def dropTables(schema, tablelist):
try:
db = dbUtil.dbUtil(schema)
for tablename in tablelist:
if tablename in [
nameDealer.luminormTableName(),
nameDealer.lumidataTableName(),
nameDealer.trgdataTableName(),
nameDealer.hltdataTableName()
]:
db.dropTable(nameDealer.idTableName(tablename))
db.dropTable(nameDealer.entryTableName(tablename))
db.dropTable(nameDealer.revmapTableName(tablename))
if tablename in [
nameDealer.trgTableName(),
nameDealer.lumisummaryTableName(),
nameDealer.lumisummaryv2TableName(),
nameDealer.lumidetailTableName(),
nameDealer.hltTableName()
]:
db.dropTable(nameDealer.idTableName(tablename))
db.dropTable(tablename)
except:
raise
def instLumiForIds(schema,irunlsdict,dataidmap,runsummaryMap,beamstatusfilter=None,timeFilter=None,withBXInfo=False,bxAlgo=None,xingMinLum=None,withBeamIntensity=False,lumitype='HF'):
'''
FROM ROOT FILE NO CORRECTION AT ALL
input:
irunlsdict: {run:[cmsls]}
dataidmap: {run:(lumiid,trgid,hltid)}
runsummaryMap: {run:[l1key(0),amodetag(1),egev(2),hltkey(3),fillnum(4),fillscheme(5),starttime(6),stoptime(7)]}
beamstatus: LS filter on beamstatus (optional)
timeFilter: (minLSBegTime,maxLSBegTime)
withBXInfo: get per bunch info (optional)
bxAlgo: algoname for bx values (optional) ['OCC1','OCC2','ET']
xingMinLum: None means apply no cut
withBeamIntensity: get beam intensity info (optional)
lumitype: luminosity measurement source
output:
result {run:[lumilsnum(0),cmslsnum(1),timestamp(2),beamstatus(3),beamenergy(4),instlumi(5),instlumierr(6),startorbit(7),numorbit(8),(bxidx,bxvalues,bxerrs)(9),(bxidx,b1intensities,b2intensities)(10),fillnum(11)]}}
special meanings:
{run:None} None means selected run not in lumiDB,
{run:[]} [] means no lumi data for this run in lumiDB
{run:cmslsnum(1)==0} means either not cmslsnum or iscms but not selected
instlumi unit in Hz/ub
'''
if lumitype not in ['HF','PIXEL']:
raise ValueError('unknown lumitype '+lumitype)
lumitableName=''
lumilstableName=''
if lumitype=='HF':
lumitableName=nameDealer.lumidataTableName()
lumilstableName=nameDealer.lumisummaryv2TableName()
else:
lumitableName=nameDealer.pixellumidataTableName()
lumilstableName=nameDealer.pixellumisummaryv2TableName()
result={}
for run in irunlsdict.keys():
#for run,(lumidataid,trgid,hltid ) in dataidmap.items():
lslist=irunlsdict[run]
if lslist is not None and len(lslist)==0:
result[run]=[]#no lumi data for this run in lumiDB
continue
fillnum=runsummaryMap[run][4]
runstarttimeStr=runsummaryMap[run][6]
if run not in dataidmap:
result[run]=[]#no lumi data for this run in lumiDB
continue
(lumidataid,trgid,hltid )=dataidmap[run]
if lumidataid is None: #selected run not in lumiDB
result[run]=None
continue
(lumirunnum,perlsresult)=dataDML.lumiLSById(schema,lumidataid,beamstatus=beamstatusfilter,withBXInfo=withBXInfo,bxAlgo=bxAlgo,withBeamIntensity=withBeamIntensity,tableName=lumilstableName)
lsresult=[]
c=lumiTime.lumiTime()
for lumilsnum in perlsresult.keys():
perlsdata=perlsresult[lumilsnum]
cmslsnum=perlsdata[0]
if lslist is not None and cmslsnum not in lslist: #ls exists but not selected
cmslsnum=0
numorbit=perlsdata[6]
startorbit=perlsdata[7]
orbittime=c.OrbitToTime(runstarttimeStr,startorbit,begorbit=0,customfm='%m/%d/%y %H:%M:%S')
if timeFilter:
if timeFilter[0]:
if orbittime<timeFilter[0]: continue
if timeFilter[1]:
if orbittime>timeFilter[1]: continue
if lumitype=='HF':
instlumi=perlsdata[1]*1000.0 #HF db avg values are in Hz/mb,change it to Hz/ub
instlumierr=perlsdata[2]*1000.0
else:
instlumi=perlsdata[1] #PIXEL avg values are in Hz/ub, need no conversion
instlumierr=perlsdata[2]
beamstatus=perlsdata[4]
beamenergy=perlsdata[5]
bxidxlist=[]
bxvaluelist=[]
bxerrorlist=[]
bxdata=None
beamdata=None
if withBXInfo:
bxinfo=perlsdata[8]
bxvalueArray=None
bxerrArray=None
if bxinfo:
bxvalueArray=bxinfo[0]
bxerrArray=bxinfo[1]
if xingMinLum :
for idx,bxval in enumerate(bxvalueArray):
if bxval>xingMinLum:
bxidxlist.append(idx)
bxvaluelist.append(bxval)
bxerrorlist.append(bxerrArray[idx])
else:
bxidxlist=range(0,len(bxvalueArray))
bxvaluelist=bxvalueArray.tolist()
bxerrorlist=bxerrArray.tolist()
del bxvalueArray[:]
del bxerrArray[:]
bxdata=(bxidxlist,bxvaluelist,bxerrorlist)
if withBeamIntensity:
beaminfo=perlsdata[9]
bxindexlist=[]
b1intensitylist=[]
b2intensitylist=[]
if beaminfo[0] and beaminfo[1] and beaminfo[2]:
bxindexarray=beaminfo[0]
beam1intensityarray=beaminfo[1]
beam2intensityarray=beaminfo[2]
bxindexlist=bxindexarray.tolist()
b1intensitylist=beam1intensityarray.tolist()
b2intensitylist=beam2intensityarray.tolist()
del bxindexarray[:]
del beam1intensityarray[:]
del beam2intensityarray[:]
beamdata=(bxindexlist,b1intensitylist,b2intensitylist)
lsresult.append([lumilsnum,cmslsnum,orbittime,beamstatus,beamenergy,instlumi,instlumierr,startorbit,numorbit,bxdata,beamdata,fillnum])
del perlsdata[:]
result[run]=lsresult
return result
def lumiDataFromDB(sourceschema, sourcelumidataid):
'''
select nominalegev,ncollidingbunches,starttime,stoptime,nls from lumidata where DATA_ID=:dataid
select lumilsnum,cmslsnum,beamstatus,beamenergy,numorbit,startorbit,instlumi,cmsbxindexblob,beamintensityblob_1,beamintensityblob_2,bxlumivalue_occ1,bxlumivalue_occ2,bxlumivalue_et,bxlumierror_occ1,bxlumierror_occ2,bxlumierror_et from lumisummaryv2 where data_id=:dataid
output:(lumirundata,lumilsdata)
lumirundata=[source,nominalegev,ncollidingbunches,starttime,stoptime,nls]
lumilsdata={}#{lumilsnum:[cmslsnum,instlumi,instlumierror,instlumiquality,beamstatus,beamenergy,numorbit,startorbit,cmsbxindexblob,beam1intensity,beam2intensity,bxlumivalue_occ1,bxlumierror_occ1,bxlumiquality_occ1,bxlumivalue_occ2,bxlumierror_occ2,bxlumiquality_occ2,bxlumivalue_et,bxlumierror_et,bxlumiquality_et]
'''
lumirundata = []
lumilsdata = {}
qHandle = sourceschema.newQuery()
try:
qHandle.addToTableList(nameDealer.lumidataTableName())
qHandle.addToOutputList('SOURCE')
qHandle.addToOutputList('NOMINALEGEV')
qHandle.addToOutputList('NCOLLIDINGBUNCHES')
#qHandle.addToOutputList('TO_CHAR(STARTTIME,\'MM/DD/YY HH24:MI:SS\')','starttime')
#qHandle.addToOutputList('TO_CHAR(STOPTIME,\'MM/DD/YY HH24:MI:SS\')','stoptime')
qHandle.addToOutputList('STARTTIME')
qHandle.addToOutputList('STOPTIME')
qHandle.addToOutputList('NLS')
qCondition = coral.AttributeList()
qCondition.extend('lumidataid', 'unsigned long long')
qCondition['lumidataid'].setData(sourcelumidataid)
qResult = coral.AttributeList()
qResult.extend('SOURCE', 'string')
qResult.extend('NOMINALEGEV', 'float')
qResult.extend('NCOLLIDINGBUNCHES', 'unsigned int')
#qResult.extend('starttime','string')
#qResult.extend('stoptime','string')
qResult.extend('STARTTIME', 'time stamp')
qResult.extend('STOPTIME', 'time stamp')
qResult.extend('NLS', 'unsigned int')
qHandle.defineOutput(qResult)
qHandle.setCondition('DATA_ID=:lumidataid', qCondition)
cursor = qHandle.execute()
while next(cursor):
source = cursor.currentRow()['SOURCE'].data()
nominalegev = cursor.currentRow()['NOMINALEGEV'].data()
ncollidingbunches = cursor.currentRow()['NCOLLIDINGBUNCHES'].data()
#starttime=cursor.currentRow()['starttime'].data()
#stoptime=cursor.currentRow()['stop'].data()
starttime = cursor.currentRow()['STARTTIME'].data()
stoptime = cursor.currentRow()['STOPTIME'].data()
nls = cursor.currentRow()['NLS'].data()
lumirundata = [
source, nominalegev, ncollidingbunches, starttime, stoptime,
nls
]
del qHandle
except:
if qHandle: del qHandle
raise
qHandle = sourceschema.newQuery()
try:
qHandle.addToTableList(nameDealer.lumisummaryv2TableName())
qHandle.addToOutputList('LUMILSNUM')
qHandle.addToOutputList('CMSLSNUM')
qHandle.addToOutputList('INSTLUMI')
qHandle.addToOutputList('INSTLUMIERROR')
qHandle.addToOutputList('INSTLUMIQUALITY')
qHandle.addToOutputList('BEAMSTATUS')
qHandle.addToOutputList('BEAMENERGY')
qHandle.addToOutputList('NUMORBIT')
qHandle.addToOutputList('STARTORBIT')
qHandle.addToOutputList('CMSBXINDEXBLOB')
