()){
485  m_lumiversion=getCurrentDataTag(schema);
486  }
487  std::cout<<"lumi tag version 2 "<<m_lumiversion<<std::endl;
488  if(m_cachedtrgdataid!=0){
489  coral::AttributeList trgBindVariables;
490  trgBindVariables.extend("trgdataid",typeid(unsigned long long));
491  trgBindVariables["trgdataid"].data<unsigned long long>()=m_cachedtrgdataid;
492  //std::cout<<"cached trgdataid "<<m_cachedtrgdataid<<std::endl;
493  coral::AttributeList trgOutput;
494  trgOutput.extend("bitzeroname",typeid(std::string));
495  trgOutput.extend("bitnameclob",typeid(std::string));
496  coral::IQuery* trgQuery=schema.newQuery();
497  trgQuery->addToTableList(lumi::LumiNames::trgdataTableName());
498  trgQuery->addToOutputList("BITZERONAME");
499  trgQuery->addToOutputList("BITNAMECLOB");
500  trgQuery->setCondition("DATA_ID=:trgdataid",trgBindVariables);
501  trgQuery->defineOutput(trgOutput);
502  coral::ICursor& trgcursor=trgQuery->execute();
503  while( trgcursor.next() ){
504  const coral::AttributeList& row=trgcursor.currentRow();
505  m_runcache.bitzeroname=row["bitzeroname"].data<std::string>();
506  //std::cout<<"bitzeroname "<<m_runcache.bitzeroname<<std::endl;
507  std::string bitnames=row["bitnameclob"].data<std::string>();
508  boost::char_separator<char> sep(",");
509  boost::tokenizer<boost::char_separator<char> > tokens(bitnames,sep);
510  for(boost::tokenizer<boost::char_separator<char> >::iterator tok_it=tokens.begin();tok_it!=tokens.end();++tok_it){
511  m_runcache.TRGBitNames.push_back(*tok_it);
512  }
513  for(unsigned int i=0;i<m_runcache.TRGBitNames.size();++i){
514  m_runcache.TRGBitNameToIndex.insert(std::make_pair(m_runcache.TRGBitNames.at(i),i) );
515  }
516  }
517  delete trgQuery;
518  }
519  if(m_cachedhltdataid!=0){
520  //
521  //select pathnameclob from hltdata where data_id=:hltdataid
522  //
523  coral::AttributeList hltBindVariables;
524  hltBindVariables.extend("hltdataid",typeid(unsigned long long));
525  hltBindVariables["hltdataid"].data<unsigned long long>()=m_cachedhltdataid;
526  coral::AttributeList hltOutput;
527  hltOutput.extend("PATHNAMECLOB",typeid(std::string));
528  coral::IQuery* hltQuery=schema.newQuery();
529  hltQuery->addToTableList(lumi::LumiNames::hltdataTableName());
530  hltQuery->addToOutputList("PATHNAMECLOB");
531  hltQuery->setCondition("DATA_ID=:hltdataid",hltBindVariables);
532  hltQuery->defineOutput(hltOutput);
533  coral::ICursor& hltcursor=hltQuery->execute();
534  while( hltcursor.next() ){
535  const coral::AttributeList& row=hltcursor.currentRow();
536  std::string pathnames=row["PATHNAMECLOB"].data<std::string>();
537  boost::char_separator<char> sep(",");
538  boost::tokenizer<boost::char_separator<char> > tokens(pathnames,sep);
539  for(boost::tokenizer<boost::char_separator<char> >::iterator tok_it=tokens.begin();tok_it!=tokens.end();++tok_it){
540  m_runcache.HLTPathNames.push_back(*tok_it);
541  }
542  for(unsigned int i=0;i<m_runcache.HLTPathNames.size();++i){
543  m_runcache.HLTPathNameToIndex.insert(std::make_pair(m_runcache.HLTPathNames.at(i),i));
