CMS 3D CMS Logo

Classes | Functions | Variables

plotscripts Namespace Reference

Classes

class  SawTeethFunction

Functions

def addToTestResults
def availableCellsCSC
def availableCellsDT
def bellcurves
def clearDDT
def corrections2D
 makes a scatterplot of corrections coming either from reports (if xml geometries are None) or from geometryX and geometryY (WRT the common initial geometry0)
def createPeaksProfile
def curvatureDTsummary
def curvatureplot
 "param" may be one of "deltax" (Delta x position residuals), "deltadxdz" (Delta (dx/dz) angular residuals), "curverr" (Delta x * d(Delta q/pT)/d(Delta x) = Delta q/pT in the absence of misalignment)
def DBdiff
def DBdiffVersus
def DBMC
def DBMCVersus
def doTests
def doTestsForMapPlots
def doTestsForReport
def getname
def getReportByPostalAddress
def idToPostalAddress
def loadTestResultsMap
def mapNameToId
def mapplot
def mean
def nameToId
def phiedges2c
def philines
def plotmedians
def polynomials
def postalAddressToId
def printDeltaTs
def rlines
def rms
def saveTestResultsMap
def segdiff
def segdiff_xalign
def segdiffvsphi
def segdiffvsphi_xalign
def segdiffvsphicsc
def set_palette
def setTDRStyle
def stationIndex
def stdev
def testDeltaWithin5Sigma
def testEntry
def testZeroWithin5Sigma
def wheel0only
def wheelLetter
def wheelm1only
def wheelm2only
 Convenience functions.
def wheelNumber
def wheelp1only
def wheelp2only
def wmean
def writeDQMReport
def zlines

Variables

 CPP_LOADED = False
list DQM_SEVERITY
dictionary MAP_RESULTS_BINS = {}
dictionary MAP_RESULTS_FITSIN = {}
dictionary MAP_RESULTS_SAWTOOTH = {}
list phiedges
list phiedgesCSC18 = [pi/180.*(-5. + 20.*i) for i in range(18)]
list phiedgesCSC36 = [pi/180.*(-5. + 10.*i) for i in range(36)]
 sector phi edges in: me11 me12 me13 me14 me21 me22 me31 me32 me41 me42 mb1 mb2 mb3 mb4 index: 0 1 2 3 4 5 6 7 8 9 10 11 12 13
 tdrStyle = None
dictionary TEST_RESULTS = {}

Function Documentation

def plotscripts::addToTestResults (   c,
  res 
)

Definition at line 1032 of file plotscripts.py.

01033                            :
01034   if len(res)>0:
01035     if TEST_RESULTS.has_key(c): TEST_RESULTS[c].extend(res)
01036     else: TEST_RESULTS[c] = res
01037 

def plotscripts::availableCellsCSC (   reports)

Definition at line 965 of file plotscripts.py.

00966                               :
00967   cscs = []
00968   # CSC station
00969   for endcap in CSC_TYPES:
00970     for station in endcap[2]:
00971       cscs.append("%s%s" % (endcap[0], station[1]))
00972   # CSC station & ring 
00973   for endcap in CSC_TYPES:
00974     for station in endcap[2]:
00975       for ring in station[2]:
00976         if ring[1]=="ALL": continue
00977         #label = "CSCvsphi_me%s%s%s" % (endcap[1], station[1], ring[1])
00978         cscs.append("%s%s/%s" % (endcap[0], station[1],ring[1]))
00979   # CSC station and chamber
00980   for endcap in CSC_TYPES:
00981     for station in endcap[2]:
00982       for ring in station[2]:
00983         if ring[1]!="ALL": continue
00984         for chamber in range(1,ring[2]+1):
00985           #label = "CSCvsr_me%s%sch%02d" % (endcap[1], station[1], chamber)
00986           cscs.append("%s%s/ALL/%02d" % (endcap[0], station[1],chamber))
00987   # CSC station and ALL chambers
00988   for endcap in CSC_TYPES:
00989     for station in endcap[2]:
00990       for ring in station[2]:
00991         if ring[1]!="ALL": continue
00992         #label = "CSCvsr_me%s%schALL" % (endcap[1], station[1])
00993         cscs.append("%s%s/ALL" % (endcap[0], station[1]))
00994   # CSC chambers
00995   for endcap in CSC_TYPES:
00996     for station in endcap[2]:
00997       for ring in station[2]:
00998         if ring[1]=="ALL": continue
00999         for chamber in range(1,ring[2]+1):
01000           # exclude non instrumented ME4/2 
01001           if station[1]=="4" and ring[1]=="2":
01002             if endcap[1]=="m": continue
01003             if chamber<9 or chamber>13: continue
01004           schamber = "%02d" % chamber
01005           label = "ME%s%s%s_%s" % (endcap[1], station[1], ring[1], schamber)
01006           if len(reports)==0:
01007             # no reports case: do not include chambers 
01008             #cscs.append(endcap[0]+station[1]+'/'+ring[1]+'/'+schamber)
01009             continue
01010           found = False
01011           for r in reports:
01012             if r.name == label:
01013               found = True
01014               break
01015           if not found: continue
01016           if r.status == "TOOFEWHITS" and r.posNum+r.negNum==0: continue
01017           if r.status == "NOFIT": continue
01018           cscs.append(endcap[0]+station[1]+'/'+ring[1]+'/'+schamber)
01019   return cscs
01020 

def plotscripts::availableCellsDT (   reports)

Definition at line 919 of file plotscripts.py.

00920                              :
00921   dts = []
00922   # DT wheels
00923   for iwheel in DT_TYPES:
00924     if iwheel[1]=="ALL": continue
00925     dts.append(iwheel[0])
00926   # DT wheel & station
00927   for wheel in DT_TYPES:
00928     if wheel[1]=="ALL": continue
00929     for station in wheel[2]:
00930       dts.append(wheel[0]+'/'+station[1])
00931   # DT station & sector 
00932   for wheel in DT_TYPES:
00933     if wheel[1]!="ALL": continue
00934     for station in wheel[2]:
00935       for sector in range(1,station[2]+1):
00936         ssector = "%02d" % sector
00937         dts.append(wheel[0]+'/'+station[1]+'/'+ssector)
00938   # DT station & ALL sectors 
00939   for wheel in DT_TYPES:
00940     if wheel[1]!="ALL": continue
00941     for station in wheel[2]:
00942         dts.append(wheel[0]+'/'+station[1])
00943   # DT chambers
00944   for wheel in DT_TYPES:
00945     if wheel[1]=="ALL": continue
00946     for station in wheel[2]:
00947       for sector in range(1,station[2]+1):
00948         ssector = "%02d" % sector
00949         label = "MBwh%sst%ssec%s" % (wheelLetter(int(wheel[1])),station[1],ssector)
00950         if len(reports)==0:
00951           # no reports case: do not include chambers 
00952           #dts.append(wheel[0]+'/'+station[1]+'/'+ssector)
00953           continue
00954         found = False
00955         for r in reports:
00956           if r.name == label:
00957             found = True
00958             break
00959         if not found: continue
00960         if r.status == "TOOFEWHITS" and r.posNum+r.negNum==0: continue
00961         if r.status == "NOFIT": continue
00962         dts.append(wheel[0]+'/'+station[1]+'/'+ssector)
00963   return dts
00964 

def plotscripts::bellcurves (   tfile,
  reports,
  name,
  twobin = True,
  suppressblue = False 
)

Definition at line 2053 of file plotscripts.py.

02054                                                                      :
02055     t1 = time.time()
02056     ddt[0] += 1
02057     tdrStyle.SetOptTitle(1)
02058     tdrStyle.SetTitleBorderSize(1)
02059     tdrStyle.SetTitleFontSize(0.1)
02060     tdrStyle.SetOptStat(0)
02061     tdrStyle.SetHistMinimumZero()
02062 
02063     c1.Clear()
02064     c1.ResetAttPad()
02065 
02066     found = False
02067     for r in reports:
02068         if r.name == name:
02069             found = True
02070             break
02071     if not found: raise Exception, "Not a valid name"
02072     if r.status == "FAIL":
02073         #raise Exception, "Fit failed"
02074         print "Fit failed"
02075         c1.Clear()
02076         return
02077     
02078     Pos = "Pos"; Neg = "Neg"
02079     if not twobin:
02080         Pos = ""; Neg = ""
02081 
02082     pdirPos = "MuonAlignmentFromReference/%s%s" % (name, Pos)
02083     pdirNeg = "MuonAlignmentFromReference/%s%s" % (name, Neg)
02084 
02085     t2 = time.time()
02086     ddt[1] = 1./ddt[0]*((ddt[0]-1)*ddt[1] + t2-t1)
02087 
02088     chamber_x = tfile.Get(pdirPos+"_x")
02089     chamber_x_fit = tfile.Get(pdirPos+"_x_fit")
02090     chamber_y = tfile.Get(pdirPos+"_y")
02091     chamber_y_fit = tfile.Get(pdirPos+"_y_fit")
02092     chamber_dxdz = tfile.Get(pdirPos+"_dxdz")
02093     chamber_dxdz_fit = tfile.Get(pdirPos+"_dxdz_fit")
02094     chamber_dydz = tfile.Get(pdirPos+"_dydz")
02095     chamber_dydz_fit = tfile.Get(pdirPos+"_dydz_fit")
02096     chamber_alphax = tfile.Get(pdirPos+"_alphax")
02097     chamber_alphax_fit = tfile.Get(pdirPos+"_alphax_fit")
02098     chamber_alphay = tfile.Get(pdirPos+"_alphay")
02099     chamber_alphay_fit = tfile.Get(pdirPos+"_alphay_fit")
02100     if twobin:
02101       chamber_x_fit2 = tfile.Get(pdirNeg+"_x_fit")
02102       chamber_y_fit2 = tfile.Get(pdirNeg+"_y_fit")
02103       chamber_dxdz_fit2 = tfile.Get(pdirNeg+"_dxdz_fit")
02104       chamber_dydz_fit2 = tfile.Get(pdirNeg+"_dydz_fit")
02105       chamber_alphax_fit2 = tfile.Get(pdirNeg+"_alphax_fit")
02106       chamber_alphay_fit2 = tfile.Get(pdirNeg+"_alphay_fit")
02107 
02108     if not chamber_x:
02109         chamber_x = tfile.Get(pdirPos+"_residual")
02110         chamber_x_fit = tfile.Get(pdirPos+"_residual_fit")
02111         chamber_dxdz = tfile.Get(pdirPos+"_resslope")
02112         chamber_dxdz_fit = tfile.Get(pdirPos+"_resslope_fit")
02113         chamber_alphax = tfile.Get(pdirPos+"_alpha")
02114         chamber_alphax_fit = tfile.Get(pdirPos+"_alpha_fit")
02115         if twobin:
02116           chamber_x_fit2 = tfile.Get(pdirNeg+"_residual_fit")
02117           chamber_dxdz_fit2 = tfile.Get(pdirNeg+"_resslope_fit")
02118           chamber_alphax_fit2 = tfile.Get(pdirNeg+"_alpha_fit")
02119 
02120     if not chamber_x:
02121         print "Can't find neither "+pdirPos+"_x  nor "+pdirPos+"_residual"
02122         return
02123 
02124     t3 = time.time()
02125     ddt[2] = 1./ddt[0]*((ddt[0]-1)*ddt[2] + t3-t2)
02126 
02127     ####
02128     chamber_x.SetAxisRange(-50., 50., "X")
02129     if chamber_x.GetRMS()>15: chamber_x.SetAxisRange(-75., 75., "X")
02130     chamber_dxdz.SetAxisRange(-30., 30., "X")
02131     chamber_alphax.SetAxisRange(-50., 50., "X")
02132     if not not chamber_y:
02133         chamber_y.SetAxisRange(-75., 75., "X")
02134         chamber_dydz.SetAxisRange(-120., 120., "X")
02135         chamber_alphay.SetAxisRange(-120., 120., "X")
02136         chamber_alphay.SetAxisRange(-75., 75., "Y")
02137     ####
02138 
02139     chamber_x.SetXTitle("Local x residual (mm)")
02140     chamber_dxdz.SetXTitle("Local dx/dz residual (mrad)")
02141     chamber_alphax.SetXTitle("Local dx/dz residual (mrad)")
02142     chamber_alphax.SetYTitle("Local x residual (mm)")
02143     if not not chamber_y:
02144         chamber_y.SetXTitle("Local y residual (mm)")
02145         chamber_dydz.SetXTitle("Local dy/dz residual (mrad)")
02146         chamber_alphay.SetXTitle("Local dy/dz residual (mrad)")
02147         chamber_alphay.SetYTitle("Local y residual (mm)")
02148     if name[0:2] == "ME":
02149         chamber_x.SetXTitle("Local r#phi residual (mm)")
02150         chamber_dxdz.SetXTitle("Local d(r#phi)/dz residual (mrad)")
02151         chamber_alphax.SetXTitle("Local d(r#phi)/dz residual (mrad)")
02152         chamber_alphax.SetYTitle("Local r#phi residual (mm)")
02153 
02154     t4 = time.time()
02155     ddt[3] = 1./ddt[0]*((ddt[0]-1)*ddt[3] + t4-t3)
02156 
02157     for h in chamber_x, chamber_dxdz, chamber_alphax, chamber_alphax, \
02158              chamber_y, chamber_dydz, chamber_alphay, chamber_alphay:
02159         if not not h:
02160             h.GetXaxis().CenterTitle()
02161             h.GetYaxis().CenterTitle()
02162             h.GetXaxis().SetLabelSize(0.05)
02163             h.GetYaxis().SetLabelSize(0.05)
02164             h.GetXaxis().SetTitleSize(0.07)
02165             h.GetYaxis().SetTitleSize(0.07)
02166             h.GetXaxis().SetTitleOffset(0.9)
02167             h.GetYaxis().SetTitleOffset(0.9)
02168 
02169     if twobin:
02170       for f in chamber_x_fit2, chamber_y_fit2, chamber_dxdz_fit2, chamber_dydz_fit2, \
02171                chamber_alphax_fit2, chamber_alphay_fit2:
02172           if not not f:
02173                f.SetLineColor(4)
02174     if not twobin:
02175         suppressblue = True
02176 
02177     t5 = time.time()
02178     ddt[4] = 1./ddt[0]*((ddt[0]-1)*ddt[4] + t5-t4)
02179 
02180     global l1, l2, l3, l4
02181     if not not chamber_y:
02182         c1.Clear()
02183         c1.Divide(3, 2)
02184         chamber_x.SetTitle(getname(r))
02185 
02186         c1.GetPad(1).cd()
02187         chamber_x.Draw()
02188         if not suppressblue: chamber_x_fit2.Draw("same")
02189         chamber_x_fit.Draw("same")
02190         l1 = ROOT.TLatex(0.67,0.8,"#splitline{#mu: %0.2f#pm%0.2f}{#sigma: %0.1f#pm%0.1f}" % (
02191                          chamber_x_fit.GetParameter(1), chamber_x_fit.GetParError(1),
02192                          chamber_x_fit.GetParameter(2), chamber_x_fit.GetParError(2)))
02193         l1.Draw()
02194 
02195         c1.GetPad(2).cd()
02196         chamber_dxdz.Draw()
02197         if not suppressblue: chamber_dxdz_fit2.Draw("same")
02198         chamber_dxdz_fit.Draw("same")
02199         l2 = ROOT.TLatex(0.67,0.8,"#splitline{#mu: %0.2f#pm%0.2f}{#sigma: %0.1f#pm%0.1f}" % (
02200                          chamber_dxdz_fit.GetParameter(1), chamber_dxdz_fit.GetParError(1),
02201                          chamber_dxdz_fit.GetParameter(2), chamber_dxdz_fit.GetParError(2)))
02202         l2.Draw()
02203         
02204         c1.GetPad(3).cd()
02205         chamber_alphax.Draw("col")
02206         if not suppressblue: chamber_alphax_fit2.Draw("same")
02207         chamber_alphax_fit.Draw("same")
02208         
02209         c1.GetPad(4).cd()
02210         chamber_y.Draw()
02211         if not suppressblue: chamber_y_fit2.Draw("same")
02212         chamber_y_fit.Draw("same")
02213         l3 = ROOT.TLatex(0.67,0.8,"#splitline{#mu: %0.2f#pm%0.2f}{#sigma: %0.1f#pm%0.1f}" % (
02214                          chamber_y_fit.GetParameter(1), chamber_y_fit.GetParError(1),
02215                          chamber_y_fit.GetParameter(2), chamber_y_fit.GetParError(2)))
02216         l3.Draw()
02217         
02218         c1.GetPad(5).cd()
02219         chamber_dydz.Draw()
02220         if not suppressblue: chamber_dydz_fit2.Draw("same")
02221         chamber_dydz_fit.Draw("same")
02222         l4 = ROOT.TLatex(0.67,0.8,"#splitline{#mu: %0.2f#pm%0.2f}{#sigma: %0.1f#pm%0.1f}" % (
02223                          chamber_dydz_fit.GetParameter(1), chamber_dydz_fit.GetParError(1),
02224                          chamber_dydz_fit.GetParameter(2), chamber_dydz_fit.GetParError(2)))
02225         l4.Draw()
02226 
02227         for lb in l1,l2,l3,l4:
02228           lb.SetNDC(1)
02229           lb.SetTextColor(ROOT.kRed)
02230         
02231         c1.GetPad(6).cd()
02232         chamber_alphay.Draw("col")
02233         if not suppressblue: chamber_alphay_fit2.Draw("same")
02234         chamber_alphay_fit.Draw("same")
02235 
02236     else:
02237         c1.Clear()
02238         c1.Divide(3, 1)
02239         chamber_x.SetTitle(getname(r))
02240 
02241         c1.GetPad(1).cd()
02242         chamber_x.Draw()
02243         if not suppressblue: chamber_x_fit2.Draw("same")
02244         chamber_x_fit.Draw("same")
02245         l1 = ROOT.TLatex(0.67,0.8,"#splitline{#mu: %0.2f#pm%0.2f}{#sigma: %0.1f#pm%0.1f}" % (
02246                          chamber_x_fit.GetParameter(1), chamber_x_fit.GetParError(1),
02247                          chamber_x_fit.GetParameter(2), chamber_x_fit.GetParError(2)))
02248         l1.Draw()
02249         
02250         c1.GetPad(2).cd()
02251         chamber_dxdz.Draw()
02252         if not suppressblue: chamber_dxdz_fit2.Draw("same")
02253         chamber_dxdz_fit.Draw("same")
02254         l2 = ROOT.TLatex(0.67,0.8,"#splitline{#mu: %0.2f#pm%0.2f}{#sigma: %0.1f#pm%0.1f}" % (
02255                          chamber_dxdz_fit.GetParameter(1), chamber_dxdz_fit.GetParError(1),
02256                          chamber_dxdz_fit.GetParameter(2), chamber_dxdz_fit.GetParError(2)))
02257         l2.Draw()
02258         
02259         c1.GetPad(3).cd()
02260         chamber_alphax.Draw("col")
02261         if not suppressblue: chamber_alphax_fit2.Draw("same")
02262         chamber_alphax_fit.Draw("same")
02263 
02264         for lb in l1,l2:
02265           lb.SetNDC(1)
02266           lb.SetTextColor(ROOT.kRed)
02267 
02268     t6 = time.time()
02269     ddt[5] = 1./ddt[0]*((ddt[0]-1)*ddt[5] + t6-t5)
02270     ddt[6] = 1./ddt[0]*((ddt[0]-1)*ddt[6] + t6-t1)
02271 

def plotscripts::clearDDT ( )

Definition at line 2042 of file plotscripts.py.

02043               :
02044     for i in range(0,15):
02045         ddt[i]=0.

def plotscripts::corrections2D (   reportsX = None,
  reportsY = None,
  geometry0 = None,
  geometryX = None,
  geometryY = None,
  window = 25.,
  selection = None,
  name = "tmp",
  canvas = None,
  pre_title_x = None,
  pre_title_y = None,
  which = "110011" 
)

makes a scatterplot of corrections coming either from reports (if xml geometries are None) or from geometryX and geometryY (WRT the common initial geometry0)

Definition at line 3551 of file plotscripts.py.