qHandle.addToOutputList('BEAMINTENSITYBLOB_1')
qHandle.addToOutputList('BEAMINTENSITYBLOB_2')
qHandle.addToOutputList('BXLUMIVALUE_OCC1')
qHandle.addToOutputList('BXLUMIERROR_OCC1')
qHandle.addToOutputList('BXLUMIQUALITY_OCC1')
qHandle.addToOutputList('BXLUMIVALUE_OCC2')
qHandle.addToOutputList('BXLUMIERROR_OCC2')
qHandle.addToOutputList('BXLUMIQUALITY_OCC2')
qHandle.addToOutputList('BXLUMIVALUE_ET')
qHandle.addToOutputList('BXLUMIERROR_ET')
qHandle.addToOutputList('BXLUMIQUALITY_ET')
qCondition = coral.AttributeList()
qCondition.extend('lumidataid', 'unsigned long long')
qCondition['lumidataid'].setData(sourcelumidataid)
qResult = coral.AttributeList()
qResult.extend('LUMILSNUM', 'unsigned int')
qResult.extend('CMSLSNUM', 'unsigned int')
qResult.extend('INSTLUMI', 'float')
qResult.extend('INSTLUMIERROR', 'float')
qResult.extend('INSTLUMIQUALITY', 'short')
qResult.extend('BEAMSTATUS', 'string')
qResult.extend('BEAMENERGY', 'float')
qResult.extend('NUMORBIT', 'unsigned int')
qResult.extend('STARTORBIT', 'unsigned int')
qResult.extend('CMSBXINDEXBLOB', 'blob')
qResult.extend('BEAMINTENSITYBLOB_1', 'blob')
qResult.extend('BEAMINTENSITYBLOB_2', 'blob')
qResult.extend('BXLUMIVALUE_OCC1', 'blob')
qResult.extend('BXLUMIERROR_OCC1', 'blob')
qResult.extend('BXLUMIQUALITY_OCC1', 'blob')
qResult.extend('BXLUMIVALUE_OCC2', 'blob')
qResult.extend('BXLUMIERROR_OCC2', 'blob')
qResult.extend('BXLUMIQUALITY_OCC2', 'blob')
qResult.extend('BXLUMIVALUE_ET', 'blob')
qResult.extend('BXLUMIERROR_ET', 'blob')
qResult.extend('BXLUMIQUALITY_ET', 'blob')
qHandle.defineOutput(qResult)
qHandle.setCondition('DATA_ID=:lumidataid', qCondition)
cursor = qHandle.execute()
while next(cursor):
lumilsnum = cursor.currentRow()['LUMILSNUM'].data()
cmslsnum = cursor.currentRow()['CMSLSNUM'].data()
instlumi = cursor.currentRow()['INSTLUMI'].data()
instlumierror = cursor.currentRow()['INSTLUMIERROR'].data()
instlumiquality = cursor.currentRow()['INSTLUMIQUALITY'].data()
beamstatus = cursor.currentRow()['BEAMSTATUS'].data()
beamenergy = cursor.currentRow()['BEAMENERGY'].data()
numorbit = cursor.currentRow()['NUMORBIT'].data()
startorbit = cursor.currentRow()['STARTORBIT'].data()
cmsbxindexblob = None
if not cursor.currentRow()['CMSBXINDEXBLOB'].isNull():
cmsbxindexblob = cursor.currentRow()['CMSBXINDEXBLOB'].data()
beamintensityblob_1 = None
if not cursor.currentRow()['BEAMINTENSITYBLOB_1'].isNull():
beamintensityblob_1 = cursor.currentRow(
)['BEAMINTENSITYBLOB_1'].data()
beamintensityblob_2 = None
if not cursor.currentRow()['BEAMINTENSITYBLOB_2'].isNull():
beamintensityblob_2 = cursor.currentRow(
)['BEAMINTENSITYBLOB_2'].data()
bxlumivalue_occ1 = None
if not cursor.currentRow()['BXLUMIVALUE_OCC1'].isNull():
bxlumivalue_occ1 = cursor.currentRow(
)['BXLUMIVALUE_OCC1'].data()
bxlumivalue_occ2 = None
if not cursor.currentRow()['BXLUMIVALUE_OCC2'].isNull():
bxlumivalue_occ2 = cursor.currentRow(
)['BXLUMIVALUE_OCC2'].data()
bxlumivalue_et = None
if not cursor.currentRow()['BXLUMIVALUE_ET'].isNull():
bxlumivalue_et = cursor.currentRow()['BXLUMIVALUE_ET'].data()
bxlumierror_occ1 = None
if not cursor.currentRow()['BXLUMIERROR_OCC1'].isNull():
bxlumierror_occ1 = cursor.currentRow(
)['BXLUMIERROR_OCC1'].data()
bxlumierror_occ2 = None
if not cursor.currentRow()['BXLUMIERROR_OCC2'].isNull():
bxlumierror_occ2 = cursor.currentRow(
)['BXLUMIERROR_OCC2'].data()
bxlumierror_et = None
if not cursor.currentRow()['BXLUMIERROR_ET'].isNull():
bxlumierror_et = cursor.currentRow()['BXLUMIERROR_ET'].data()
bxlumiquality_occ1 = None
if not cursor.currentRow()['BXLUMIQUALITY_OCC1'].isNull():
bxlumiquality_occ1 = cursor.currentRow(
)['BXLUMIQUALITY_OCC1'].data()
bxlumiquality_occ2 = None
if not cursor.currentRow()['BXLUMIQUALITY_OCC2'].isNull():
bxlumiquality_occ2 = cursor.currentRow(
)['BXLUMIQUALITY_OCC2'].data()
bxlumiquality_et = None
if not cursor.currentRow()['BXLUMIQUALITY_ET'].isNull():
bxlumiquality_et = cursor.currentRow(
)['BXLUMIQUALITY_ET'].data()
lumilsdata[lumilsnum] = [
cmslsnum, instlumi, instlumierror, instlumiquality, beamstatus,
beamenergy, numorbit, startorbit, cmsbxindexblob,
beamintensityblob_1, beamintensityblob_2, bxlumivalue_occ1,
bxlumierror_occ1, bxlumiquality_occ1, bxlumivalue_occ2,
bxlumierror_occ2, bxlumiquality_occ2, bxlumivalue_et,
bxlumierror_et, bxlumiquality_et
]
del qHandle
except:
if qHandle: del qHandle
raise
return (lumirundata, lumilsdata)
lumitype='HF')
destsession.transaction().commit()
print('dest hfdataidmap ', hfdataidmap)
if int(options.runnum) in hfdataidmap:
print('existing old hf data in destdb of run ', options.runnum,
hfdataidmap[int(options.runnum)])
destsession.transaction().start(False)
[destlumidataid, desttrgdataid,
desthltdataid] = hfdataidmap[int(options.runnum)]
(lumirevid, lumientryid, lumidataid) = dataDML.addLumiRunDataToBranch(
destsession.nominalSchema(), int(options.runnum), rundat,
branchinfo, nameDealer.lumidataTableName())
dataDML.bulkInsertLumiLSSummary(destsession, int(options.runnum),
lumidataid, lsdat,
nameDealer.lumisummaryv2TableName())
destsession.transaction().commit()
destsession.transaction().start(False)
revisionDML.addRunToCurrentDataTag(destsession.nominalSchema(),
int(options.runnum),
lumidataid,
desttrgdataid,
desthltdataid,
lumitype='HF',
comment=options.comment)
destsession.transaction().commit()
else:
print('non-existing old hf data in destdb of run ',
int(options.runnum))
destsession.transaction().start(False)
(lumirevid, lumientryid, lumidataid) = dataDML.addLumiRunDataToBranch(
(lumibranchid,lumibranchparent)=revisionDML.branchInfoByName(destsession.nominalSchema(),'DATA')
branchinfo=(lumibranchid,'DATA')
print('branchinfo ',branchinfo)
(hf_tagid,hf_tagname)=revisionDML.currentDataTag(destsession.nominalSchema(),lumitype='HF')
print('(hf_tagid,hf_tagname) ',(hf_tagid,hf_tagname))
hfdataidmap=revisionDML.dataIdsByTagId(destsession.nominalSchema(),hf_tagid,[int(options.runnum)],withcomment=False,lumitype='HF')
destsession.transaction().commit()
print('dest hfdataidmap ',hfdataidmap)
if int(options.runnum) in hfdataidmap:
print('existing old hf data in destdb of run ',options.runnum,hfdataidmap[int(options.runnum)])
destsession.transaction().start(False)
[destlumidataid,desttrgdataid,desthltdataid]=hfdataidmap[int(options.runnum)]
(lumirevid,lumientryid,lumidataid)=dataDML.addLumiRunDataToBranch(destsession.nominalSchema(),int(options.runnum),rundat,branchinfo,nameDealer.lumidataTableName())
dataDML.bulkInsertLumiLSSummary(destsession,int(options.runnum),lumidataid,lsdat,nameDealer.lumisummaryv2TableName())
destsession.transaction().commit()
destsession.transaction().start(False)
revisionDML.addRunToCurrentDataTag(destsession.nominalSchema(),int(options.runnum),lumidataid,desttrgdataid,desthltdataid,lumitype='HF',comment=options.comment)
destsession.transaction().commit()
else:
print('non-existing old hf data in destdb of run ',int(options.runnum))
destsession.transaction().start(False)
(lumirevid,lumientryid,lumidataid)=dataDML.addLumiRunDataToBranch(destsession.nominalSchema(),int(options.runnum),rundat,branchinfo,nameDealer.lumidataTableName())
print((lumirevid,lumientryid,lumidataid))
dataDML.bulkInsertLumiLSSummary(destsession,int(options.runnum),lumidataid,lsdat,nameDealer.lumisummaryv2TableName())
destsession.transaction().commit()
destsession.transaction().start(False)
revisionDML.addRunToCurrentDataTag(destsession.nominalSchema(),int(options.runnum),lumidataid,0,0,lumitype='HF',comment=options.comment)
destsession.transaction().commit()
def createTables(schema):
'''
create new tables if not exist
revisions,revisions_id,luminorms,luminorms_entries,luminorms_entries_id,fillscheme
'''
try:
created=[]
db=dbUtil.dbUtil(schema)
if not schema.existsTable(nameDealer.fillschemeTableName()):
print('creating fillscheme table')
fillschemeTab=coral.TableDescription()
fillschemeTab.setName( nameDealer.fillschemeTableName() )