544  }
545  }
546  delete hltQuery;
547  }
548 }
549 void
550 LumiProducer::fillLSCache(unsigned int luminum){
551  //initialize cache
552  if(m_isNullRun) return;
553  m_lscache.clear();
554  for(unsigned int n=luminum;n<luminum+m_cachesize;++n){
555  PerLSData l;
556  l.hltdata.reserve(250);
557  l.l1data.reserve(192);
558  l.bunchlumivalue.reserve(5);
559  l.bunchlumierror.reserve(5);
560  l.bunchlumiquality.reserve(5);
561  l.beam1intensity.resize(3564,0.0);
562  l.beam2intensity.resize(3564,0.0);
563  m_lscache.insert(std::make_pair(n,l));
564  }
565  //queries once per cache refill
566  //
567  //select cmslsnum,instlumi,startorbit,numorbit,bxindex,beam1intensity,beam2intensity,bxlumivalue_occ1,bxlumivalue_occ2,bxlumivalue_et from lumisummaryv2 where cmslsnum>=:lsmin and cmslsnum<:lsmax and data_id=:lumidataid;
568  //
570  if( !mydbservice.isAvailable() ){
571  throw cms::Exception("Non existing service lumi::service::DBService");
572  }
573  coral::ISessionProxy* session=mydbservice->connectReadOnly(m_connectStr);
574  try{
575  session->transaction().start(true);
576  coral::ISchema& schema=session->nominalSchema();
577  coral::AttributeList lumisummaryBindVariables;
578  lumisummaryBindVariables.extend("lsmin",typeid(unsigned int));
579  lumisummaryBindVariables.extend("lsmax",typeid(unsigned int));
580  lumisummaryBindVariables.extend("lumidataid",typeid(unsigned long long));
581  lumisummaryBindVariables["lumidataid"].data<unsigned long long>()=m_cachedlumidataid;
582  lumisummaryBindVariables["lsmin"].data<unsigned int>()=luminum;
583  lumisummaryBindVariables["lsmax"].data<unsigned int>()=luminum+m_cachesize;
584  coral::AttributeList lumisummaryOutput;
585  lumisummaryOutput.extend("CMSLSNUM",typeid(unsigned int));
586  lumisummaryOutput.extend("INSTLUMI",typeid(float));
587  lumisummaryOutput.extend("STARTORBIT",typeid(unsigned int));
588  lumisummaryOutput.extend("NUMORBIT",typeid(unsigned int));
589  lumisummaryOutput.extend("CMSBXINDEXBLOB",typeid(coral::Blob));
590  lumisummaryOutput.extend("BEAMINTENSITYBLOB_1",typeid(coral::Blob));
591  lumisummaryOutput.extend("BEAMINTENSITYBLOB_2",typeid(coral::Blob));
592  lumisummaryOutput.extend("BXLUMIVALUE_OCC1",typeid(coral::Blob));
593  lumisummaryOutput.extend("BXLUMIVALUE_OCC2",typeid(coral::Blob));
594  lumisummaryOutput.extend("BXLUMIVALUE_ET",typeid(coral::Blob));
595  coral::IQuery* lumisummaryQuery=schema.newQuery();
596  lumisummaryQuery->addToTableList(lumi::LumiNames::lumisummaryv2TableName());
597  lumisummaryQuery->addToOutputList("CMSLSNUM");
598  lumisummaryQuery->addToOutputList("INSTLUMI");
599  lumisummaryQuery->addToOutputList("STARTORBIT");
600  lumisummaryQuery->addToOutputList("NUMORBIT");
601  lumisummaryQuery->addToOutputList("CMSBXINDEXBLOB");
602  lumisummaryQuery->addToOutputList("BEAMINTENSITYBLOB_1");
603  lumisummaryQuery->addToOutputList("BEAMINTENSITYBLOB_2");
604  lumisummaryQuery->addToOutputList("BXLUMIVALUE_OCC1");