03554                                  :
03555 
03556   tdrStyle.SetOptStat(0)
03557   tdrStyle.SetStatW(0.40)
03558 
03559   # determine what are we plotting: report vs report  or  xml vs xml
03560   mode = None
03561   check_reports = False
03562   if reportsX is not None  and  reportsY is not None: 
03563     mode = "reports"
03564     check_reports = True
03565   if geometry0 is not None  and  geometryX is not None  and  geometryY is not None: 
03566     mode = "xmls"
03567   if mode is None:
03568     print "Either couple of reports or three geometries have to be given as input. Exiting..."
03569     return
03570 
03571   # setup ranges with the maximum [-window,window] that later will be optimized to [-wnd_adaptive,wnd_adaptive]
03572   wnd = [window]*6
03573   wnd_adaptive = [.1]*6
03574   
03575   global hx, hy, hz, hphix, hphiy, hphiz
03576   bins=2000
03577   hx    = ROOT.TH2F("%s_x" % name, "", bins, -wnd[0], wnd[0], bins, -wnd[0], wnd[0])
03578   hy    = ROOT.TH2F("%s_y" % name, "", bins, -wnd[1], wnd[1], bins, -wnd[1], wnd[1])
03579   hz    = ROOT.TH2F("%s_z" % name, "", bins, -wnd[2], wnd[2], bins, -wnd[2], wnd[2])
03580   hphix = ROOT.TH2F("%s_phix" % name, "", bins, -wnd[3], wnd[3], bins, -wnd[3], wnd[3])
03581   hphiy = ROOT.TH2F("%s_phiy" % name, "", bins, -wnd[4], wnd[4], bins, -wnd[4], wnd[4])
03582   hphiz = ROOT.TH2F("%s_phiz" % name, "", bins, -wnd[5], wnd[5], bins, -wnd[5], wnd[5])
03583   hhh = [hx, hy, hz, hphix, hphiy, hphiz]
03584   
03585   # initialize PCA objects
03586   global pca_x, pca_y, pca_z, pca_phix, pca_phiy, pca_phiz
03587   pca_x = ROOT.TPrincipal(2,"D")
03588   pca_y = ROOT.TPrincipal(2,"D")
03589   pca_z = ROOT.TPrincipal(2,"D")
03590   pca_phix = ROOT.TPrincipal(2,"D")
03591   pca_phiy = ROOT.TPrincipal(2,"D")
03592   pca_phiz = ROOT.TPrincipal(2,"D")
03593   pcas = [pca_x, pca_y, pca_z, pca_phix, pca_phiy, pca_phiz]
03594   
03595   # arrays to later fill graphs with
03596   ax=[]; ay=[]; az=[]; aphix=[]; aphiy=[]; aphiz=[]
03597   aaa = [ax, ay, az, aphix, aphiy, aphiz]
03598   
03599   # list of postal addresses
03600   postal_addresses = []
03601   
03602   # if reports are given, use them to fill addresses and do extra checks
03603   if check_reports:
03604     for r1 in reportsX:
03605       # skip ME1/a
03606       if r1.postal_address[0]=='CSC'  and  r1.postal_address[2]==1 and r1.postal_address[3]==4: continue
03607       if selection is None or (selection.func_code.co_argcount == len(r1.postal_address) and selection(*r1.postal_address)):
03608         r2 = getReportByPostalAddress(r1.postal_address, reportsY)
03609         if r2 is None: 
03610           print "bad r2 in ",r1.postal_address
03611           continue
03612       
03613         if r1.status != "PASS" or r2.status != "PASS":
03614           print "bad status", r1.postal_address, r1.status, r2.status
03615           continue
03616       postal_addresses.append(r1.postal_address)
03617   # otherwise, use chamber addresses from xmls
03618   else:
03619     for key in geometry0.dt.keys():
03620       if len(key)==3  and  key in geometryX.dt  and  key in geometryY.dt:
03621         postal_addresses.append( tuple(['DT'] + list(key)) )
03622     for key in geometry0.csc.keys():
03623       # skip ME1/a
03624       if key[2]==1 and key[3]==4: continue
03625       if len(key)==4  and  key in geometryX.csc  and  key in geometryY.csc:
03626         postal_addresses.append( tuple(['CSC'] + list(key)) )
03627 
03628   # fill the values
03629   for addr in postal_addresses:
03630 
03631     # checks the selection function
03632     if not (selection is None or (selection.func_code.co_argcount == len(addr) and selection(*addr)) ): continue
03633 
03634     factors = [10. * signConventions[addr][0], 10. * signConventions[addr][1], 10. * signConventions[addr][2],
03635                1000., 1000., 1000. ]
03636 
03637     if check_reports:
03638       rX = getReportByPostalAddress(addr, reportsX)
03639       rY = getReportByPostalAddress(addr, reportsY)
03640       deltasX = [rX.deltax, rX.deltay, rX.deltaz, rX.deltaphix, rX.deltaphiy, rX.deltaphiz]
03641       deltasY = [rY.deltax, rY.deltay, rY.deltaz, rY.deltaphix, rY.deltaphiy, rY.deltaphiz]
03642       
03643     if mode == "reports":
03644 
03645       checks = map( lambda d1, d2: d1 is not None  and  d2 is not None  and  d1.error is not None   \
03646                                    and  d2.error is not None and (d1.error**2 + d2.error**2) > 0. , \
03647                     deltasX, deltasY)
03648 
03649       for i in range(len(checks)):
03650         if not checks[i]: continue
03651         fillX = deltasX[i].value * factors[i]
03652         fillY = deltasY[i].value * factors[i]
03653         aaa[i].append([fillX,fillY])
03654         pcas[i].AddRow(array.array('d',[fillX,fillY]))
03655         mx = max(abs(fillX), abs(fillY))
03656         if mx > wnd_adaptive[i]: wnd_adaptive[i] = mx
03657         
03658     if mode == "xmls":
03659 
03660       db0 = dbX = dbY = None
03661       if addr[0] == "DT":
03662         db0, dbX, dbY  = geometry0.dt[addr[1:]], geometryX.dt[addr[1:]], geometryY.dt[addr[1:]]
03663       if addr[0] == 'CSC':
03664         db0, dbX, dbY  = geometry0.csc[addr[1:]], geometryX.csc[addr[1:]], geometryY.csc[addr[1:]]
03665 
03666       checks = [True]*6
03667       if check_reports:
03668         checks = map( lambda d1, d2: d1 is not None  and  d2 is not None ,  deltasX, deltasY)
03669 
03670       gdeltas0 = [db0.x, db0.y, db0.z, db0.phix, db0.phiy, db0.phiz]
03671       gdeltasX = [dbX.x, dbX.y, dbX.z, dbX.phix, dbX.phiy, dbX.phiz]
03672       gdeltasY = [dbY.x, dbY.y, dbY.z, dbY.phix, dbY.phiy, dbY.phiz]
03673 
03674       for i in range(len(checks)):
03675         if not checks[i]: continue
03676         fillX = (gdeltasX[i] - gdeltas0[i]) * factors[i]
03677         fillY = (gdeltasY[i] - gdeltas0[i]) * factors[i]
03678         aaa[i].append([fillX,fillY])
03679         pcas[i].AddRow(array.array('d',[fillX,fillY]))
03680         mx = max(abs(fillX), abs(fillY))
03681         if mx > wnd_adaptive[i]: wnd_adaptive[i] = mx
03682         #if addr[0] == 'CSC' and i==1 and (abs(fillX)>0.01 or abs(fillY)>0.01): print addr, ": hugeCSC i=%d dx=%.03g dy=%.03g"%(i,fillX,fillY)
03683         #if addr[0] == 'CSC' and i==2 and (abs(fillX)>0.02 or abs(fillY)>0.02): print addr, ": hugeCSC i=%d dx=%.03g dy=%.03g"%(i,fillX,fillY)
03684         #if addr[0] == 'CSC' and i==3 and (abs(fillX)>0.05 or abs(fillY)>0.05): print addr, ": hugeCSC i=%d dx=%.03g dy=%.03g"%(i,fillX,fillY)
03685 
03686   if mode == "xmls":  
03687     if pre_title_x is None: pre_title_x = "geometry 1 "
03688     if pre_title_y is None: pre_title_y = "geometry 2 "
03689   if mode == "reports":  
03690     if pre_title_x is None: pre_title_x = "iteration's "
03691     if pre_title_y is None: pre_title_y = "other iteration's "
03692   tmptitles =  ["#Deltax (mm)", "#Deltay (mm)", "#Deltaz (mm)", 
03693                 "#Delta#phi_{x} (mrad)", "#Delta#phi_{y} (mrad)", "#Delta#phi_{z} (mrad)"]
03694   htitles = []
03695   for t in tmptitles: htitles.append([pre_title_x + t, pre_title_y + t])
03696   
03697   if canvas is not None: c = canvas
03698   else: c = c1
03699   c.Clear()
03700   ndraw = which.count('1')
03701   if ndraw > 4: c.Divide(3, 2)
03702   elif ndraw > 2: c.Divide(2, 2)
03703   elif ndraw > 1: c.Divide(2, 1)
03704 
03705   global lines, graphs, texs
03706   lines = [];  graphs = []; texs = []
03707   
03708   ipad = 0
03709   for i in range(6):
03710     
03711     # decode 'which' binary mask
03712     if ( int(which,2) & (1<<i) ) == 0: continue
03713     
03714     ipad += 1
03715     c.GetPad(ipad).cd()
03716     c.GetPad(ipad).SetGridx(1)
03717     c.GetPad(ipad).SetGridy(1)
03718     
03719     wn = 1.08 * wnd_adaptive[i]
03720     hhh[i].GetXaxis().SetRangeUser(-wn, wn)
03721     hhh[i].GetYaxis().SetRangeUser(-wn, wn)
03722     hhh[i].SetXTitle(htitles[i][0])
03723     hhh[i].SetYTitle(htitles[i][1])
03724     hhh[i].GetXaxis().CenterTitle()
03725     hhh[i].GetYaxis().CenterTitle()
03726     hhh[i].Draw()
03727     
03728     if len(aaa[i]) == 0: continue
03729 
03730     a1, a2 = map( lambda x: array.array('d',x),  zip(*aaa[i]) )
03731     g = ROOT.TGraph(len(a1), a1, a2)
03732     g.SetMarkerStyle(5)
03733     g.SetMarkerSize(0.3)
03734     g.SetMarkerColor(ROOT.kBlue)
03735     graphs.append(g)
03736 
03737     pcas[i].MakePrincipals()
03738     #pcas[i].Print()
03739     #pcas[i].MakeHistograms()    
03740     b = pcas[i].GetEigenVectors()(1,0) / pcas[i].GetEigenVectors()(0,0)
03741     a = pcas[i].GetMeanValues()[1] - b * pcas[i].GetMeanValues()[0]
03742     #print a, b, "   ", pcas[i].GetEigenValues()[0], pcas[i].GetEigenValues()[1]
03743     
03744     cov = pcas[i].GetCovarianceMatrix()
03745     r = cov(0,1)/sqrt(cov(1,1)*cov(0,0))
03746     print "r, RMSx, RMSy =", r, g.GetRMS(1), g.GetRMS(2)
03747     texrms = ROOT.TLatex(0.17,0.87, "RMS x,y = %.02g, %.02g" % (g.GetRMS(1),g.GetRMS(2)))
03748     texr = ROOT.TLatex(0.17,0.80, "r = %.02g" % r)
03749     for t in texr, texrms:
03750       t.SetNDC(1)
03751       t.SetTextColor(ROOT.kBlue)
03752       t.SetTextSize(0.053)
03753       t.Draw()
03754       texs.append(t)
03755     
03756     g.Draw("p")
03757 
03758     if not isnan(b):
03759       wn = wnd_adaptive[i]
03760       line = ROOT.TLine(-wn, a - b*wn, wn, a + b*wn)
03761       line.SetLineColor(ROOT.kRed)
03762       line.Draw()
03763       lines.append(line)
03764 
03765   #return hx, hy, hphiy, hphiz, pca_x, pca_y, pca_phiy, pca_phiz
03766   return aaa
def plotscripts::createPeaksProfile (   the2d,
  rebin = 1 
)

Definition at line 1403 of file plotscripts.py.

01404                                       :
01405   htmp = ROOT.gROOT.FindObject(the2d.GetName()+"_peaks")
01406   if htmp != None: htmp.Delete()
01407 
01408   hpeaks = the2d.ProjectionX(the2d.GetName()+"_peaks")
01409   hpeaks.Reset()
01410   hpeaks.Rebin(rebin)
01411   bad_fit_bins = []
01412   for i in xrange(0, int(the2d.GetNbinsX()), rebin):
01413     tmp = the2d.ProjectionY("tmp", i+1, i + rebin)
01414     nn = tmp.GetEntries()
01415 
01416     drange = tmp.GetRMS()
01417     drange = 2.*drange
01418     fgaus = ROOT.TF1("fgaus","gaus", tmp.GetMean() - drange, tmp.GetMean() + drange)
01419     fgaus.SetParameter(0,nn)
01420     fgaus.SetParameter(1,tmp.GetMean())
01421     fgaus.SetParameter(2,tmp.GetRMS())
01422     #print "  ", i, nn, tmp.GetMean() , drange, "[", tmp.GetMean() - drange, tmp.GetMean() + drange, ']'
01423 
01424     fitOk = False
01425     if nn > 10:     # good to fit
01426       fr = tmp.Fit("fgaus","RNSQ")
01427       #print "       ", fgaus.GetParameter(1), " +- ", fgaus.GetParError(1), "   fitres = " , fr.Status() , fr.CovMatrixStatus()
01428       hpeaks.SetBinContent(i/rebin+1, fgaus.GetParameter(1))
01429       hpeaks.SetBinError(i/rebin+1, fgaus.GetParError(1))
01430       if fr.Status()==0 and fr.CovMatrixStatus()==3 : fitOk = True
01431     if not fitOk:
01432       bad_fit_bins.append(i/rebin+1)
01433       if nn > 1. and tmp.GetRMS() > 0: # use mean
01434         hpeaks.SetBinContent(i/rebin+1, tmp.GetMean())
01435         hpeaks.SetBinError(i/rebin+1, ROOT.TMath.StudentQuantile(0.841345,nn) * tmp.GetRMS() / sqrt(nn))
01436       else:
01437         hpeaks.SetBinContent(i/rebin+1, 0.)
01438         hpeaks.SetBinError(i/rebin+1, 0.)
01439   if len(bad_fit_bins): print "createPeaksProfile bad fit bins: ", bad_fit_bins
01440   return hpeaks
01441 

def plotscripts::curvatureDTsummary (   tfiles,
  window = 15.,
  pdgSfactor = False 
)

Definition at line 1971 of file plotscripts.py.

01972                                                             :
01973     global h, gm2, gm1, gz, gp1, gp2, tlegend
01974 
01975     set_palette("blues")
01976     phis = {-2: [], -1: [], 0: [], 1: [], 2: []}
01977     diffs = {-2: [], -1: [], 0: [], 1: [], 2: []}
01978     differrs = {-2: [], -1: [], 0: [], 1: [], 2: []}
01979     for wheelstr, wheel in ("m2", "-2"), ("m1", "-1"), ("z", "0"), ("p1", "+1"), ("p2", "+2"):
01980         for sector in "01", "02", "03", "04", "05", "06", "07", "08", "09", "10", "11", "12":
01981             curvatureplot(tfiles, "wheel%s_sector%s" % (wheelstr, sector), "deltax", 
01982                     title="Wheel %s, sector %s" % (wheel, sector), fitgauss=True, reset_palette=False)
01983             if fitgauss_diff[1] < window:
01984                 uncertainty = fitgauss_diff[1]
01985                 if pdgSfactor and (fitgauss_chi2/fitgauss_ndf) > 1.: uncertainty *= sqrt(fitgauss_chi2/fitgauss_ndf)
01986 
01987                 phis[int(wheel)].append(signConventions["DT", int(wheel), 1, int(sector)][4])
01988                 diffs[int(wheel)].append(fitgauss_diff[0])
01989                 differrs[int(wheel)].append(uncertainty)
01990 
01991     h = ROOT.TH1F("h", "", 1, -pi, pi)
01992     h.SetAxisRange(-window, window, "Y")
01993     h.SetXTitle("#phi (rad)")
01994     h.SetYTitle("#Deltax(p_{T} #rightarrow #infty) - #Deltax(p_{T} #rightarrow 0) (mm)")
01995     h.GetXaxis().CenterTitle()
01996     h.GetYaxis().CenterTitle()
01997 
01998     gm2 = ROOT.TGraphErrors(len(phis[-2]), array.array("d", phis[-2]), array.array("d", diffs[-2]), 
01999             array.array("d", [0.]*len(phis[-2])), array.array("d", differrs[-2]))
02000     gm1 = ROOT.TGraphErrors(len(phis[-1]), array.array("d", phis[-1]), array.array("d", diffs[-1]), 
02001             array.array("d", [0.]*len(phis[-1])), array.array("d", differrs[-1]))
02002     gz = ROOT.TGraphErrors(len(phis[0]), array.array("d", phis[0]), array.array("d", diffs[0]), 
02003             array.array("d", [0.]*len(phis[0])), array.array("d", differrs[0]))
02004     gp1 = ROOT.TGraphErrors(len(phis[1]), array.array("d", phis[1]), array.array("d", diffs[1]), 
02005             array.array("d", [0.]*len(phis[1])), array.array("d", differrs[1]))
02006     gp2 = ROOT.TGraphErrors(len(phis[2]), array.array("d", phis[2]), array.array("d", diffs[2]), 
02007             array.array("d", [0.]*len(phis[2])), array.array("d", differrs[2]))
02008 
02009     gm2.SetMarkerStyle(21); gm2.SetMarkerColor(ROOT.kRed); gm2.SetLineColor(ROOT.kRed)
02010     gm1.SetMarkerStyle(22); gm1.SetMarkerColor(ROOT.kBlue); gm1.SetLineColor(ROOT.kBlue)
02011     gz.SetMarkerStyle(3); gz.SetMarkerColor(ROOT.kBlack); gz.SetLineColor(ROOT.kBlack)
02012     gp1.SetMarkerStyle(26); gp1.SetMarkerColor(ROOT.kBlue); gp1.SetLineColor(ROOT.kBlue)
02013     gp2.SetMarkerStyle(25); gp2.SetMarkerColor(ROOT.kRed); gp2.SetLineColor(ROOT.kRed)
02014 
02015     h.Draw()
02016     tlegend = ROOT.TLegend(0.25, 0.2, 0.85, 0.5)
02017     tlegend.SetFillColor(ROOT.kWhite)
02018     tlegend.SetBorderSize(0)
02019     tlegend.AddEntry(gm2, "Wheel -2", "p")
02020     tlegend.AddEntry(gm1, "Wheel -1", "p")
02021     tlegend.AddEntry(gz, "Wheel 0", "p")
02022     tlegend.AddEntry(gp1, "Wheel +1", "p")
02023     tlegend.AddEntry(gp2, "Wheel +2", "p")
02024     tlegend.Draw()
02025 
02026     gm2.Draw("p")
02027     gm1.Draw("p")
02028     gz.Draw("p")
02029     gp1.Draw("p")
02030     gp2.Draw("p")
02031 

def plotscripts::curvatureplot (   tfiles,
  name,
  param,
  mode = "from2d",
  window = 15.,
  widebins = False,
  title = "",
  fitgauss = False,
  fitconst = False,
  fitline = False,
  fitpeaks = True,
  reset_palette = False 
)

"param" may be one of "deltax" (Delta x position residuals), "deltadxdz" (Delta (dx/dz) angular residuals), "curverr" (Delta x * d(Delta q/pT)/d(Delta x) = Delta q/pT in the absence of misalignment)

Definition at line 1804 of file plotscripts.py.