fillschemeTab.insertColumn( 'FILLSCHEME_ID','unsigned long long' )
fillschemeTab.insertColumn( 'FILLSCHEMEPATTERN','string',128,False )
fillschemeTab.insertColumn( 'CORRECTIONFACTOR','float' )
fillschemeTab.setPrimaryKey( 'FILLSCHEME_ID' )
db.createTable(fillschemeTab,withIdTable=True)
created.append( nameDealer.fillschemeTableName() )
if not schema.existsTable(nameDealer.revisionTableName()):
print('creating revisions table')
revisionsTab=coral.TableDescription()
revisionsTab.setName( nameDealer.revisionTableName() )
revisionsTab.insertColumn( 'REVISION_ID','unsigned long long')
revisionsTab.insertColumn( 'BRANCH_ID','unsigned long long')
revisionsTab.insertColumn( 'NAME', 'string',56,False)
revisionsTab.insertColumn( 'BRANCH_NAME', 'string',56,False)
revisionsTab.insertColumn( 'COMMENT', 'string',1024,False)
revisionsTab.insertColumn( 'CTIME', 'time stamp',6)
revisionsTab.setPrimaryKey( 'REVISION_ID' )
revisionsTab.setUniqueConstraint(('NAME'))
db.createTable(revisionsTab,withIdTable=True)
created.append(nameDealer.revisionTableName())
if not schema.existsTable(nameDealer.luminormTableName()):
print('creating luminorms table')
luminormsTab=coral.TableDescription()
luminormsTab.setName( nameDealer.luminormTableName() )
luminormsTab.insertColumn( 'DATA_ID','unsigned long long')
luminormsTab.insertColumn( 'ENTRY_ID','unsigned long long')
luminormsTab.insertColumn( 'ENTRY_NAME','string',56,False)
luminormsTab.insertColumn( 'AMODETAG', 'string',28,False)
luminormsTab.insertColumn( 'NORM_1', 'float')
luminormsTab.insertColumn( 'EGEV_1', 'unsigned int')
luminormsTab.insertColumn( 'NORM_2', 'float')
luminormsTab.insertColumn( 'EGEV_2', 'unsigned int')
luminormsTab.setPrimaryKey( 'DATA_ID' )
db.createTable(luminormsTab,withIdTable=True,withEntryTables=True,withRevMapTable=True)
created.append(nameDealer.luminormTableName())
if not schema.existsTable(nameDealer.lumidataTableName()):
print('creating lumidata table')
lumidataTab=coral.TableDescription()
lumidataTab.setName( nameDealer.lumidataTableName() )
lumidataTab.insertColumn( 'DATA_ID','unsigned long long')
lumidataTab.insertColumn( 'ENTRY_ID','unsigned long long')
lumidataTab.insertColumn( 'ENTRY_NAME','string',56,False)
lumidataTab.insertColumn( 'SOURCE', 'string',128,False)
lumidataTab.insertColumn( 'RUNNUM', 'unsigned int')
lumidataTab.insertColumn( 'NOMINALEGEV', 'float')
lumidataTab.setPrimaryKey( 'DATA_ID' )
db.createTable(lumidataTab,withIdTable=True,withEntryTables=True,withRevMapTable=True)
created.append(nameDealer.lumidataTableName())
if not schema.existsTable(nameDealer.lumisummaryv2TableName() ):
print('creating lumisummaryv2 table')
summary=coral.TableDescription()
summary.setName( nameDealer.lumisummaryv2TableName() )
summary.insertColumn('DATA_ID','unsigned long long')
summary.insertColumn('RUNNUM','unsigned int')
summary.insertColumn('LUMILSNUM','unsigned int')
summary.insertColumn('CMSLSNUM','unsigned int')
summary.insertColumn('INSTLUMI','float')
summary.insertColumn('INSTLUMIERROR','float')
summary.insertColumn('INSTLUMIQUALITY','short')
summary.insertColumn('BEAMSTATUS','string',28,False)
summary.insertColumn('BEAMENERGY','float')
summary.insertColumn('NUMORBIT','unsigned int')
summary.insertColumn('STARTORBIT','unsigned int')
summary.insertColumn('CMSBXINDEXBLOB','blob')
summary.insertColumn('BEAMINTENSITYBLOB_1','blob')
summary.insertColumn('BEAMINTENSITYBLOB_2','blob')
summary.insertColumn('BXLUMIVALUE_OCC1','blob')
summary.insertColumn('BXLUMIVALUE_OCC2','blob')
summary.insertColumn('BXLUMIVALUE_ET','blob')
summary.insertColumn('BXLUMIERROR_OCC1','blob')
summary.insertColumn('BXLUMIERROR_OCC2','blob')
summary.insertColumn('BXLUMIERROR_ET','blob')
summary.insertColumn('BXLUMIQUALITY_OCC1','blob')
summary.insertColumn('BXLUMIQUALITY_OCC2','blob')
summary.insertColumn('BXLUMIQUALITY_ET','blob')
summary.setPrimaryKey(('DATA_ID','LUMILSNUM'))
db.createTable(summary,withIdTable=False)
created.append(nameDealer.lumisummaryv2TableName())
#
# This table exists in the old schema
#
if not schema.existsTable(nameDealer.cmsrunsummaryTableName()):
print('creating cmsrunsummary table')
cmsrunsummary=coral.TableDescription()
cmsrunsummary.setName( nameDealer.cmsrunsummaryTableName() )
cmsrunsummary.insertColumn('RUNNUM','unsigned int')
cmsrunsummary.insertColumn('HLTKEY','string',128,False)
cmsrunsummary.insertColumn('L1KEY','string',128,False)
cmsrunsummary.insertColumn('FILLNUM','unsigned int')
cmsrunsummary.insertColumn('SEQUENCE','string',56,False)
cmsrunsummary.insertColumn('STARTTIME','time stamp',6)
cmsrunsummary.insertColumn('STOPTIME','time stamp',6)
cmsrunsummary.insertColumn('EGEV','unsigned int')
cmsrunsummary.insertColumn('AMODETAG','string',28,False)
cmsrunsummary.insertColumn('FILLSCHEME','string',128,False)
cmsrunsummary.insertColumn('NCOLLIDINGBUNCHES','usigned int')
cmsrunsummary.setPrimaryKey('RUNNUM')
db.createTable(cmsrunsummary,withIdTable=False)
created.append(nameDealer.cmsrunsummaryTableName())
#
# This table exists in the old schema
#
if not schema.existsTable(nameDealer.trghltMapTableName()):
print('creating trghltmap table')
trghlt=coral.TableDescription()
trghlt.setName( nameDealer.trghltMapTableName() )
trghlt.insertColumn( 'HLTKEY','string',128,False )
trghlt.insertColumn( 'HLTPATHNAME','string',256,False )
trghlt.insertColumn( 'L1SEED','string' ,1024,False)
trghlt.setNotNullConstraint('HLTKEY',True)
trghlt.setNotNullConstraint('HLTPATHNAME',True)
trghlt.setNotNullConstraint('L1SEED',True)
db.createTable(trghlt,withIdTable=False)
created.append(nameDealer.trghltMapTableName())
if not schema.existsTable(nameDealer.trgdataTableName()):
print('creating trgdata table')
trgdataTab=coral.TableDescription()
trgdataTab.setName( nameDealer.trgdataTableName() )
trgdataTab.insertColumn( 'DATA_ID','unsigned long long')
trgdataTab.insertColumn( 'ENTRY_ID','unsigned long long')
trgdataTab.insertColumn( 'ENTRY_NAME','string',56,False)
trgdataTab.insertColumn( 'SOURCE', 'string',128,False)
trgdataTab.insertColumn( 'RUNNUM', 'unsigned int')
trgdataTab.insertColumn( 'BITZERONAME', 'string',56,False)
trgdataTab.insertColumn( 'BITNAMECLOB', 'string',6000)
trgdataTab.setPrimaryKey( 'DATA_ID' )
db.createTable(trgdataTab,withIdTable=True,withEntryTables=True,withRevMapTable=True)
created.append(nameDealer.trgdataTableName())
if not schema.existsTable(nameDealer.lstrgTableName()):
print('creating lstrg table')
lstrgTab=coral.TableDescription()
lstrgTab.setName( nameDealer.lstrgTableName() )
lstrgTab.insertColumn( 'DATA_ID','unsigned long long')
lstrgTab.insertColumn( 'RUNNUM', 'unsigned int')
lstrgTab.insertColumn( 'CMSLSNUM', 'unsigned int')
lstrgTab.insertColumn( 'DEADTIMECOUNT', 'unsigned long long')
lstrgTab.insertColumn( 'BITZEROCOUNT', 'unsigned int')
lstrgTab.insertColumn( 'BITZEROPRESCALE', 'unsigned int')
lstrgTab.insertColumn( 'DEADFRAC', 'float')
lstrgTab.insertColumn( 'PRESCALEBLOB', 'blob')
lstrgTab.insertColumn( 'TRGCOUNTBLOB', 'blob')
lstrgTab.setPrimaryKey( ('DATA_ID','CMSLSNUM') )
db.createTable(lstrgTab,withIdTable=False)
created.append( nameDealer.lstrgTableName() )
if not schema.existsTable(nameDealer.hltdataTableName()):
print('creating hltdata table')
hltdataTab=coral.TableDescription()
hltdataTab.setName( nameDealer.hltdataTableName() )
hltdataTab.insertColumn( 'DATA_ID','unsigned long long')
hltdataTab.insertColumn( 'ENTRY_ID','unsigned long long')
hltdataTab.insertColumn( 'ENTRY_NAME','string',56,False)
hltdataTab.insertColumn( 'RUNNUM', 'unsigned int')
hltdataTab.insertColumn( 'SOURCE', 'string',128,False)
hltdataTab.insertColumn( 'NPATH', 'unsigned int')
hltdataTab.insertColumn( 'PATHNAMECLOB', 'string',6000)
hltdataTab.setPrimaryKey( 'DATA_ID' )
db.createTable(hltdataTab,withIdTable=True,withEntryTables=True,withRevMapTable=True)
created.append(nameDealer.hltTableName())
if not schema.existsTable(nameDealer.lshltTableName()):
