import os,sys
from pyqtgraph.Qt import QtGui, QtCore
# requires pyqtgraph, pandas, ROOT, rootpy
from pylard.pylardisplay.opdetdisplay import OpDetDisplay
from pylard.pylardata.wfopdata import WFOpData
app = QtGui.QApplication([])
# expects 'raw_wf_tree'
#fname='/Users/twongjirad/working/uboone/data/FlasherData_080115/wf_run001.root'
#fname='/Users/twongjirad/working/uboone/data/FlasherData_080715/wf_run003.root'
fname='/Users/twongjirad/working/uboone/data/FlasherData_080115/wf_run005.root'
opdata = WFOpData( fname )
opdisplay = OpDetDisplay( opdata )
opdisplay.show()
if __name__ == '__main__':
import sys
if (sys.flags.interactive != 1) or not hasattr(QtCore, 'PYQT_VERSION'):
QtGui.QApplication.instance().exec_()
#from pysubevent.pysubevent.subeventdisc import subeventdiscConfig, runSubEventDisc, runSubEventDiscChannel #import pysubevent.utils.pedestal as ped # expects 'raw_wf_tree' #fname='/Users/twongjirad/working/uboone/data/FlasherData_080115/wf_run001.root' #fname='/Users/twongjirad/working/uboone/data/FlasherData_080715/wf_run004.root' #fname='/Users/twongjirad/working/uboone/data/FlasherData_080115/wf_run005.root' #fname='/Users/twongjirad/working/uboone/data/FlasherData_082715/wf_run000.root' #fname='/Users/twongjirad/working/uboone/data/FlasherData_080115/wf_run001.root' #fname='/Users/twongjirad/working/uboone/data/pmtratedata/run2617_filterreconnect_subrun2.root' fname = "../data/pmttriggerdata/run3090_pmtrawdigits.root" #fname='/Users/twongjirad/working/uboone/mc/low_energy_protons.root' #fname="/Users/twongjirad/working/uboone/data/pmttriggerdata/run2213_pmtrawdigits.root" #fname='wf_run001.root' #fname = "/Users/twongjirad/working/uboone/data/splittermodtest/run2083_pmtonly_rawdigits.root" #fname='wf_test123_pt_trig.root' #fname="/Users/twongjirad/working/uboone/data/20150909_CosmicDiscTuning/wf_run007.root" #opdata = WFOpData( fname ) #fname='/Users/twongjirad/working/uboone/data/DAQTest_081315/raw_digits_1387.root' #fname='/Users/twongjirad/working/uboone/data/LightLeakData/20150818/rawdigits.pmtonly.noiserun.1573.0000.root' #fname='/Users/twongjirad/working/uboone/data/LightLeakData/20150818/rawdigits.pmtonly.noiserun.1574.0000.root' #fname="../data/pmttriggerdata/run1807_pmtrawdigits.root" #fname="/Users/twongjirad/working/uboone/data/pmtbglight/run2228_pmtrawdigits_subrun0.root" opdata = RawDigitsOpData(fname) app = QtGui.QApplication([]) opdisplay = OpDetDisplay(opdata) opdisplay.show()
from pylard.pylardata.rawdigitsopdata import WFOpData #sub-event code from cfdiscriminator import cfdiscConfig, runCFdiscriminator from femsim import FEMconfig, runFEMsim, runFEMsimChannel app = QtGui.QApplication([]) # expects 'raw_wf_tree' #fname='/Users/twongjirad/working/uboone/data/FlasherData_080115/wf_run001.root' #fname='/Users/twongjirad/working/uboone/data/FlasherData_080715/wf_run004.root' fname='/Users/twongjirad/working/uboone/data/FlasherData_080115/wf_run005.root' opdata = WFOpData( fname ) opdisplay = OpDetDisplay( opdata ) opdisplay.show() #opdisplay.setOverlayMode( True ) #opdisplay.selectChannels( [3] ) #opdisplay.gotoEvent( 0 ) #wf = opdata.opdetdigi[:,3] #print wf #discr0 = cfdiscConfig( configfile="discr0.cfg" ) #triggers = runCFdiscriminator( wf, discr0 ) #print triggers #femconfig = FEMconfig( "config/fem.cfg" ) #femtriggers, femmaxadc = runFEMsimChannel( wf, femconfig, 3, femconfig.spe )