01805                                                                                                                                                                               :
01806     tdrStyle.SetOptTitle(1)
01807     tdrStyle.SetTitleBorderSize(0)
01808     tdrStyle.SetOptStat(0)
01809     tdrStyle.SetOptFit(0)
01810     tdrStyle.SetTitleFontSize(0.05)
01811 
01812     c1.Clear()
01813     if reset_palette: set_palette("blues")
01814     global hist, histCOPY, hist2d, tline1, tline2, tline3, tline4, tline5
01815 
01816     hdir = "AlignmentMonitorMuonVsCurvature/iter1/"
01817 
01818     if name not in ("all", "top", "bottom"):
01819         hsuffix = "_%s_%s" % (name, param)
01820         prof = tfiles[0].Get(hdir+"tprofile"+hsuffix).Clone("tprofile_"+hsuffix)
01821         hist2d = tfiles[0].Get(hdir+"th2f"+hsuffix).Clone("th2f_"+hsuffix)
01822         for tfile in tfiles[1:]:
01823             prof.Add(tfile.Get(hdir+"tprofile"+hsuffix))
01824             hist2d.Add(tfile.Get(hdir+"th2f"+hsuffix))
01825     else:
01826         prof = None
01827         hist2d = None
01828         for wheel in "m2", "m1", "z", "p1", "p2":
01829             if name == "all": sectors = "01", "02", "03", "04", "05", "06", "07", "08", "09", "10", "11", "12"
01830             elif name == "top": sectors = "01", "02", "03", "04", "05", "06"
01831             elif name == "bottom": sectors = "07", "08", "09", "10", "11", "12"
01832             else: raise Exception
01833 
01834             for sector in sectors:
01835                 hsuffix = "_%s_%s" % ("wheel%s_sector%s" % (wheel, sector), param)
01836                 for tfile in tfiles:
01837                     if prof is None:
01838                         prof = tfiles[0].Get(hdir+"tprofile"+hsuffix).Clone("tprofile_"+hsuffix)
01839                         hist2d = tfiles[0].Get(hdir+"th2f"+hsuffix).Clone("tprofile_"+hsuffix)
01840                     else:
01841                         prof.Add(tfile.Get(hdir+"tprofile"+hsuffix))
01842                         hist2d.Add(tfile.Get(hdir+"th2f"+hsuffix))
01843 
01844     hist = ROOT.TH1F("hist", "", prof.GetNbinsX(), prof.GetBinLowEdge(1), -prof.GetBinLowEdge(1))
01845     for i in xrange(1, prof.GetNbinsX()+1):
01846         hist.SetBinContent(i, prof.GetBinContent(i))
01847         hist.SetBinError(i, prof.GetBinError(i))
01848 
01849     if mode == "plain":
01850         hist = prof
01851     elif mode == "from2d":
01852         skip = 1
01853         if widebins:
01854             hist.Rebin(5)
01855             skip = 5
01856         htmp = ROOT.gROOT.FindObject("tmp")
01857         if htmp != None: htmp.Delete()
01858 
01859         for i in xrange(0, int(prof.GetNbinsX()), skip):
01860             tmp = hist2d.ProjectionY("tmp", i+1, i + skip)
01861             if tmp.GetEntries() > 1:
01862                 hist.SetBinContent(i/skip+1, tmp.GetMean())
01863                 hist.SetBinError(i/skip+1, ROOT.TMath.StudentQuantile(0.841345,tmp.GetEntries()) * tmp.GetRMS() / sqrt(tmp.GetEntries()))
01864                 #hist.SetBinError(i/skip+1, tmp.GetRMS() / sqrt(tmp.GetEntries()))
01865             else:
01866                 #hist.SetBinContent(i/skip+1, 2000.)
01867                 #hist.SetBinError(i/skip+1, 1000.)
01868                 hist.SetBinContent(i/skip+1, 0.)
01869                 hist.SetBinError(i/skip+1, 0.)
01870 
01871         hpeaks = createPeaksProfile(hist2d, skip)
01872 
01873     else:
01874         raise Exception
01875 
01876 
01877     if fitgauss:
01878         f = ROOT.TF1("f", "[0] + [1]*exp(-x**2/2/0.01**2)", hist.GetBinLowEdge(1), -hist.GetBinLowEdge(1))
01879         f.SetParameters(0, 0., 0.01)
01880         if fitpeaks: hpeaks.Fit(f, "q")
01881         else: hist.Fit(f, "q")
01882         f.SetLineColor(ROOT.kRed)
01883         global fitgauss_diff, fitgauss_chi2, fitgauss_ndf
01884 #         fitter = ROOT.TVirtualFitter.GetFitter()
01885 #         fitgauss_diff = f.GetParameter(0) - f.GetParameter(1), \
01886 #                         sqrt(f.GetParError(0)**2 + f.GetParError(1)**2 + 2.*fitter.GetCovarianceMatrixElement(0, 1))
01887         fitgauss_diff = f.GetParameter(1), f.GetParError(1)
01888         fitgauss_chi2 = f.GetChisquare()
01889         fitgauss_ndf = f.GetNDF()
01890 
01891     global fitline_intercept, fitline_slope
01892     if fitconst:
01893         f = ROOT.TF1("f", "[0]", hist.GetBinLowEdge(1), -hist.GetBinLowEdge(1))
01894         if fitpeaks: hpeaks.Fit(f, "q")
01895         else: hist.Fit(f, "q")
01896         f.SetLineColor(ROOT.kRed)
01897         fitline_intercept = f.GetParameter(0), f.GetParError(0)
01898 
01899     if fitline:
01900         f = ROOT.TF1("f", "[0] + [1]*x", hist.GetBinLowEdge(1), -hist.GetBinLowEdge(1))
01901         if fitpeaks: hpeaks.Fit(f, "qNE")
01902         else: hist.Fit(f, "qNE")
01903         f.SetLineColor(ROOT.kRed)
01904         global f2, f3
01905         f2 = ROOT.TF1("2", "[0] + [1]*x", hist.GetBinLowEdge(1), -hist.GetBinLowEdge(1))
01906         f3 = ROOT.TF1("2", "[0] + [1]*x", hist.GetBinLowEdge(1), -hist.GetBinLowEdge(1))
01907         f2.SetParameters(f.GetParameter(0), f.GetParameter(1) + f.GetParError(1))
01908         f3.SetParameters(f.GetParameter(0), f.GetParameter(1) - f.GetParError(1))
01909         f2.SetLineColor(ROOT.kRed)
01910         f3.SetLineColor(ROOT.kRed)
01911         f2.SetLineStyle(2)
01912         f3.SetLineStyle(2)
01913         fitline_intercept = f.GetParameter(0), f.GetParError(0)
01914         fitline_slope = f.GetParameter(1), f.GetParError(1)
01915 
01916     hist2d.SetAxisRange(-window, window, "Y")
01917     hist2d.SetMarkerStyle(20)
01918     hist2d.SetMarkerSize(0.75)
01919     hist2d.GetXaxis().CenterTitle()
01920     hist2d.GetYaxis().CenterTitle()
01921     if param == "curverr":
01922         hist2d.GetYaxis().SetTitleOffset(1.35)
01923     else:
01924         hist2d.GetYaxis().SetTitleOffset(0.75)
01925     hist2d.GetXaxis().SetTitleOffset(1.2)
01926     hist2d.GetXaxis().SetTitleSize(0.05)
01927     hist2d.GetYaxis().SetTitleSize(0.05)
01928     hist2d.SetTitle(title)
01929     if param == "pterr": hist2d.SetXTitle("qp_{T} (GeV/c)")
01930     else: hist2d.SetXTitle("q/p_{T} (c/GeV)")
01931     if param == "deltax": hist2d.SetYTitle("#Deltax' (mm)")
01932     if param == "deltadxdz": hist2d.SetYTitle("#Deltadx'/dz (mrad)")
01933     if param == "pterr": hist2d.SetYTitle("#Deltap_{T}/p_{T} (%)")
01934     if param == "curverr": hist2d.SetYTitle("#Deltaq/p_{T} (c/GeV)")
01935     hist2d.Draw("colz")
01936     hist.SetMarkerColor(ROOT.kBlack)
01937     hist.SetLineColor(ROOT.kBlack)
01938     hist.Draw("same")
01939     #histCOPY = hist.Clone()
01940     #histCOPY.SetXTitle("")
01941     #histCOPY.SetYTitle("")
01942 
01943     #if widebins:
01944     #    histCOPY.Draw("samee1")
01945     #    histCOPY.Draw("sameaxis")
01946     #else:
01947     #    histCOPY.Draw("same")
01948     #    histCOPY.Draw("sameaxis")
01949 
01950     if fitline:
01951         f.Draw("same")
01952         #f2.Draw("same")
01953         #f3.Draw("same")
01954 
01955     hpeaks.SetMarkerStyle(20)
01956     hpeaks.SetMarkerSize(0.9)
01957     hpeaks.SetMarkerColor(ROOT.kRed)
01958     hpeaks.SetLineColor(ROOT.kRed)
01959     hpeaks.SetLineWidth(2)
01960     #if fitpeaks: hpeaks.Draw("same")
01961     hpeaks.Draw("same")
01962 
01963     #tline1 = ROOT.TLine(hist.GetBinLowEdge(1), -window, hist.GetBinLowEdge(1), window)
01964     #tline2 = ROOT.TLine(hist.GetBinLowEdge(1), window, -hist.GetBinLowEdge(1), window)
01965     #tline3 = ROOT.TLine(-hist.GetBinLowEdge(1), window, -hist.GetBinLowEdge(1), -window)
01966     #tline4 = ROOT.TLine(-hist.GetBinLowEdge(1), -window, hist.GetBinLowEdge(1), -window)
01967     tline5 = ROOT.TLine(-hist.GetBinLowEdge(1), 0., hist.GetBinLowEdge(1), 0.)
01968     tline5.Draw()
01969     #for t in tline1, tline2, tline3, tline4, tline5: t.Draw()
01970 

def plotscripts::DBdiff (   database1,
  database2,
  reports1,
  reports2,
  window = 10.,
  windows = None,
  selection = None,
  phi = False,
  color = ROOT.kBlue-8,
  style = 1,
  bins = 50,
  normalized = False,
  getvalues = False,
  name = "tmp",
  canvas = None,
  reportdiff = False,
  inlog = False 
)

Definition at line 483 of file plotscripts.py.

00486                                                                                                                         :
00487 
00488     tdrStyle.SetOptStat("emrou")
00489     tdrStyle.SetStatW(0.40)
00490 
00491     wnd = [window]*6
00492     if windows is not None:
00493       i=0
00494       for w in windows:
00495         wnd[i] = windows[i]
00496         i+=1
00497     
00498     global hx, hy, hz, hphix, hphiy, hphiz
00499     
00500     if phi:
00501         hx = ROOT.TH1F("%s_phi" % name, "", bins, -wnd[0], wnd[0])
00502     else:
00503         hx = ROOT.TH1F("%s_x" % name, "", bins, -wnd[0], wnd[0])
00504     hy = ROOT.TH1F("%s_y" % name, "", bins, -wnd[1], wnd[1])
00505     hz = ROOT.TH1F("%s_z" % name, "", bins, -wnd[2], wnd[2])
00506     hphix = ROOT.TH1F("%s_phix" % name, "", bins, -wnd[3], wnd[3])
00507     hphiy = ROOT.TH1F("%s_phiy" % name, "", bins, -wnd[4], wnd[4])
00508     hphiz = ROOT.TH1F("%s_phiz" % name, "", bins, -wnd[5], wnd[5])
00509         
00510     for r1 in reports1:
00511         if selection is None or (selection.func_code.co_argcount == len(r1.postal_address) and selection(*r1.postal_address)):
00512             if reports2 is None:
00513                 r2 = Report(r1.chamberId, r1.postal_address, r1.name)
00514                 r2.add_parameters(ValErr(0., 0., 0.), ValErr(0., 0., 0.), ValErr(0., 0., 0.), 
00515                     ValErr(0., 0., 0.), ValErr(0., 0., 0.), ValErr(0., 0., 0.), 0., 0., 0., 0.)
00516             else:
00517                 r2 = getReportByPostalAddress(r1.postal_address, reports2)
00518                 if r2 is None: continue
00519 
00520             found = False
00521             if r1.postal_address[0] == "DT":
00522                 if r1.postal_address[1:] in database1.dt:
00523                     found = True
00524                     db1 = database1.dt[r1.postal_address[1:]]
00525                     if database2 is None:
00526                         db2 = DTAlignable()
00527                         db2.x = db2.y = db2.z = db2.phix = db2.phiy = db2.phiz = 0.
00528                         db2.xx = db2.xy = db2.xz = db2.yx = db2.yy = db2.yz = db2.zx = db2.zy = db2.zz = 0.
00529                     else:
00530                         db2 = database2.dt[r1.postal_address[1:]]
00531                 
00532             else:
00533                 # skip ME1/a
00534                 if r1.postal_address[2]==1 and r1.postal_address[3]==4: continue
00535                 if r1.postal_address[1:] in database1.csc:
00536                     found = True
00537                     db1 = database1.csc[r1.postal_address[1:]]
00538                     if database2 is None:
00539                         db2 = CSCAlignable()
00540                         db2.x = db2.y = db2.z = db2.phix = db2.phiy = db2.phiz = 0.
00541                         db2.xx = db2.xy = db2.xz = db2.yx = db2.yy = db2.yz = db2.zx = db2.zy = db2.zz = 0.
00542                     else:
00543                         db2 = database2.csc[r1.postal_address[1:]]
00544 
00545             if found and r1.status == "PASS" and r2.status == "PASS":
00546                 if r1.deltax is not None and r2.deltax is not None and r1.deltax.error is not None and \
00547                    r2.deltax.error is not None and (r1.deltax.error**2 + r2.deltax.error**2) > 0.:
00548                     delta = db1.x - db2.x
00549                     if reportdiff: delta -= r1.deltax.value
00550                     if normalized:
00551                         fill = delta/sqrt(r1.deltax.error**2 + r2.deltax.error**2) * signConventions[r1.postal_address][0]
00552                     else:
00553                         if phi:
00554                             fill = delta/signConventions[r1.postal_address][3] * 1000. * signConventions[r1.postal_address][0]
00555                         else:
00556                             fill = delta * 10. * signConventions[r1.postal_address][0]
00557                     hx.Fill(fill)
00558                     if getvalues not in (False, None):
00559                         getvalues["x"].append((fill, 10. * sqrt(r1.deltax.error**2 + r2.deltax.error**2)))
00560 
00561                 if r1.deltay is not None and r2.deltay is not None and r1.deltay.error is not None and \
00562                    r2.deltay.error is not None and (r1.deltay.error**2 + r2.deltay.error**2) > 0.:
00563                     delta = db1.y - db2.y
00564                     if reportdiff: delta -= r1.deltay.value
00565                     if normalized:
00566                         fill = delta/sqrt(r1.deltay.error**2 + r2.deltay.error**2) * signConventions[r1.postal_address][1]
00567                     else:
00568                         fill = delta * 10. * signConventions[r1.postal_address][1]
00569                     hy.Fill(fill)
00570                     if getvalues not in (False, None):
00571                         getvalues["y"].append((fill, 10. * sqrt(r1.deltay.error**2 + r2.deltay.error**2)))
00572 
00573                 if r1.deltaz is not None and r2.deltaz is not None and r1.deltaz.error is not None and \
00574                    r2.deltaz.error is not None and (r1.deltaz.error**2 + r2.deltaz.error**2) > 0.:
00575                     delta = db1.z - db2.z
00576                     if reportdiff: delta -= r1.deltaz.value
00577                     if normalized:
00578                         fill = delta/sqrt(r1.deltaz.error**2 + r2.deltaz.error**2) * signConventions[r1.postal_address][2]
00579                     else:
00580                         fill = delta * 10. * signConventions[r1.postal_address][2]
00581                     hz.Fill(fill)
00582                     if getvalues not in (False, None):
00583                         getvalues["z"].append((fill, 10. * sqrt(r1.deltaz.error**2 + r2.deltaz.error**2)))
00584 
00585                 if r1.deltaphix is not None and r2.deltaphix is not None and r1.deltaphix.error is not None and \
00586                    r2.deltaphix.error is not None and (r1.deltaphix.error**2 + r2.deltaphix.error**2) > 0.:
00587                     delta = db1.phix - db2.phix
00588                     if reportdiff: delta -= r1.deltaphix.value
00589                     if normalized:
00590                         fill = delta/sqrt(r1.deltaphix.error**2 + r2.deltaphix.error**2)
00591                     else:
00592                         fill = delta * 1000.
00593                     hphix.Fill(fill)
00594                     if getvalues not in (False, None):
00595                         getvalues["phix"].append((fill, 10. * sqrt(r1.deltaphix.error**2 + r2.deltaphix.error**2)))
00596 
00597                 if r1.deltaphiy is not None and r2.deltaphiy is not None and r1.deltaphiy.error is not None and \
00598                    r2.deltaphiy.error is not None and (r1.deltaphiy.error**2 + r2.deltaphiy.error**2) > 0.:
00599                     delta = db1.phiy - db2.phiy
00600                     if reportdiff: 
00601                       delta -= r1.deltaphiy.value
00602                       if abs(delta)>0.02/1000: print r1.postal_address, 1000*delta, "=", 1000*db1.phiy - 1000*db2.phiy, "-", 1000*r1.deltaphiy.value, "... ",1000*db1.phiy , 1000*db2.phiy
00603                     if normalized:
00604                         fill = delta/sqrt(r1.deltaphiy.error**2 + r2.deltaphiy.error**2)
00605                     else:
00606                         fill = delta * 1000.
00607                     hphiy.Fill(fill)
00608                     if getvalues not in (False, None):
00609                         getvalues["phiy"].append((fill, 10. * sqrt(r1.deltaphiy.error**2 + r2.deltaphiy.error**2)))
00610 
00611                 if r1.deltaphiz is not None and r2.deltaphiz is not None and r1.deltaphiz.error is not None and \
00612                    r2.deltaphiz.error is not None and (r1.deltaphiz.error**2 + r2.deltaphiz.error**2) > 0.:
00613                     delta = db1.phiz - db2.phiz
00614                     if reportdiff: delta -= r1.deltaphiz.value
00615                     if normalized:
00616                         fill = delta/sqrt(r1.deltaphiz.error**2 + r2.deltaphiz.error**2)
00617                     else:
00618                         fill = delta * 1000.
00619                     hphiz.Fill(fill)
00620                     if getvalues not in (False, None):
00621                         getvalues["phiz"].append((fill, 10. * sqrt(r1.deltaphiz.error**2 + r2.deltaphiz.error**2)))
00622 
00623     if not normalized:
00624         if phi:
00625             hx.SetXTitle("#delta_{#phi} position (mrad)")
00626         else:
00627             hx.SetXTitle("#delta_{x'} (mm)")
00628         hy.SetXTitle("#delta_{y'} (mm)")
00629         hz.SetXTitle("#delta_{z'} (mm)")
00630         hphix.SetXTitle("#delta_{#phi_{x}} (mrad)")
00631         hphiy.SetXTitle("#delta_{#phi_{y}} (mrad)")
00632         hphiz.SetXTitle("#delta_{#phi_{z}} (mrad)")
00633         if reportdiff:
00634           if phi:
00635               hx.SetXTitle("#delta_{#phi}(XML) - #delta_{#phi}(report) position (mrad)")
00636           else:
00637               hx.SetXTitle("#delta_{x'}(XML) - #delta_{x'}(report) (mm)")
00638           hy.SetXTitle("#delta_{y'}(XML) - #delta_{y'}(report) (mm)")
00639           hz.SetXTitle("#delta_{z'}(XML) - #delta_{z'}(report) (mm)")
00640           hphix.SetXTitle("#delta_{#phi_{x}}(XML) - #delta_{#phi_{x}}(report) (mrad)")
00641           hphiy.SetXTitle("#delta_{#phi_{y}}(XML) - #delta_{#phi_{y}}(report) (mrad)")
00642           hphiz.SetXTitle("#delta_{#phi_{z}}(XML) - #delta_{#phi_{z}}(report) (mrad)")          
00643     else:
00644         if phi:
00645             hx.SetXTitle("#delta_{#phi}/#sigma_{#phi} position")
00646         else:
00647             hx.SetXTitle("#delta_{x'}/#sigma_{x'}")
00648         hy.SetXTitle("#delta_{y'}/#sigma_{y'}")
00649         hz.SetXTitle("#delta_{z'}/#sigma_{z'}")
00650         hphix.SetXTitle("#delta_{#phi_{x}}/#sigma_{#phi_{x}}")
00651         hphiy.SetXTitle("#delta_{#phi_{y}}/#sigma_{#phi_{y}}")
00652         hphiz.SetXTitle("#delta_{#phi_{z}}/#sigma_{#phi_{z}}")
00653 
00654     for h in hx, hy, hz, hphix, hphiy, hphiz:
00655         h.GetXaxis().CenterTitle()
00656         h.GetYaxis().CenterTitle()
00657         h.SetFillColor(color)
00658         h.SetLineStyle(style)
00659 
00660     if canvas is not None: c = canvas
00661     else: c = c1
00662     
00663     if normalized:
00664         fx = ROOT.TF1("fx", "%g * exp(-x**2/2.)/sqrt(2.*3.1415926)" % (hx.GetEntries()*2.*window/bins), -window, window)
00665         fy = ROOT.TF1("fy", "%g * exp(-x**2/2.)/sqrt(2.*3.1415926)" % (hy.GetEntries()*2.*window/bins), -window, window)
00666         fz = ROOT.TF1("fz", "%g * exp(-x**2/2.)/sqrt(2.*3.1415926)" % (hz.GetEntries()*2.*window/bins), -window, window)
00667         fphix = ROOT.TF1("fphix", "%g * exp(-x**2/2.)/sqrt(2.*3.1415926)" % (hphix.GetEntries()*2.*window/bins), -window, window)
00668         fphiy = ROOT.TF1("fphiy", "%g * exp(-x**2/2.)/sqrt(2.*3.1415926)" % (hphiy.GetEntries()*2.*window/bins), -window, window)
00669         fphiz = ROOT.TF1("fphiz", "%g * exp(-x**2/2.)/sqrt(2.*3.1415926)" % (hphiz.GetEntries()*2.*window/bins), -window, window)
00670         for f in fx, fy, fz, fphix, fphiy, fphiz:
00671             f.SetLineWidth(2)
00672             f.SetLineColor(ROOT.kBlue)
00673         for h, f in (hx, fx), (hy, fy), (hz, fz), (hphix, fphix), (hphiy, fphiy), (hphiz, fphiz):
00674             h.SetAxisRange(0, 1.1*max(h.GetMaximum(), f.GetMaximum()), "Y")
00675         
00676         c.Clear()
00677         c.Divide(3, 2)
00678         c.GetPad(1).cd(); hx.Draw(); fx.Draw("same")
00679         c.GetPad(2).cd(); hy.Draw(); fy.Draw("same")
00680         c.GetPad(3).cd(); hz.Draw(); fz.Draw("same")
00681         c.GetPad(4).cd(); hphix.Draw(); fphix.Draw("same")
00682         c.GetPad(5).cd(); hphiy.Draw(); fphiy.Draw("same")
00683         c.GetPad(6).cd(); hphiz.Draw(); fphiz.Draw("same")
00684         return hx, hy, hz, hphix, hphiy, hphiz, fx, fy, fz, fphix, fphiy, fphiz
00685     else:
00686         nvar = 6
00687 
00688         c.Clear()
00689         if nvar == 4: c.Divide(2, 2)
00690         if nvar == 6: c.Divide(3, 2)
00691         c.GetPad(1).cd(); hx.Draw()
00692         c.GetPad(2).cd(); hy.Draw()
00693         if nvar == 4:
00694           c.GetPad(3).cd(); hphiy.Draw()
00695           c.GetPad(4).cd(); hphiz.Draw()
00696         if nvar == 6:
00697           c.GetPad(3).cd(); hz.Draw()
00698           c.GetPad(4).cd(); hphix.Draw()
00699           c.GetPad(5).cd(); hphiy.Draw()
00700           c.GetPad(6).cd(); hphiz.Draw()
00701 
00702         if inlog:
00703           if hx.GetEntries()>0:    c.GetPad(1).SetLogy(1)
00704           if hy.GetEntries()>0:    c.GetPad(2).SetLogy(1)
00705           if nvar == 4:
00706             if hphiy.GetEntries()>0: c.GetPad(3).SetLogy(1)
00707             if hphiz.GetEntries()>0: c.GetPad(4).SetLogy(1)
00708           if nvar == 6:
00709             if hz.GetEntries()>0:    c.GetPad(3).SetLogy(1)
00710             if hphix.GetEntries()>0: c.GetPad(4).SetLogy(1)
00711             if hphiy.GetEntries()>0: c.GetPad(5).SetLogy(1)
00712             if hphiz.GetEntries()>0: c.GetPad(6).SetLogy(1)
00713 
00714         return hx, hy, hz, hphix, hphiy, hphiz
00715 
00716 

def plotscripts::DBdiffVersus (   quantity,
  versus,
  database1,
  database2,
  reports1,
  reports2,
  windwselection = None,
  color = ROOT.kBlack 
)

Definition at line 720 of file plotscripts.py.