print('creating lshlt table')
lshltTab=coral.TableDescription()
lshltTab.setName( nameDealer.lshltTableName() )
lshltTab.insertColumn( 'DATA_ID','unsigned long long')
lshltTab.insertColumn( 'RUNNUM', 'unsigned int')
lshltTab.insertColumn( 'CMSLSNUM', 'unsigned int')
lshltTab.insertColumn( 'PRESCALEBLOB', 'blob')
lshltTab.insertColumn( 'HLTCOUNTBLOB', 'blob')
lshltTab.insertColumn( 'HLTACCEPTBLOB', 'blob')
db.createTable(lshltTab,withIdTable=False)
lshltTab.setPrimaryKey( ('DATA_ID','CMSLSNUM') )
created.append(nameDealer.lshltTableName())
if not schema.existsTable(nameDealer.lumivalidationTableName()):
print('creating lumivalidation table')
lumivalidation=coral.TableDescription()
lumivalidation.setName( nameDealer.lumivalidationTableName() )
lumivalidation.insertColumn( 'RUNNUM','unsigned int' )
lumivalidation.insertColumn( 'CMSLSNUM','unsigned int' )
lumivalidation.insertColumn( 'FLAG','string',28,False )
lumivalidation.insertColumn( 'COMMENT','string',1024,False )
lumivalidation.setPrimaryKey( ('RUNNUM','CMSLSNUM') )
lumivalidation.setNotNullConstraint('FLAG',True)
db.createTable(lumivalidation,withIdTable=False)
created.append(nameDealer.lumivalidationTableName())
return created
except :
raise
def dropTables(schema,tablelist):
try:
db=dbUtil.dbUtil(schema)
for tablename in tablelist:
if tablename in [nameDealer.luminormTableName(),nameDealer.lumidataTableName(),nameDealer.trgdataTableName(),nameDealer.hltdataTableName()]:
db.dropTable( nameDealer.idTableName(tablename) )
db.dropTable( nameDealer.entryTableName(tablename) )
db.dropTable( nameDealer.revmapTableName(tablename) )
if tablename in [nameDealer.trgTableName(),nameDealer.lumisummaryTableName(),nameDealer.lumisummaryv2TableName(),nameDealer.lumidetailTableName(),nameDealer.hltTableName()]:
db.dropTable( nameDealer.idTableName(tablename) )
db.dropTable( tablename )
except :
raise
def lumiDataFromDB(sourceschema,sourcelumidataid):
'''
select nominalegev,ncollidingbunches,starttime,stoptime,nls from lumidata where DATA_ID=:dataid
select lumilsnum,cmslsnum,beamstatus,beamenergy,numorbit,startorbit,instlumi,cmsbxindexblob,beamintensityblob_1,beamintensityblob_2,bxlumivalue_occ1,bxlumivalue_occ2,bxlumivalue_et,bxlumierror_occ1,bxlumierror_occ2,bxlumierror_et from lumisummaryv2 where data_id=:dataid
output:(lumirundata,lumilsdata)
lumirundata=[source,nominalegev,ncollidingbunches,starttime,stoptime,nls]
lumilsdata={}#{lumilsnum:[cmslsnum,instlumi,instlumierror,instlumiquality,beamstatus,beamenergy,numorbit,startorbit,cmsbxindexblob,beam1intensity,beam2intensity,bxlumivalue_occ1,bxlumierror_occ1,bxlumiquality_occ1,bxlumivalue_occ2,bxlumierror_occ2,bxlumiquality_occ2,bxlumivalue_et,bxlumierror_et,bxlumiquality_et]
'''
lumirundata=[]
lumilsdata={}
qHandle=sourceschema.newQuery()
try:
qHandle.addToTableList( nameDealer.lumidataTableName() )
qHandle.addToOutputList('SOURCE')
qHandle.addToOutputList('NOMINALEGEV')
qHandle.addToOutputList('NCOLLIDINGBUNCHES')
#qHandle.addToOutputList('TO_CHAR(STARTTIME,\'MM/DD/YY HH24:MI:SS\')','starttime')
#qHandle.addToOutputList('TO_CHAR(STOPTIME,\'MM/DD/YY HH24:MI:SS\')','stoptime')
qHandle.addToOutputList('STARTTIME')
qHandle.addToOutputList('STOPTIME')
qHandle.addToOutputList('NLS')
qCondition=coral.AttributeList()
qCondition.extend('lumidataid','unsigned long long')
qCondition['lumidataid'].setData(sourcelumidataid)
qResult=coral.AttributeList()
qResult.extend('SOURCE','string')
qResult.extend('NOMINALEGEV','float')
qResult.extend('NCOLLIDINGBUNCHES','unsigned int')
#qResult.extend('starttime','string')
#qResult.extend('stoptime','string')
qResult.extend('STARTTIME','time stamp')
qResult.extend('STOPTIME','time stamp')
qResult.extend('NLS','unsigned int')
qHandle.defineOutput(qResult)
qHandle.setCondition('DATA_ID=:lumidataid',qCondition)
cursor=qHandle.execute()
while next(cursor):
source=cursor.currentRow()['SOURCE'].data()
nominalegev=cursor.currentRow()['NOMINALEGEV'].data()
ncollidingbunches=cursor.currentRow()['NCOLLIDINGBUNCHES'].data()
#starttime=cursor.currentRow()['starttime'].data()
#stoptime=cursor.currentRow()['stop'].data()
starttime=cursor.currentRow()['STARTTIME'].data()
stoptime=cursor.currentRow()['STOPTIME'].data()
nls=cursor.currentRow()['NLS'].data()
lumirundata=[source,nominalegev,ncollidingbunches,starttime,stoptime,nls]
del qHandle
except:
if qHandle:del qHandle
raise
qHandle=sourceschema.newQuery()
try:
qHandle.addToTableList( nameDealer.lumisummaryv2TableName() )
qHandle.addToOutputList('LUMILSNUM')
qHandle.addToOutputList('CMSLSNUM')
qHandle.addToOutputList('INSTLUMI')
qHandle.addToOutputList('INSTLUMIERROR')
qHandle.addToOutputList('INSTLUMIQUALITY')
qHandle.addToOutputList('BEAMSTATUS')
qHandle.addToOutputList('BEAMENERGY')
qHandle.addToOutputList('NUMORBIT')
qHandle.addToOutputList('STARTORBIT')
qHandle.addToOutputList('CMSBXINDEXBLOB')
qHandle.addToOutputList('BEAMINTENSITYBLOB_1')
qHandle.addToOutputList('BEAMINTENSITYBLOB_2')
qHandle.addToOutputList('BXLUMIVALUE_OCC1')
qHandle.addToOutputList('BXLUMIERROR_OCC1')
qHandle.addToOutputList('BXLUMIQUALITY_OCC1')
qHandle.addToOutputList('BXLUMIVALUE_OCC2')
qHandle.addToOutputList('BXLUMIERROR_OCC2')
qHandle.addToOutputList('BXLUMIQUALITY_OCC2')
qHandle.addToOutputList('BXLUMIVALUE_ET')
qHandle.addToOutputList('BXLUMIERROR_ET')
qHandle.addToOutputList('BXLUMIQUALITY_ET')
qCondition=coral.AttributeList()
qCondition.extend('lumidataid','unsigned long long')
qCondition['lumidataid'].setData(sourcelumidataid)
qResult=coral.AttributeList()
qResult.extend('LUMILSNUM','unsigned int')
qResult.extend('CMSLSNUM','unsigned int')
qResult.extend('INSTLUMI','float')
qResult.extend('INSTLUMIERROR','float')
qResult.extend('INSTLUMIQUALITY','short')
qResult.extend('BEAMSTATUS','string')
qResult.extend('BEAMENERGY','float')
qResult.extend('NUMORBIT','unsigned int')
qResult.extend('STARTORBIT','unsigned int')
qResult.extend('CMSBXINDEXBLOB','blob')
qResult.extend('BEAMINTENSITYBLOB_1','blob')
qResult.extend('BEAMINTENSITYBLOB_2','blob')
qResult.extend('BXLUMIVALUE_OCC1','blob')
qResult.extend('BXLUMIERROR_OCC1','blob')
qResult.extend('BXLUMIQUALITY_OCC1','blob')
qResult.extend('BXLUMIVALUE_OCC2','blob')
qResult.extend('BXLUMIERROR_OCC2','blob')
qResult.extend('BXLUMIQUALITY_OCC2','blob')
qResult.extend('BXLUMIVALUE_ET','blob')
qResult.extend('BXLUMIERROR_ET','blob')
qResult.extend('BXLUMIQUALITY_ET','blob')
qHandle.defineOutput(qResult)
qHandle.setCondition('DATA_ID=:lumidataid',qCondition)
cursor=qHandle.execute()
while next(cursor):
lumilsnum=cursor.currentRow()['LUMILSNUM'].data()
cmslsnum=cursor.currentRow()['CMSLSNUM'].data()
instlumi=cursor.currentRow()['INSTLUMI'].data()
instlumierror=cursor.currentRow()['INSTLUMIERROR'].data()
instlumiquality=cursor.currentRow()['INSTLUMIQUALITY'].data()
beamstatus=cursor.currentRow()['BEAMSTATUS'].data()
beamenergy=cursor.currentRow()['BEAMENERGY'].data()
numorbit=cursor.currentRow()['NUMORBIT'].data()
startorbit=cursor.currentRow()['STARTORBIT'].data()
cmsbxindexblob=None
if not cursor.currentRow()['CMSBXINDEXBLOB'].isNull():
cmsbxindexblob=cursor.currentRow()['CMSBXINDEXBLOB'].data()
beamintensityblob_1=None
if not cursor.currentRow()['BEAMINTENSITYBLOB_1'].isNull():
beamintensityblob_1=cursor.currentRow()['BEAMINTENSITYBLOB_1'].data()
beamintensityblob_2=None
if not cursor.currentRow()['BEAMINTENSITYBLOB_2'].isNull():
beamintensityblob_2=cursor.currentRow()['BEAMINTENSITYBLOB_2'].data()
bxlumivalue_occ1=None
if not cursor.currentRow()['BXLUMIVALUE_OCC1'].isNull():
bxlumivalue_occ1=cursor.currentRow()['BXLUMIVALUE_OCC1'].data()
bxlumivalue_occ2=None
if not cursor.currentRow()['BXLUMIVALUE_OCC2'].isNull():
bxlumivalue_occ2=cursor.currentRow()['BXLUMIVALUE_OCC2'].data()
bxlumivalue_et=None
if not cursor.currentRow()['BXLUMIVALUE_ET'].isNull():
bxlumivalue_et=cursor.currentRow()['BXLUMIVALUE_ET'].data()
bxlumierror_occ1=None
