CMS 3D CMS Logo

 All Classes Namespaces Files Functions Variables Typedefs Enumerations Enumerator Properties Friends Macros Groups Pages
List of all members | Public Types | Public Member Functions | Static Public Attributes
lumi::TRGScalers2DB Class Reference
Inheritance diagram for lumi::TRGScalers2DB:
lumi::DataPipe

Public Types

typedef std::vector< unsigned int > BITCOUNT
 
typedef unsigned long long DEADCOUNT
 
typedef float DEADFRAC
 
typedef std::map< unsigned int,
std::vector< unsigned int > > 
PrescaleResult_Algo
 
typedef std::map< unsigned int,
std::vector< unsigned int > > 
PrescaleResult_Tech
 
typedef std::vector< BITCOUNTTriggerCountResult_Algo
 
typedef std::vector< BITCOUNTTriggerCountResult_Tech
 
typedef std::vector< DEADCOUNTTriggerDeadCountResult
 
typedef std::vector< DEADFRACTriggerDeadFracResult
 
typedef std::vector< std::string > TriggerNameResult_Algo
 
typedef std::vector< std::string > TriggerNameResult_Tech
 

Public Member Functions

const std::string dataType () const override
 
std::string int2str (unsigned int t, unsigned int width)
 
unsigned long long retrieveData (unsigned int runnumber) override
 
const std::string sourceType () const override
 
unsigned int str2int (const std::string &s)
 
 TRGScalers2DB (const std::string &dest)
 
void writeTrgData (coral::ISessionProxy *session, unsigned int runnumber, const std::string &source, TriggerDeadCountResult::iterator deadtimesBeg, TriggerDeadCountResult::iterator deadtimesEnd, TRGScalers2DB::TriggerDeadFracResult &deadfracs, TriggerNameResult_Algo &algonames, TriggerNameResult_Tech &technames, TriggerCountResult_Algo &algocounts, TriggerCountResult_Tech &techcounts, PrescaleResult_Algo &prescalealgo, PrescaleResult_Tech &prescaletech, unsigned int commitintv)
 
unsigned long long writeTrgDataToSchema2 (coral::ISessionProxy *session, unsigned int runnumber, const std::string &source, TriggerDeadCountResult::iterator deadtimesBeg, TriggerDeadCountResult::iterator deadtimesEnd, TRGScalers2DB::TriggerDeadFracResult &deadfracs, TriggerNameResult_Algo &algonames, TriggerNameResult_Tech &technames, TriggerCountResult_Algo &algocounts, TriggerCountResult_Tech &techcounts, PrescaleResult_Algo &prescalealgo, PrescaleResult_Tech &prescaletech, unsigned int commitintv)
 
 ~TRGScalers2DB () override
 
- Public Member Functions inherited from lumi::DataPipe
 DataPipe (const std::string &)
 
 DataPipe (const DataPipe &)=delete
 
std::string getAuthPath () const
 
std::string getMode () const
 
float getNorm () const
 
std::string getSource () const
 
const DataPipeoperator= (const DataPipe &)=delete
 
void setAuthPath (const std::string &authpath)
 
void setMode (const std::string &mode)
 
void setNoCheckingStableBeam ()
 
void setNorm (float norm)
 
void setNoValidate ()
 
void setSource (const std::string &source)
 
virtual ~DataPipe ()
 

Static Public Attributes

static const unsigned int COMMITLSINTERVAL = 150
 
static const unsigned int COMMITLSTRGINTERVAL = 550
 

Additional Inherited Members

- Protected Attributes inherited from lumi::DataPipe
std::string m_authpath
 
std::string m_dest
 
std::string m_mode
 
bool m_nocheckingstablebeam
 
float m_norm
 
bool m_novalidate
 
std::string m_source
 

Detailed Description

Definition at line 33 of file TRGScalers2DB.cc.

Member Typedef Documentation

typedef std::vector<unsigned int> lumi::TRGScalers2DB::BITCOUNT

Definition at line 51 of file TRGScalers2DB.cc.

typedef unsigned long long lumi::TRGScalers2DB::DEADCOUNT

Definition at line 47 of file TRGScalers2DB.cc.

Definition at line 48 of file TRGScalers2DB.cc.

typedef std::map<unsigned int, std::vector<unsigned int> > lumi::TRGScalers2DB::PrescaleResult_Algo

Definition at line 54 of file TRGScalers2DB.cc.

typedef std::map<unsigned int, std::vector<unsigned int> > lumi::TRGScalers2DB::PrescaleResult_Tech

Definition at line 55 of file TRGScalers2DB.cc.

Definition at line 52 of file TRGScalers2DB.cc.

Definition at line 53 of file TRGScalers2DB.cc.

Definition at line 49 of file TRGScalers2DB.cc.

Definition at line 50 of file TRGScalers2DB.cc.

typedef std::vector<std::string> lumi::TRGScalers2DB::TriggerNameResult_Algo

Definition at line 44 of file TRGScalers2DB.cc.

typedef std::vector<std::string> lumi::TRGScalers2DB::TriggerNameResult_Tech

Definition at line 45 of file TRGScalers2DB.cc.

Constructor & Destructor Documentation

lumi::TRGScalers2DB::TRGScalers2DB ( const std::string &  dest)
explicit

Definition at line 111 of file TRGScalers2DB.cc.

111 : DataPipe(dest) {}
DataPipe(const std::string &)
Definition: DataPipe.cc:2
lumi::TRGScalers2DB::~TRGScalers2DB ( )
override

Definition at line 1013 of file TRGScalers2DB.cc.

1013 {}

Member Function Documentation

const std::string lumi::TRGScalers2DB::dataType ( ) const
overridevirtual

Implements lumi::DataPipe.

Definition at line 994 of file TRGScalers2DB.cc.

994 { return "TRG"; }
std::string lumi::TRGScalers2DB::int2str ( unsigned int  t,
unsigned int  width 
)

Definition at line 997 of file TRGScalers2DB.cc.

References contentValuesCheck::ss, and submitPVValidationJobs::t.

Referenced by retrieveData().

997  {
998  std::stringstream ss;
999  ss.width(width);
1000  ss.fill('0');
1001  ss << t;
1002  return ss.str();
1003  }
unsigned long long lumi::TRGScalers2DB::retrieveData ( unsigned int  runnumber)
overridevirtual

Part I query tables in schema cms_gt_mon

Part II query tables in schema cms_gt

Implements lumi::DataPipe.

Definition at line 112 of file TRGScalers2DB.cc.

References HLT_FULL_cff::algo_name, c, COMMITLSINTERVAL, COMMITLSTRGINTERVAL, submitPVResolutionJobs::count, gather_cfg::cout, Exception, int2str(), eostools::ls(), lumi::DataPipe::m_authpath, lumi::DataPipe::m_dest, lumi::DataPipe::m_mode, lumi::DataPipe::m_source, lumi::N_TRGALGOBIT, lumi::N_TRGTECHBIT, alignCSCRings::s, lumi::DBConfig::setAuthentication(), contentValuesCheck::ss, AlCaHLTBitMon_QueryRunRegistry::string, writeTrgData(), and writeTrgDataToSchema2().