605  lumisummaryQuery->addToOutputList("BXLUMIVALUE_OCC2");
606  lumisummaryQuery->addToOutputList("BXLUMIVALUE_ET");
607  lumisummaryQuery->setCondition("CMSLSNUM>=:lsmin AND CMSLSNUM<:lsmax AND DATA_ID=:lumidataid",lumisummaryBindVariables);
608  lumisummaryQuery->defineOutput(lumisummaryOutput);
609  coral::ICursor& lumisummarycursor=lumisummaryQuery->execute();
610  unsigned int rowcounter=0;
611  while( lumisummarycursor.next() ){
612  const coral::AttributeList& row=lumisummarycursor.currentRow();
613  unsigned int cmslsnum=row["CMSLSNUM"].data<unsigned int>();
614  //std::cout<<"cmslsnum "<<cmslsnum<<std::endl;
615  PerLSData& lsdata=m_lscache[cmslsnum];
616  lsdata.lumivalue=row["INSTLUMI"].data<float>();
617  lsdata.lumierror=0.0;
618  lsdata.lumiquality=0;
619  lsdata.startorbit=row["STARTORBIT"].data<unsigned int>();
620  lsdata.numorbit=row["NUMORBIT"].data<unsigned int>();
621 
622  if(!row["CMSBXINDEXBLOB"].isNull() && !row["BXLUMIVALUE_OCC1"].isNull() ){
623  const coral::Blob& bxindexBlob=row["CMSBXINDEXBLOB"].data<coral::Blob>();
624  const void* bxindex_StartAddress=bxindexBlob.startingAddress();
625  short* bxindex=(short*)::malloc(bxindexBlob.size());
626  const coral::Blob& beam1intensityBlob=row["BEAMINTENSITYBLOB_1"].data<coral::Blob>();
627  const void* beam1intensityBlob_StartAddress=beam1intensityBlob.startingAddress();
628  float* beam1intensity=(float*)::malloc(beam1intensityBlob.size());
629  const coral::Blob& beam2intensityBlob=row["BEAMINTENSITYBLOB_2"].data<coral::Blob>();
630  const void* beam2intensityBlob_StartAddress=beam2intensityBlob.startingAddress();
631  float* beam2intensity=(float*)::malloc(beam2intensityBlob.size());
632  std::memmove(bxindex,bxindex_StartAddress,bxindexBlob.size());
633  std::memmove(beam1intensity,beam1intensityBlob_StartAddress,beam1intensityBlob.size());
634  std::memmove(beam2intensity,beam2intensityBlob_StartAddress,beam2intensityBlob.size());
635 
636  unsigned int iMax = bxindexBlob.size()/sizeof(short);
637  unsigned int lsb1Max = lsdata.beam1intensity.size();
638  unsigned int lsb2Max = lsdata.beam2intensity.size();
639  unsigned int ib1Max = beam1intensityBlob.size()/sizeof(float);
640  unsigned int ib2Max = beam2intensityBlob.size()/sizeof(float);
641  for(unsigned int i=0;i<iMax;++i){
642  unsigned int idx=bxindex[i];
643  if(ib1Max>i && lsb1Max>idx){
644  lsdata.beam1intensity.at(idx)=beam1intensity[i];
645  }
646  if(ib2Max>i && lsb2Max>idx){
647  lsdata.beam2intensity.at(idx)=beam2intensity[i];
648  }
649  }
650  ::free(bxindex);
651  ::free(beam1intensity);
652  ::free(beam2intensity);
653 
654  const coral::Blob& bxlumivalBlob_occ1=row["BXLUMIVALUE_OCC1"].data<coral::Blob>();
655  const void* bxlumival_occ1_StartAddress=bxlumivalBlob_occ1.startingAddress();
656  float* bxlumival_occ1=(float*)::malloc(bxlumivalBlob_occ1.size());
657  std::memmove(bxlumival_occ1,bxlumival_occ1_StartAddress,bxlumivalBlob_occ1.size());
658  std::vector<float> bxlumivalVec_occ1(bxlumival_occ1,bxlumival_occ1+bxlumivalBlob_occ1.size()/sizeof(float));