if not cursor.currentRow()['BXLUMIERROR_OCC1'].isNull():
bxlumierror_occ1=cursor.currentRow()['BXLUMIERROR_OCC1'].data()
bxlumierror_occ2=None
if not cursor.currentRow()['BXLUMIERROR_OCC2'].isNull():
bxlumierror_occ2=cursor.currentRow()['BXLUMIERROR_OCC2'].data()
bxlumierror_et=None
if not cursor.currentRow()['BXLUMIERROR_ET'].isNull():
bxlumierror_et=cursor.currentRow()['BXLUMIERROR_ET'].data()
bxlumiquality_occ1=None
if not cursor.currentRow()['BXLUMIQUALITY_OCC1'].isNull():
bxlumiquality_occ1=cursor.currentRow()['BXLUMIQUALITY_OCC1'].data()
bxlumiquality_occ2=None
if not cursor.currentRow()['BXLUMIQUALITY_OCC2'].isNull():
bxlumiquality_occ2=cursor.currentRow()['BXLUMIQUALITY_OCC2'].data()
bxlumiquality_et=None
if not cursor.currentRow()['BXLUMIQUALITY_ET'].isNull():
bxlumiquality_et=cursor.currentRow()['BXLUMIQUALITY_ET'].data()
lumilsdata[lumilsnum]=[cmslsnum,instlumi,instlumierror,instlumiquality,beamstatus,beamenergy,numorbit,startorbit,cmsbxindexblob,beamintensityblob_1,beamintensityblob_2,bxlumivalue_occ1,bxlumierror_occ1,bxlumiquality_occ1,bxlumivalue_occ2,bxlumierror_occ2,bxlumiquality_occ2,bxlumivalue_et,bxlumierror_et,bxlumiquality_et]
del qHandle
except:
if qHandle:del qHandle
raise
return (lumirundata,lumilsdata)
(lumibranchid,lumibranchparent)=revisionDML.branchInfoByName(destsession.nominalSchema(),'DATA')
branchinfo=(lumibranchid,'DATA')
print('branchinfo ',branchinfo)
(hf_tagid,hf_tagname)=revisionDML.currentDataTag(destsession.nominalSchema(),lumitype='HF')
print('(hf_tagid,hf_tagname) ',(hf_tagid,hf_tagname))
hfdataidmap=revisionDML.dataIdsByTagId(destsession.nominalSchema(),hf_tagid,[int(options.runnum)],withcomment=False,lumitype='HF')
destsession.transaction().commit()
print('dest hfdataidmap ',hfdataidmap)
if int(options.runnum) in hfdataidmap:
print('existing old hf data in destdb of run ',options.runnum,hfdataidmap[int(options.runnum)])
destsession.transaction().start(False)
[destlumidataid,desttrgdataid,desthltdataid]=hfdataidmap[int(options.runnum)]
(lumirevid,lumientryid,lumidataid)=dataDML.addLumiRunDataToBranch(destsession.nominalSchema(),int(options.runnum),rundat,branchinfo,nameDealer.lumidataTableName())
dataDML.bulkInsertLumiLSSummary(destsession,int(options.runnum),lumidataid,lsdat,nameDealer.lumisummaryv2TableName())
destsession.transaction().commit()
destsession.transaction().start(False)
revisionDML.addRunToCurrentDataTag(destsession.nominalSchema(),int(options.runnum),lumidataid,desttrgdataid,desthltdataid,lumitype='HF',comment=options.comment)
destsession.transaction().commit()
else:
print('non-existing old hf data in destdb of run ',int(options.runnum))
destsession.transaction().start(False)
(lumirevid,lumientryid,lumidataid)=dataDML.addLumiRunDataToBranch(destsession.nominalSchema(),int(options.runnum),rundat,branchinfo,nameDealer.lumidataTableName())
print((lumirevid,lumientryid,lumidataid))
dataDML.bulkInsertLumiLSSummary(destsession,int(options.runnum),lumidataid,lsdat,nameDealer.lumisummaryv2TableName())
destsession.transaction().commit()
destsession.transaction().start(False)
revisionDML.addRunToCurrentDataTag(destsession.nominalSchema(),int(options.runnum),lumidataid,0,0,lumitype='HF',comment=options.comment)
destsession.transaction().commit()
def effectiveLumiForRange(schema,inputRange,hltpathname=None,hltpathpattern=None,amodetag=None,beamstatus=None,egev=None,withBXInfo=False,xingMinLum=0.0,bxAlgo=None,withBeamIntensity=False,norm=None,finecorrections=None,driftcorrections=None,usecorrectionv2=False,lumitype='HF',branchName=None):
'''
input:
inputRange {run:[cmsls]} (required)
hltpathname: selected hltpathname
hltpathpattern: regex select hltpaths
amodetag: amodetag for picking norm(optional)
egev: beamenergy for picking norm(optional)
withBXInfo: get per bunch info (optional)
bxAlgo: algoname for bx values (optional) ['OCC1','OCC2','ET']
xingMinLum: cut on bx lumi value (optional)
withBeamIntensity: get beam intensity info (optional)
normname: norm factor name to use (optional)
branchName: data version
output:
result {run:[lumilsnum(0),cmslsnum(1),timestamp(2),beamstatus(3),beamenergy(4),deliveredlumi(5),recordedlumi(6),calibratedlumierror(7),{hltpath:[l1name,l1prescale,hltprescale,efflumi]},bxdata,beamdata,fillnum]}
lumi unit: 1/ub
'''
if lumitype not in ['HF','PIXEL']:
raise ValueError('unknown lumitype '+lumitype)
if branchName is None:
branchName='DATA'
lumitableName=''
lumilstableName=''
if lumitype=='HF':
lumitableName=nameDealer.lumidataTableName()
lumilstableName=nameDealer.lumisummaryv2TableName()
else:
lumitableName=nameDealer.pixellumidataTableName()
lumilstableName=nameDealer.pixellumisummaryv2TableName()
numbx=3564
result = {}
normval=None
perbunchnormval=None
if norm:
normval=_getnorm(schema,norm)
perbunchnormval=float(normval)/float(1000)
elif amodetag and egev:
normval=_decidenormFromContext(schema,amodetag,egev)
perbunchnormval=float(normval)/float(1000)
c=lumiTime.lumiTime()
lumip=lumiParameters.ParametersObject()
for run in inputRange.keys():
lslist=inputRange[run]
if lslist is not None and len(lslist)==0:#no selected ls, do nothing for this run
result[run]=[]
continue
cmsrunsummary=dataDML.runsummary(schema,run)
if len(cmsrunsummary)==0:#non existing run
result[run]=None
continue
startTimeStr=cmsrunsummary[6]
fillnum=cmsrunsummary[4]
lumidataid=None
trgdataid=None
hltdataid=None
lumidataid=dataDML.guessLumiDataIdByRun(schema,run,lumitableName)
trgdataid=dataDML.guessTrgDataIdByRun(schema,run)
hltdataid=dataDML.guessHltDataIdByRun(schema,run)
if lumidataid is None or trgdataid is None or hltdataid is None:
result[run]=None
continue
(lumirunnum,lumidata)=dataDML.lumiLSById(schema,lumidataid,beamstatus,tableName=lumilstableName)
(trgrunnum,trgdata)=dataDML.trgLSById(schema,trgdataid,withPrescale=True)
(hltrunnum,hltdata)=dataDML.hltLSById(schema,hltdataid,hltpathname=hltpathname,hltpathpattern=hltpathpattern)
hlttrgmap=dataDML.hlttrgMappingByrun(schema,run)
if not normval:#if norm cannot be decided , look for it according to context per run
normval=_decidenormForRun(schema,run)
perbunchnormval=float(normval)/float(1000)
if not normval:#still not found? resort to global default (should never come here)
normval=6370
perbunchnormval=6.37
print '[Warning] using default normalization '+str(normval)
perrunresult=[]
for lumilsnum,perlsdata in lumidata.items():
cmslsnum=perlsdata[0]
triggeredls=perlsdata[0]
if lslist is not None and cmslsnum not in lslist:
#cmslsnum=0
triggeredls=0
recordedlumi=0.0
instlumi=perlsdata[1]
instlumierror=perlsdata[2]
avglumi=instlumi*normval
calibratedlumi=avglumi
if lumitype=='HF' and finecorrections and finecorrections[run]:
if usecorrectionv2:
if driftcorrections and driftcorrections[run]:
calibratedlumi=lumiCorrections.applyfinecorrectionV2(avglumi,finecorrections[run][0],finecorrections[run][1],finecorrections[run][2],finecorrections[run][3],finecorrections[run][4],driftcorrections[run])
else:
calibratedlumi=lumiCorrections.applyfinecorrectionV2(avglumi,finecorrections[run][0],finecorrections[run][1],finecorrections[run][2],finecorrections[run][3],finecorrections[run][4],1.0)
else:
calibratedlumi=lumiCorrections.applyfinecorrection(avglumi,finecorrections[run][0],finecorrections[run][1],finecorrections[run][2])
if lumitype=='PIXEL' and finecorrections is not None:
calibratedlumi=finecorrections[run]*avglumi
calibratedlumierror=instlumierror*normval
bstatus=perlsdata[4]
begev=perlsdata[5]
numorbit=perlsdata[6]
startorbit=perlsdata[7]
timestamp=c.OrbitToTime(startTimeStr,startorbit,0)
lslen=lumip.lslengthsec()
deliveredlumi=calibratedlumi*lslen
recordedlumi=0.0
trgprescalemap={}#trgprescalemap for this ls
efflumidict={}
if triggeredls!=0:
if not trgdata.has_key(cmslsnum):
#triggeredls=0 #if no trigger, set back to non-cms-active ls
recordedlumi=0.0 # no trigger->nobeam recordedlumi=None
else:
deadcount=trgdata[cmslsnum][0] ##subject to change !!