112  {
113  std::string runnumberstr = int2str(runnumber, 6);
114  //query source GT database
115  coral::ConnectionService* svc = new coral::ConnectionService;
116  lumi::DBConfig dbconf(*svc);
117  if (!m_authpath.empty()) {
118  dbconf.setAuthentication(m_authpath);
119  }
120  //std::cout<<"m_source "<<m_source<<std::endl;
121  coral::ISessionProxy* trgsession = svc->connect(m_source, coral::ReadOnly);
122  coral::ITypeConverter& tpc = trgsession->typeConverter();
123  tpc.setCppTypeForSqlType("unsigned int", "NUMBER(7)");
124  tpc.setCppTypeForSqlType("unsigned int", "NUMBER(10)");
125  tpc.setCppTypeForSqlType("unsigned long long", "NUMBER(20)");
126  std::string gtmonschema("CMS_GT_MON");
127  std::string algoviewname("V_SCALERS_FDL_ALGO");
128  std::string techviewname("V_SCALERS_FDL_TECH");
129  std::string deadviewname("V_SCALERS_TCS_DEADTIME");
130  std::string lstablename("LUMI_SECTIONS");
131 
132  std::string gtschema("CMS_GT");
133  std::string runtechviewname("GT_RUN_TECH_VIEW");
134  std::string runalgoviewname("GT_RUN_ALGO_VIEW");
135  std::string runprescalgoviewname("GT_RUN_PRESC_ALGO_VIEW");
136  std::string runpresctechviewname("GT_RUN_PRESC_TECH_VIEW");
137 
138  //data exchange format
141  lumi::TRGScalers2DB::BITCOUNT mybitcount_algo;
142  mybitcount_algo.reserve(lumi::N_TRGALGOBIT);
143  lumi::TRGScalers2DB::BITCOUNT mybitcount_tech;
144  mybitcount_tech.reserve(lumi::N_TRGTECHBIT);
146  algonames.reserve(lumi::N_TRGALGOBIT);
148  technames.reserve(lumi::N_TRGTECHBIT);
150  //algocount.reserve(400);
152  //techcount.reserve(400);
154  deadfracresult.reserve(500);
156  deadtimeresult.reserve(500);
157  coral::ITransaction& transaction = trgsession->transaction();
158  transaction.start(true);
163  coral::ISchema& gtmonschemaHandle = trgsession->schema(gtmonschema);
164  if (!gtmonschemaHandle.existsView(algoviewname)) {
165  throw lumi::Exception(std::string("non-existing view ") + algoviewname, "retrieveData", "TRGScalers2DB");
166  }
167  if (!gtmonschemaHandle.existsView(techviewname)) {
168  throw lumi::Exception(std::string("non-existing view ") + techviewname, "retrieveData", "TRGScalers2DB");
169  }
170  if (!gtmonschemaHandle.existsView(deadviewname)) {
171  throw lumi::Exception(std::string("non-existing view ") + deadviewname, "retrieveData", "TRGScalers2DB");
172  }
173 
174  //
175  //select count_bx,lumi_section,scaler_index from cms_gt_mon.v_scalers_fdl_algo where run_number=:runnum order by lumi_section,scaler_index;
176  //note: scaler_index 0-127
177  //note: lumi_section count from 1
178  //
179  coral::AttributeList bindVariableList;
180  bindVariableList.extend("runnumber", typeid(unsigned int));
181  bindVariableList["runnumber"].data<unsigned int>() = runnumber;
182 
183  coral::IQuery* Queryalgoview = gtmonschemaHandle.newQuery();
184  Queryalgoview->addToTableList(algoviewname);
185  coral::AttributeList qalgoOutput;
186  qalgoOutput.extend("COUNT_BX", typeid(unsigned int));
187  qalgoOutput.extend("LUMI_SECTION", typeid(unsigned int));
188  qalgoOutput.extend("SCALER_INDEX", typeid(unsigned int));
189  Queryalgoview->addToOutputList("COUNT_BX");
190  Queryalgoview->addToOutputList("LUMI_SECTION");
191  Queryalgoview->addToOutputList("SCALER_INDEX");
192  Queryalgoview->setCondition("RUN_NUMBER=:runnumber", bindVariableList);
193  Queryalgoview->addToOrderList("LUMI_SECTION");
194  Queryalgoview->addToOrderList("SCALER_INDEX");
195  Queryalgoview->defineOutput(qalgoOutput);
196  coral::ICursor& c = Queryalgoview->execute();
197 
198  unsigned int s = 0;
199  while (c.next()) {
200  const coral::AttributeList& row = c.currentRow();
201  //row.toOutputStream( std::cout ) << std::endl;
202  unsigned int lsnr = row["LUMI_SECTION"].data<unsigned int>();
203  unsigned int count = row["COUNT_BX"].data<unsigned int>();
204  unsigned int algobit = row["SCALER_INDEX"].data<unsigned int>();
205  mybitcount_algo.push_back(count);
206  if (algobit == (lumi::N_TRGALGOBIT - 1)) {
207  ++s;
208  while (s != lsnr) {
209  std::cout << "ALGO COUNT alert: found hole in LS range " << s << std::endl;
210  std::cout << " fill all algocount 0 for LS " << s << std::endl;
211  std::vector<unsigned int> tmpzero(lumi::N_TRGALGOBIT, 0);
212  algocount.push_back(tmpzero);
213  ++s;
214  }
215  algocount.push_back(mybitcount_algo);
216  mybitcount_algo.clear();
217  }
218  }
219  if (s == 0) {
220  c.close();
221  delete Queryalgoview;
222  transaction.commit();
223  throw lumi::Exception(std::string("requested run ") + runnumberstr + std::string(" doesn't exist for algocounts"),
224  "retrieveData",
225  "TRGScalers2DB");
226  }
227  delete Queryalgoview;
228  //
229  //select count_bx,lumi_section,scaler_index from cms_gt_mon.v_scalers_fdl_tech where run_number=:runnum order by lumi_section,scaler_index;
230  //
231  //note: techobit 0-63
232  //note: lsnr count from 1
233  //
234  coral::IQuery* Querytechview = gtmonschemaHandle.newQuery();
235  Querytechview->addToTableList(techviewname);
236  coral::AttributeList qtechOutput;
237  qtechOutput.extend("COUNT_BX", typeid(unsigned int));
238  qtechOutput.extend("LUMI_SECTION", typeid(unsigned int));
239  qtechOutput.extend("SCALER_INDEX", typeid(unsigned int));
240  Querytechview->addToOutputList("COUNT_BX");
241  Querytechview->addToOutputList("LUMI_SECTION");
242  Querytechview->addToOutputList("SCALER_INDEX");
243  Querytechview->setCondition("RUN_NUMBER=:runnumber", bindVariableList);
244  Querytechview->addToOrderList("LUMI_SECTION");
245  Querytechview->addToOrderList("SCALER_INDEX");
246  Querytechview->defineOutput(qtechOutput);
247  coral::ICursor& techcursor = Querytechview->execute();
248  s = 0;
249  while (techcursor.next()) {
250  const coral::AttributeList& row = techcursor.currentRow();
251  //row.toOutputStream( std::cout #include <stdexcept>) << std::endl;
252  unsigned int lsnr = row["LUMI_SECTION"].data<unsigned int>();
253  unsigned int count = row["COUNT_BX"].data<unsigned int>();
254  unsigned int techbit = row["SCALER_INDEX"].data<unsigned int>();
255  mybitcount_tech.push_back(count);
256  if (techbit == (lumi::N_TRGTECHBIT - 1)) {
257  ++s;
258  while (s != lsnr) {
259  std::cout << "TECH COUNT alert: found hole in LS range " << s << std::endl;
260  std::cout << " fill all techcount with 0 for LS " << s << std::endl;
261  std::vector<unsigned int> tmpzero(lumi::N_TRGTECHBIT, 0);
262  techcount.push_back(tmpzero);
263  ++s;
264  }
265  techcount.push_back(mybitcount_tech);
266  mybitcount_tech.clear();
267  }
268  }
269  if (s == 0) {
270  techcursor.close();
271  delete Querytechview;
272  transaction.commit();
273  throw lumi::Exception(std::string("requested run ") + runnumberstr + std::string(" doesn't exist for techcounts"),
274  "retrieveData",
275  "TRGScalers2DB");
276  }
277  delete Querytechview;
278 
279  //
280  //select fraction,lumi_section,count_bx from cms_gt_mon.v_scalers_tcs_deadtime where run_number=:runnum and scaler_name='DeadtimeBeamActive' order by lumi_section'
281  //
282  //note: lsnr count from 1
283  //
284  coral::IQuery* Querydeadview = gtmonschemaHandle.newQuery();