00721                                                                                                                     :
00722     tdrStyle.SetOptStat("")
00723 
00724     domain = []
00725     values = []
00726     errors = []
00727         
00728     for r1 in reports1:
00729         if selection is None or (selection.func_code.co_argcount == len(r1.postal_address) and selection(*r1.postal_address)):
00730             if reports2 is None:
00731                 r2 = Report(r1.chamberId, r1.postal_address, r1.name)
00732                 r2.add_parameters(ValErr(0., 0., 0.), ValErr(0., 0., 0.), ValErr(0., 0., 0.), 
00733                                   ValErr(0., 0., 0.), ValErr(0., 0., 0.), ValErr(0., 0., 0.), 0., 0., 0.)
00734             else:
00735                 found = False
00736                 for r2 in reports2:
00737                     if r1.postal_address == r2.postal_address:
00738                         found = True
00739                         break
00740                 if not found: continue
00741 
00742             found = False
00743             if r1.postal_address[0] == "DT":
00744                 if r1.postal_address[1:] in database1.dt:
00745                     found = True
00746                     db1 = database1.dt[r1.postal_address[1:]]
00747                     if database2 is None:
00748                         db2 = DTAlignable()
00749                         db2.x = db2.y = db2.z = db2.phix = db2.phiy = db2.phiz = 0.
00750                         db2.xx = db2.xy = db2.xz = db2.yx = db2.yy = db2.yz = db2.zx = db2.zy = db2.zz = 0.
00751                     else:
00752                         db2 = database2.dt[r1.postal_address[1:]]
00753             else:
00754                 if r1.postal_address[1:] in database1.csc:
00755                     found = True
00756                     db1 = database1.csc[r1.postal_address[1:]]
00757                     if database2 is None:
00758                         db2 = CSCAlignable()
00759                         db2.x = db2.y = db2.z = db2.phix = db2.phiy = db2.phiz = 0.
00760                         db2.xx = db2.xy = db2.xz = db2.yx = db2.yy = db2.yz = db2.zx = db2.zy = db2.zz = 0.
00761                     else:
00762                         db2 = database2.csc[r1.postal_address[1:]]
00763 
00764             if found and r1.status == "PASS" and r2.status == "PASS":
00765                 okay = False
00766 
00767                 if quantity == "phi":
00768                     if r1.deltax is not None and r2.deltax is not None and r1.deltax.error is not None and \
00769                        r2.deltax.error is not None and (r1.deltax.error**2 + r2.deltax.error**2) > 0.:
00770                         okay = True
00771                         values.append((db1.x - db2.x)/
00772                                       signConventions[r1.postal_address][3] * 1000. * signConventions[r1.postal_address][0])
00773                         errors.append((r1.deltax.error**2 + r2.deltax.error**2)/
00774                                       signConventions[r1.postal_address][3] * 1000. * signConventions[r1.postal_address][0])
00775 
00776                 elif quantity == "x":
00777                     if r1.deltax is not None and r2.deltax is not None and r1.deltax.error is not None and \
00778                        r2.deltax.error is not None and (r1.deltax.error**2 + r2.deltax.error**2) > 0.:
00779                         okay = True
00780                         values.append((db1.x - db2.x) * 10. * signConventions[r1.postal_address][0])
00781                         errors.append((r1.deltax.error**2 + r2.deltax.error**2) * 10. * signConventions[r1.postal_address][0])
00782 
00783                 elif quantity == "y":
00784                     if r1.deltay is not None and r2.deltay is not None and r1.deltay.error is not None and \
00785                        r2.deltay.error is not None and (r1.deltay.error**2 + r2.deltay.error**2) > 0.:
00786                         okay = True
00787                         values.append((db1.y - db2.y) * 10. * signConventions[r1.postal_address][1])
00788                         errors.append((r1.deltay.error**2 + r2.deltay.error**2) * 10. * signConventions[r1.postal_address][1])
00789 
00790                 elif quantity == "z":
00791                     if r1.deltaz is not None and r2.deltaz is not None and r1.deltaz.error is not None and \
00792                        r2.deltaz.error is not None and (r1.deltaz.error**2 + r2.deltaz.error**2) > 0.:
00793                         okay = True
00794                         values.append((db1.z - db2.z) * 10. * signConventions[r1.postal_address][2])
00795                         errors.append((r1.deltaz.error**2 + r2.deltaz.error**2) * 10. * signConventions[r1.postal_address][2])
00796 
00797                 elif quantity == "phix":
00798                     if r1.deltaphix is not None and r2.deltaphix is not None and r1.deltaphix.error is not None and \
00799                        r2.deltaphix.error is not None and (r1.deltaphix.error**2 + r2.deltaphix.error**2) > 0.:
00800                         okay = True
00801                         values.append((db1.phix - db2.phix) * 1000.)
00802                         errors.append((r1.deltaphix.error**2 + r2.deltaphix.error**2) * 1000.)
00803 
00804                 elif quantity == "phiy":
00805                     if r1.deltaphiy is not None and r2.deltaphiy is not None and r1.deltaphiy.error is not None and \
00806                        r2.deltaphiy.error is not None and (r1.deltaphiy.error**2 + r2.deltaphiy.error**2) > 0.:
00807                         okay = True
00808                         values.append((db1.phiy - db2.phiy) * 1000.)
00809                         errors.append((r1.deltaphiy.error**2 + r2.deltaphiy.error**2) * 1000.)
00810 
00811                 elif quantity == "phiz":
00812                     if r1.deltaphiz is not None and r2.deltaphiz is not None and r1.deltaphiz.error is not None and \
00813                        r2.deltaphiz.error is not None and (r1.deltaphiz.error**2 + r2.deltaphiz.error**2) > 0.:
00814                         okay = True
00815                         values.append((db1.phiz - db2.phiz) * 1000.)
00816                         errors.append((r1.deltaphiz.error**2 + r2.deltaphiz.error**2) * 1000.)
00817 
00818                 else: raise Exception
00819 
00820                 if okay:
00821                     if versus == "r": domain.append(signConventions[r1.postal_address][3])
00822                     elif versus == "phi": domain.append(signConventions[r1.postal_address][4])
00823                     elif versus == "z": domain.append(signConventions[r1.postal_address][5])
00824                     else: raise Exception
00825 
00826     if versus == "r":
00827         bkgndhist = ROOT.TH1F("bkgndhist", "", 100, 0., 800.)
00828         bkgndhist.SetXTitle("R (cm)")
00829     elif versus == "phi":
00830         bkgndhist = ROOT.TH1F("bkgndhist", "", 100, -pi, pi)
00831         bkgndhist.SetXTitle("#phi (rad)")
00832     elif versus == "z":
00833         bkgndhist = ROOT.TH1F("bkgndhist", "", 100, -1100., 1100.)
00834         bkgndhist.SetXTitle("z (cm)")
00835     bkgndhist.GetXaxis().CenterTitle()
00836 
00837     bkgndhist.SetAxisRange(-window, window, "Y")
00838     if quantity == "phi": bkgndhist.SetYTitle("#delta_{#phi} position (mrad)")
00839     elif quantity == "x": bkgndhist.SetYTitle("#delta_{x'} (mm)")
00840     elif quantity == "y": bkgndhist.SetYTitle("#delta_{y'} (mm)")
00841     elif quantity == "z": bkgndhist.SetYTitle("#delta_{z'} (mm)")
00842     elif quantity == "phix": bkgndhist.SetYTitle("#delta_{#phi_{x}} (mrad)")
00843     elif quantity == "phiy": bkgndhist.SetYTitle("#delta_{#phi_{y}} (mrad)")
00844     elif quantity == "phiz": bkgndhist.SetYTitle("#delta_{#phi_{z}} (mrad)")
00845     else: raise Exception
00846     bkgndhist.GetYaxis().CenterTitle()
00847 
00848     if len(domain) == 0:
00849         tgraph = ROOT.TGraphErrors(0)
00850     else:
00851         tgraph = ROOT.TGraphErrors(len(domain), array.array("d", domain), array.array("d", values), 
00852                                                 array.array("d", [0.]*len(domain)), array.array("d", errors))
00853     tgraph.SetMarkerColor(color)
00854     tgraph.SetLineColor(color)
00855 
00856     bkgndhist.Draw()
00857     if tgraph.GetN() > 0: tgraph.Draw("p")
00858     return bkgndhist, tgraph, domain, values, errors

def plotscripts::DBMC (   database,
  reports,
  window = 10.,
  windows = None,
  selection = None,
  phi = False,
  color = ROOT.kBlue-8,
  style = 1,
  bins = 50,
  normalized = False,
  getvalues = False,
  name = "",
  canvas = None,
  reportdiff = False,
  inlog = True 
)

Definition at line 477 of file plotscripts.py.

00479                                                                                                                                      :
00480     return DBdiff(database, None, reports, None, window, windows, selection, phi, color, style, bins, normalized, getvalues,
00481                   name, canvas, reportdiff, inlog)
00482 

def plotscripts::DBMCVersus (   quantity,
  versus,
  database,
  reports,
  window = 10.,
  selection = None,
  color = ROOT.kBlack 
)

Definition at line 717 of file plotscripts.py.

00718                                                                                                   :
00719     return DBdiffVersus(quantity, versus, database, None, reports, None, window, selection, color)

def plotscripts::doTests (   reports,
  pic_ids,
  fname_base,
  fname_dqm,
  run_name 
)

Definition at line 1215 of file plotscripts.py.

01216                                                               :
01217   # find available baseline
01218   dts = []
01219   cscs = []
01220   if len(reports)>0:
01221     dts  = availableCellsDT(reports)
01222     cscs = availableCellsCSC(reports)
01223   elif len(pic_ids)>0:
01224     dts  = [id for id in pic_ids if 'MB' in id]
01225     cscs = [id for id in pic_ids if 'ME' in id]
01226   mulist = ['Run: '+run_name,['ALL',['MU']],['DT',dts],['CSC',cscs]]
01227   ff = open(fname_base,mode="w")
01228   print >>ff, "var MU_LIST = ["
01229   json.dump(mulist,ff)
01230   print >>ff, "];"
01231   ff.close()
01232   
01233   doTestsForReport(dts,reports)
01234   doTestsForReport(cscs,reports)
01235   
01236   loadTestResultsMap(run_name)
01237   doTestsForMapPlots(dts)
01238   doTestsForMapPlots(cscs)
01239   
01240   writeDQMReport(fname_dqm, run_name)
01241 

def plotscripts::doTestsForMapPlots (   cells)

Definition at line 1142 of file plotscripts.py.

01143                              :
01144   for c in cells:
01145     res = []
01146     
01147     scope = "zzz"
01148     if c[0:2]=="MB": scope = "DT"
01149     if c[0:2]=="ME": scope = "CSC"
01150     if scope == "zzz":
01151       print "strange cell ID: ", c
01152       return None
01153     
01154     if MAP_RESULTS_FITSIN.has_key(c):
01155       t = MAP_RESULTS_FITSIN[c]
01156       t_a = testZeroWithin5Sigma(t['a'])
01157       t_s = testZeroWithin5Sigma(t['sin'])
01158       t_c = testZeroWithin5Sigma(t['cos'])
01159       if t_a+t_s+t_c >0:
01160         descr = "map fitsin 5 sigma away from 0; pulls : a=%.2f sin=%.2f, cos=%.2f" % (t_a,t_s,t_c)
01161         res.append(testEntry("MAP_FITSIN",scope,descr,"SEVERE"))
01162     
01163     if MAP_RESULTS_SAWTOOTH.has_key(c):
01164       t = MAP_RESULTS_SAWTOOTH[c]
01165       
01166       t_a = testDeltaWithin5Sigma(t['a'],t['da'])
01167       if len(t_a)>0:
01168         descr = "map discontinuities: %s" % ",".join(map(str,t_a))
01169         res.append(testEntry("MAP_DISCONTIN",scope,descr,"SEVERE"))
01170 
01171       t_b = map(testZeroWithin5Sigma, t['b'])
01172       t_bi = []
01173       for i in range(0,len(t_b)):
01174         if t_b[i]>0: t_bi.append(i+1)
01175       if len(t_bi)>0:
01176         descr = "map sawteeth: %s" % ",".join(map(str,t_bi))
01177         res.append(testEntry("MAP_SAWTEETH",scope,descr,"TOLERABLE"))
01178 
01179     addToTestResults(c,res)
01180 

def plotscripts::doTestsForReport (   cells,
  reports 
)

Definition at line 1078 of file plotscripts.py.

01079                                    :
01080   for c in cells:
01081     # can a cell be converted to a chamber postal address?
01082     postal_address = idToPostalAddress(c)
01083     if not postal_address: continue
01084     
01085     # is this chamber in _report?
01086     found = False
01087     for r in reports:
01088       if r.postal_address == postal_address:
01089         found = True
01090         break
01091     if not found: continue
01092 
01093     # chamber's tests result
01094     res = []
01095     scope = postal_address[0]
01096     
01097     # noting could be done if fitting fails
01098     if r.status == "FAIL" or r.status == "MINUITFAIL":
01099       res.append(testEntry("FAILURE",scope,r.status+" failure","CRITICAL"))
01100       addToTestResults(c,res)
01101       continue
01102 
01103     # noting could be done if TOOFEWHITS
01104     nseg = r.posNum + r.negNum
01105     if r.status == "TOOFEWHITS" and nseg>0:
01106       res.append(testEntry("LOW_STAT",scope,"low stat, #segments=%d"%nseg,"LOWSTAT"))
01107       addToTestResults(c,res)
01108       continue
01109 
01110     # set shades of light green according to sidma(dx)
01111     sdx = 10.*r.deltax.error
01112     if sdx>0.5:
01113       if sdx<0.75: res.append(testEntry("LOW_STAT_DDX05",scope,"low stat, delta(dx)=%f #segments=%d" % (sdx,nseg),"LOWSTAT05"))
01114       elif sdx<1.: res.append(testEntry("LOW_STAT_DDX075",scope,"low stat, delta(dx)=%f #segments=%d" % (sdx,nseg),"LOWSTAT075"))
01115       else: res.append(testEntry("LOW_STAT_DDX1",scope,"low stat, delta(dx)=%f #segments=%d" % (sdx,nseg),"LOWSTAT1"))
01116 
01117     # check chi2
01118     if r.redchi2 > 20.: #2.5:
01119       res.append(testEntry("BIG_CHI2",scope,"chi2=%f>20" % r.redchi2,"TOLERABLE"))
01120 
01121     # check medians
01122     medx, meddx = 10.*r.median_x, 1000.*r.median_dxdz
01123     #medy, meddy = 10.*r.median_y, 1000.*r.median_dydz
01124     if medx>2:  res.append(testEntry("BIG_MED_X",scope,"median dx=%f>2 mm"%medx,"SEVERE"))
01125     #if medy>3: res.append(testEntry("BIG_MED_Y",scope,"median dy=%f>3 mm"%medy,"SEVERE"))
01126     if meddx>2: res.append(testEntry("BIG_MED_DXDZ",scope,"median d(dx/dz)=%f>2 mrad"%meddx,"SEVERE"))
01127     #if meddy>3: res.append(testEntry("BIG_MED_DYDZ",scope,"median d(dy/dz)=%f>3 mrad"%meddy,"SEVERE"))
01128 
01129     # check residuals far from zero
01130     isDTst4 = False
01131     if postal_address[0] == "DT" and postal_address[2]==4: isDTst4 = True
01132     dx, dy, dpy, dpz = 10.*r.deltax.value, 0., 1000.*r.deltaphiy.value, 1000.*r.deltaphiz.value
01133     if not isDTst4: dy = 10.*r.deltay.value
01134     if dx>0.2:   res.append(testEntry("BIG_LAST_ITR_DX",scope,"dx=%f>0.2 mm"%dx,"CRITICAL"))
01135     if dy>0.2:   res.append(testEntry("BIG_LAST_ITR_DY",scope,"dy=%f>0.2 mm"%dy,"CRITICAL"))
01136     if dpy>0.2:   res.append(testEntry("BIG_LAST_ITR_DPHIY",scope,"dphiy=%f>0.2 mrad"%dpy,"CRITICAL"))
01137     if dpz>0.2:   res.append(testEntry("BIG_LAST_ITR_DPHIZ",scope,"dphiz=%f>0.2 mrad"%dpz,"CRITICAL"))
01138     #if ddx>0.03: res.append(testEntry("BIG_DX",scope,"dphix=%f>0.03 mrad"%ddx,"CRITICAL"))
01139 
01140     addToTestResults(c,res)
01141 

def plotscripts::getname (   r)

Definition at line 2032 of file plotscripts.py.

02033               :
02034     if r.postal_address[0] == "DT":
02035         wheel, station, sector = r.postal_address[1:]
02036         return "DT wheel %d, station %d, sector %d" % (wheel, station, sector)
02037     elif r.postal_address[0] == "CSC":
02038         endcap, station, ring, chamber = r.postal_address[1:]
02039         if endcap != 1: station = -1 * abs(station)
02040         return "CSC ME%d/%d chamber %d" % (station, ring, chamber)
02041 
ddt=[0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.]
def plotscripts::getReportByPostalAddress (   postal_address,
  report 
)

Definition at line 468 of file plotscripts.py.

00469                                                     :
00470   for r in report:
00471     if postal_address == r.postal_address:
00472       return r
00473   return None
00474 

def plotscripts::idToPostalAddress (   id)

Definition at line 861 of file plotscripts.py.

00862                          :
00863   # only len==9 ids can correspond to valid postal address
00864   if len(id)!=9: return None
00865   if id[0:2]=="MB":
00866     #print id
00867     pa = ("DT", int(id[2:4]), int(id[5]), int(id[7:9]))
00868     #print pa
00869     if pa[1]<-2 or pa[1]>2: return None
00870     if pa[2]>4: return None
00871     if pa[3]<1 or pa[3]>14 or (pa[3]==4 and pa[3]>12): return None
00872     return pa
00873   elif id[0:2]=="ME":
00874     if id[2]=="+": ec=1
00875     elif id[2]=="-": ec=2
00876     else: return None
00877     pa = ("CSC", ec, int(id[3]), int(id[5]), int(id[7:9]))
00878     if pa[2]<1 or pa[2]>4: return None
00879     if pa[3]<1 or pa[3]>4 or (pa[2]>1 and pa[3]>2): return None
00880     if pa[4]<1 or pa[4]>36 or (pa[2]>1 and pa[3]==1 and pa[4]>18): return None
00881     return pa
00882   else: return None
00883 

def plotscripts::loadTestResultsMap (   run_name)

Definition at line 1189 of file plotscripts.py.