659  ::free(bxlumival_occ1);
660  lsdata.bunchlumivalue.push_back(std::make_pair(std::string("OCC1"),bxlumivalVec_occ1));
661  lsdata.bunchlumierror.push_back(std::make_pair(std::string("OCC1"),std::vector<float>(3564)));
662  lsdata.bunchlumiquality.push_back(std::make_pair(std::string("OCC1"),std::vector<short>(3564)));
663  const coral::Blob& bxlumivalBlob_occ2=row["BXLUMIVALUE_OCC2"].data<coral::Blob>();
664  const void* bxlumival_occ2_StartAddress=bxlumivalBlob_occ2.startingAddress();
665  float* bxlumival_occ2=(float*)::malloc(bxlumivalBlob_occ2.size());
666  std::memmove(bxlumival_occ2,bxlumival_occ2_StartAddress,bxlumivalBlob_occ2.size());
667  std::vector<float> bxlumivalVec_occ2(bxlumival_occ2,bxlumival_occ2+bxlumivalBlob_occ1.size()/sizeof(float));
668  ::free(bxlumival_occ2);
669  lsdata.bunchlumivalue.push_back(std::make_pair(std::string("OCC2"),bxlumivalVec_occ2));
670  lsdata.bunchlumierror.push_back(std::make_pair(std::string("OCC2"),std::vector<float>(3564)));
671  lsdata.bunchlumiquality.push_back(std::make_pair(std::string("OCC2"),std::vector<short>(3564)));
672 
673  const coral::Blob& bxlumivalBlob_et=row["BXLUMIVALUE_ET"].data<coral::Blob>();
674  const void* bxlumival_et_StartAddress=bxlumivalBlob_et.startingAddress();
675  float* bxlumival_et=(float*)::malloc(bxlumivalBlob_et.size());
676  std::memmove(bxlumival_et,bxlumival_et_StartAddress,bxlumivalBlob_et.size());
677  std::vector<float> bxlumivalVec_et(bxlumival_et,bxlumival_et+bxlumivalBlob_et.size()/sizeof(float));
678  ::free(bxlumival_et);
679  lsdata.bunchlumivalue.push_back(std::make_pair(std::string("ET"),bxlumivalVec_et));
680  lsdata.bunchlumierror.push_back(std::make_pair(std::string("ET"),std::vector<float>(3564)));
681  lsdata.bunchlumiquality.push_back(std::make_pair(std::string("ET"),std::vector<short>(3564)));
682  }
683  ++rowcounter;
684  }
685  if (rowcounter==0){
686  m_isNullRun=true;
687  return;
688  }
689  delete lumisummaryQuery;
690 
691  //
692  //select cmslsnum,deadtimecount,bitzerocount,bitzeroprescale,prescaleblob,trgcountblob from lstrg where cmslsnum >=:luminum and cmslsnum<:luminum+cachesize AND data_id=:trgdataid;
693  //
694  coral::AttributeList trgBindVariables;
695  trgBindVariables.extend("lsmin",typeid(unsigned int));
696  trgBindVariables.extend("lsmax",typeid(unsigned int));
697  trgBindVariables.extend("trgdataid",typeid(unsigned long long));
698  trgBindVariables["lsmin"].data<unsigned int>()=luminum;
699  trgBindVariables["lsmax"].data<unsigned int>()=luminum+m_cachesize;
700  trgBindVariables["trgdataid"].data<unsigned long long>()=m_cachedtrgdataid;
701  coral::AttributeList trgOutput;
702  trgOutput.extend("CMSLSNUM",typeid(unsigned int));
703  trgOutput.extend("DEADTIMECOUNT",typeid(unsigned long long));
704  trgOutput.extend("BITZEROCOUNT",typeid(unsigned int));
705  trgOutput.extend("BITZEROPRESCALE",typeid(unsigned int));
706  trgOutput.extend("PRESCALEBLOB",typeid(coral::Blob));
707  trgOutput.extend("TRGCOUNTBLOB",typeid(coral::Blob));