285  Querydeadview->addToTableList(deadviewname);
286  coral::AttributeList qdeadOutput;
287  qdeadOutput.extend("FRACTION", typeid(float));
288  qdeadOutput.extend("LUMI_SECTION", typeid(unsigned int));
289  qdeadOutput.extend("COUNT_BX", typeid(unsigned int));
290  Querydeadview->addToOutputList("FRACTION");
291  Querydeadview->addToOutputList("LUMI_SECTION");
292  Querydeadview->addToOutputList("COUNT_BX");
293  coral::AttributeList bindVariablesDead;
294  bindVariablesDead.extend("runnumber", typeid(int));
295  bindVariablesDead.extend("scalername", typeid(std::string));
296  bindVariablesDead["runnumber"].data<int>() = runnumber;
297  bindVariablesDead["scalername"].data<std::string>() = std::string("DeadtimeBeamActive");
298  Querydeadview->setCondition("RUN_NUMBER=:runnumber AND SCALER_NAME=:scalername", bindVariablesDead);
299  Querydeadview->addToOrderList("LUMI_SECTION");
300  Querydeadview->defineOutput(qdeadOutput);
301  coral::ICursor& deadcursor = Querydeadview->execute();
302  s = 0;
303  while (deadcursor.next()) {
304  const coral::AttributeList& row = deadcursor.currentRow();
305  //row.toOutputStream( std::cout ) << std::endl;
306  ++s;
307  unsigned int lsnr = row["LUMI_SECTION"].data<unsigned int>();
308  float dfrac = 1.0;
309  unsigned int count = 0;
310  while (s != lsnr) {
311  std::cout << "DEADTIME alert: found hole in LS range" << s << std::endl;
312  std::cout << " fill deadtimefraction 0%, deadtimebeamactive 0 for LS " << s << std::endl;
313  deadfracresult.push_back(dfrac);
314  deadtimeresult.push_back(count);
315  ++s;
316  }
317  if (!row["FRACTION"].isNull()) {
318  dfrac = row["FRACTION"].data<float>(); //deadfraction is null from trigger means "undefined", but insert 1.0...
319  } else {
320  std::cout << "DEADTIME fraction alert: undefined fraction , assume 100% , LS " << lsnr << std::endl;
321  }
322  if (dfrac > 1.0) {
323  std::cout << "DEADTIME fraction alert: overflow dead fraction , force to 100% , LS " << lsnr << std::endl;
324  dfrac = 1.0;
325  }
326  deadfracresult.push_back(dfrac);
327  count = row["COUNT_BX"].data<unsigned int>();
328  deadtimeresult.push_back(count);
329  }
330  if (s == 0) {
331  deadcursor.close();
332  delete Querydeadview;
333  transaction.commit();
334  throw lumi::Exception(std::string("requested run ") + runnumberstr + std::string(" doesn't exist for deadcounts"),
335  "retrieveData",
336  "TRGScalers2DB");
337  return 0;
338  }
339  delete Querydeadview;
340 
341  //
342  //select distinct(prescale_index) from cms_gt_mon.lumi_sections where run_number=:runnumber;
343  //
344  std::vector<int> prescidx;
345  coral::IQuery* allpsidxQuery = gtmonschemaHandle.newQuery();
346  allpsidxQuery->addToTableList(lstablename);
347  coral::AttributeList allpsidxOutput;
348  allpsidxOutput.extend("psidx", typeid(int));
349  allpsidxQuery->addToOutputList("distinct(PRESCALE_INDEX)", "psidx");
350  coral::AttributeList bindVariablesAllpsidx;
351  bindVariablesAllpsidx.extend("runnumber", typeid(int));
352  bindVariablesAllpsidx["runnumber"].data<int>() = runnumber;
353  allpsidxQuery->setCondition("RUN_NUMBER =:runnumber", bindVariablesAllpsidx);
354  allpsidxQuery->defineOutput(allpsidxOutput);
355  coral::ICursor& allpsidxCursor = allpsidxQuery->execute();
356  while (allpsidxCursor.next()) {
357  const coral::AttributeList& row = allpsidxCursor.currentRow();
358  int psidx = row["psidx"].data<int>();
359  prescidx.push_back(psidx);
360  }
361  delete allpsidxQuery;
362  std::map<int, std::vector<unsigned int> > algoprescMap;
363  std::map<int, std::vector<unsigned int> > techprescMap;
364  std::vector<int>::iterator prescidxIt;
365  std::vector<int>::iterator prescidxItBeg = prescidx.begin();
366  std::vector<int>::iterator prescidxItEnd = prescidx.end();
367  for (prescidxIt = prescidxItBeg; prescidxIt != prescidxItEnd; ++prescidxIt) {
368  std::vector<unsigned int> algopres;
369  algopres.reserve(lumi::N_TRGALGOBIT);
370  std::vector<unsigned int> techpres;
371  techpres.reserve(lumi::N_TRGTECHBIT);
372  algoprescMap.insert(std::make_pair(*prescidxIt, algopres));
373  techprescMap.insert(std::make_pair(*prescidxIt, techpres));
374  }
375  //
376  //select lumi_section,prescale_index from cms_gt_mon.lumi_sections where run_number=:runnumber
377  // {ls:prescale_index}
378  //
379  std::map<unsigned int, int> lsprescmap;
380  coral::IQuery* lstoprescQuery = gtmonschemaHandle.newQuery();
381  lstoprescQuery->addToTableList(lstablename);
382  coral::AttributeList lstoprescOutput;
383  lstoprescOutput.extend("lumisection", typeid(unsigned int));
384  lstoprescOutput.extend("psidx", typeid(int));
385  lstoprescQuery->addToOutputList("LUMI_SECTION", "lumisection");
386  lstoprescQuery->addToOutputList("PRESCALE_INDEX", "psidx");
387  coral::AttributeList bindVariablesLstopresc;
388  bindVariablesLstopresc.extend("runnumber", typeid(int));
389  bindVariablesLstopresc["runnumber"].data<int>() = runnumber;
390  lstoprescQuery->setCondition("RUN_NUMBER =:runnumber", bindVariablesLstopresc);
391  lstoprescQuery->defineOutput(lstoprescOutput);
392  unsigned int lsprescount = 0;
393  unsigned int lastpresc = 0;
394  coral::ICursor& lstoprescCursor = lstoprescQuery->execute();
395  while (lstoprescCursor.next()) {
396  ++lsprescount;
397  const coral::AttributeList& row = lstoprescCursor.currentRow();
398  unsigned int lumisection = row["lumisection"].data<unsigned int>();
399  while (lsprescount != lumisection) {
400  std::cout << "PRESCALE_INDEX COUNT alert: found hole in LS range " << lsprescount << std::endl;
401  std::cout << " fill this prescale from last availabl prescale " << lastpresc << std::endl;
402  unsigned int guesspsidx = lastpresc;
403  lsprescmap.insert(std::make_pair(lsprescount, guesspsidx));
404  ++lsprescount;
405  }
406  int psidx = row["psidx"].data<int>();
407  lsprescmap.insert(std::make_pair(lumisection, psidx));
408  lastpresc = psidx;
409  }
410  if (lsprescount == 0) {
411  lstoprescCursor.close();
412  delete lstoprescQuery;
413  transaction.commit();
414  throw lumi::Exception(
415  std::string("requested run ") + runnumberstr + std::string(" doesn't exist for prescale_index"),
416  "retrieveData",
417  "TRG2DB");
418  }
419  delete lstoprescQuery;
420 
421  for (prescidxIt = prescidxItBeg; prescidxIt != prescidxItEnd; ++prescidxIt) {
422  std::vector<unsigned int> algopres;
423  algopres.reserve(lumi::N_TRGALGOBIT);
424  std::vector<unsigned int> techpres;
425  techpres.reserve(lumi::N_TRGTECHBIT);
426  algoprescMap.insert(std::make_pair(*prescidxIt, algopres));
427  techprescMap.insert(std::make_pair(*prescidxIt, techpres));
428  }
429  //prefill lsprescmap
430  //transaction.commit();
435  coral::ISchema& gtschemaHandle = trgsession->schema(gtschema);
436  if (!gtschemaHandle.existsView(runtechviewname)) {
437  throw lumi::Exception(std::string("non-existing view ") + runtechviewname, "str2int", "TRG2DB");
438  }
439  if (!gtschemaHandle.existsView(runalgoviewname)) {
440  throw lumi::Exception(std::string("non-existing view ") + runalgoviewname, "str2int", "TRG2DB");