01190                                 :
01191   print "tmp_test_results_map__%s.pkl" % run_name, os.access("tmp_test_results_map__%s.pkl" % run_name,os.F_OK)
01192   if not os.access("tmp_test_results_map__%s.pkl" % run_name,os.F_OK): return None
01193   global MAP_RESULTS_FITSIN, MAP_RESULTS_SAWTOOTH
01194   ff = open("tmp_test_results_map__%s.pkl" % run_name, "rb")
01195   MAP_RESULTS_SAWTOOTH = pickle.load(ff)
01196   MAP_RESULTS_FITSIN = pickle.load(ff)
01197   ff.close()
01198   #execfile("tmp_test_results_map__%s.py" % run_name)
01199   #print 'asasas', MAP_RESULTS_FITSIN
01200   return True

def plotscripts::mapNameToId (   name)

Definition at line 1761 of file plotscripts.py.

01762                      :
01763   if "DT" in name:
01764     wh = "-ALL"
01765     if name.find('wh')>1: wh = name[name.find('wh')+2]
01766     if   wh == "A": w = "-2"
01767     elif wh == "B": w = "-1"
01768     elif wh == "C": w = "-0"
01769     elif wh == "D": w = "+1"
01770     elif wh == "E": w = "+2"
01771     elif wh == "-ALL": w = "-ALL"
01772     else: return None
01773     station=''
01774     if wh == "-ALL": 
01775         if name.find('sec')<0: return None
01776         station = name[name.find('sec')-1]
01777         sector = ''
01778         sector = name[name.find('sec')+3:name.find('sec')+5]
01779         return "MB%s/%s/%s" % (w, station, sector)
01780     if name.find('st')>1: station = name[name.find('st')+2]
01781     else: return None
01782     return "MB%s/%s" % (w, station)
01783   elif "CSC" in name:
01784     p = name.find('me')
01785     if p<0: return None
01786     if name[p+2]=="p": endcap = "+"
01787     elif name[p+2]=="m": endcap = "-"
01788     else: return None
01789     station = name[p+3]
01790     pch = name.find('ch')
01791     if pch<0:
01792         ring = name[p+4]
01793         return "ME%s%s/%s" % (endcap, station, ring)
01794     ring = 'ALL'
01795     chamber = name[pch+2:pch+4]
01796     return "ME%s%s/%s/%s" % (endcap, station, ring, chamber)
01797   return None
01798 

def plotscripts::mapplot (   tfiles,
  name,
  param,
  mode = "from2d",
  window = 10.,
  abscissa = None,
  title = "",
  widebins = False,
  fitsine = False,
  fitline = False,
  reset_palette = False,
  fitsawteeth = False,
  fitpeaks = False,
  peaksbins = 1,
  fixfitpars = {},
  args 
)

Definition at line 1444 of file plotscripts.py.

01445                                                                                                                                           {}, **args):
01446     tdrStyle.SetOptTitle(1)
01447     tdrStyle.SetTitleBorderSize(0)
01448     tdrStyle.SetOptStat(0)
01449     #tdrStyle.SetOptStat("emrou")
01450     tdrStyle.SetOptFit(0)
01451     tdrStyle.SetTitleFontSize(0.05)
01452     tdrStyle.SetPadRightMargin(0.1) # to see the pallete labels on the left
01453     
01454     c1.Clear()
01455     c1.ResetAttPad()
01456     
01457     if reset_palette: set_palette("blues")
01458     global hist, hist2d, hist2dweight, tline1, tline2, tline3
01459     
01460     if fitsine or fitsawteeth:
01461         id = mapNameToId(name)
01462         if not id:
01463             print "bad id for ", name
01464             raise Exception
01465     
01466     hdir = "AlignmentMonitorMuonSystemMap1D/iter1/"
01467     hpref= "%s_%s" % (name, param)
01468     hhh  = hdir+hpref
01469     
01470     combine_all = False
01471     if "ALL" in name  and  ("CSCvsr" in name  or  "DTvsz" in name): combine_all = True
01472     
01473     add1d =  ("vsphi" in name) and (param == "x")
01474 
01475     if "h2d" in args:
01476       hist2d = args["h2d"].Clone(hpref+"_2d_")
01477       if "CSC" in name  and  add1d: hist1d = args["h1d"].Clone(hpref+"_1d_")
01478 
01479     elif combine_all:
01480       nch = 12
01481       if  "DT" in name  and  name[6:9]=='st4': nch = 14
01482       if  "CSC" in name: nch = 36
01483       chambers = ["%02d" % ch for ch in range (2,nch+1)]
01484 
01485       ch_hhh = hhh.replace('ALL','01')
01486       ch_hpref = hpref.replace('ALL','01')
01487       hist2d = tfiles[0].Get(ch_hhh+"_2d").Clone(ch_hpref+"_2d_")
01488       if "CSC" in name  and  add1d: hist1d = tfiles[0].Get(ch_hhh+"_1d").Clone(ch_hpref+"_1d_")
01489       
01490       for ch in chambers:
01491         ch_hhh = hhh.replace('ALL',ch)
01492         ch_hpref = hpref.replace('ALL',ch)
01493         hist2d.Add(tfiles[0].Get(ch_hhh+"_2d"))
01494         if "CSC" in name  and  add1d: hist1d.Add(tfiles[0].Get(ch_hhh+"_1d"))
01495         for tfile in tfiles[1:]:
01496           hist2d.Add(tfile.Get(ch_hhh+"_2d"))
01497           if "CSC" in name   and  add1d: hist1d.Add(tfile.Get(ch_hhh+"_1d"))
01498     
01499     else:
01500       hist2d = tfiles[0].Get(hhh+"_2d").Clone(hpref+"_2d_")
01501       if "CSC" in name  and  add1d: hist1d = tfiles[0].Get(hhh+"_1d").Clone(hpref+"_1d_")
01502       for tfile in tfiles[1:]:
01503         hist2d.Add(tfile.Get(hhh+"_2d"))
01504         if "CSC" in name   and  add1d: hist1d.Add(tfile.Get(hhh+"_1d"))
01505 
01506     
01507     if mode == "from2d":
01508         the2d = hist2d
01509         
01510         hist = the2d.ProjectionX()
01511         hist.Reset()
01512         
01513         skip = 1
01514         if widebins:
01515             hist.Rebin(10)
01516             skip = 10
01517 
01518         #f = ROOT.TF1("g", "gaus", -40., 40)
01519         for i in xrange(0, int(the2d.GetNbinsX()), skip):
01520             tmp = the2d.ProjectionY("tmp", i+1, i + skip)
01521             if tmp.GetEntries() > 1:
01522                 #tmp.Fit("g","LNq")
01523                 hist.SetBinContent(i/skip+1, tmp.GetMean())
01524                 hist.SetBinError(i/skip+1, ROOT.TMath.StudentQuantile(0.841345,tmp.GetEntries()) * tmp.GetRMS() / sqrt(tmp.GetEntries()))
01525                 #hist.SetBinError(i/skip+1, tmp.GetRMS() / sqrt(tmp.GetEntries()))
01526                 #hist.SetBinError(i/skip+1, f.GetParameter(2))
01527             else:
01528                 #hist.SetBinContent(i/skip+1, 2000.)
01529                 #hist.SetBinError(i/skip+1, 1000.)
01530                 hist.SetBinContent(i/skip+1, 0.)
01531                 hist.SetBinError(i/skip+1, 0.)
01532 
01533         hpeaks = createPeaksProfile(the2d, peaksbins)
01534 
01535     else:
01536         raise Exception
01537 
01538     hist.SetAxisRange(-window, window, "Y")
01539     if abscissa is not None: hist.SetAxisRange(abscissa[0], abscissa[1], "X")
01540     hist.SetMarkerStyle(20)
01541     hist.SetMarkerSize(0.75)
01542     hist.GetXaxis().CenterTitle()
01543     hist.GetYaxis().CenterTitle()
01544     hist.GetYaxis().SetTitleOffset(0.75)
01545     hist.GetXaxis().SetTitleSize(0.05)
01546     hist.GetYaxis().SetTitleSize(0.05)
01547     hist.SetTitle(title)
01548     if "vsphi" in name: hist.SetXTitle("Global #phi position (rad)")
01549     elif "vsz" in name: hist.SetXTitle("Global z position (cm)")
01550     elif "vsr" in name: hist.SetXTitle("Global R position (cm)")
01551     if "DT" in name:
01552         if param == "x": hist.SetYTitle("x' residual (mm)")
01553         if param == "dxdz": hist.SetYTitle("dx'/dz residual (mrad)")
01554         if param == "y": hist.SetYTitle("y' residual (mm)")
01555         if param == "dydz": hist.SetYTitle("dy'/dz residual (mrad)")
01556     if "CSC" in name:
01557         if param == "x": hist.SetYTitle("r#phi residual (mm)")
01558         if param == "dxdz": hist.SetYTitle("d(r#phi)/dz residual (mrad)")
01559     hist.SetMarkerColor(ROOT.kBlack)
01560     hist.SetLineColor(ROOT.kBlack)
01561     hist.Draw()
01562     hist2d.Draw("colzsame")
01563     if widebins: hist.Draw("samee1")
01564     else: hist.Draw("same")
01565 
01566     hpeaks.SetMarkerStyle(20)
01567     hpeaks.SetMarkerSize(0.9)
01568     hpeaks.SetMarkerColor(ROOT.kRed)
01569     hpeaks.SetLineColor(ROOT.kRed)
01570     hpeaks.SetLineWidth(2)
01571     #if fitpeaks: hpeaks.Draw("same")
01572     hpeaks.Draw("same")
01573 
01574     if fitsine and "vsphi" in name:
01575         global fitsine_const, fitsine_sin, fitsine_cos, fitsine_chi2, fitsine_ndf
01576         if 'CSC' in name:
01577           f = ROOT.TF1("f", "[0] + [1]*sin(x) + [2]*cos(x)", -pi/180.*5., pi*(2.-5./180.))
01578         else:
01579           f = ROOT.TF1("f", "[0] + [1]*sin(x) + [2]*cos(x)", -pi, pi)
01580         f.SetLineColor(ROOT.kRed)
01581         f.SetLineWidth(2)
01582         if len(fixfitpars)>0:
01583           for fpar in fixfitpars.keys():
01584             f.FixParameter(fpar, fixfitpars[fpar])
01585         #hist.Fit(f,"N")
01586         if fitpeaks: hpeaks.Fit(f,"NQ")
01587         else: hist.Fit(f,"NEQ")
01588         if len(fixfitpars)>0:
01589           for fpar in fixfitpars.keys():
01590             f.ReleaseParameter(fpar)
01591         fitsine_const = f.GetParameter(0), f.GetParError(0)
01592         fitsine_sin = f.GetParameter(1), f.GetParError(1)
01593         fitsine_cos = f.GetParameter(2), f.GetParError(2)
01594         fitsine_chi2 = f.GetChisquare()
01595         fitsine_ndf = f.GetNDF()
01596         global MAP_RESULTS_FITSIN
01597         # 'phi' coefficienct will be updated further for CSC
01598         MAP_RESULTS_FITSIN[id] = {'a':fitsine_const, 'phi':fitsine_const, 'sin': fitsine_sin, 'cos': fitsine_cos, 'chi2': fitsine_chi2, 'ndf': fitsine_ndf}
01599         f.Draw("same")
01600         global fitsine_ttext, fitsine_etext
01601         text_xposition = -1.
01602         if 'CSC' in name: text_xposition = 2.
01603         fitsine_ttext = ROOT.TLatex(text_xposition, 0.8*window, 
01604                 "%+.3f %+.3f sin#phi %+.3f cos#phi" % (fitsine_const[0], fitsine_sin[0], fitsine_cos[0]))
01605         fitsine_ttext.SetTextColor(ROOT.kRed)
01606         fitsine_ttext.SetTextSize(0.05)
01607         fitsine_ttext.Draw()
01608         fitsine_etext = ROOT.TLatex(text_xposition, 0.70*window, 
01609                 " #pm%.3f    #pm%.3f            #pm%.3f" % (fitsine_const[1], fitsine_sin[1], fitsine_cos[1]))
01610         fitsine_etext.SetTextColor(ROOT.kRed)
01611         fitsine_etext.SetTextSize(0.045)
01612         fitsine_etext.Draw()
01613 
01614         # additional estimate of phiz ring rotation from 1d distribution
01615         if 'CSC' in name and add1d:
01616           # zero-order rough fit to obtain the fitting range:
01617           f0 = ROOT.TF1("f0", "gaus", hist1d.GetBinLowEdge(1), -hist1d.GetBinLowEdge(1))
01618           fit = hist1d.Fit(f0,"NRQ")
01619           rangea, rangeb = hist1d.GetMean() - hist1d.GetRMS(), hist1d.GetMean() + hist1d.GetRMS()
01620           if fit==0: rangea, rangeb = f0.GetParameter(1) - f0.GetParameter(2), f0.GetParameter(1) + f0.GetParameter(2)
01621           #print rangea, rangeb
01622           
01623           # second fit for finding the peak:
01624           f1 = ROOT.TF1("f1", "gaus", rangea, rangeb)
01625           fit = hist1d.Fit(f1,"NRQ")
01626           nn = hist1d.GetEntries()
01627           dphiz, ephiz = 0, 0
01628           if nn>0:  dphiz, ephiz = hist1d.GetMean(), ROOT.TMath.StudentQuantile(0.841345,nn) * hist1d.GetRMS() / sqrt(nn)
01629           if fit==0: dphiz, ephiz = f1.GetParameter(1), f1.GetParError(1)
01630           #print dphiz, ephiz
01631           MAP_RESULTS_FITSIN[id]['phi'] = (dphiz, ephiz)
01632           
01633           global ttex_sine_, ttex_sine, ttex_1d_, ttex_1d
01634           postal_address = idToPostalAddress(id+'/01')
01635           ttex_sine_ = ROOT.TLatex(0, 0.8*window,"#Delta#phi_{z}^{sine} (mrad):")
01636           ttex_sine_.SetTextColor(ROOT.kGreen+2); ttex_sine_.SetTextSize(0.04); ttex_sine_.Draw()
01637           ttex_sine = ROOT.TLatex(0, 0.7*window,"   %+.3f#pm%.3f" %
01638                                   (-100*fitsine_const[0]/signConventions[postal_address][3], 
01639                                    100*fitsine_const[1]/signConventions[postal_address][3]))
01640           ttex_sine.SetTextColor(ROOT.kGreen+2); ttex_sine.SetTextSize(0.04); ttex_sine.Draw()
01641           ttex_1d_ = ROOT.TLatex(0, 0.6*window,"#Delta#phi_{z}^{phi} (mrad):")
01642           ttex_1d_.SetTextColor(ROOT.kGreen+2); ttex_1d_.SetTextSize(0.04); ttex_1d_.Draw()
01643           ttex_1d = ROOT.TLatex(0, 0.5*window,"   %+.3f#pm%.3f" % (-dphiz, ephiz))
01644           ttex_1d.SetTextColor(ROOT.kGreen+2); ttex_1d.SetTextSize(0.04); ttex_1d.Draw()
01645           ROOT.gPad.Update()
01646 
01647     if fitline:
01648         f = ROOT.TF1("f", "[0] + [1]*x", -1000., 1000.)
01649         hist2d.Fit(f, "q")
01650         hist2d.GetFunction("f").SetLineColor(ROOT.kRed)
01651         global fitline_const, fitline_linear, fitline_chi2, fitline_ndf
01652         fitline_const = hist2d.GetFunction("f").GetParameter(0), hist2d.GetFunction("f").GetParError(0)
01653         fitline_linear = hist2d.GetFunction("f").GetParameter(1), hist2d.GetFunction("f").GetParError(1)
01654         fitline_chi2 = hist2d.GetFunction("f").GetChisquare()
01655         fitline_ndf = hist2d.GetFunction("f").GetNDF()
01656         hist2d.GetFunction("f").Draw("same")
01657         global fitline_ttext
01658         if "vsz" in name: which = "Z"
01659         elif "vsr" in name: which = "R"
01660         fitline_ttext = ROOT.TText(hist.GetBinCenter(hist.GetNbinsX()/4), 
01661                 0.8*window, "%.3g %+.3g %s" % (fitline_const[0], fitline_linear[0], which))
01662         fitline_ttext.SetTextColor(ROOT.kRed)
01663         fitline_ttext.Draw()
01664 
01665     ROOT.gPad.RedrawAxis()
01666 
01667     if "vsphi" in name: 
01668         if not widebins: philines(name, window, abscissa)
01669         if abscissa is None:
01670           if 'CSC' in name:
01671             tline1 = ROOT.TLine(-pi/180.*5., 0, pi*(2.-5./180.), 0); tline1.Draw()
01672             tline2 = ROOT.TLine(-pi/180.*5., -window, pi*(2.-5./180.), -window); tline2.SetLineWidth(2); tline2.Draw()
01673             tline3 = ROOT.TLine(-pi/180.*5., window, pi*(2.-5./180.), window); tline3.Draw()
01674           else:
01675             tline1 = ROOT.TLine(-pi, 0, pi, 0); tline1.Draw()
01676             tline2 = ROOT.TLine(-pi, -window, pi, -window); tline2.SetLineWidth(2); tline2.Draw()
01677             tline3 = ROOT.TLine(-pi, window, pi, window); tline3.Draw()
01678         else:
01679             tline1 = ROOT.TLine(abscissa[0], 0, abscissa[1], 0); tline1.Draw()
01680             tline2 = ROOT.TLine(abscissa[0], -window, abscissa[1], -window); tline2.SetLineWidth(2); tline2.Draw()
01681             tline3 = ROOT.TLine(abscissa[0], window, abscissa[1], window); tline3.Draw()
01682     elif "vsz" in name:
01683         if not widebins: zlines(window, abscissa)
01684         if abscissa is None:
01685             tline1 = ROOT.TLine(-660, 0, 660, 0); tline1.Draw()
01686             tline2 = ROOT.TLine(-660, -window, 660, -window); tline2.SetLineWidth(2); tline2.Draw()
01687             tline3 = ROOT.TLine(-660, window, 660, window); tline3.Draw()
01688         else:
01689             tline1 = ROOT.TLine(abscissa[0], 0, abscissa[1], 0); tline1.Draw()
01690             tline2 = ROOT.TLine(abscissa[0], -window, abscissa[1], -window); tline2.SetLineWidth(2); tline2.Draw()
01691             tline3 = ROOT.TLine(abscissa[0], window, abscissa[1], window); tline3.Draw()
01692     elif "vsr" in name:
01693         if "mem1" in name or "mep1" in name and not widebins: rlines(1, window, abscissa)
01694         if "mem2" in name or "mep2" in name and not widebins: rlines(2, window, abscissa)
01695         if "mem3" in name or "mep3" in name and not widebins: rlines(3, window, abscissa)
01696         if "mem4" in name or "mep4" in name and not widebins: rlines(4, window, abscissa)
01697         if abscissa is None:
01698             tline1 = ROOT.TLine(100, 0, 700, 0); tline1.Draw()
01699             tline2 = ROOT.TLine(100, -window, 700, -window); tline2.SetLineWidth(2); tline2.Draw()
01700             tline3 = ROOT.TLine(100, window, 700, window); tline3.Draw()
01701         else:
01702             tline1 = ROOT.TLine(abscissa[0], 0, abscissa[1], 0); tline1.Draw()
01703             tline2 = ROOT.TLine(abscissa[0], -window, abscissa[1], -window); tline2.SetLineWidth(2); tline2.Draw()
01704             tline3 = ROOT.TLine(abscissa[0], window, abscissa[1], window); tline3.Draw()
01705 
01706     if "vsphi" in name and fitsawteeth:
01707         global CPP_LOADED
01708         if not CPP_LOADED:
01709             phiedges2c()
01710             ROOT.gROOT.ProcessLine(".L phiedges_fitfunctions.C++")
01711             CPP_LOADED = True
01712         fn={0: ROOT.fitf0,
01713             1: ROOT.fitf2,
01714             2: ROOT.fitf2,
01715             3: ROOT.fitf3,
01716             4: ROOT.fitf4,
01717             5: ROOT.fitf5,
01718             6: ROOT.fitf6,
01719             7: ROOT.fitf7,
01720             8: ROOT.fitf8,
01721             9: ROOT.fitf9,
01722             10: ROOT.fitf10,
01723             11: ROOT.fitf11,
01724             12: ROOT.fitf12,
01725             13: ROOT.fitf13
01726         } [stationIndex(name)]
01727         fn.SetNpx(5000)
01728         fn.SetLineColor(ROOT.kYellow)
01729         hist.Fit(fn,"N")
01730         fn.Draw("same")
01731 
01732         # get properly arranged phi edges
01733         edges = (phiedges[stationIndex(name)])[:]
01734         ed = sorted(edges)
01735         # add some padding to the end
01736         ed.append(pi+abs(ed[0]))
01737 
01738         global sawtooth_a, sawtooth_b
01739         sawtooth_a = []
01740         sawtooth_da = []
01741         sawtooth_b = []
01742         for pr in range(0,fn.GetNpar(),2):
01743             sawtooth_a.append( (fn.GetParameter(pr), fn.GetParError(pr)) )
01744             sawtooth_b.append( (fn.GetParameter(pr+1), fn.GetParError(pr+1)) )
01745             sawtooth_da.append( (fn.Eval(ed[pr/2]+0.01), fn.Eval(ed[pr/2+1]-0.01)) )
01746         global MAP_RESULTS_SAWTOOTH
01747         MAP_RESULTS_SAWTOOTH[id] = {'a': sawtooth_a, 'da': sawtooth_da, 'b': sawtooth_b, 'chi2': fn.GetChisquare(), 'ndf': fn.GetNDF()}
01748 
01749     # fill number of contributiong bins
01750     
01751     
01752     #ROOT.SetOwnership(hist,False)
01753     ROOT.SetOwnership(hist2d,False)
01754     ROOT.SetOwnership(hist,False)
01755     ROOT.SetOwnership(tline1,False)
01756     ROOT.SetOwnership(tline2,False)
01757     ROOT.SetOwnership(tline3,False)
01758     return hist
01759 
01760 
def plotscripts::mean (   xlist)

Definition at line 53 of file plotscripts.py.