else:
print runpts[tvalues[pt] ][0]," & ", runpts[tvalues[pt] ][1]," & %.2f"%(t)," & %.0f"%(runmarkerypos[pt]),"\\\\"
lastt = t
label.SetNDC()
label.SetTextSize(1)
label.SetTextColor(1)
label.Draw("same")
labels.append( label )
c.SaveAs( "figs/filterreconnect/filterreconnect_annotated.pdf" )
# plot rate over tubes
from pyqtgraph.Qt import QtGui, QtCore
app = QtGui.QApplication([])
import pyqtgraph as pg
from pylard.pylardisplay.opdetdisplay import OpDetDisplay
opdisplay = OpDetDisplay( None )
opdisplay.show()
channeldata = {}
for ch in range(0,32):
rate = eventrate[ch][ tvalues[-1] ]
y = (rate-150.0)/150.0
channeldata[ch] = y
print ch,rate
opdisplay.setPMTdiagramValues( channeldata )
raw_input()
def calc_rates( inputfile, nevents, outfile, wffile=False, rawdigitfile=False, VISUALIZE=False ):
# check that the data file type was selected
if wffile==False and rawdigitfile==False:
print "Select either wffile or rawdigitfile"
return
# load data
if wffile==True:
opdata = WFOpData( inputfile )
elif rawdigitfile==True:
opdata = RawDigitsOpData( inputfile )
out = rt.TFile( outfile, "RECREATE" )
# Event tree
eventtree = rt.TTree("eventtree","PMT Rates")
event = array('i',[0])
samples = array('i',[0])
nfires = array('i',[0]*NCHANS)
echmax = array('f',[0])
eventtree.Branch( 'event', event,'event/I' )
eventtree.Branch( 'samples', samples, 'samples/I' )
eventtree.Branch( 'nfires', nfires, 'nfires[%d]/I'%(NCHANS) )
eventtree.Branch( 'chmax', echmax, 'chmax/F' )
# Pulse Tree
pulsetree = rt.TTree("pulsetree","PMT Rates")
pch = array('i',[0])
pt = array( 'f',[0] )
pwindt = array( 'f',[0] )
pchdt = array( 'f',[0] )
pmaxamp = array('f',[0])
ped = array('f',[0])
pchmaxamp = array('f',[0])
parea = array('f',[0])
pulsetree.Branch( 'event', event, 'event/I' )
pulsetree.Branch( 'ch',pch,'ch/I' )
pulsetree.Branch( 't',pt,'t/F' )
pulsetree.Branch( 'windt',pwindt,'windt/F' )
pulsetree.Branch( 'chdt',pchdt,'chdt/F' )
pulsetree.Branch( 'amp',pmaxamp,'amp/F' )
pulsetree.Branch( 'area',parea,'area/F' )
pulsetree.Branch( "ped",ped,"ped/F")
pulsetree.Branch( 'chmaxamp',pchmaxamp,'chmaxamp/F' )
first_event = opdata.first_event
if VISUALIZE and PYQTGRAPH:
opdisplay = OpDetDisplay( opdata )
opdisplay.show()
more = opdata.getEvent( first_event )
ievent = first_event
#for ievent in range(first_event,first_event+nevents+1):
while more:
if ievent%50==0:
print "Event: ",ievent
event[0] = ievent
if VISUALIZE:
more = opdisplay.gotoEvent( ievent )
# for each event gather disc fires and sort by time
event_times = []
event_discs = {}
echmax[0] = 0
chpedestals = {}
chmaxamps = {}
for femch in range(0,NCHANS):
wfm = opdata.getData(slot=5)[:,femch]
discs = runCFdiscriminator( wfm, cfdsettings )
theped = getpedestal( wfm, 10, 2 )
if theped is None:
ped[0] = 2048.0
else:
ped[0] = theped
chpedestals[femch] = ped[0]