bitzerocount=trgdata[cmslsnum][1]
bitzeroprescale=trgdata[cmslsnum][2]
deadfrac=trgdata[cmslsnum][3]
if deadfrac<0 or deadfrac>1.0:
deadfrac=1.0
#if float(bitzerocount)*float(bitzeroprescale)==0.0:
# deadfrac=1.0
#else:
# deadfrac=float(deadcount)/(float(bitzerocount)*float(bitzeroprescale))
#if deadfrac>1.0:
# deadfrac=1.0 #artificial correction in case of deadfrac>1
recordedlumi=deliveredlumi*(1.0-deadfrac)
l1bitinfo=trgdata[cmslsnum][4]
if l1bitinfo:
for thisbitinfo in l1bitinfo:
thisbitname=thisbitinfo[0]
thisbitprescale=thisbitinfo[2]
#trgprescalemap['"'+thisbitname+'"']=thisbitprescale#note:need to double quote bit name!
trgprescalemap['"'+thisbitname+'"']=thisbitprescale
del trgdata[cmslsnum][:]
if hltdata.has_key(cmslsnum):
hltpathdata=hltdata[cmslsnum]
#print 'hltpathdata ',hltpathdata
for pathidx,thispathinfo in enumerate(hltpathdata):
efflumi=0.0
thispathname=thispathinfo[0]
thisprescale=thispathinfo[1]
thisl1seed=None
l1bitname=None
l1prescale=None
try:
thisl1seed=hlttrgmap[thispathname]
except KeyError:
thisl1seed=None
# print 'hltpath, l1seed, hltprescale ',thispathname,thisl1seed,thisprescale
if thisl1seed:
try:
l1bitname=hltTrgSeedMapper.findUniqueSeed(thispathname,thisl1seed)
if l1bitname :
l1prescale=trgprescalemap[l1bitname]#need to match double quoted string!
else:
l1prescale=None
except KeyError:
l1prescale=None
if l1prescale and thisprescale :#normal both prescaled
efflumi=recordedlumi/(float(l1prescale)*float(thisprescale))
efflumidict[thispathname]=[l1bitname,l1prescale,thisprescale,efflumi]
elif l1prescale and thisprescale==0: #hltpath in menu but masked
efflumi=0.0
efflumidict[thispathname]=[l1bitname,l1prescale,thisprescale,efflumi]
else:
efflumi=0.0
efflumidict[thispathname]=[None,0,thisprescale,efflumi]
bxvaluelist=[]
bxerrorlist=[]
bxdata=None
beamdata=None
if withBXInfo:
bxinfo=lumidata[8]
bxvalueArray=None
bxerrArray=None
if bxinfo:
bxvalueArray=bxinfo[0]
bxerrArray=bxinfo[1]
for idx,bxval in enumerate(bxvalueArray):
if finecorrections and finecorrections[run]:
if usecorrectionv2:
if driftcorrections and driftcorrections[run]:
mybxval=lumiCorrections.applyfinecorrectionBXV2(bxval,avglumi,perbunchnormval,finecorrections[run][0],finecorrections[run][1],finecorrections[run][2],finecorrections[run][3],finecorrections[run][4],driftcorrections[run])
else:
mybxval=lumiCorrections.applyfinecorrectionBXV2(bxval,avglumi,perbunchnormval,finecorrections[run][0],finecorrections[run][1],finecorrections[run][2],finecorrections[run][3],finecorrections[run][4],1.0)
else:
mybxval=lumiCorrections.applyfinecorrectionBX(bxval,avglumi,perbunchnormval,finecorrections[run][0],finecorrections[run][1],finecorrections[run][2])
else:
mybxval=bxval*perbunchnormval
if mybxval>xingMinLum:
bxidxlist.append(idx)
bxvaluelist.append(bxval)
bxerrorlist.append(bxerrArray[idx])
del bxvalueArray[:]
del bxerrArray[:]
bxdata=(bxidxlist,bxvaluelist,bxerrorlist)
if withBeamIntensity:
beaminfo=perlsdata[9]
bxindexlist=[]
b1intensitylist=[]
b2intensitylist=[]
if beaminfo:
bxindexarray=beaminfo[0]
beam1intensityarray=beaminfo[1]
beam2intensityarray=beaminfo[2]
bxindexlist=bxindexarray.tolist()
b1intensitylist=beam1intensityarray.tolist()
b2intensitylist=beam2intensityarray.tolist()
del bxindexarray[:]
del beam1intensityarray[:]
del beam2intensityarray[:]
beamdata=(bxindexlist,b1intensitylist,b2intensitylist)
# print cmslsnum,deliveredlumi,recordedlumi,efflumidict
perrunresult.append([lumilsnum,triggeredls,timestamp,bstatus,begev,deliveredlumi,recordedlumi,calibratedlumierror,efflumidict,bxdata,beamdata,fillnum])
del perlsdata[:]
result[run]=perrunresult
#print result
return result
def lumiForRange(schema,inputRange,beamstatus=None,amodetag=None,egev=None,withBXInfo=False,bxAlgo=None,xingMinLum=0.0,withBeamIntensity=False,norm=None,datatag='DATA',finecorrections=None,driftcorrections=None,usecorrectionv2=False,lumitype='HF',branchName=None):
'''
delivered/recorded lumi
input:
inputRange {run:[cmsls]} (required)
beamstatus: LS filter on beamstatus (optional)
amodetag: amodetag for picking norm(optional)
egev: beamenergy for picking norm(optional)
withBXInfo: get per bunch info (optional)
bxAlgo: algoname for bx values (optional) ['OCC1','OCC2','ET']
xingMinLum: cut on bx lumi value (optional)
withBeamIntensity: get beam intensity info (optional)
normname: norm factor name to use (optional)
branchName: data version
output:
result {run:[lumilsnum(0),cmslsnum(1),timestamp(2),beamstatus(3),beamenergy(4),deliveredlumi(5),recordedlumi(6),calibratedlumierror(7),(bxidx,bxvalues,bxerrs)(8),(bxidx,b1intensities,b2intensities)(9),fillnum(10)]}
lumi unit: 1/ub
'''
if lumitype not in ['HF','PIXEL']:
raise ValueError('unknown lumitype '+lumitype)
#if branchName is None:
# branchName='DATA'
lumip=lumiParameters.ParametersObject()
lumitableName=''
lumilstableName=''
if lumitype=='HF':
lumitableName=nameDealer.lumidataTableName()
lumilstableName=nameDealer.lumisummaryv2TableName()
else:
lumitableName=nameDealer.pixellumidataTableName()
lumilstableName=nameDealer.pixellumisummaryv2TableName()
numbx=lumip.NBX
result = {}
normval=None
perbunchnormval=None
if norm:
normval=_getnorm(schema,norm)
perbunchnormval=float(normval)/float(1000)
elif amodetag and egev:
normval=_decidenormFromContext(schema,amodetag,egev)
perbunchnormval=float(normval)/float(1000)
c=lumiTime.lumiTime()
for run in inputRange.keys():#loop over run
lslist=inputRange[run]
if lslist is not None and len(lslist)==0:#no selected ls, do nothing for this run
result[run]=[]
continue
cmsrunsummary=dataDML.runsummary(schema,run)
if len(cmsrunsummary)==0:#non existing run
result[run]=None
continue
startTimeStr=cmsrunsummary[6]
fillnum=cmsrunsummary[4]
lumidataid=None
trgdataid=None
lumidataid=dataDML.guessLumiDataIdByRun(schema,run,lumitableName)
if lumidataid is None :
result[run]=None
continue
trgdataid=dataDML.guessTrgDataIdByRun(schema,run)
(lumirunnum,lumidata)=dataDML.lumiLSById(schema,lumidataid,beamstatus=beamstatus,withBXInfo=withBXInfo,bxAlgo=bxAlgo,withBeamIntensity=withBeamIntensity,tableName=lumilstableName)
if trgdataid is None :
trgdata={}
else:
(trgrunnum,trgdata)=dataDML.trgLSById(schema,trgdataid)
if not normval:#if norm cannot be decided , look for it according to context per run
normval=_decidenormForRun(schema,run)
perbunchnormval=float(normval)/float(1000)
if not normval:#still not found? resort to global default (should never come here)
normval=6370
perbunchnormval=6.37
print '[Warning] using default normalization '+str(normval)
perrunresult=[]
for lumilsnum,perlsdata in lumidata.items():
cmslsnum=perlsdata[0]
triggeredls=perlsdata[0]
if lslist is not None and cmslsnum not in lslist:
#cmslsnum=0
triggeredls=0
recordedlumi=0.0
instlumi=perlsdata[1]
instlumierror=perlsdata[2]
avglumi=instlumi*normval
calibratedlumi=avglumi
if lumitype=='HF' and finecorrections and finecorrections[run]:
if usecorrectionv2:
if driftcorrections and driftcorrections[run]:
calibratedlumi=lumiCorrections.applyfinecorrectionV2(avglumi,finecorrections[run][0],finecorrections[run][1],finecorrections[run][2],finecorrections[run][3],finecorrections[run][4],driftcorrections[run])
else:
calibratedlumi=lumiCorrections.applyfinecorrectionV2(avglumi,finecorrections[run][0],finecorrections[run][1],finecorrections[run][2],finecorrections[run][3],finecorrections[run][4],1.0)
else:
calibratedlumi=lumiCorrections.applyfinecorrection(avglumi,finecorrections[run][0],finecorrections[run][1],finecorrections[run][2])
if lumitype=='PIXEL' and finecorrections is not None:
calibratedlumi=finecorrections[run]*avglumi
calibratedlumierror=instlumierror*normval
bstatus=perlsdata[4]
begev=perlsdata[5]
numorbit=perlsdata[6]
startorbit=perlsdata[7]
timestamp=c.OrbitToTime(startTimeStr,startorbit,0)
lslen=lumip.lslengthsec()
deliveredlumi=calibratedlumi*lslen
recordedlumi=0.0
if triggeredls!=0:
if not trgdata.has_key(cmslsnum):
# triggeredls=0 #if no trigger, set back to non-cms-active ls
recordedlumi=0.0 # no trigger->nobeam recordedlumi=None
else:
deadcount=trgdata[cmslsnum][0] ##subject to change !!