708 
709  coral::IQuery* trgQuery=schema.newQuery();
710  trgQuery->addToTableList(lumi::LumiNames::lstrgTableName());
711  trgQuery->addToOutputList("CMSLSNUM");
712  trgQuery->addToOutputList("DEADTIMECOUNT");
713  trgQuery->addToOutputList("BITZEROCOUNT");
714  trgQuery->addToOutputList("BITZEROPRESCALE");
715  trgQuery->addToOutputList("PRESCALEBLOB");
716  trgQuery->addToOutputList("TRGCOUNTBLOB");
717  trgQuery->setCondition("CMSLSNUM>=:lsmin AND CMSLSNUM<:lsmax AND DATA_ID=:trgdataid",trgBindVariables);
718  trgQuery->defineOutput(trgOutput);
719  coral::ICursor& trgcursor=trgQuery->execute();
720  while( trgcursor.next() ){
721  const coral::AttributeList& row=trgcursor.currentRow();
722  unsigned int cmslsnum=row["CMSLSNUM"].data<unsigned int>();
723  PerLSData& lsdata=m_lscache[cmslsnum];
724  lsdata.deadcount=row["DEADTIMECOUNT"].data<unsigned long long>();
725  lsdata.bitzerocount=row["BITZEROCOUNT"].data<unsigned int>();
726  lsdata.bitzeroprescale=row["BITZEROPRESCALE"].data<unsigned int>();
727  if(!row["PRESCALEBLOB"].isNull()){
728  const coral::Blob& prescaleblob=row["PRESCALEBLOB"].data<coral::Blob>();
729  const void* prescaleblob_StartAddress=prescaleblob.startingAddress();
730  unsigned int* prescales=(unsigned int*)::malloc(prescaleblob.size());
731  std::memmove(prescales,prescaleblob_StartAddress,prescaleblob.size());
732  const coral::Blob& trgcountblob=row["TRGCOUNTBLOB"].data<coral::Blob>();
733  const void* trgcountblob_StartAddress=trgcountblob.startingAddress();
734  unsigned int* trgcounts=(unsigned int*)::malloc(trgcountblob.size());
735  std::memmove(trgcounts,trgcountblob_StartAddress,trgcountblob.size());
736  for(unsigned int i=0;i<sizeof(trgcounts)/sizeof(unsigned int);++i){
737  L1Data l1tmp;
739  l1tmp.prescale=prescales[i];
740  l1tmp.ratecount=trgcounts[i];
741  lsdata.l1data.push_back(l1tmp);
742  }
743  ::free(prescales);
744  ::free(trgcounts);
745  }
746  }
747  delete trgQuery;
748  //
749  //select cmslsnum,hltcountblob,hltacceptblob,prescaleblob from hlt where cmslsnum >=:luminum and cmslsnum<=:luminum+cachesize and data_id=:hltdataid
750  //
751  coral::AttributeList hltBindVariables;
752  hltBindVariables.extend("lsmin",typeid(unsigned int));
753  hltBindVariables.extend("lsmax",typeid(unsigned int));
754  hltBindVariables.extend("hltdataid",typeid(unsigned long long));
755  hltBindVariables["lsmin"].data<unsigned int>()=luminum;
756  hltBindVariables["lsmax"].data<unsigned int>()=luminum+m_cachesize;
757  hltBindVariables["hltdataid"].data<unsigned long long>()=m_cachedhltdataid;
758  coral::AttributeList hltOutput;
759  hltOutput.extend("CMSLSNUM",typeid(unsigned int));
760  hltOutput.extend("HLTCOUNTBLOB",typeid(coral::Blob));
761  hltOutput.extend("HLTACCEPTBLOB",typeid(coral::Blob));
762  hltOutput.extend("PRESCALEBLOB",typeid(coral::Blob));
763  coral::IQuery* hltQuery=schema.newQuery();
764  hltQuery->addToTableList(lumi::LumiNames::lshltTableName());
765  hltQuery->addToOutputList("CMSLSNUM");