441  }
442  if (!gtschemaHandle.existsView(runprescalgoviewname)) {
443  throw lumi::Exception(std::string("non-existing view ") + runprescalgoviewname, "str2int", "TRG2DB");
444  }
445  if (!gtschemaHandle.existsView(runpresctechviewname)) {
446  throw lumi::Exception(std::string("non-existing view ") + runpresctechviewname, "str2int", "TRG2DB");
447  }
448  //
449  //select algo_index,alias from cms_gt.gt_run_algo_view where runnumber=:runnumber //order by algo_index;
450  //
451  std::map<unsigned int, std::string> triggernamemap;
452  coral::IQuery* QueryName = gtschemaHandle.newQuery();
453  QueryName->addToTableList(runalgoviewname);
454  coral::AttributeList qAlgoNameOutput;
455  qAlgoNameOutput.extend("ALGO_INDEX", typeid(unsigned int));
456  qAlgoNameOutput.extend("ALIAS", typeid(std::string));
457  QueryName->addToOutputList("ALGO_INDEX");
458  QueryName->addToOutputList("ALIAS");
459  QueryName->setCondition("RUNNUMBER=:runnumber", bindVariableList);
460  //QueryName->addToOrderList("algo_index");
461  QueryName->defineOutput(qAlgoNameOutput);
462  coral::ICursor& algonamecursor = QueryName->execute();
463  while (algonamecursor.next()) {
464  const coral::AttributeList& row = algonamecursor.currentRow();
465  //row.toOutputStream( std::cout ) << std::endl;
466  unsigned int algo_index = row["ALGO_INDEX"].data<unsigned int>();
467  std::string algo_name = row["ALIAS"].data<std::string>();
468  triggernamemap.insert(std::make_pair(algo_index, algo_name));
469  }
470  delete QueryName;
471 
472  //
473  //select techtrig_index,name from cms_gt.gt_run_tech_view where runnumber=:runnumber //order by techtrig_index;
474  //
475  std::map<unsigned int, std::string> techtriggernamemap;
476  coral::IQuery* QueryTechName = gtschemaHandle.newQuery();
477  QueryTechName->addToTableList(runtechviewname);
478  coral::AttributeList qTechNameOutput;
479  qTechNameOutput.extend("TECHTRIG_INDEX", typeid(unsigned int));
480  qTechNameOutput.extend("NAME", typeid(std::string));
481  QueryTechName->addToOutputList("TECHTRIG_INDEX");
482  QueryTechName->addToOutputList("NAME");
483  QueryTechName->setCondition("RUNNUMBER=:runnumber", bindVariableList);
484  //QueryTechName->addToOrderList("techtrig_index");
485  QueryTechName->defineOutput(qTechNameOutput);
486  coral::ICursor& technamecursor = QueryTechName->execute();
487  while (technamecursor.next()) {
488  const coral::AttributeList& row = technamecursor.currentRow();
489  //row.toOutputStream( std::cout ) << std::endl;
490  unsigned int tech_index = row["TECHTRIG_INDEX"].data<unsigned int>();
491  std::string tech_name = row["NAME"].data<std::string>();
492  techtriggernamemap.insert(std::make_pair(tech_index, tech_name));
493  }
494  delete QueryTechName;
495  //
496  //loop over all prescale_index
497  //
498  //select prescale_factor_algo_000,prescale_factor_algo_001..._127 from cms_gt.gt_run_presc_algo_view where runr=:runnumber and prescale_index=:prescale_index;
499  // {prescale_index:[pres]}
500  //
501  std::vector<int>::iterator presIt;
502  std::vector<int>::iterator presItBeg = prescidx.begin();
503  std::vector<int>::iterator presItEnd = prescidx.end();
504  for (presIt = presItBeg; presIt != presItEnd; ++presIt) {
505  coral::IQuery* QueryAlgoPresc = gtschemaHandle.newQuery();
506  QueryAlgoPresc->addToTableList(runprescalgoviewname);
507  coral::AttributeList qAlgoPrescOutput;
508  std::string algoprescBase("PRESCALE_FACTOR_ALGO_");
509  for (unsigned int bitidx = 0; bitidx < lumi::N_TRGALGOBIT; ++bitidx) {
510  std::string algopresc = algoprescBase + int2str(bitidx, 3);
511  qAlgoPrescOutput.extend(algopresc, typeid(unsigned int));
512  }
513  for (unsigned int bitidx = 0; bitidx < lumi::N_TRGALGOBIT; ++bitidx) {
514  std::string algopresc = algoprescBase + int2str(bitidx, 3);
515  QueryAlgoPresc->addToOutputList(algopresc);
516  }
517  coral::AttributeList PrescbindVariable;
518  PrescbindVariable.extend("runnumber", typeid(int));
519  PrescbindVariable.extend("prescaleindex", typeid(int));
520  PrescbindVariable["runnumber"].data<int>() = runnumber;
521  PrescbindVariable["prescaleindex"].data<int>() = *presIt;
522  QueryAlgoPresc->setCondition("RUNNR=:runnumber AND PRESCALE_INDEX=:prescaleindex", PrescbindVariable);
523  QueryAlgoPresc->defineOutput(qAlgoPrescOutput);
524  coral::ICursor& algopresccursor = QueryAlgoPresc->execute();
525  while (algopresccursor.next()) {
526  const coral::AttributeList& row = algopresccursor.currentRow();
527  for (unsigned int bitidx = 0; bitidx < lumi::N_TRGALGOBIT; ++bitidx) {
528  std::string algopresc = algoprescBase + int2str(bitidx, 3);
529  algoprescMap[*presIt].push_back(row[algopresc].data<unsigned int>());
530  }
531  }
532  delete QueryAlgoPresc;
533  }
534  //
535  //select prescale_factor_tt_000,prescale_factor_tt_001..._63 from cms_gt.gt_run_presc_tech_view where runr=:runnumber and prescale_index=0;
536  //
537  for (presIt = presItBeg; presIt != presItEnd; ++presIt) {
538  coral::IQuery* QueryTechPresc = gtschemaHandle.newQuery();
539  QueryTechPresc->addToTableList(runpresctechviewname);
540  coral::AttributeList qTechPrescOutput;
541  std::string techprescBase("PRESCALE_FACTOR_TT_");
542  for (unsigned int bitidx = 0; bitidx < lumi::N_TRGTECHBIT; ++bitidx) {
543  std::string techpresc = techprescBase + this->int2str(bitidx, 3);
544  qTechPrescOutput.extend(techpresc, typeid(unsigned int));
545  }
546  for (unsigned int bitidx = 0; bitidx < lumi::N_TRGTECHBIT; ++bitidx) {
547  std::string techpresc = techprescBase + int2str(bitidx, 3);
548  QueryTechPresc->addToOutputList(techpresc);
549  }
550  coral::AttributeList TechPrescbindVariable;
551  TechPrescbindVariable.extend("runnumber", typeid(int));
552  TechPrescbindVariable.extend("prescaleindex", typeid(int));
553  TechPrescbindVariable["runnumber"].data<int>() = runnumber;
554  TechPrescbindVariable["prescaleindex"].data<int>() = *presIt;
555  QueryTechPresc->setCondition("RUNNR=:runnumber AND PRESCALE_INDEX=:prescaleindex", TechPrescbindVariable);
556  QueryTechPresc->defineOutput(qTechPrescOutput);
557  coral::ICursor& techpresccursor = QueryTechPresc->execute();
558  while (techpresccursor.next()) {
559  const coral::AttributeList& row = techpresccursor.currentRow();
560  //row.toOutputStream( std::cout ) << std::endl;
561  for (unsigned int bitidx = 0; bitidx < lumi::N_TRGTECHBIT; ++bitidx) {
562  std::string techpresc = techprescBase + int2str(bitidx, 3);
563  techprescMap[*presIt].push_back(row[techpresc].data<unsigned int>());
564  }
565  }
566  delete QueryTechPresc;
567  }
568  transaction.commit();
569  delete trgsession;
570 
571  std::map<unsigned int, int>::iterator lsprescmapIt;
572  std::map<unsigned int, int>::iterator lsprescmapItBeg = lsprescmap.begin();
573  std::map<unsigned int, int>::iterator lsprescmapItEnd = lsprescmap.end();
574  for (lsprescmapIt = lsprescmapItBeg; lsprescmapIt != lsprescmapItEnd; ++lsprescmapIt) {
575  unsigned int ls = lsprescmapIt->first;
576  int preidx = lsprescmapIt->second;
577  algoprescale.insert(std::make_pair(ls, algoprescMap[preidx]));