bitzerocount=trgdata[cmslsnum][1]
bitzeroprescale=trgdata[cmslsnum][2]
deadfrac=trgdata[cmslsnum][3]
if deadfrac<0 or deadfrac>1.0:
deadfrac=1.0
#if float(bitzerocount)*float(bitzeroprescale)==0.0:
# deadfrac=1.0
#else:
# deadfrac=float(deadcount)/(float(bitzerocount)*float(bitzeroprescale))
#if deadfrac>1.0:
# deadfrac=1.0 #artificial correction in case of deadfrac>1
recordedlumi=deliveredlumi*(1.0-deadfrac)
del trgdata[cmslsnum][:]
bxdata=None
if withBXInfo:
bxinfo=perlsdata[8]
bxvalueArray=None
bxerrArray=None
bxidxlist=[]
bxvaluelist=[]
bxerrorlist=[]
if bxinfo:
bxvalueArray=bxinfo[0]
bxerrArray=bxinfo[1]
#if cmslsnum==1:
# print 'bxvalueArray ',bxvalueArray
for idx,bxval in enumerate(bxvalueArray):
if finecorrections and finecorrections[run]:
if usecorrectionv2:
if driftcorrections and driftcorrections[run]:
mybxval=lumiCorrections.applyfinecorrectionBXV2(bxval,avglumi,perbunchnormval,finecorrections[run][0],finecorrections[run][1],finecorrections[run][2],finecorrections[run][3],finecorrections[run][4],driftcorrections[run])
else:
mybxval=lumiCorrections.applyfinecorrectionBXV2(bxval,avglumi,perbunchnormval,finecorrections[run][0],finecorrections[run][1],finecorrections[run][2],finecorrections[run][3],finecorrections[run][4],1.0)
else:
mybxval=lumiCorrections.applyfinecorrectionBX(bxval,avglumi,perbunchnormval,finecorrections[run][0],finecorrections[run][1],finecorrections[run][2])
else:
mybxval=bxval*perbunchnormval
if mybxval>xingMinLum:
bxidxlist.append(idx)
bxvaluelist.append(mybxval)
bxerrorlist.append(bxerrArray[idx]*perbunchnormval)#no correciton on errors
del bxvalueArray[:]
del bxerrArray[:]
bxdata=(bxidxlist,bxvaluelist,bxerrorlist)
beamdata=None
if withBeamIntensity:
beaminfo=perlsdata[9]
bxindexlist=[]
b1intensitylist=[]
b2intensitylist=[]
if beaminfo:
bxindexarray=beaminfo[0]
beam1intensityarray=beaminfo[1]
beam2intensityarray=beaminfo[2]
bxindexlist=bxindexarray.tolist()
b1intensitylist=beam1intensityarray.tolist()
b2intensitylist=beam2intensityarray.tolist()
del bxindexarray[:]
del beam1intensityarray[:]
del beam2intensityarray[:]
beamdata=(bxindexlist,b1intensitylist,b2intensitylist)
perrunresult.append([lumilsnum,triggeredls,timestamp,bstatus,begev,deliveredlumi,recordedlumi,calibratedlumierror,bxdata,beamdata,fillnum])
del perlsdata[:]
result[run]=perrunresult
return result
def instLumiForRange(schema,inputRange,beamstatusfilter=None,withBXInfo=False,bxAlgo=None,xingMinLum=0.0,withBeamIntensity=False,lumitype='HF',branchName=None):
'''
DIRECTLY FROM ROOT FIME NO CORRECTION AT ALL
lumi raw data. beofore normalization and time integral
input:
inputRange {run:[cmsls]} (required)
beamstatus: LS filter on beamstatus (optional)
withBXInfo: get per bunch info (optional)
bxAlgo: algoname for bx values (optional) ['OCC1','OCC2','ET']
xingMinLum: cut on bx lumi value (optional)
withBeamIntensity: get beam intensity info (optional)
branchName: data version
output:
result {run:[lumilsnum(0),cmslsnum(1),timestamp(2),beamstatus(3),beamenergy(4),instlumi(5),instlumierr(6),startorbit(7),numorbit(8),(bxidx,bxvalues,bxerrs)(9),(bxidx,b1intensities,b2intensities)(10),fillnum(11)]}}
lumi unit: HZ/ub
'''
if lumitype not in ['HF','PIXEL']:
raise ValueError('unknown lumitype '+lumitype)
lumitableName=''
lumilstableName=''
if lumitype=='HF':
lumitableName=nameDealer.lumidataTableName()
lumilstableName=nameDealer.lumisummaryv2TableName()
else:
lumitableName=nameDealer.pixellumidataTableName()
lumilstableName=nameDealer.pixellumisummaryv2TableName()
result={}
for run in inputRange.keys():
lslist=inputRange[run]
if lslist is not None and len(lslist)==0:
result[run]=[]#if no LS is selected for a run
continue
runsummary=dataDML.runsummary(schema,run)
if len(runsummary)==0:#if run not found in runsummary
result[run]=None
continue
fillnum=runsummary[4]
runstarttimeStr=runsummary[6]
lumidataid=dataDML.guessLumiDataIdByRun(schema,run,lumitableName)
if lumidataid is None: #if run not found in lumidata
result[run]=None
continue
(lumirunnum,perlsresult)=dataDML.lumiLSById(schema,lumidataid,beamstatusfilter,withBXInfo=withBXInfo,bxAlgo=bxAlgo,withBeamIntensity=withBeamIntensity,tableName=lumilstableName)
lsresult=[]
c=lumiTime.lumiTime()
for lumilsnum in perlsresult.keys():
perlsdata=perlsresult[lumilsnum]
cmslsnum=perlsdata[0]
if lslist is not None and lumilsnum not in lslist:
cmslsnum=0
numorbit=perlsdata[6]
startorbit=perlsdata[7]
orbittime=c.OrbitToTime(runstarttimeStr,startorbit,0)
instlumi=perlsdata[1]
instlumierr=perlsdata[2]
beamstatus=perlsdata[4]
beamenergy=perlsdata[5]
bxidxlist=[]
bxvaluelist=[]
bxerrorlist=[]
bxdata=None
beamdata=None
if withBXInfo:
bxinfo=perlsdata[8]
bxvalueArray=None
bxerrArray=None
if bxinfo:
bxvalueArray=bxinfo[0]
bxerrArray=bxinfo[1]
for idx,bxval in enumerate(bxvalueArray):
if bxval>xingMinLum:
bxidxlist.append(idx)
bxvaluelist.append(bxval)
bxerrorlist.append(bxerrArray[idx])
del bxvalueArray[:]
del bxerrArray[:]
bxdata=(bxidxlist,bxvaluelist,bxerrorlist)
if withBeamIntensity:
beaminfo=perlsdata[9]
bxindexlist=[]
b1intensitylist=[]
b2intensitylist=[]
if beaminfo[0] and beaminfo[1] and beaminfo[2]:
bxindexarray=beaminfo[0]
beam1intensityarray=beaminfo[1]
beam2intensityarray=beaminfo[2]
bxindexlist=bxindexarray.tolist()
b1intensitylist=beam1intensityarray.tolist()
b2intensitylist=beam2intensityarray.tolist()
del bxindexarray[:]
del beam1intensityarray[:]
del beam2intensityarray[:]
beamdata=(bxindexlist,b1intensitylist,b2intensitylist)
lsresult.append([lumilsnum,cmslsnum,orbittime,beamstatus,beamenergy,instlumi,instlumierr,startorbit,numorbit,bxdata,beamdata,fillnum])
del perlsdata[:]
result[run]=lsresult
return result
def createTables(schema):
'''
create new tables if not exist
revisions,revisions_id,luminorms,luminorms_entries,luminorms_entries_id,fillscheme
'''
try:
created = []
db = dbUtil.dbUtil(schema)
if not schema.existsTable(nameDealer.fillschemeTableName()):
print('creating fillscheme table')
fillschemeTab = coral.TableDescription()
fillschemeTab.setName(nameDealer.fillschemeTableName())
fillschemeTab.insertColumn('FILLSCHEME_ID', 'unsigned long long')
fillschemeTab.insertColumn('FILLSCHEMEPATTERN', 'string', 128,
False)
fillschemeTab.insertColumn('CORRECTIONFACTOR', 'float')
fillschemeTab.setPrimaryKey('FILLSCHEME_ID')
db.createTable(fillschemeTab, withIdTable=True)
created.append(nameDealer.fillschemeTableName())
if not schema.existsTable(nameDealer.revisionTableName()):
print('creating revisions table')
revisionsTab = coral.TableDescription()
revisionsTab.setName(nameDealer.revisionTableName())
revisionsTab.insertColumn('REVISION_ID', 'unsigned long long')
revisionsTab.insertColumn('BRANCH_ID', 'unsigned long long')
revisionsTab.insertColumn('NAME', 'string', 56, False)
revisionsTab.insertColumn('BRANCH_NAME', 'string', 56, False)
revisionsTab.insertColumn('COMMENT', 'string', 1024, False)
revisionsTab.insertColumn('CTIME', 'time stamp', 6)
revisionsTab.setPrimaryKey('REVISION_ID')
revisionsTab.setUniqueConstraint(('NAME'))
db.createTable(revisionsTab, withIdTable=True)
created.append(nameDealer.revisionTableName())
if not schema.existsTable(nameDealer.luminormTableName()):
print('creating luminorms table')
luminormsTab = coral.TableDescription()
luminormsTab.setName(nameDealer.luminormTableName())
luminormsTab.insertColumn('DATA_ID', 'unsigned long long')
luminormsTab.insertColumn('ENTRY_ID', 'unsigned long long')
luminormsTab.insertColumn('ENTRY_NAME', 'string', 56, False)
luminormsTab.insertColumn('AMODETAG', 'string', 28, False)
luminormsTab.insertColumn('NORM_1', 'float')
luminormsTab.insertColumn('EGEV_1', 'unsigned int')