766  hltQuery->addToOutputList("HLTCOUNTBLOB");
767  hltQuery->addToOutputList("HLTACCEPTBLOB");
768  hltQuery->addToOutputList("PRESCALEBLOB");
769  hltQuery->setCondition("CMSLSNUM>=:lsmin AND CMSLSNUM<:lsmax AND DATA_ID=:hltdataid",hltBindVariables);
770  hltQuery->defineOutput(hltOutput);
771  coral::ICursor& hltcursor=hltQuery->execute();
772  while( hltcursor.next() ){
773  const coral::AttributeList& row=hltcursor.currentRow();
774  unsigned int cmslsnum=row["CMSLSNUM"].data<unsigned int>();
775  PerLSData& lsdata=m_lscache[cmslsnum];
776  if(!row["PRESCALEBLOB"].isNull()){
777  const coral::Blob& hltprescaleblob=row["PRESCALEBLOB"].data<coral::Blob>();
778  const void* hltprescaleblob_StartAddress=hltprescaleblob.startingAddress();
779  unsigned int* hltprescales=(unsigned int*)::malloc(hltprescaleblob.size());
780  std::memmove(hltprescales,hltprescaleblob_StartAddress,hltprescaleblob.size());
781  const coral::Blob& hltcountblob=row["HLTCOUNTBLOB"].data<coral::Blob>();
782  const void* hltcountblob_StartAddress=hltcountblob.startingAddress();
783  unsigned int* hltcounts=(unsigned int*)::malloc(hltcountblob.size());
784  std::memmove(hltcounts,hltcountblob_StartAddress,hltcountblob.size());
785  const coral::Blob& hltacceptblob=row["HLTACCEPTBLOB"].data<coral::Blob>();
786  const void* hltacceptblob_StartAddress=hltacceptblob.startingAddress();
787  unsigned int* hltaccepts=(unsigned int*)::malloc(hltacceptblob.size());
788  std::memmove(hltaccepts,hltacceptblob_StartAddress,hltacceptblob.size());
789  unsigned int nhltaccepts = sizeof(hltaccepts)/sizeof(unsigned int);
790  if(nhltaccepts > 0 && m_runcache.HLTPathNames.size() == 0){
791  edm::LogWarning("CorruptOrMissingHLTData")<<"Got "<<nhltaccepts
792 <<" hltaccepts, but the run chache is empty. hltdata will not be written";
793  break;
794  }
795 
796  for(unsigned int i=0;i<sizeof(hltaccepts)/sizeof(unsigned int);++i){
797  HLTData hlttmp;
799  hlttmp.prescale=hltprescales[i];
800  hlttmp.l1passcount=hltcounts[i];
801  hlttmp.acceptcount=hltaccepts[i];
802  lsdata.hltdata.push_back(hlttmp);
803  }
804  ::free(hltprescales);
805  ::free(hltcounts);
806  ::free(hltaccepts);
807  }
808  }
809  delete hltQuery;
810  session->transaction().commit();
811  }catch(const coral::Exception& er){
812  session->transaction().rollback();
813  mydbservice->disconnect(session);
814  throw cms::Exception("DatabaseError ")<<er.what();
815  }
816  mydbservice->disconnect(session);
817 }
818 void
819 LumiProducer::writeProductsForEntry(edm::LuminosityBlock & iLBlock,unsigned int runnumber,unsigned int luminum){
820  //std::cout<<"writing runnumber,luminum "<<runnumber<<" "<<luminum<<std::endl;
821  std::auto_ptr<LumiSummary> pOut1;
822  std::auto_ptr<LumiDetails> pOut2;
823  LumiSummary* pIn1=new LumiSummary;
824  LumiDetails* pIn2=new LumiDetails;
825  if(m_isNullRun){
826  pIn1->setLumiVersion("-1");
827  pIn2->setLumiVersion("-1");
828  pOut1.reset(pIn1);
829  iLBlock.put(pOut1);
830  pOut2.reset(pIn2);
831  iLBlock.put(pOut2);
832  return;