578  techprescale.insert(std::make_pair(ls, techprescMap[preidx]));
579  }
580  algoprescMap.clear();
581  techprescMap.clear();
582  //
583  //reprocess Algo name result filling unallocated trigger bit with string "False"
584  //
585  for (size_t algoidx = 0; algoidx < lumi::N_TRGALGOBIT; ++algoidx) {
586  std::map<unsigned int, std::string>::iterator pos = triggernamemap.find(algoidx);
587  if (pos != triggernamemap.end()) {
588  algonames.push_back(pos->second);
589  } else {
590  algonames.push_back("False");
591  }
592  }
593  //
594  //reprocess Tech name result filling unallocated trigger bit with string "False"
595  //
596  std::stringstream ss;
597  for (size_t techidx = 0; techidx < lumi::N_TRGTECHBIT; ++techidx) {
598  ss << techidx;
599  technames.push_back(ss.str());
600  ss.str(""); //clear the string buffer after usage
601  }
602  //
603  //cross check result size
604  //
605  if (algonames.size() != lumi::N_TRGALGOBIT || technames.size() != lumi::N_TRGTECHBIT) {
606  throw lumi::Exception("wrong number of bits", "retrieveData", "TRG2DB");
607  }
608  //if(algoprescale.size()!=lumi::N_TRGALGOBIT || techprescale.size()!=lumi::N_TRGTECHBIT){
609  // throw lumi::Exception("wrong number of prescale","retrieveData","TRG2DB");
610  //}
611  if (deadtimeresult.size() != deadfracresult.size() || deadtimeresult.size() != algocount.size() ||
612  deadtimeresult.size() != techcount.size() || deadtimeresult.size() != algoprescale.size() ||
613  deadtimeresult.size() != techprescale.size()) {
614  //throw lumi::Exception("inconsistent number of LS","retrieveData","TRG2DB");
615  std::cout
616  << "[WARNING] inconsistent number of LS of deadtimecounter,deadfrac,algo,tech,prescalealgo,prescaletech "
617  << deadtimeresult.size() << " " << deadfracresult.size() << " " << algocount.size() << " " << techcount.size()
618  << " " << algoprescale.size() << " " << techprescale.size() << std::endl;
619  TRGScalers2DB::TriggerDeadCountResult::iterator dIt;
620  TRGScalers2DB::TriggerDeadCountResult::iterator dBeg = deadtimeresult.begin();
621  TRGScalers2DB::TriggerDeadCountResult::iterator dEnd = deadtimeresult.end();
622  unsigned int dcnt = 0;
623  for (dIt = dBeg; dIt != dEnd; ++dIt) {
624  try {
625  deadfracresult.at(dcnt);
626  } catch (std::out_of_range& er) {
627  std::cout << "[WARNING] filling FAKE deadfrac=0.0 at LS " << dcnt << std::endl;
628  deadfracresult[dcnt] = 0.0;
629  }
630  try {
631  algocount.at(dcnt);
632  } catch (std::out_of_range& er) {
633  std::vector<unsigned int> tmpzero(lumi::N_TRGALGOBIT, 0);
634  std::cout << "[WARNING] filling FAKE algocount at LS " << dcnt << std::endl;
635  algocount[dcnt] = tmpzero;
636  }
637  try {
638  techcount.at(dcnt);
639  } catch (std::out_of_range& er) {
640  std::vector<unsigned int> tmpzero(lumi::N_TRGTECHBIT, 0);
641  std::cout << "[WARNING] filling FAKE techcount at LS " << dcnt << std::endl;
642  techcount[dcnt] = tmpzero;
643  }
644  if (algoprescale.find(dcnt + 1) == algoprescale.end()) {
645  std::vector<unsigned int> tmpzero(lumi::N_TRGALGOBIT, 1);
646  std::cout << "[WARNING] filling FAKE 1 algoprescale at LS " << dcnt + 1 << std::endl;
647  algoprescale[dcnt + 1] = tmpzero;
648  }
649  if (techprescale.find(dcnt + 1) == techprescale.end()) {
650  std::vector<unsigned int> tmpzero(lumi::N_TRGTECHBIT, 1);
651  std::cout << "[WARNING] filling FAKE 1 techprescale at LS " << dcnt + 1 << std::endl;
652  techprescale[dcnt + 1] = tmpzero;
653  }
654  ++dcnt;
655  }
656  }
657  //
658  //write data into lumi db
659  //
660  unsigned long long trgdataid = 0;
661  coral::ISessionProxy* lumisession = svc->connect(m_dest, coral::Update);
662  coral::ITypeConverter& lumitpc = lumisession->typeConverter();
663  lumitpc.setCppTypeForSqlType("unsigned int", "NUMBER(7)");
664  lumitpc.setCppTypeForSqlType("unsigned int", "NUMBER(10)");
665  lumitpc.setCppTypeForSqlType("unsigned long long", "NUMBER(20)");
666  try {
667  if (m_mode == "loadoldschema") {
668  std::cout << "writing trg data to old trg table " << std::endl;
669  writeTrgData(lumisession,
670  runnumber,
671  m_source,
672  deadtimeresult.begin(),
673  deadtimeresult.end(),
674  deadfracresult,
675  algonames,
676  technames,
677  algocount,
678  techcount,
679  algoprescale,
680  techprescale,
682  std::cout << "done" << std::endl;
683  }
684  std::cout << "writing trg data to new lstrg table " << std::endl;
685  trgdataid = writeTrgDataToSchema2(lumisession,
686  runnumber,
687  m_source,
688  deadtimeresult.begin(),
689  deadtimeresult.end(),
690  deadfracresult,
691  algonames,
692  technames,
693  algocount,
694  techcount,
695  algoprescale,
696  techprescale,
698  std::cout << "done" << std::endl;
699  delete lumisession;
700  delete svc;
701  } catch (const coral::Exception& er) {
702  std::cout << "database error " << er.what() << std::endl;
703  lumisession->transaction().rollback();
704  delete lumisession;
705  delete svc;
706  throw er;
707  }
708  return trgdataid;
709  }
std::vector< DEADFRAC > TriggerDeadFracResult
const edm::EventSetup & c
static const unsigned int COMMITLSTRGINTERVAL
std::vector< BITCOUNT > TriggerCountResult_Algo
unsigned long long writeTrgDataToSchema2(coral::ISessionProxy *session, unsigned int runnumber, const std::string &source, TriggerDeadCountResult::iterator deadtimesBeg, TriggerDeadCountResult::iterator deadtimesEnd, TRGScalers2DB::TriggerDeadFracResult &deadfracs, TriggerNameResult_Algo &algonames, TriggerNameResult_Tech &technames, TriggerCountResult_Algo &algocounts, TriggerCountResult_Tech &techcounts, PrescaleResult_Algo &prescalealgo, PrescaleResult_Tech &prescaletech, unsigned int commitintv)
def ls
Definition: eostools.py:349
std::map< unsigned int, std::vector< unsigned int > > PrescaleResult_Tech
std::vector< std::string > TriggerNameResult_Tech
std::vector< BITCOUNT > TriggerCountResult_Tech
static const unsigned int COMMITLSINTERVAL
std::vector< unsigned int > BITCOUNT
std::string m_dest
Definition: DataPipe.h:29
const unsigned int N_TRGTECHBIT
Definition: ConstantDef.h:7
std::string int2str(unsigned int t, unsigned int width)
std::vector< std::string > TriggerNameResult_Algo
std::map< unsigned int, std::vector< unsigned int > > PrescaleResult_Algo
std::vector< DEADCOUNT > TriggerDeadCountResult
std::string m_source
Definition: DataPipe.h:30
std::string m_authpath
Definition: DataPipe.h:31
std::string m_mode
Definition: DataPipe.h:32
tuple cout
Definition: gather_cfg.py:144
const unsigned int N_TRGALGOBIT
Definition: ConstantDef.h:6
void writeTrgData(coral::ISessionProxy *session, unsigned int runnumber, const std::string &source, TriggerDeadCountResult::iterator deadtimesBeg, TriggerDeadCountResult::iterator deadtimesEnd, TRGScalers2DB::TriggerDeadFracResult &deadfracs, TriggerNameResult_Algo &algonames, TriggerNameResult_Tech &technames, TriggerCountResult_Algo &algocounts, TriggerCountResult_Tech &techcounts, PrescaleResult_Algo &prescalealgo, PrescaleResult_Tech &prescaletech, unsigned int commitintv)
const std::string lumi::TRGScalers2DB::sourceType ( ) const
overridevirtual