luminormsTab.insertColumn('NORM_2', 'float')
luminormsTab.insertColumn('EGEV_2', 'unsigned int')
luminormsTab.setPrimaryKey('DATA_ID')
db.createTable(luminormsTab,
withIdTable=True,
withEntryTables=True,
withRevMapTable=True)
created.append(nameDealer.luminormTableName())
if not schema.existsTable(nameDealer.lumidataTableName()):
print('creating lumidata table')
lumidataTab = coral.TableDescription()
lumidataTab.setName(nameDealer.lumidataTableName())
lumidataTab.insertColumn('DATA_ID', 'unsigned long long')
lumidataTab.insertColumn('ENTRY_ID', 'unsigned long long')
lumidataTab.insertColumn('ENTRY_NAME', 'string', 56, False)
lumidataTab.insertColumn('SOURCE', 'string', 128, False)
lumidataTab.insertColumn('RUNNUM', 'unsigned int')
lumidataTab.insertColumn('NOMINALEGEV', 'float')
lumidataTab.setPrimaryKey('DATA_ID')
db.createTable(lumidataTab,
withIdTable=True,
withEntryTables=True,
withRevMapTable=True)
created.append(nameDealer.lumidataTableName())
if not schema.existsTable(nameDealer.lumisummaryv2TableName()):
print('creating lumisummaryv2 table')
summary = coral.TableDescription()
summary.setName(nameDealer.lumisummaryv2TableName())
summary.insertColumn('DATA_ID', 'unsigned long long')
summary.insertColumn('RUNNUM', 'unsigned int')
summary.insertColumn('LUMILSNUM', 'unsigned int')
summary.insertColumn('CMSLSNUM', 'unsigned int')
summary.insertColumn('INSTLUMI', 'float')
summary.insertColumn('INSTLUMIERROR', 'float')
summary.insertColumn('INSTLUMIQUALITY', 'short')
summary.insertColumn('BEAMSTATUS', 'string', 28, False)
summary.insertColumn('BEAMENERGY', 'float')
summary.insertColumn('NUMORBIT', 'unsigned int')
summary.insertColumn('STARTORBIT', 'unsigned int')
summary.insertColumn('CMSBXINDEXBLOB', 'blob')
summary.insertColumn('BEAMINTENSITYBLOB_1', 'blob')
summary.insertColumn('BEAMINTENSITYBLOB_2', 'blob')
summary.insertColumn('BXLUMIVALUE_OCC1', 'blob')
summary.insertColumn('BXLUMIVALUE_OCC2', 'blob')
summary.insertColumn('BXLUMIVALUE_ET', 'blob')
summary.insertColumn('BXLUMIERROR_OCC1', 'blob')
summary.insertColumn('BXLUMIERROR_OCC2', 'blob')
summary.insertColumn('BXLUMIERROR_ET', 'blob')
summary.insertColumn('BXLUMIQUALITY_OCC1', 'blob')
summary.insertColumn('BXLUMIQUALITY_OCC2', 'blob')
summary.insertColumn('BXLUMIQUALITY_ET', 'blob')
summary.setPrimaryKey(('DATA_ID', 'LUMILSNUM'))
db.createTable(summary, withIdTable=False)
created.append(nameDealer.lumisummaryv2TableName())
#
# This table exists in the old schema
#
if not schema.existsTable(nameDealer.cmsrunsummaryTableName()):
print('creating cmsrunsummary table')
cmsrunsummary = coral.TableDescription()
cmsrunsummary.setName(nameDealer.cmsrunsummaryTableName())
cmsrunsummary.insertColumn('RUNNUM', 'unsigned int')
cmsrunsummary.insertColumn('HLTKEY', 'string', 128, False)
cmsrunsummary.insertColumn('L1KEY', 'string', 128, False)
cmsrunsummary.insertColumn('FILLNUM', 'unsigned int')
cmsrunsummary.insertColumn('SEQUENCE', 'string', 56, False)
cmsrunsummary.insertColumn('STARTTIME', 'time stamp', 6)
cmsrunsummary.insertColumn('STOPTIME', 'time stamp', 6)
cmsrunsummary.insertColumn('EGEV', 'unsigned int')
cmsrunsummary.insertColumn('AMODETAG', 'string', 28, False)
cmsrunsummary.insertColumn('FILLSCHEME', 'string', 128, False)
cmsrunsummary.insertColumn('NCOLLIDINGBUNCHES', 'usigned int')
cmsrunsummary.setPrimaryKey('RUNNUM')
db.createTable(cmsrunsummary, withIdTable=False)
created.append(nameDealer.cmsrunsummaryTableName())
#
# This table exists in the old schema
#
if not schema.existsTable(nameDealer.trghltMapTableName()):
print('creating trghltmap table')
trghlt = coral.TableDescription()
trghlt.setName(nameDealer.trghltMapTableName())
trghlt.insertColumn('HLTKEY', 'string', 128, False)
trghlt.insertColumn('HLTPATHNAME', 'string', 256, False)
trghlt.insertColumn('L1SEED', 'string', 1024, False)
trghlt.setNotNullConstraint('HLTKEY', True)
trghlt.setNotNullConstraint('HLTPATHNAME', True)
trghlt.setNotNullConstraint('L1SEED', True)
db.createTable(trghlt, withIdTable=False)
created.append(nameDealer.trghltMapTableName())
if not schema.existsTable(nameDealer.trgdataTableName()):
print('creating trgdata table')
trgdataTab = coral.TableDescription()
trgdataTab.setName(nameDealer.trgdataTableName())
trgdataTab.insertColumn('DATA_ID', 'unsigned long long')
trgdataTab.insertColumn('ENTRY_ID', 'unsigned long long')
trgdataTab.insertColumn('ENTRY_NAME', 'string', 56, False)
trgdataTab.insertColumn('SOURCE', 'string', 128, False)
trgdataTab.insertColumn('RUNNUM', 'unsigned int')
trgdataTab.insertColumn('BITZERONAME', 'string', 56, False)
trgdataTab.insertColumn('BITNAMECLOB', 'string', 6000)
trgdataTab.setPrimaryKey('DATA_ID')
db.createTable(trgdataTab,
withIdTable=True,
withEntryTables=True,
withRevMapTable=True)
created.append(nameDealer.trgdataTableName())
if not schema.existsTable(nameDealer.lstrgTableName()):
print('creating lstrg table')
lstrgTab = coral.TableDescription()
lstrgTab.setName(nameDealer.lstrgTableName())
lstrgTab.insertColumn('DATA_ID', 'unsigned long long')
lstrgTab.insertColumn('RUNNUM', 'unsigned int')
lstrgTab.insertColumn('CMSLSNUM', 'unsigned int')
lstrgTab.insertColumn('DEADTIMECOUNT', 'unsigned long long')
lstrgTab.insertColumn('BITZEROCOUNT', 'unsigned int')
lstrgTab.insertColumn('BITZEROPRESCALE', 'unsigned int')
lstrgTab.insertColumn('DEADFRAC', 'float')
lstrgTab.insertColumn('PRESCALEBLOB', 'blob')
lstrgTab.insertColumn('TRGCOUNTBLOB', 'blob')
lstrgTab.setPrimaryKey(('DATA_ID', 'CMSLSNUM'))
db.createTable(lstrgTab, withIdTable=False)
created.append(nameDealer.lstrgTableName())
if not schema.existsTable(nameDealer.hltdataTableName()):
print('creating hltdata table')
hltdataTab = coral.TableDescription()
hltdataTab.setName(nameDealer.hltdataTableName())
hltdataTab.insertColumn('DATA_ID', 'unsigned long long')
hltdataTab.insertColumn('ENTRY_ID', 'unsigned long long')
hltdataTab.insertColumn('ENTRY_NAME', 'string', 56, False)
hltdataTab.insertColumn('RUNNUM', 'unsigned int')
hltdataTab.insertColumn('SOURCE', 'string', 128, False)
hltdataTab.insertColumn('NPATH', 'unsigned int')
hltdataTab.insertColumn('PATHNAMECLOB', 'string', 6000)
hltdataTab.setPrimaryKey('DATA_ID')
db.createTable(hltdataTab,
withIdTable=True,
withEntryTables=True,
withRevMapTable=True)
created.append(nameDealer.hltTableName())
if not schema.existsTable(nameDealer.lshltTableName()):
print('creating lshlt table')
lshltTab = coral.TableDescription()
lshltTab.setName(nameDealer.lshltTableName())
lshltTab.insertColumn('DATA_ID', 'unsigned long long')
lshltTab.insertColumn('RUNNUM', 'unsigned int')
lshltTab.insertColumn('CMSLSNUM', 'unsigned int')
lshltTab.insertColumn('PRESCALEBLOB', 'blob')
lshltTab.insertColumn('HLTCOUNTBLOB', 'blob')
lshltTab.insertColumn('HLTACCEPTBLOB', 'blob')
db.createTable(lshltTab, withIdTable=False)
lshltTab.setPrimaryKey(('DATA_ID', 'CMSLSNUM'))
created.append(nameDealer.lshltTableName())
if not schema.existsTable(nameDealer.lumivalidationTableName()):
print('creating lumivalidation table')
lumivalidation = coral.TableDescription()
lumivalidation.setName(nameDealer.lumivalidationTableName())
lumivalidation.insertColumn('RUNNUM', 'unsigned int')
lumivalidation.insertColumn('CMSLSNUM', 'unsigned int')
lumivalidation.insertColumn('FLAG', 'string', 28, False)
lumivalidation.insertColumn('COMMENT', 'string', 1024, False)
lumivalidation.setPrimaryKey(('RUNNUM', 'CMSLSNUM'))
lumivalidation.setNotNullConstraint('FLAG', True)
db.createTable(lumivalidation, withIdTable=False)
created.append(nameDealer.lumivalidationTableName())
return created
except:
raise