00054                :
00055   s, n = 0., 0.
00056   for x in xlist:
00057     s += x
00058     n += 1.
00059   return s/n

def plotscripts::nameToId (   name)

Definition at line 896 of file plotscripts.py.

00897                   :
00898   if name[0:2] == "MB":
00899     wh = name[4]
00900     if   wh == "A": w = "-2"
00901     elif wh == "B": w = "-1"
00902     elif wh == "C": w = "-0"
00903     elif wh == "D": w = "+1"
00904     elif wh == "E": w = "+2"
00905     else: return ""
00906     station = name[7]
00907     sector = name[11:13]
00908     return "MB%s/%s/%s" % (w, station, sector)
00909   elif name[0:2] == "ME":
00910     if name[2]=="p": endcap = "+"
00911     elif name[2]=="m": endcap = "-"
00912     else: return ""
00913     station = name[3]
00914     ring = name[4]
00915     chamber = name[6:8]
00916     return "ME%s%s/%s/%s" % (endcap, station, ring, chamber)
00917   return None
00918 

def plotscripts::phiedges2c ( )

Definition at line 316 of file plotscripts.py.

00317                 :
00318   lines = []
00319   for ed in phiedges[:]:
00320     ed.sort()
00321     #print ed
00322     ed.extend([999 for n in range(0,37-len(ed))])
00323     lines.append('{' + ', '.join(map(str, ed)) + '}')
00324   #print lines
00325   res = ', '.join(lines)
00326   ff = open("phiedges_export.h",mode="w")
00327   print>>ff,'double phiedges[14][37] = {' + res + '};'
00328   ff.close()

def plotscripts::philines (   name,
  window,
  abscissa 
)

Definition at line 392 of file plotscripts.py.

00393                                     :
00394     global philine_tlines, philine_labels
00395     philine_tlines = []
00396     edges = phiedges[stationIndex(name)]
00397     #print name, len(edges)
00398     for phi in edges:
00399         if abscissa is None or abscissa[0] < phi < abscissa[1]:
00400             philine_tlines.append(ROOT.TLine(phi, -window, phi, window))
00401             philine_tlines[-1].SetLineStyle(2)
00402             philine_tlines[-1].Draw()
00403     if "st" in name: # DT labels
00404         philine_labels = []
00405         edges = edges[:]
00406         edges.sort()
00407         if "st4" in name:
00408             labels = [" 7", " 8", " 9", "14", "10", "11", "12", " 1", " 2", " 3", "13", " 4", " 5", " 6"]
00409         else: 
00410             labels = [" 8", " 9", "10", "11", "12", " 1", " 2", " 3", " 4", " 5", " 6"]
00411             edges = edges[1:]
00412         for phi, label in zip(edges, labels):
00413             littlebit = 0.
00414             if label in (" 7", " 9", "14", "10", "11"): littlebit = 0.05
00415             philine_labels.append(ROOT.TText(phi-0.35+littlebit, -0.9*window, label))
00416             philine_labels[-1].Draw()
00417         philine_labels.append(ROOT.TText(-2.9, -0.75*window, "Sector:"))
00418         philine_labels[-1].Draw()
00419     if "CSC" in name: # DT labels
00420         philine_labels = []
00421         edges = edges[:]
00422         edges.sort()
00423         labels = [" 1", " 2", " 3", " 4", " 5", " 6", " 7", " 8", " 9", "10", "11", "12", "13", "14", "15", "16", "17", "18",
00424                   "19", "20", "21", "22", "23", "24", "25", "26", "27", "28", "29", "30", "31", "32", "33", "34", "35", "36"]
00425         #else: 
00426         #    labels = [" 8", " 9", "10", "11", "12", " 1", " 2", " 3", " 4", " 5", " 6"]
00427         #    edges = edges[1:]
00428         for phi, label in zip(edges, labels):
00429             littlebit = 0.
00430             #if label in (" 7", " 9", "14", "10", "11"): littlebit = 0.05
00431             philine_labels.append(ROOT.TText(phi+littlebit, -0.9*window, label))
00432             philine_labels[-1].SetTextFont(42)
00433             philine_labels[-1].SetTextSize(0.028)
00434             philine_labels[-1].Draw()
00435         philine_labels.append(ROOT.TText(0, -0.78*window, "Chamber:"))
00436         philine_labels[-1].SetTextSize(0.035)
00437         philine_labels[-1].Draw()

def plotscripts::plotmedians (   reports1,
  reports2,
  selection = None,
  binsx = 100,
  windowx = 5.,
  ceilingx = None,
  binsy = 100,
  windowy = 5.,
  ceilingy = None,
  binsdxdz = 100,
  windowdxdz = 5.,
  ceilingdxdz = None,
  binsdydz = 100,
  windowdydz = 5.,
  ceilingdydz = None,
  r1text = " before",
  r2text = " after",
  which = "median" 
)

Definition at line 1244 of file plotscripts.py.

01247                                                                   :
01248     tdrStyle.SetOptStat("emrou")
01249     tdrStyle.SetStatW(0.40)
01250     tdrStyle.SetStatFontSize(0.05)
01251 
01252     global hmediandxdz_after, hmediandxdz_before, hmediandxdz_beforecopy, \
01253            hmediandydz_after, hmediandydz_before, hmediandydz_beforecopy, \
01254            hmedianx_after, hmedianx_before, hmedianx_beforecopy, \
01255            hmediany_after, hmediany_before, hmediany_beforecopy, tlegend 
01256 
01257     hmedianx_before = ROOT.TH1F("hmedianx_before", "", binsx, -windowx, windowx)
01258     hmediany_before = ROOT.TH1F("hmediany_before", "", binsy, -windowy, windowy)
01259     hmediandxdz_before = ROOT.TH1F("hmediandxdz_before", "", binsdxdz, -windowdxdz, windowdxdz)
01260     hmediandydz_before = ROOT.TH1F("hmediandydz_before", "", binsdydz, -windowdydz, windowdydz)
01261     hmedianx_after = ROOT.TH1F("hmedianx_after", "", binsx, -windowx, windowx)
01262     hmediany_after = ROOT.TH1F("hmediany_after", "", binsy, -windowy, windowy)
01263     hmediandxdz_after = ROOT.TH1F("hmediandxdz_after", "", binsdxdz, -windowdxdz, windowdxdz)
01264     hmediandydz_after = ROOT.TH1F("hmediandydz_after", "", binsdydz, -windowdydz, windowdydz)
01265 
01266     if which == "median":
01267         whichx = whichy = whichdxdz = whichdydz = "median"
01268     elif which == "bigmean":
01269         whichx = "mean30"
01270         whichy = "mean30"
01271         whichdxdz = "mean20"
01272         whichdydz = "mean50"
01273     elif which == "mean":
01274         whichx = "mean15"
01275         whichy = "mean15"
01276         whichdxdz = "mean10"
01277         whichdydz = "mean25"
01278     elif which == "bigwmean":
01279         whichx = "wmean30"
01280         whichy = "wmean30"
01281         whichdxdz = "wmean20"
01282         whichdydz = "wmean50"
01283     elif which == "wmean":
01284         whichx = "wmean15"
01285         whichy = "wmean15"
01286         whichdxdz = "wmean10"
01287         whichdydz = "wmean25"
01288     elif which == "bigstdev":
01289         whichx = "stdev30"
01290         whichy = "stdev30"
01291         whichdxdz = "stdev20"
01292         whichdydz = "stdev50"
01293     elif which == "stdev":
01294         whichx = "stdev15"
01295         whichy = "stdev15"
01296         whichdxdz = "stdev10"
01297         whichdydz = "stdev25"
01298     else:
01299         raise Exception, which + " not recognized"
01300 
01301     for r1 in reports1:
01302         if selection is None or (selection.func_code.co_argcount == len(r1.postal_address) and selection(*r1.postal_address)):
01303             found = False
01304             for r2 in reports2:
01305                 if r1.postal_address == r2.postal_address:
01306                     found = True
01307                     break
01308             if not found: continue
01309 
01310             #skip ME1/1a
01311             if r1.postal_address[0]=='CSC':
01312               if r1.postal_address[2]==1 and r1.postal_address[3]==4: continue
01313 
01314             if r1.status == "PASS" and r2.status == "PASS":
01315                 hmedianx_before.Fill(10.*eval("r1.%s_x" % whichx))
01316                 hmediandxdz_before.Fill(1000.*eval("r1.%s_dxdz" % whichdxdz))
01317                 hmedianx_after.Fill(10.*eval("r2.%s_x" % whichx))
01318                 hmediandxdz_after.Fill(1000.*eval("r2.%s_dxdz" % whichdxdz))
01319 
01320                 if r1.median_y is not None:
01321                     hmediany_before.Fill(10.*eval("r1.%s_y" % whichy))
01322                     hmediandydz_before.Fill(1000.*eval("r1.%s_dydz" % whichdydz))
01323                     hmediany_after.Fill(10.*eval("r2.%s_y" % whichy))
01324                     hmediandydz_after.Fill(1000.*eval("r2.%s_dydz" % whichdydz))
01325 
01326     hmedianx_beforecopy = hmedianx_before.Clone()
01327     hmediany_beforecopy = hmediany_before.Clone()
01328     hmediandxdz_beforecopy = hmediandxdz_before.Clone()
01329     hmediandydz_beforecopy = hmediandydz_before.Clone()
01330     hmedianx_beforecopy.SetLineStyle(2)
01331     hmediany_beforecopy.SetLineStyle(2)
01332     hmediandxdz_beforecopy.SetLineStyle(2)
01333     hmediandydz_beforecopy.SetLineStyle(2)
01334 
01335     hmedianx_before.SetFillColor(ROOT.kMagenta+2)
01336     hmediany_before.SetFillColor(ROOT.kMagenta+2)
01337     hmediandxdz_before.SetFillColor(ROOT.kMagenta+2)
01338     hmediandydz_before.SetFillColor(ROOT.kMagenta+2)
01339     hmedianx_after.SetFillColor(ROOT.kYellow)
01340     hmediany_after.SetFillColor(ROOT.kYellow)
01341     hmediandxdz_after.SetFillColor(ROOT.kYellow)
01342     hmediandydz_after.SetFillColor(ROOT.kYellow)
01343 
01344     hmedianx_after.SetXTitle("median(#Deltax) (mm)")
01345     hmediany_after.SetXTitle("median(#Deltay) (mm)")
01346     hmediandxdz_after.SetXTitle("median(#Deltadx/dz) (mrad)")
01347     hmediandydz_after.SetXTitle("median(#Deltadydz) (mrad)")
01348     hmedianx_after.GetXaxis().CenterTitle()
01349     hmediany_after.GetXaxis().CenterTitle()
01350     hmediandxdz_after.GetXaxis().CenterTitle()
01351     hmediandydz_after.GetXaxis().CenterTitle()
01352 
01353     if ceilingx is not None: hmedianx_after.SetAxisRange(0., ceilingx, "Y")
01354     if ceilingy is not None: hmediany_after.SetAxisRange(0., ceilingy, "Y")
01355     if ceilingdxdz is not None: hmediandxdz_after.SetAxisRange(0., ceilingdxdz, "Y")
01356     if ceilingdydz is not None: hmediandydz_after.SetAxisRange(0., ceilingdydz, "Y")
01357 
01358     c1.Clear()
01359     c1.Divide(2, 2)
01360 
01361     c1.GetPad(1).cd()
01362     hmedianx_after.Draw()
01363     hmedianx_before.Draw("same")
01364     hmedianx_after.Draw("same")
01365     hmedianx_beforecopy.Draw("same")
01366     hmedianx_after.Draw("axissame")
01367 
01368     tlegend = ROOT.TLegend(0.17, 0.75-0.05, 0.45+0.05, 0.9)
01369     tlegend.SetFillColor(ROOT.kWhite)
01370     tlegend.SetBorderSize(0)
01371     tlegend.AddEntry(hmedianx_after, r2text, "f")
01372     tlegend.AddEntry(hmedianx_before, r1text, "f")
01373     tlegend.Draw()
01374 
01375     c1.GetPad(2).cd()
01376     hmediandxdz_after.Draw()
01377     hmediandxdz_before.Draw("same")
01378     hmediandxdz_after.Draw("same")
01379     hmediandxdz_beforecopy.Draw("same")
01380     hmediandxdz_after.Draw("axissame")
01381 
01382     c1.GetPad(3).cd()
01383     hmediany_after.Draw()
01384     hmediany_before.Draw("same")
01385     hmediany_after.Draw("same")
01386     hmediany_beforecopy.Draw("same")
01387     hmediany_after.Draw("axissame")
01388 
01389     c1.GetPad(4).cd()
01390     hmediandydz_after.Draw()
01391     hmediandydz_before.Draw("same")
01392     hmediandydz_after.Draw("same")
01393     hmediandydz_beforecopy.Draw("same")
01394     hmediandydz_after.Draw("axissame")
01395 
01396     return hmediandxdz_after, hmediandxdz_before, hmediandxdz_beforecopy, \
01397            hmediandydz_after, hmediandydz_before, hmediandydz_beforecopy, \
01398            hmedianx_after,    hmedianx_before, hmedianx_beforecopy, \
01399            hmediany_after,    hmediany_before, hmediany_beforecopy, tlegend 
01400 

def plotscripts::polynomials (   tfile,
  reports,
  name,
  twobin = True,
  suppressblue = False 
)

Definition at line 2272 of file plotscripts.py.