Implements lumi::DataPipe.

Definition at line 995 of file TRGScalers2DB.cc.

995 { return "DB"; }
unsigned int lumi::TRGScalers2DB::str2int ( const std::string &  s)

Definition at line 1004 of file TRGScalers2DB.cc.

References Exception, mps_fire::i, and AlCaHLTBitMon_QueryRunRegistry::string.

1004  {
1005  std::istringstream myStream(s);
1006  unsigned int i;
1007  if (myStream >> i) {
1008  return i;
1009  } else {
1010  throw lumi::Exception(std::string("str2int error"), "str2int", "TRGScalers2DB");
1011  }
1012  }
void lumi::TRGScalers2DB::writeTrgData ( coral::ISessionProxy *  session,
unsigned int  runnumber,
const std::string &  source,
TriggerDeadCountResult::iterator  deadtimesBeg,
TriggerDeadCountResult::iterator  deadtimesEnd,
TRGScalers2DB::TriggerDeadFracResult deadfracs,
TriggerNameResult_Algo algonames,
TriggerNameResult_Tech technames,
TriggerCountResult_Algo algocounts,
TriggerCountResult_Tech techcounts,
PrescaleResult_Algo prescalealgo,
PrescaleResult_Tech prescaletech,
unsigned int  commitintv 
)

Definition at line 710 of file TRGScalers2DB.cc.

References submitPVResolutionJobs::count, gather_cfg::cout, HLT_FULL_cff::distance, lumi::idDealer::generateNextIDForTable(), lumi::N_TRGALGOBIT, lumi::N_TRGBIT, cond::runnumber, AlCaHLTBitMon_QueryRunRegistry::string, and lumi::LumiNames::trgTableName().

Referenced by retrieveData().