833  }
834  PerLSData& lsdata=m_lscache[luminum];
835  pIn1->setLumiData(lsdata.lumivalue,lsdata.lumierror,lsdata.lumiquality);
836  pIn1->setDeadCount(lsdata.deadcount);
837  if(!lsdata.l1data.empty()){
838  //std::cout<<"bitzerocount "<<lsdata.bitzerocount<<std::endl;
839  //std::cout<<"bitzeroprescale "<<lsdata.bitzeroprescale<<std::endl;
840  //std::cout<<"product "<<lsdata.bitzerocount*lsdata.bitzeroprescale<<std::endl;
841  pIn1->setBitZeroCount(lsdata.bitzerocount*lsdata.bitzeroprescale);
842  }
843  pIn1->setlsnumber(luminum);
844  pIn1->setOrbitData(lsdata.startorbit,lsdata.numorbit);
845  std::vector<LumiSummary::L1> l1temp;
846  for(std::vector< L1Data >::iterator it=lsdata.l1data.begin();it!=lsdata.l1data.end();++it){
847  LumiSummary::L1 trgtmp;
848  trgtmp.triggernameidx=m_runcache.TRGBitNameToIndex[it->bitname];
849  trgtmp.prescale=it->prescale;
850  l1temp.push_back(trgtmp);
851  }
852  std::vector<LumiSummary::HLT> hlttemp;
853  for(std::vector< HLTData >::iterator it=lsdata.hltdata.begin();it!=lsdata.hltdata.end();++it){
854  LumiSummary::HLT hlttmp;
855  hlttmp.pathnameidx=m_runcache.HLTPathNameToIndex[it->pathname];;
856  hlttmp.prescale=it->prescale;
857  hlttemp.push_back(hlttmp);
858  }
859  pIn1->swapL1Data(l1temp);
860  pIn1->swapHLTData(hlttemp);
861  pIn1->setLumiVersion(m_lumiversion);
863  for(unsigned int i=0;i<lsdata.bunchlumivalue.size();++i){
864  std::string algoname=lsdata.bunchlumivalue[i].first;
865  if(algoname=="OCC1"){
866  pIn2->fill(LumiDetails::kOCC1,lsdata.bunchlumivalue[i].second,lsdata.bunchlumierror[i].second,lsdata.bunchlumiquality[i].second);
867  }else if(algoname=="OCC2"){
868  pIn2->fill(LumiDetails::kOCC2,lsdata.bunchlumivalue[i].second,lsdata.bunchlumierror[i].second,lsdata.bunchlumiquality[i].second);
869  }else if(algoname=="ET"){
870  pIn2->fill(LumiDetails::kET,lsdata.bunchlumivalue[i].second,lsdata.bunchlumierror[i].second,lsdata.bunchlumiquality[i].second);
871  }else if(algoname=="PLT"){
872  pIn2->fill(LumiDetails::kPLT,lsdata.bunchlumivalue[i].second,lsdata.bunchlumierror[i].second,lsdata.bunchlumiquality[i].second);
873  }
874  }
875  pIn2->setLumiVersion(m_lumiversion);
876  pOut1.reset(pIn1);
877  iLBlock.put(pOut1);
878  pOut2.reset(pIn2);
879  iLBlock.put(pOut2);
880 }
void writeProductsForEntry(edm::LuminosityBlock &iLBlock, unsigned int runnumber, unsigned int luminum)
T getParameter(std::string const &) const
T getUntrackedParameter(std::string const &, T const &) const
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RunNumber_t run() const
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unsigned int bitzeroprescale
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static const std::string hltdataTableName()
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DEBUGGING if hasattr(process,&quot;trackMonIterativeTracking2012&quot;): print &quot;trackMonIterativeTracking2012 D...
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void put(std::auto_ptr< PROD > product)
Put a new product.