02273                                                                       :
02274     t1 = time.time()
02275     ddt[7] += 1
02276     global label1, label2, label3, label4, label5, label6, label7, label8, label9
02277     plotDirectory = "MuonAlignmentFromReference"
02278     tdrStyle.SetOptTitle(1)
02279     tdrStyle.SetTitleBorderSize(1)
02280     tdrStyle.SetTitleFontSize(0.1)
02281     tdrStyle.SetOptStat(0)
02282 
02283     c1.Clear()
02284     c1.ResetAttPad()
02285 
02286     found = False
02287     for r in reports:
02288         if r.name == name:
02289             found = True
02290             break
02291     if not found: raise Exception, "Not a valid name"
02292 
02293     if r.status == "FAIL":
02294         #raise Exception, "Fit failed"
02295         print "Fit failed"
02296         c1.Clear()
02297         return
02298 
02299     Pos = "Pos"; Neg = "Neg"
02300     if not twobin:
02301         Pos = ""; Neg = ""
02302 
02303     pdirPos = "MuonAlignmentFromReference/%s%s" % (name, Pos)
02304     pdirNeg = "MuonAlignmentFromReference/%s%s" % (name, Neg)
02305 
02306     global chamber_x_trackx, chamber_x_trackx_fit, chamber_y_trackx, chamber_y_trackx_fit, \
02307         chamber_dxdz_trackx, chamber_dxdz_trackx_fit, chamber_dydz_trackx, chamber_dydz_trackx_fit, \
02308         chamber_x_trackx_fit2, chamber_y_trackx_fit2, chamber_dxdz_trackx_fit2, chamber_dydz_trackx_fit2
02309     global chamber_x_tracky, chamber_x_tracky_fit, chamber_y_tracky, chamber_y_tracky_fit, \
02310         chamber_dxdz_tracky, chamber_dxdz_tracky_fit, chamber_dydz_tracky, chamber_dydz_tracky_fit, \
02311         chamber_x_tracky_fit2, chamber_y_tracky_fit2, chamber_dxdz_tracky_fit2, chamber_dydz_tracky_fit2
02312     global chamber_x_trackdxdz, chamber_x_trackdxdz_fit, chamber_y_trackdxdz, chamber_y_trackdxdz_fit, \
02313         chamber_dxdz_trackdxdz, chamber_dxdz_trackdxdz_fit, chamber_dydz_trackdxdz, chamber_dydz_trackdxdz_fit, \
02314         chamber_x_trackdxdz_fit2, chamber_y_trackdxdz_fit2, chamber_dxdz_trackdxdz_fit2, chamber_dydz_trackdxdz_fit2
02315     global chamber_x_trackdydz, chamber_x_trackdydz_fit, chamber_y_trackdydz, chamber_y_trackdydz_fit, \
02316         chamber_dxdz_trackdydz, chamber_dxdz_trackdydz_fit, chamber_dydz_trackdydz, chamber_dydz_trackdydz_fit, \
02317         chamber_x_trackdydz_fit2, chamber_y_trackdydz_fit2, chamber_dxdz_trackdydz_fit2, chamber_dydz_trackdydz_fit2
02318 
02319     chamber_x_trackx = tfile.Get(pdirPos+"_x_trackx")
02320     chamber_x_trackx_fit = tfile.Get(pdirPos+"_x_trackx_fitline")
02321     chamber_y_trackx = tfile.Get(pdirPos+"_y_trackx")
02322     chamber_y_trackx_fit = tfile.Get(pdirPos+"_y_trackx_fitline")
02323     chamber_dxdz_trackx = tfile.Get(pdirPos+"_dxdz_trackx")
02324     chamber_dxdz_trackx_fit = tfile.Get(pdirPos+"_dxdz_trackx_fitline")
02325     chamber_dydz_trackx = tfile.Get(pdirPos+"_dydz_trackx")
02326     chamber_dydz_trackx_fit = tfile.Get(pdirPos+"_dydz_trackx_fitline")
02327     chamber_x_trackx_fit2 = tfile.Get(pdirNeg+"_x_trackx_fitline")
02328     chamber_y_trackx_fit2 = tfile.Get(pdirNeg+"_y_trackx_fitline")
02329     chamber_dxdz_trackx_fit2 = tfile.Get(pdirNeg+"_dxdz_trackx_fitline")
02330     chamber_dydz_trackx_fit2 = tfile.Get(pdirNeg+"_dydz_trackx_fitline")
02331 
02332     chamber_x_tracky = tfile.Get(pdirPos+"_x_tracky")
02333     chamber_x_tracky_fit = tfile.Get(pdirPos+"_x_tracky_fitline")
02334     chamber_y_tracky = tfile.Get(pdirPos+"_y_tracky")
02335     chamber_y_tracky_fit = tfile.Get(pdirPos+"_y_tracky_fitline")
02336     chamber_dxdz_tracky = tfile.Get(pdirPos+"_dxdz_tracky")
02337     chamber_dxdz_tracky_fit = tfile.Get(pdirPos+"_dxdz_tracky_fitline")
02338     chamber_dydz_tracky = tfile.Get(pdirPos+"_dydz_tracky")
02339     chamber_dydz_tracky_fit = tfile.Get(pdirPos+"_dydz_tracky_fitline")
02340     chamber_x_tracky_fit2 = tfile.Get(pdirNeg+"_x_tracky_fitline")
02341     chamber_y_tracky_fit2 = tfile.Get(pdirNeg+"_y_tracky_fitline")
02342     chamber_dxdz_tracky_fit2 = tfile.Get(pdirNeg+"_dxdz_tracky_fitline")
02343     chamber_dydz_tracky_fit2 = tfile.Get(pdirNeg+"_dydz_tracky_fitline")
02344 
02345     chamber_x_trackdxdz = tfile.Get(pdirPos+"_x_trackdxdz")
02346     chamber_x_trackdxdz_fit = tfile.Get(pdirPos+"_x_trackdxdz_fitline")
02347     chamber_y_trackdxdz = tfile.Get(pdirPos+"_y_trackdxdz")
02348     chamber_y_trackdxdz_fit = tfile.Get(pdirPos+"_y_trackdxdz_fitline")
02349     chamber_dxdz_trackdxdz = tfile.Get(pdirPos+"_dxdz_trackdxdz")
02350     chamber_dxdz_trackdxdz_fit = tfile.Get(pdirPos+"_dxdz_trackdxdz_fitline")
02351     chamber_dydz_trackdxdz = tfile.Get(pdirPos+"_dydz_trackdxdz")
02352     chamber_dydz_trackdxdz_fit = tfile.Get(pdirPos+"_dydz_trackdxdz_fitline")
02353     chamber_x_trackdxdz_fit2 = tfile.Get(pdirNeg+"_x_trackdxdz_fitline")
02354     chamber_y_trackdxdz_fit2 = tfile.Get(pdirNeg+"_y_trackdxdz_fitline")
02355     chamber_dxdz_trackdxdz_fit2 = tfile.Get(pdirNeg+"_dxdz_trackdxdz_fitline")
02356     chamber_dydz_trackdxdz_fit2 = tfile.Get(pdirNeg+"_dydz_trackdxdz_fitline")
02357 
02358     chamber_x_trackdydz = tfile.Get(pdirPos+"_x_trackdydz")
02359     chamber_x_trackdydz_fit = tfile.Get(pdirPos+"_x_trackdydz_fitline")
02360     chamber_y_trackdydz = tfile.Get(pdirPos+"_y_trackdydz")
02361     chamber_y_trackdydz_fit = tfile.Get(pdirPos+"_y_trackdydz_fitline")
02362     chamber_dxdz_trackdydz = tfile.Get(pdirPos+"_dxdz_trackdydz")
02363     chamber_dxdz_trackdydz_fit = tfile.Get(pdirPos+"_dxdz_trackdydz_fitline")
02364     chamber_dydz_trackdydz = tfile.Get(pdirPos+"_dydz_trackdydz")
02365     chamber_dydz_trackdydz_fit = tfile.Get(pdirPos+"_dydz_trackdydz_fitline")
02366     chamber_x_trackdydz_fit2 = tfile.Get(pdirNeg+"_x_trackdydz_fitline")
02367     chamber_y_trackdydz_fit2 = tfile.Get(pdirNeg+"_y_trackdydz_fitline")
02368     chamber_dxdz_trackdydz_fit2 = tfile.Get(pdirNeg+"_dxdz_trackdydz_fitline")
02369     chamber_dydz_trackdydz_fit2 = tfile.Get(pdirNeg+"_dydz_trackdydz_fitline")
02370 
02371     if not chamber_x_trackx:
02372         chamber_x_trackx = tfile.Get(pdirPos+"_residual_trackx")
02373         chamber_x_trackx_fit = tfile.Get(pdirPos+"_residual_trackx_fitline")
02374         chamber_dxdz_trackx = tfile.Get(pdirPos+"_resslope_trackx")
02375         chamber_dxdz_trackx_fit = tfile.Get(pdirPos+"_resslope_trackx_fitline")
02376         chamber_x_trackx_fit2 = tfile.Get(pdirNeg+"_residual_trackx_fitline")
02377         chamber_dxdz_trackx_fit2 = tfile.Get(pdirNeg+"_resslope_trackx_fitline")
02378 
02379         chamber_x_tracky = tfile.Get(pdirPos+"_residual_tracky")
02380         chamber_x_tracky_fit = tfile.Get(pdirPos+"_residual_tracky_fitline")
02381         chamber_dxdz_tracky = tfile.Get(pdirPos+"_resslope_tracky")
02382         chamber_dxdz_tracky_fit = tfile.Get(pdirPos+"_resslope_tracky_fitline")
02383         chamber_x_tracky_fit2 = tfile.Get(pdirNeg+"_residual_tracky_fitline")
02384         chamber_dxdz_tracky_fit2 = tfile.Get(pdirNeg+"_resslope_tracky_fitline")
02385 
02386         chamber_x_trackdxdz = tfile.Get(pdirPos+"_residual_trackdxdz")
02387         chamber_x_trackdxdz_fit = tfile.Get(pdirPos+"_residual_trackdxdz_fitline")
02388         chamber_dxdz_trackdxdz = tfile.Get(pdirPos+"_resslope_trackdxdz")
02389         chamber_dxdz_trackdxdz_fit = tfile.Get(pdirPos+"_resslope_trackdxdz_fitline")
02390         chamber_x_trackdxdz_fit2 = tfile.Get(pdirNeg+"_residual_trackdxdz_fitline")
02391         chamber_dxdz_trackdxdz_fit2 = tfile.Get(pdirNeg+"_resslope_trackdxdz_fitline")
02392 
02393         chamber_x_trackdydz = tfile.Get(pdirPos+"_residual_trackdydz")
02394         chamber_x_trackdydz_fit = tfile.Get(pdirPos+"_residual_trackdydz_fitline")
02395         chamber_dxdz_trackdydz = tfile.Get(pdirPos+"_resslope_trackdydz")
02396         chamber_dxdz_trackdydz_fit = tfile.Get(pdirPos+"_resslope_trackdydz_fitline")
02397         chamber_x_trackdydz_fit2 = tfile.Get(pdirNeg+"_residual_trackdydz_fitline")
02398         chamber_dxdz_trackdydz_fit2 = tfile.Get(pdirNeg+"_resslope_trackdydz_fitline")
02399 
02400     if not chamber_x_trackx:
02401         print "Can't find neither "+pdirPos+"_residual  nor "+pdirPos+"_residual_trackx"
02402         return
02403 
02404     chamber_x_trackx = chamber_x_trackx.Clone()
02405     chamber_dxdz_trackx = chamber_dxdz_trackx.Clone()
02406     chamber_x_tracky = chamber_x_tracky.Clone()
02407     chamber_dxdz_tracky = chamber_dxdz_tracky.Clone()
02408     chamber_x_trackdxdz = chamber_x_trackdxdz.Clone()
02409     chamber_dxdz_trackdxdz = chamber_dxdz_trackdxdz.Clone()
02410     chamber_x_trackdydz = chamber_x_trackdydz.Clone()
02411     chamber_dxdz_trackdydz = chamber_dxdz_trackdydz.Clone()
02412 
02413     if not not chamber_y_trackx:
02414         chamber_y_trackx = chamber_y_trackx.Clone()
02415         chamber_dydz_trackx = chamber_dydz_trackx.Clone()
02416         chamber_y_tracky = chamber_y_tracky.Clone()
02417         chamber_dydz_tracky = chamber_dydz_tracky.Clone()
02418         chamber_y_trackdxdz = chamber_y_trackdxdz.Clone()
02419         chamber_dydz_trackdxdz = chamber_dydz_trackdxdz.Clone()
02420         chamber_y_trackdydz = chamber_y_trackdydz.Clone()
02421         chamber_dydz_trackdydz = chamber_dydz_trackdydz.Clone()
02422 
02423     if not not chamber_y_trackx:
02424         tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_x_trackx")); chamber_x_trackx.Merge(tlist)
02425         tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_dxdz_trackx")); chamber_dxdz_trackx.Merge(tlist)
02426         tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_x_tracky")); chamber_x_tracky.Merge(tlist)
02427         tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_dxdz_tracky")); chamber_dxdz_tracky.Merge(tlist)
02428         tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_x_trackdxdz")); chamber_x_trackdxdz.Merge(tlist)
02429         tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_dxdz_trackdxdz")); chamber_dxdz_trackdxdz.Merge(tlist)
02430         tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_x_trackdydz")); chamber_x_trackdydz.Merge(tlist)
02431         tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_dxdz_trackdydz")); chamber_dxdz_trackdydz.Merge(tlist)
02432         tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_y_trackx")); chamber_y_trackx.Merge(tlist)
02433         tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_dydz_trackx")); chamber_dydz_trackx.Merge(tlist)
02434         tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_y_tracky")); chamber_y_tracky.Merge(tlist)
02435         tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_dydz_tracky")); chamber_dydz_tracky.Merge(tlist)
02436         tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_y_trackdxdz")); chamber_y_trackdxdz.Merge(tlist)
02437         tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_dydz_trackdxdz")); chamber_dydz_trackdxdz.Merge(tlist)
02438         tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_y_trackdydz")); chamber_y_trackdydz.Merge(tlist)
02439         tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_dydz_trackdydz")); chamber_dydz_trackdydz.Merge(tlist)
02440     else:
02441         tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_residual_trackx")); chamber_x_trackx.Merge(tlist)
02442         tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_resslope_trackx")); chamber_dxdz_trackx.Merge(tlist)
02443         tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_residual_tracky")); chamber_x_tracky.Merge(tlist)
02444         tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_resslope_tracky")); chamber_dxdz_tracky.Merge(tlist)
02445         tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_residual_trackdxdz")); chamber_x_trackdxdz.Merge(tlist)
02446         tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_resslope_trackdxdz")); chamber_dxdz_trackdxdz.Merge(tlist)
02447         tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_residual_trackdydz")); chamber_x_trackdydz.Merge(tlist)
02448         tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_resslope_trackdydz")); chamber_dxdz_trackdydz.Merge(tlist)
02449 
02450     rr1=10.
02451     rr2=10.
02452     chamber_x_trackx.SetAxisRange(-rr1, rr1, "Y")
02453     chamber_dxdz_trackx.SetAxisRange(-rr2, rr2, "Y")
02454     chamber_x_tracky.SetAxisRange(-rr1, rr1, "Y")
02455     chamber_dxdz_tracky.SetAxisRange(-rr2, rr2, "Y")
02456     chamber_x_trackdxdz.SetAxisRange(-rr1, rr1, "Y")
02457     chamber_dxdz_trackdxdz.SetAxisRange(-rr2, rr2, "Y")
02458     chamber_x_trackdydz.SetAxisRange(-rr1, rr1, "Y")
02459     chamber_dxdz_trackdydz.SetAxisRange(-rr2, rr2, "Y")
02460 
02461     rr3=10.
02462     if not not chamber_y_trackx:
02463         chamber_y_trackx.SetAxisRange(-rr3, rr3, "Y")
02464         chamber_dydz_trackx.SetAxisRange(-rr3, rr3, "Y")
02465         chamber_y_tracky.SetAxisRange(-rr3, rr3, "Y")
02466         chamber_dydz_tracky.SetAxisRange(-rr3, rr3, "Y")
02467         chamber_y_trackdxdz.SetAxisRange(-rr3, rr3, "Y")
02468         chamber_dydz_trackdxdz.SetAxisRange(-rr3, rr3, "Y")
02469         chamber_y_trackdydz.SetAxisRange(-rr3, rr3, "Y")
02470         chamber_dydz_trackdydz.SetAxisRange(-rr3, rr3, "Y")
02471 
02472     for h in chamber_x_trackx, chamber_y_trackx, chamber_dxdz_trackx, chamber_dydz_trackx, \
02473              chamber_x_tracky, chamber_y_tracky, chamber_dxdz_tracky, chamber_dydz_tracky, \
02474              chamber_x_trackdxdz, chamber_y_trackdxdz, chamber_dxdz_trackdxdz, chamber_dydz_trackdxdz, \
02475              chamber_x_trackdydz, chamber_y_trackdydz, chamber_dxdz_trackdydz, chamber_dydz_trackdydz:
02476         if not not h:
02477             h.SetMarkerStyle(20)
02478             h.SetMarkerSize(0.5)
02479             h.GetXaxis().SetLabelSize(0.12)
02480             h.GetYaxis().SetLabelSize(0.12)
02481             h.GetXaxis().SetNdivisions(505)
02482             h.GetYaxis().SetNdivisions(505)
02483             h.GetXaxis().SetLabelOffset(0.03)
02484             h.GetYaxis().SetLabelOffset(0.03)
02485 
02486     trackdxdz_minimum, trackdxdz_maximum = None, None
02487     for h in chamber_x_trackdxdz, chamber_y_trackdxdz, chamber_dxdz_trackdxdz, chamber_dydz_trackdxdz:
02488         if not not h:
02489             for i in xrange(1, h.GetNbinsX()+1):
02490                 if h.GetBinError(i) > 0.01 and h.GetBinContent(i) - h.GetBinError(i) < 10. and \
02491                    h.GetBinContent(i) + h.GetBinError(i) > -10.:
02492                     if not trackdxdz_minimum or trackdxdz_minimum > h.GetBinCenter(i): 
02493                         trackdxdz_minimum = h.GetBinCenter(i)
02494                     if trackdxdz_maximum < h.GetBinCenter(i): 
02495                         trackdxdz_maximum = h.GetBinCenter(i)
02496     if not not trackdxdz_minimum and not not trackdxdz_maximum:
02497         for h in chamber_x_trackdxdz, chamber_y_trackdxdz, chamber_dxdz_trackdxdz, chamber_dydz_trackdxdz:
02498             if not not h:
02499                 h.SetAxisRange(trackdxdz_minimum, trackdxdz_maximum, "X")
02500 
02501     trackdydz_minimum, trackdydz_maximum = None, None
02502     for h in chamber_x_trackdydz, chamber_y_trackdydz, chamber_dxdz_trackdydz, chamber_dydz_trackdydz:
02503         if not not h:
02504             for i in xrange(1, h.GetNbinsX()+1):
02505                 if h.GetBinError(i) > 0.01 and h.GetBinContent(i) - h.GetBinError(i) < 10. and \
02506                    h.GetBinContent(i) + h.GetBinError(i) > -10.:
02507                     if not trackdydz_minimum or trackdydz_minimum > h.GetBinCenter(i): 
02508                         trackdydz_minimum = h.GetBinCenter(i)
02509                     if trackdydz_maximum < h.GetBinCenter(i): 
02510                         trackdydz_maximum = h.GetBinCenter(i)
02511     if not not trackdydz_minimum and not not trackdydz_maximum:
02512         for h in chamber_x_trackdydz, chamber_y_trackdydz, chamber_dxdz_trackdydz, chamber_dydz_trackdydz:
02513             if not not h:
02514                 h.SetAxisRange(trackdydz_minimum, trackdydz_maximum, "X")
02515 
02516     for f in chamber_x_trackx_fit2, chamber_y_trackx_fit2, chamber_dxdz_trackx_fit2, chamber_dydz_trackx_fit2, \
02517              chamber_x_tracky_fit2, chamber_y_tracky_fit2, chamber_dxdz_tracky_fit2, chamber_dydz_tracky_fit2, \
02518              chamber_x_trackdxdz_fit2, chamber_y_trackdxdz_fit2, chamber_dxdz_trackdxdz_fit2, chamber_dydz_trackdxdz_fit2, \
02519              chamber_x_trackdydz_fit2, chamber_y_trackdydz_fit2, chamber_dxdz_trackdydz_fit2, chamber_dydz_trackdydz_fit2:
02520         if not not f:
02521             f.SetLineColor(4)
02522 
02523     if not not chamber_y_trackx:
02524         c1.Clear()
02525         #c1.Divide(5, 5, 1e-5, 1e-5)
02526         pads = [None]
02527         pads.append(ROOT.TPad("p1" ,"",0.00,0.78,0.07,1.00,0,0,0))
02528         pads.append(ROOT.TPad("p2" ,"",0.07,0.78,0.34,1.00,0,0,0))
02529         pads.append(ROOT.TPad("p3" ,"",0.34,0.78,0.56,1.00,0,0,0))
02530         pads.append(ROOT.TPad("p4" ,"",0.56,0.78,0.78,1.00,0,0,0))
02531         pads.append(ROOT.TPad("p5" ,"",0.78,0.78,1.00,1.00,0,0,0))
02532         pads.append(ROOT.TPad("p6" ,"",0.00,0.56,0.07,0.78,0,0,0))
02533         pads.append(ROOT.TPad("p7" ,"",0.07,0.56,0.34,0.78,0,0,0))
02534         pads.append(ROOT.TPad("p8" ,"",0.34,0.56,0.56,0.78,0,0,0))
02535         pads.append(ROOT.TPad("p9" ,"",0.56,0.56,0.78,0.78,0,0,0))
02536         pads.append(ROOT.TPad("p10","",0.78,0.56,1.00,0.78,0,0,0))
02537         pads.append(ROOT.TPad("p11","",0.00,0.34,0.07,0.56,0,0,0))
02538         pads.append(ROOT.TPad("p12","",0.07,0.34,0.34,0.56,0,0,0))
02539         pads.append(ROOT.TPad("p13","",0.34,0.34,0.56,0.56,0,0,0))
02540         pads.append(ROOT.TPad("p14","",0.56,0.34,0.78,0.56,0,0,0))
02541         pads.append(ROOT.TPad("p15","",0.78,0.34,1.00,0.56,0,0,0))
02542         pads.append(ROOT.TPad("p16","",0.00,0.07,0.07,0.34,0,0,0))
02543         pads.append(ROOT.TPad("p17","",0.07,0.07,0.34,0.34,0,0,0))
02544         pads.append(ROOT.TPad("p18","",0.34,0.07,0.56,0.34,0,0,0))
02545         pads.append(ROOT.TPad("p19","",0.56,0.07,0.78,0.34,0,0,0))
02546         pads.append(ROOT.TPad("p20","",0.78,0.07,1.00,0.34,0,0,0))
02547         pads.append(ROOT.TPad("p21","",0.00,0.00,0.07,0.07,0,0,0))
02548         pads.append(ROOT.TPad("p22","",0.07,0.00,0.34,0.07,0,0,0))
02549         pads.append(ROOT.TPad("p23","",0.34,0.00,0.56,0.07,0,0,0))
02550         pads.append(ROOT.TPad("p24","",0.56,0.00,0.78,0.07,0,0,0))
02551         pads.append(ROOT.TPad("p25","",0.78,0.00,1.00,0.07,0,0,0))
02552         for p in pads:
02553           if not not p:
02554             p.Draw()
02555             ROOT.SetOwnership(p,False)
02556 
02557         label1 = ROOT.TPaveLabel(0, 0, 1, 1, "x residuals (mm)","")
02558         label2 = ROOT.TPaveLabel(0, 0, 1, 1, "y residuals (mm)","")
02559         label3 = ROOT.TPaveLabel(0, 0, 1, 1, "dx/dz residuals (mrad)","")
02560         label4 = ROOT.TPaveLabel(0, 0, 1, 1, "dy/dz residuals (mrad)","")
02561         label5 = ROOT.TPaveLabel(0, 0, 1, 1, "x position (cm)","")
02562         label6 = ROOT.TPaveLabel(0, 0, 1, 1, "y position (cm)","")
02563         label7 = ROOT.TPaveLabel(0, 0, 1, 1, "dx/dz angle (rad)","")
02564         label8 = ROOT.TPaveLabel(0, 0, 1, 1, "dy/dz angle (rad)","")
02565         label9 = ROOT.TPaveLabel(0, 0.85, 1, 1, getname(r),"NDC")
02566 
02567         for l in label1, label2, label3, label4, label5, label6, label7, label8, label9:
02568             l.SetBorderSize(0)
02569             l.SetFillColor(ROOT.kWhite)
02570 
02571         for l in label1, label2, label3, label4:
02572             l.SetTextAngle(90)
02573             l.SetTextSize(0.09)
02574         
02575         #label9.SetTextAngle(30)
02576         label9.SetTextSize(0.59)
02577 
02578         pads[1].cd(); label1.Draw()
02579         pads[6].cd(); label2.Draw()
02580         pads[11].cd(); label3.Draw()
02581         pads[16].cd(); label4.Draw()
02582         pads[22].cd(); label5.Draw()
02583         pads[23].cd(); label6.Draw()
02584         pads[24].cd(); label7.Draw()
02585         pads[25].cd(); label8.Draw()
02586 
02587         pads[2].SetRightMargin(1e-5)
02588         pads[2].SetBottomMargin(1e-5)
02589         pads[2].SetLeftMargin(0.17)
02590         pads[3].SetLeftMargin(1e-5)
02591         pads[3].SetRightMargin(1e-5)
02592         pads[3].SetBottomMargin(1e-5)
02593         pads[4].SetLeftMargin(1e-5)
02594         pads[4].SetRightMargin(1e-5)
02595         pads[4].SetBottomMargin(1e-5)
02596         pads[5].SetLeftMargin(1e-5)
02597         pads[5].SetBottomMargin(1e-5)
02598 
02599         pads[7].SetRightMargin(1e-5)
02600         pads[7].SetBottomMargin(1e-5)
02601         pads[7].SetTopMargin(1e-5)
02602         pads[7].SetLeftMargin(0.17)
02603         pads[8].SetLeftMargin(1e-5)
02604         pads[8].SetRightMargin(1e-5)
02605         pads[8].SetBottomMargin(1e-5)
02606         pads[8].SetTopMargin(1e-5)
02607         pads[9].SetLeftMargin(1e-5)
02608         pads[9].SetRightMargin(1e-5)
02609         pads[9].SetBottomMargin(1e-5)
02610         pads[9].SetTopMargin(1e-5)
02611         pads[10].SetLeftMargin(1e-5)
02612         pads[10].SetBottomMargin(1e-5)
02613         pads[10].SetTopMargin(1e-5)
02614 
02615         pads[12].SetRightMargin(1e-5)
02616         pads[12].SetBottomMargin(1e-5)
02617         pads[12].SetTopMargin(1e-5)
02618         pads[12].SetLeftMargin(0.17)
02619         pads[13].SetLeftMargin(1e-5)
02620         pads[13].SetRightMargin(1e-5)
02621         pads[13].SetBottomMargin(1e-5)
02622         pads[13].SetTopMargin(1e-5)
02623         pads[14].SetLeftMargin(1e-5)
02624         pads[14].SetRightMargin(1e-5)
02625         pads[14].SetBottomMargin(1e-5)
02626         pads[14].SetTopMargin(1e-5)
02627         pads[15].SetLeftMargin(1e-5)
02628         pads[15].SetBottomMargin(1e-5)
02629         pads[15].SetTopMargin(1e-5)
02630 
02631         pads[17].SetRightMargin(1e-5)
02632         pads[17].SetTopMargin(1e-5)
02633         pads[17].SetLeftMargin(0.17)
02634         pads[18].SetLeftMargin(1e-5)
02635         pads[18].SetRightMargin(1e-5)
02636         pads[18].SetTopMargin(1e-5)
02637         pads[19].SetLeftMargin(1e-5)
02638         pads[19].SetRightMargin(1e-5)
02639         pads[19].SetTopMargin(1e-5)
02640         pads[20].SetLeftMargin(1e-5)
02641         pads[20].SetTopMargin(1e-5)
02642         
02643         chamber_x_trackx.GetXaxis().SetLabelColor(ROOT.kWhite)
02644         chamber_x_tracky.GetXaxis().SetLabelColor(ROOT.kWhite)
02645         chamber_x_tracky.GetYaxis().SetLabelColor(ROOT.kWhite)
02646         chamber_x_trackdxdz.GetXaxis().SetLabelColor(ROOT.kWhite)
02647         chamber_x_trackdxdz.GetYaxis().SetLabelColor(ROOT.kWhite)
02648         chamber_x_trackdydz.GetXaxis().SetLabelColor(ROOT.kWhite)
02649         chamber_x_trackdydz.GetYaxis().SetLabelColor(ROOT.kWhite)
02650         chamber_y_trackx.GetXaxis().SetLabelColor(ROOT.kWhite)
02651         chamber_y_tracky.GetXaxis().SetLabelColor(ROOT.kWhite)
02652         chamber_y_tracky.GetYaxis().SetLabelColor(ROOT.kWhite)
02653         chamber_y_trackdxdz.GetXaxis().SetLabelColor(ROOT.kWhite)
02654         chamber_y_trackdxdz.GetYaxis().SetLabelColor(ROOT.kWhite)
02655         chamber_y_trackdydz.GetXaxis().SetLabelColor(ROOT.kWhite)
02656         chamber_y_trackdydz.GetYaxis().SetLabelColor(ROOT.kWhite)
02657         chamber_dxdz_trackx.GetXaxis().SetLabelColor(ROOT.kWhite)
02658         chamber_dxdz_tracky.GetXaxis().SetLabelColor(ROOT.kWhite)
02659         chamber_dxdz_tracky.GetYaxis().SetLabelColor(ROOT.kWhite)
02660         chamber_dxdz_trackdxdz.GetXaxis().SetLabelColor(ROOT.kWhite)
02661         chamber_dxdz_trackdxdz.GetYaxis().SetLabelColor(ROOT.kWhite)
02662         chamber_dxdz_trackdydz.GetXaxis().SetLabelColor(ROOT.kWhite)
02663         chamber_dxdz_trackdydz.GetYaxis().SetLabelColor(ROOT.kWhite)
02664         
02665         # chamber_dydz_trackx
02666         chamber_dydz_tracky.GetYaxis().SetLabelColor(ROOT.kWhite)
02667         chamber_dydz_trackdxdz.GetYaxis().SetLabelColor(ROOT.kWhite)
02668         chamber_dydz_trackdydz.GetYaxis().SetLabelColor(ROOT.kWhite)
02669 
02670         pads[2].cd()
02671         chamber_x_trackx.Draw("e1")
02672         if not suppressblue: chamber_x_trackx_fit2.Draw("samel")
02673         chamber_x_trackx_fit.Draw("samel")
02674         #label99 = ROOT.TPaveLabel(0, 0.8, 1, 1, getname(r),"NDC")
02675         print getname(r)
02676         #label99 = ROOT.TPaveLabel(0, 0.8, 1, 1, "aaa","NDC")
02677         label9.Draw()
02678         #pads[2].Modified()
02679         
02680         pads[3].cd()
02681         chamber_x_tracky.Draw("e1")
02682         if not suppressblue: chamber_x_tracky_fit2.Draw("samel")
02683         chamber_x_tracky_fit.Draw("samel")
02684         
02685         pads[4].cd()
02686         chamber_x_trackdxdz.Draw("e1")
02687         if not suppressblue: chamber_x_trackdxdz_fit2.Draw("samel")
02688         chamber_x_trackdxdz_fit.Draw("samel")
02689         
02690         pads[5].cd()
02691         chamber_x_trackdydz.Draw("e1")
02692         if not suppressblue: chamber_x_trackdydz_fit2.Draw("samel")
02693         chamber_x_trackdydz_fit.Draw("samel")
02694         
02695         pads[7].cd()
02696         chamber_y_trackx.Draw("e1")
02697         if not suppressblue: chamber_y_trackx_fit2.Draw("samel")
02698         chamber_y_trackx_fit.Draw("samel")
02699         
02700         pads[8].cd()
02701         chamber_y_tracky.Draw("e1")
02702         if not suppressblue: chamber_y_tracky_fit2.Draw("samel")
02703         chamber_y_tracky_fit.Draw("samel")
02704         
02705         pads[9].cd()
02706         chamber_y_trackdxdz.Draw("e1")
02707         if not suppressblue: chamber_y_trackdxdz_fit2.Draw("samel")
02708         chamber_y_trackdxdz_fit.Draw("samel")
02709         
02710         pads[10].cd()
02711         chamber_y_trackdydz.Draw("e1")
02712         if not suppressblue: chamber_y_trackdydz_fit2.Draw("samel")
02713         chamber_y_trackdydz_fit.Draw("samel")
02714         
02715         pads[12].cd()
02716         chamber_dxdz_trackx.Draw("e1")
02717         if not suppressblue: chamber_dxdz_trackx_fit2.Draw("samel")
02718         chamber_dxdz_trackx_fit.Draw("samel")
02719         
02720         pads[13].cd()
02721         chamber_dxdz_tracky.Draw("e1")
02722         if not suppressblue: chamber_dxdz_tracky_fit2.Draw("samel")
02723         chamber_dxdz_tracky_fit.Draw("samel")
02724         
02725         pads[14].cd()
02726         chamber_dxdz_trackdxdz.Draw("e1")
02727         if not suppressblue: chamber_dxdz_trackdxdz_fit2.Draw("samel")
02728         chamber_dxdz_trackdxdz_fit.Draw("samel")
02729         
02730         pads[15].cd()
02731         chamber_dxdz_trackdydz.Draw("e1")
02732         if not suppressblue: chamber_dxdz_trackdydz_fit2.Draw("samel")
02733         chamber_dxdz_trackdydz_fit.Draw("samel")
02734         
02735         pads[17].cd()
02736         chamber_dydz_trackx.Draw("e1")
02737         if not suppressblue: chamber_dydz_trackx_fit2.Draw("samel")
02738         chamber_dydz_trackx_fit.Draw("samel")
02739         
02740         pads[18].cd()
02741         chamber_dydz_tracky.Draw("e1")
02742         if not suppressblue: chamber_dydz_tracky_fit2.Draw("samel")
02743         chamber_dydz_tracky_fit.Draw("samel")
02744         
02745         pads[19].cd()
02746         chamber_dydz_trackdxdz.Draw("e1")
02747         if not suppressblue: chamber_dydz_trackdxdz_fit2.Draw("samel")
02748         chamber_dydz_trackdxdz_fit.Draw("samel")
02749         
02750         pads[20].cd()
02751         chamber_dydz_trackdydz.Draw("e1")
02752         if not suppressblue: chamber_dydz_trackdydz_fit2.Draw("samel")
02753         chamber_dydz_trackdydz_fit.Draw("samel")
02754 
02755     else:
02756         c1.Clear()
02757         #c1.Divide(5, 3, 1e-5, 1e-5)
02758         pads = [None]
02759         pads.append(ROOT.TPad("p1" ,"",0.00,0.55,0.07,1.00,0,0,0))
02760         pads.append(ROOT.TPad("p2" ,"",0.07,0.55,0.34,1.00,0,0,0))
02761         pads.append(ROOT.TPad("p3" ,"",0.34,0.55,0.56,1.00,0,0,0))
02762         pads.append(ROOT.TPad("p4" ,"",0.56,0.55,0.78,1.00,0,0,0))
02763         pads.append(ROOT.TPad("p5" ,"",0.78,0.55,1.00,1.00,0,0,0))
02764         pads.append(ROOT.TPad("p6" ,"",0.00,0.1,0.07,0.55,0,0,0))
02765         pads.append(ROOT.TPad("p7" ,"",0.07,0.1,0.34,0.55,0,0,0))
02766         pads.append(ROOT.TPad("p8" ,"",0.34,0.1,0.56,0.55,0,0,0))
02767         pads.append(ROOT.TPad("p9" ,"",0.56,0.1,0.78,0.55,0,0,0))
02768         pads.append(ROOT.TPad("p10","",0.78,0.1,1.00,0.55,0,0,0))
02769         pads.append(ROOT.TPad("p11","",0.00,0.,0.07,0.1,0,0,0))
02770         pads.append(ROOT.TPad("p12","",0.07,0.,0.34,0.1,0,0,0))
02771         pads.append(ROOT.TPad("p13","",0.34,0.,0.56,0.1,0,0,0))
02772         pads.append(ROOT.TPad("p14","",0.56,0.,0.78,0.1,0,0,0))
02773         pads.append(ROOT.TPad("p15","",0.78,0.,1.00,0.1,0,0,0))
02774         for p in pads:
02775           if not not p:
02776             p.Draw()
02777             ROOT.SetOwnership(p,False)
02778 
02779         label1 = ROOT.TPaveLabel(0, 0, 1, 1, "x residuals (mm)")
02780         label2 = ROOT.TPaveLabel(0, 0, 1, 1, "dx/dz residuals (mrad)")
02781         label3 = ROOT.TPaveLabel(0, 0.3, 1, 1, "x position (cm)")
02782         label4 = ROOT.TPaveLabel(0, 0.3, 1, 1, "y position (cm)")
02783         label5 = ROOT.TPaveLabel(0, 0.3, 1, 1, "dx/dz angle (rad)")
02784         label6 = ROOT.TPaveLabel(0, 0.3, 1, 1, "dy/dz angle (rad)")
02785         label9 = ROOT.TPaveLabel(0, 0.85, 1, 1, getname(r),"NDC")
02786 
02787         if name[0:2] == "ME":
02788             label1 = ROOT.TPaveLabel(0, 0, 1, 1, "r#phi residuals (mm)")
02789             label2 = ROOT.TPaveLabel(0, 0, 1, 1, "d(r#phi)/dz residuals (mrad)")
02790 
02791         for l in label1, label2, label3, label4, label5, label6, label9:
02792             l.SetBorderSize(0)
02793             l.SetFillColor(ROOT.kWhite)
02794 
02795         for l in label1, label2:
02796             l.SetTextAngle(90)
02797             l.SetTextSize(0.09)
02798 
02799         #label9.SetTextAngle(30)
02800         label9.SetTextSize(0.29)
02801 
02802         pads[1].cd(); label1.Draw()
02803         pads[6].cd(); label2.Draw()
02804         pads[12].cd(); label3.Draw()
02805         pads[13].cd(); label4.Draw()
02806         pads[14].cd(); label5.Draw()
02807         pads[15].cd(); label6.Draw()
02808         #pads[11].cd(); label9.Draw()
02809 
02810         pads[2].SetRightMargin(1e-5)
02811         pads[2].SetBottomMargin(1e-5)
02812         pads[3].SetLeftMargin(1e-5)
02813         pads[3].SetRightMargin(1e-5)
02814         pads[3].SetBottomMargin(1e-5)
02815         pads[4].SetLeftMargin(1e-5)
02816         pads[4].SetRightMargin(1e-5)
02817         pads[4].SetBottomMargin(1e-5)
02818         pads[5].SetLeftMargin(1e-5)
02819         pads[5].SetBottomMargin(1e-5)
02820 
02821         pads[7].SetRightMargin(1e-5)
02822         pads[7].SetTopMargin(1e-5)
02823         pads[8].SetLeftMargin(1e-5)
02824         pads[8].SetRightMargin(1e-5)
02825         pads[8].SetTopMargin(1e-5)
02826         pads[9].SetLeftMargin(1e-5)
02827         pads[9].SetRightMargin(1e-5)
02828         pads[9].SetTopMargin(1e-5)
02829         pads[10].SetLeftMargin(1e-5)
02830         pads[10].SetTopMargin(1e-5)
02831 
02832         chamber_x_trackx.GetXaxis().SetLabelColor(ROOT.kWhite)
02833         chamber_x_tracky.GetXaxis().SetLabelColor(ROOT.kWhite)
02834         chamber_x_tracky.GetYaxis().SetLabelColor(ROOT.kWhite)
02835         chamber_x_trackdxdz.GetXaxis().SetLabelColor(ROOT.kWhite)
02836         chamber_x_trackdxdz.GetYaxis().SetLabelColor(ROOT.kWhite)
02837         chamber_x_trackdydz.GetXaxis().SetLabelColor(ROOT.kWhite)
02838         chamber_x_trackdydz.GetYaxis().SetLabelColor(ROOT.kWhite)
02839         # chamber_dxdz_trackx
02840         chamber_dxdz_tracky.GetYaxis().SetLabelColor(ROOT.kWhite)
02841         chamber_dxdz_trackdxdz.GetYaxis().SetLabelColor(ROOT.kWhite)
02842         chamber_dxdz_trackdydz.GetYaxis().SetLabelColor(ROOT.kWhite)
02843 
02844         pads[2].cd()
02845         chamber_x_trackx.Draw("e1")
02846         if not suppressblue: chamber_x_trackx_fit2.Draw("samel")
02847         chamber_x_trackx_fit.Draw("samel")
02848         label9.Draw()
02849         
02850         pads[3].cd()
02851         chamber_x_tracky.Draw("e1")
02852         if not suppressblue: chamber_x_tracky_fit2.Draw("samel")
02853         chamber_x_tracky_fit.Draw("samel")
02854         
02855         pads[4].cd()
02856         chamber_x_trackdxdz.Draw("e1")
02857         if not suppressblue: chamber_x_trackdxdz_fit2.Draw("samel")
02858         chamber_x_trackdxdz_fit.Draw("samel")
02859         
02860         pads[5].cd()
02861         chamber_x_trackdydz.Draw("e1")
02862         if not suppressblue: chamber_x_trackdydz_fit2.Draw("samel")
02863         chamber_x_trackdydz_fit.Draw("samel")
02864         
02865         pads[7].cd()
02866         chamber_dxdz_trackx.Draw("e1")
02867         if not suppressblue: chamber_dxdz_trackx_fit2.Draw("samel")
02868         chamber_dxdz_trackx_fit.Draw("samel")
02869         
02870         pads[8].cd()
02871         chamber_dxdz_tracky.Draw("e1")
02872         if not suppressblue: chamber_dxdz_tracky_fit2.Draw("samel")
02873         chamber_dxdz_tracky_fit.Draw("samel")
02874         
02875         pads[9].cd()
02876         chamber_dxdz_trackdxdz.Draw("e1")
02877         if not suppressblue: chamber_dxdz_trackdxdz_fit2.Draw("samel")
02878         chamber_dxdz_trackdxdz_fit.Draw("samel")
02879         
02880         pads[10].cd()
02881         chamber_dxdz_trackdydz.Draw("e1")
02882         if not suppressblue: chamber_dxdz_trackdydz_fit2.Draw("samel")
02883         chamber_dxdz_trackdydz_fit.Draw("samel")
02884 
02885     tn = time.time()
02886     ddt[8] = 1./ddt[7]*((ddt[7]-1)*ddt[8] + tn-t1)