722  {
723  TRGScalers2DB::TriggerDeadCountResult::iterator deadIt;
724  //unsigned int totalcmsls=deadtimes.size();
725  unsigned int totalcmsls = std::distance(deadtimesBeg, deadtimesEnd);
726  std::cout << "inserting totalcmsls " << totalcmsls << std::endl;
727  std::map<unsigned long long, std::vector<unsigned long long> > idallocationtable;
728  std::cout << "\t allocating total ids " << totalcmsls * lumi::N_TRGBIT << std::endl;
729  lumisession->transaction().start(false);
730  lumi::idDealer idg(lumisession->nominalSchema());
731  unsigned long long trgID = idg.generateNextIDForTable(LumiNames::trgTableName(), totalcmsls * lumi::N_TRGBIT) -
732  totalcmsls * lumi::N_TRGBIT;
733  //lumisession->transaction().commit();
734  unsigned int trglscount = 0;
735  for (deadIt = deadtimesBeg; deadIt != deadtimesEnd; ++deadIt, ++trglscount) {
736  std::vector<unsigned long long> bitvec;
737  bitvec.reserve(lumi::N_TRGBIT);
738  const BITCOUNT& algoinbits = algocounts[trglscount];
739  const BITCOUNT& techinbits = techcounts[trglscount];
740  BITCOUNT::const_iterator algoBitIt;
741  BITCOUNT::const_iterator algoBitBeg = algoinbits.begin();
742  BITCOUNT::const_iterator algoBitEnd = algoinbits.end();
743  for (algoBitIt = algoBitBeg; algoBitIt != algoBitEnd; ++algoBitIt, ++trgID) {
744  bitvec.push_back(trgID);
745  }
746  BITCOUNT::const_iterator techBitIt;
747  BITCOUNT::const_iterator techBitBeg = techinbits.begin();
748  BITCOUNT::const_iterator techBitEnd = techinbits.end();
749  for (techBitIt = techBitBeg; techBitIt != techBitEnd; ++techBitIt, ++trgID) {
750  bitvec.push_back(trgID);
751  }
752  idallocationtable.insert(std::make_pair(trglscount, bitvec));
753  }
754  std::cout << "\t all ids allocated" << std::endl;
755  coral::AttributeList trgData;
756  trgData.extend<unsigned long long>("TRG_ID");
757  trgData.extend<unsigned int>("RUNNUM");
758  trgData.extend<unsigned int>("CMSLSNUM");
759  trgData.extend<unsigned int>("BITNUM");
760  trgData.extend<std::string>("BITNAME");
761  trgData.extend<unsigned int>("TRGCOUNT");
762  trgData.extend<unsigned long long>("DEADTIME");
763  trgData.extend<float>("DEADFRAC");
764  trgData.extend<unsigned int>("PRESCALE");
765 
766  unsigned long long& trg_id = trgData["TRG_ID"].data<unsigned long long>();
767  unsigned int& trgrunnum = trgData["RUNNUM"].data<unsigned int>();
768  unsigned int& cmslsnum = trgData["CMSLSNUM"].data<unsigned int>();
769  unsigned int& bitnum = trgData["BITNUM"].data<unsigned int>();
770  std::string& bitname = trgData["BITNAME"].data<std::string>();
771  unsigned int& count = trgData["TRGCOUNT"].data<unsigned int>();
772  unsigned long long& deadtime = trgData["DEADTIME"].data<unsigned long long>();
773  float& deadfrac = trgData["DEADFRAC"].data<float>();
774  unsigned int& prescale = trgData["PRESCALE"].data<unsigned int>();
775 
776  trglscount = 0;
777  coral::IBulkOperation* trgInserter = nullptr;
778  unsigned int comittedls = 0;
779  for (deadIt = deadtimesBeg; deadIt != deadtimesEnd; ++deadIt, ++trglscount) {
780  unsigned int cmslscount = trglscount + 1;
781  float dfra = deadfracs[trglscount];
782  const BITCOUNT& algoinbits = algocounts[trglscount];
783  const BITCOUNT& techinbits = techcounts[trglscount];
784  unsigned int trgbitcount = 0;
785  BITCOUNT::const_iterator algoBitIt;
786  BITCOUNT::const_iterator algoBitBeg = algoinbits.begin();
787  BITCOUNT::const_iterator algoBitEnd = algoinbits.end();
788  if (!lumisession->transaction().isActive()) {
789  lumisession->transaction().start(false);
790  coral::ITable& trgtable = lumisession->nominalSchema().tableHandle(LumiNames::trgTableName());
791  trgInserter = trgtable.dataEditor().bulkInsert(trgData, 2048);
792  } else {
793  if (deadIt == deadtimesBeg) {
794  coral::ITable& trgtable = lumisession->nominalSchema().tableHandle(LumiNames::trgTableName());
795  trgInserter = trgtable.dataEditor().bulkInsert(trgData, 2048);
796  }
797  }
798  for (algoBitIt = algoBitBeg; algoBitIt != algoBitEnd; ++algoBitIt, ++trgbitcount) {
799  trg_id = idallocationtable[trglscount].at(trgbitcount);
800  deadtime = *deadIt;
801  deadfrac = dfra;
802  trgrunnum = runnumber;
803  cmslsnum = cmslscount;
804  bitnum = trgbitcount;
805  bitname = algonames[trgbitcount];
806  count = *algoBitIt;
807  prescale = prescalealgo[cmslscount].at(trgbitcount);
808  //std::cout<<"cmslsnum "<<cmslsnum<<" bitnum "<<bitnum<<" bitname "<<bitname<<" prescale "<< prescale<<" count "<<count<<std::endl;
809  trgInserter->processNextIteration();
810  }
811  BITCOUNT::const_iterator techBitIt;
812  BITCOUNT::const_iterator techBitBeg = techinbits.begin();
813  BITCOUNT::const_iterator techBitEnd = techinbits.end();
814  for (techBitIt = techBitBeg; techBitIt != techBitEnd; ++techBitIt, ++trgbitcount) {
815  trg_id = idallocationtable[trglscount].at(trgbitcount);
816  deadtime = *deadIt;
817  deadfrac = dfra;
818  trgrunnum = runnumber;
819  cmslsnum = cmslscount;
820  bitnum = trgbitcount;
821  bitname = technames[trgbitcount - lumi::N_TRGALGOBIT];
822  count = *techBitIt;
823  prescale = prescaletech[cmslsnum][trgbitcount - lumi::N_TRGALGOBIT];
824  trgInserter->processNextIteration();
825  }
826  trgInserter->flush();
827  ++comittedls;
828  if (comittedls == commitintv) {
829  std::cout << "\t committing in LS chunck " << comittedls << std::endl;
830  delete trgInserter;
831  trgInserter = nullptr;
832  lumisession->transaction().commit();
833  comittedls = 0;
834  std::cout << "\t committed " << std::endl;
835  } else if (trglscount == (totalcmsls - 1)) {
836  std::cout << "\t committing at the end" << std::endl;
837  delete trgInserter;
838  trgInserter = nullptr;
839  lumisession->transaction().commit();
840  std::cout << "\t done" << std::endl;
841  }
842  }
843  }
static const std::string trgTableName()
Definition: LumiNames.cc:13
std::vector< unsigned int > BITCOUNT
unsigned long long generateNextIDForTable(const std::string &tableName, unsigned int interval=1)
Definition: idDealer.cc:33
tuple cout
Definition: gather_cfg.py:144
const unsigned int N_TRGALGOBIT
Definition: ConstantDef.h:6
const unsigned int N_TRGBIT
Definition: ConstantDef.h:8
unsigned long long lumi::TRGScalers2DB::writeTrgDataToSchema2 ( coral::ISessionProxy *  session,
unsigned int  runnumber,
const std::string &  source,
TriggerDeadCountResult::iterator  deadtimesBeg,
TriggerDeadCountResult::iterator  deadtimesEnd,
TRGScalers2DB::TriggerDeadFracResult deadfracs,
TRGScalers2DB::TriggerNameResult_Algo algonames,
TRGScalers2DB::TriggerNameResult_Tech technames,
TRGScalers2DB::TriggerCountResult_Algo algocounts,
TRGScalers2DB::TriggerCountResult_Tech techcounts,
TRGScalers2DB::PrescaleResult_Algo prescalealgo,
TRGScalers2DB::PrescaleResult_Tech prescaletech,
unsigned int  commitintv 
)

Definition at line 844 of file TRGScalers2DB.cc.

References lumi::RevisionDML::addEntry(), lumi::RevisionDML::addRevision(), lumi::RevisionDML::TrgEntry::bitnames, lumi::RevisionDML::TrgEntry::bitzeroname, lumi::RevisionDML::bookNewEntry(), lumi::RevisionDML::bookNewRevision(), gather_cfg::cout, lumi::RevisionDML::Entry::data_id, HLT_FULL_cff::distance, lumi::RevisionDML::Entry::entry_id, lumi::RevisionDML::Entry::entry_name, lumi::RevisionDML::getEntryInBranchByName(), lumi::RevisionDML::insertTrgRunData(), lumi::LumiNames::lstrgTableName(), lumi::RevisionDML::Entry::revision_id, lumi::RevisionDML::TrgEntry::runnumber, findQualityFiles::size, lumi::RevisionDML::TrgEntry::source, source, AlCaHLTBitMon_QueryRunRegistry::string, and lumi::LumiNames::trgdataTableName().

Referenced by retrieveData().