nfires[femch] = len(discs)
pch[0] = femch
pchmaxamp[0] = np.max( wfm - ped[0] )
chmaxamps[femch] = pchmaxamp[0]
if echmax[0]<pchmaxamp[0]:
echmax[0] = pchmaxamp[0]
samples[0] = len(wfm)
pchdt[0] = -1
pmaxamp[0] = 0
if len(discs)==0:
print "Discriminator found zero pusles in channel=",femch," event=",event[0]
for idisc,disc in enumerate(discs):
disc.ch = femch
t = disc.tfire + 0.01*disc.ch # the channel number is just to keep a unique tag
event_times.append( t )
event_discs[t] = disc
tdisc = disc.tfire
disc.pmaxamp = np.max( wfm[tdisc:tdisc+cfdsettings.deadtime]-ped[0] )
pped = getpedestal( wfm[ np.maximum(0,tdisc-20):tdisc ] , 5, 2 )
if pped is None:
pped = ped[0]
disc.parea = np.sum( wfm[tdisc:tdisc+cfdsettings.deadtime] ) - cfdsettings.deadtime*pped
if idisc>0:
disc.pchdt = tdisc - discs[idisc-1].tfire
else:
disc.pchdt = -1
if VISUALIZE and PYQTGRAPH:
discfire = pg.PlotCurveItem()
x = np.linspace( 15.625*(tdisc-5), 15.625*(tdisc+5+cfdsettings.deadtime), cfdsettings.deadtime+10 )
y = np.ones( cfdsettings.deadtime+10 )*femch
y[5:5+cfdsettings.deadtime] += 2
discfire.setData( x=x, y=y, pen=(255,0,0,255) )
opdisplay.addUserWaveformItem( discfire, femch )
event_times.sort()
for idisc,t in enumerate(event_times):
disc = event_discs[t]
pch[0] = disc.ch
pt[0] = disc.tfire
pmaxamp[0] = disc.pmaxamp
pchdt[0] = disc.pchdt
ped[0] = chpedestals[disc.ch]
pchmaxamp[0] = chmaxamps[disc.ch]
parea[0] = disc.parea
if idisc==0:
pwindt[0] = -1
else:
pwindt[0] = disc.tfire-event_discs[ event_times[idisc-1] ].tfire
pulsetree.Fill()
if VISUALIZE:
print "please enjoy plot"
raw_input()
eventtree.Fill()
more = opdata.getNextEvent()
ievent = opdata.current_event
if not more:
print "no more"
break
eventtree.Write()
pulsetree.Write()
print 'loading QtGui.QApplication'
# expects 'raw_wf_tree'
#fname='~/uBooNE/data/PMTCommissioning/wf_000.root'
fname= sys.argv[1]
#fname = sys.argv[1]
print 'call WFOpData()'
#opdata = WFOpData( fname )
opdata = RawDigitsOpData( fname )
#opdata = RawDigitsOpData(fname)
app = QtGui.QApplication([])
print 'call OpDetDisplay()'
opdisplay = OpDetDisplay( opdata )
print opdisplay
print type(opdisplay)
print 'call show()'
opdisplay.setGeometry(500,300,1200,800)
opdisplay.setFocus()
#opdisplay.show()
print 'call main'
if __name__ == '__main__':
import sys
if (sys.flags.interactive != 1) or not hasattr(QtCore, 'PYQT_VERSION'):
print "exec called ..."
opdisplay.show()
else:
print runpts[tvalues[pt]][0], " & ", runpts[tvalues[pt]][
1], " & %.2f" % (t), " & %.0f" % (runmarkerypos[pt]), "\\\\"
lastt = t
label.SetNDC()
label.SetTextSize(1)
label.SetTextColor(1)
label.Draw("same")
labels.append(label)
c.SaveAs("figs/filterreconnect/filterreconnect_annotated.pdf")
# plot rate over tubes
from pyqtgraph.Qt import QtGui, QtCore
app = QtGui.QApplication([])
import pyqtgraph as pg
from pylard.pylardisplay.opdetdisplay import OpDetDisplay
opdisplay = OpDetDisplay(None)
opdisplay.show()
channeldata = {}
for ch in range(0, 32):
rate = eventrate[ch][tvalues[-1]]
y = (rate - 150.0) / 150.0
channeldata[ch] = y
print ch, rate
opdisplay.setPMTdiagramValues(channeldata)
raw_input()