856  {
857  TRGScalers2DB::TriggerDeadCountResult::iterator deadIt;
858  unsigned int totalcmsls = std::distance(deadtimesBeg, deadtimesEnd);
859  std::cout << "inserting totalcmsls " << totalcmsls << std::endl;
860  coral::AttributeList lstrgData;
861  lstrgData.extend<unsigned long long>("DATA_ID");
862  lstrgData.extend<unsigned int>("RUNNUM");
863  lstrgData.extend<unsigned int>("CMSLSNUM");
864  lstrgData.extend<unsigned long long>("DEADTIMECOUNT");
865  lstrgData.extend<unsigned int>("BITZEROCOUNT");
866  lstrgData.extend<unsigned int>("BITZEROPRESCALE");
867  lstrgData.extend<float>("DEADFRAC");
868  lstrgData.extend<coral::Blob>("PRESCALEBLOB");
869  lstrgData.extend<coral::Blob>("TRGCOUNTBLOB");
870 
871  unsigned long long& data_id = lstrgData["DATA_ID"].data<unsigned long long>();
872  unsigned int& trgrunnum = lstrgData["RUNNUM"].data<unsigned int>();
873  unsigned int& cmslsnum = lstrgData["CMSLSNUM"].data<unsigned int>();
874  unsigned long long& deadtime = lstrgData["DEADTIMECOUNT"].data<unsigned long long>();
875  unsigned int& bitzerocount = lstrgData["BITZEROCOUNT"].data<unsigned int>();
876  unsigned int& bitzeroprescale = lstrgData["BITZEROPRESCALE"].data<unsigned int>();
877  float& deadfrac = lstrgData["DEADFRAC"].data<float>();
878  coral::Blob& prescaleblob = lstrgData["PRESCALEBLOB"].data<coral::Blob>();
879  coral::Blob& trgcountblob = lstrgData["TRGCOUNTBLOB"].data<coral::Blob>();
880 
881  unsigned long long branch_id = 3;
882  std::string branch_name("DATA");
883  lumi::RevisionDML revisionDML;
884  lumi::RevisionDML::TrgEntry trgrundata;
885  std::stringstream op;
886  op << irunnumber;
887  std::string runnumberStr = op.str();
888  lumisession->transaction().start(false);
889  trgrundata.entry_name = runnumberStr;
890  trgrundata.source = source;
891  trgrundata.runnumber = irunnumber;
892  std::string bitnames;
893  TriggerNameResult_Algo::iterator bitnameIt;
894  TriggerNameResult_Algo::iterator bitnameItBeg = algonames.begin();
895  TriggerNameResult_Algo::iterator bitnameItEnd = algonames.end();
896  for (bitnameIt = bitnameItBeg; bitnameIt != bitnameItEnd; ++bitnameIt) {
897  if (bitnameIt != bitnameItBeg) {
898  bitnames += std::string(",");
899  }
900  bitnames += *bitnameIt;
901  }
902  TriggerNameResult_Tech::iterator techbitnameIt;
903  TriggerNameResult_Tech::iterator techbitnameItBeg = technames.begin();
904  TriggerNameResult_Tech::iterator techbitnameItEnd = technames.end();
905  for (techbitnameIt = techbitnameItBeg; techbitnameIt != techbitnameItEnd; ++techbitnameIt) {
906  bitnames += std::string(",");
907  bitnames += *techbitnameIt;
908  }
909  std::cout << "\tbitnames " << bitnames << std::endl;
910  trgrundata.bitzeroname = technames[4];
911  trgrundata.bitnames = bitnames;
912  trgrundata.entry_id = revisionDML.getEntryInBranchByName(
913  lumisession->nominalSchema(), lumi::LumiNames::trgdataTableName(), runnumberStr, branch_name);
914  if (trgrundata.entry_id == 0) {
915  revisionDML.bookNewEntry(lumisession->nominalSchema(), LumiNames::trgdataTableName(), trgrundata);
916  std::cout << "trgrundata revision_id " << trgrundata.revision_id << " entry_id " << trgrundata.entry_id
917  << " data_id " << trgrundata.data_id << std::endl;
918  revisionDML.addEntry(
919  lumisession->nominalSchema(), LumiNames::trgdataTableName(), trgrundata, branch_id, branch_name);
920  } else {
921  revisionDML.bookNewRevision(lumisession->nominalSchema(), LumiNames::trgdataTableName(), trgrundata);
922  std::cout << "trgrundata revision_id " << trgrundata.revision_id << " entry_id " << trgrundata.entry_id
923  << " data_id " << trgrundata.data_id << std::endl;
924  revisionDML.addRevision(
925  lumisession->nominalSchema(), LumiNames::trgdataTableName(), trgrundata, branch_id, branch_name);
926  }
927  std::cout << "inserting trgrundata " << std::endl;
928  revisionDML.insertTrgRunData(lumisession->nominalSchema(), trgrundata);
929  std::cout << "inserting lstrg data" << std::endl;
930 
931  unsigned int trglscount = 0;
932  // trglscount=0;
933  coral::IBulkOperation* lstrgInserter = nullptr;
934  unsigned int comittedls = 0;
935  for (deadIt = deadtimesBeg; deadIt != deadtimesEnd; ++deadIt, ++trglscount) {
936  unsigned int cmslscount = trglscount + 1;
937  if (!lumisession->transaction().isActive()) {
938  lumisession->transaction().start(false);
939  coral::ITable& lstrgtable = lumisession->nominalSchema().tableHandle(LumiNames::lstrgTableName());
940  lstrgInserter = lstrgtable.dataEditor().bulkInsert(lstrgData, 2048);
941  } else {
942  if (deadIt == deadtimesBeg) {
943  coral::ITable& lstrgtable = lumisession->nominalSchema().tableHandle(LumiNames::lstrgTableName());
944  lstrgInserter = lstrgtable.dataEditor().bulkInsert(lstrgData, 2048);
945  }
946  }
947  data_id = trgrundata.data_id;
948  trgrunnum = irunnumber;
949  cmslsnum = cmslscount;
950  deadtime = *deadIt;
951  deadfrac = deadfracs[trglscount];
952  //bitzerocount = algocounts[trglscount][0];//use algobit_0
953  //bitzeroprescale = prescalealgo[cmslsnum][0];
954  bitzerocount = techcounts[trglscount][4]; //use techbit_4
955  bitzeroprescale = prescaletech[cmslsnum][4];
956  std::vector<unsigned int> fullprescales;
957  fullprescales.reserve(prescalealgo[cmslsnum].size() + prescaletech[cmslsnum].size());
958  fullprescales.insert(fullprescales.end(), prescalealgo[cmslsnum].begin(), prescalealgo[cmslsnum].end());
959  fullprescales.insert(fullprescales.end(), prescaletech[cmslsnum].begin(), prescaletech[cmslsnum].end());
960 
961  prescaleblob.resize(sizeof(unsigned int) * (fullprescales.size()));
962  void* prescaleblob_StartAddress = prescaleblob.startingAddress();
963  std::memmove(prescaleblob_StartAddress, &fullprescales[0], sizeof(unsigned int) * (fullprescales.size()));
964 
965  std::vector<unsigned int> fullcounts;
966  fullcounts.reserve(algocounts[trglscount].size() + techcounts[trglscount].size());
967  fullcounts.insert(fullcounts.end(), algocounts[trglscount].begin(), algocounts[trglscount].end());
968  fullcounts.insert(fullcounts.end(), techcounts[trglscount].begin(), techcounts[trglscount].end());
969  trgcountblob.resize(sizeof(unsigned int) * (fullcounts.size()));
970  void* trgcountblob_StartAddress = trgcountblob.startingAddress();
971  std::memmove(trgcountblob_StartAddress, &fullcounts[0], sizeof(unsigned int) * (fullcounts.size()));
972 
973  lstrgInserter->processNextIteration();
974  lstrgInserter->flush();
975  ++comittedls;
976  if (comittedls == commitintv) {
977  std::cout << "\t committing in LS chunck " << comittedls << std::endl;
978  delete lstrgInserter;
979  lstrgInserter = nullptr;
980  lumisession->transaction().commit();
981  comittedls = 0;
982  std::cout << "\t committed " << std::endl;
983  } else if (trglscount == (totalcmsls - 1)) {
984  std::cout << "\t committing at the end" << std::endl;
985  delete lstrgInserter;
986  lstrgInserter = nullptr;
987  lumisession->transaction().commit();
988  std::cout << "\t done" << std::endl;
989  }
990  }
991 
992  return trgrundata.data_id;
993  }
static const std::string trgdataTableName()
Definition: LumiNames.cc:11
void addEntry(coral::ISchema &schema, const std::string &datatableName, const Entry &entry, unsigned long long branch_id, const std::string &branchname)
Definition: RevisionDML.cc:60
static const std::string lstrgTableName()
Definition: LumiNames.cc:12
unsigned long long data_id
Definition: RevisionDML.h:31
unsigned long long getEntryInBranchByName(coral::ISchema &schema, const std::string &datatableName, const std::string &entryname, const std::string &branchname)
Definition: RevisionDML.cc:16
unsigned long long revision_id
Definition: RevisionDML.h:29
void insertTrgRunData(coral::ISchema &schema, const TrgEntry &trgentry)
Definition: RevisionDML.cc:139
unsigned long long entry_id
Definition: RevisionDML.h:30
void bookNewEntry(coral::ISchema &schema, const std::string &datatableName, Entry &entry)
Definition: RevisionDML.cc:44
tuple cout
Definition: gather_cfg.py:144
void addRevision(coral::ISchema &schema, const std::string &datatableName, const Entry &revision, unsigned long long branch_id, std::string &branchname)
Definition: RevisionDML.cc:97
static std::string const source
Definition: EdmProvDump.cc:46
tuple size
Write out results.
void bookNewRevision(coral::ISchema &schema, const std::string &datatableName, Entry &revision)
Definition: RevisionDML.cc:53

Member Data Documentation

const unsigned int lumi::TRGScalers2DB::COMMITLSINTERVAL = 150
static

Definition at line 35 of file TRGScalers2DB.cc.

Referenced by retrieveData().

const unsigned int lumi::TRGScalers2DB::COMMITLSTRGINTERVAL = 550
static

Definition at line 36 of file TRGScalers2DB.cc.

Referenced by retrieveData().