def plotscripts::postalAddressToId (   postal_address)

Definition at line 884 of file plotscripts.py.

00885                                      :
00886   if postal_address[0] == "DT":
00887     wheel, station, sector = postal_address[1:]
00888     w = "%+d"%wheel
00889     if w=="+0": w = "-0"
00890     return "MB%s/%d/%02d" % (w, station, sector)
00891   elif postal_address[0] == "CSC":
00892     endcap, station, ring, chamber = postal_address[1:]
00893     if endcap != 1: station = -1 * abs(station)
00894     return "ME%+d/%d/%02d" % (station, ring, chamber)
00895 

def plotscripts::printDeltaTs ( )

Definition at line 2046 of file plotscripts.py.

02047                   :
02048     n = 0
02049     for t in ddt:
02050         if n==0 or n==7 or n==15: print "%d calls" % t
02051         else: print "%d : %0.3f ms" % (n,t*1000.0)
02052         n += 1

def plotscripts::rlines (   disk,
  window,
  abscissa 
)

Definition at line 455 of file plotscripts.py.

00456                                   :
00457     global rline_tlines
00458     rline_tlines = []
00459     if disk == 1: rl = [150., 270., 480.]
00460     else: rl = [350.]
00461     for r in rl:
00462         if abscissa is None or abscissa[0] < r < abscissa[1]:
00463             rline_tlines.append(ROOT.TLine(r, -window, r, window))
00464             rline_tlines[-1].SetLineStyle(2)
00465             rline_tlines[-1].Draw()

def plotscripts::rms (   xlist)

Definition at line 60 of file plotscripts.py.

Referenced by HcalDetDiagLEDMonitor::CheckStatus(), HcalDetDiagPedestalMonitor::CheckStatus(), PFClient::createResolutionPlots(), HcalHitCorrection::delay(), HcalTimeSlewSim::delay(), DQMChannel::DQMChannel(), DTTPAnalyzer::endJob(), HFLightCalRand::endJob(), HOCalibAnalyzer::endJob(), SiStripCMMonitorPlugin::endJob(), DTTTrigCorrectionFirst::endJob(), HFLightCal::endJob(), ZeeCalibration::endOfJob(), RPCBxTest::endRun(), EcalZmassClient::endRun(), PedsFullNoiseSummaryFactory::extract(), RPCLinkSynchroHistoMaker::fill(), HcalDetDiagLEDMonitor::fillHistos(), HcalDetDiagPedestalMonitor::fillHistos(), HcalDetDiagLaserMonitor::fillHistos(), HcalDetDiagLaserMonitor::fillProblems(), LA_Filler_Fitter::find_rebin(), HcalDetDiagLaserMonitor::get_ave_rbx(), HcalDetDiagLaserMonitor::get_ave_subdet(), GetMPV(), DTMtimeHandler::getNewObjects(), DTTtrigHandler::getNewObjects(), TMom::getRMS(), EcalEndcapRecHitsMaker::init(), EcalBarrelRecHitsMaker::init(), TMom::init(), HcalDetDiagLaserMonitor::LoadDataset(), HcalDetDiagPedestalMonitor::LoadDataset(), HcalDetDiagLEDMonitor::LoadReference(), HcalDetDiagLaserMonitor::LoadReference(), HcalDetDiagPedestalMonitor::LoadReference(), TPedValues::makePlots(), reco::tau::RecoTauDiscriminantInvariantWidth::operator()(), DQMClientExample::performClient(), PhiBorderFinder::PhiBorderFinder(), cond::PayLoadInspector< DataT >::plot(), SiStripDetSummary::print(), SiPixelDetSummary::print(), RPCLinkSynchroStat::SynchroCounts::print(), SiStripNoises::printSummary(), TH2Analyzer::ProcessSlice(), TH2Analyzer::ProcessSlices(), ecaldqm::TimingClient::producePlots(), ecaldqm::PresampleClient::producePlots(), RBorderFinder::RBorderFinder(), DTSurvey::ReadChambers(), LA_Filler_Fitter::rms_profile(), DTTriggerLutTest::runClientDiagnostic(), DTOccupancyTest::runOccupancyTest(), ContentsWithinExpected::runTest(), HcalDetDiagPedestalMonitor::SaveReference(), HcalDetDiagLEDMonitor::SaveReference(), HcalDetDiagLaserMonitor::SaveReference(), HcalDetDiagPedestalData::set_data(), HcalDetDiagLaserData::set_data(), HcalDetDiagPedestalData::set_reference(), HcalDetDiagLEDData::set_reference(), HcalDetDiagLaserData::set_reference(), MonTestPulseDat::setADCRMSG1(), MonTestPulseDat::setADCRMSG12(), MonPedestalsOnlineDat::setADCRMSG12(), MonTestPulseDat::setADCRMSG6(), MonLaserRedDat::setAPDOverPNRMS(), MonLaserBlueDat::setAPDOverPNRMS(), MonLaserGreenDat::setAPDOverPNRMS(), MonLaserIRedDat::setAPDOverPNRMS(), MonLaserIRedDat::setAPDRMS(), MonLaserRedDat::setAPDRMS(), MonLaserBlueDat::setAPDRMS(), MonLaserGreenDat::setAPDRMS(), DCUCapsuleTempRawDat::setCapsuleTempRMS(), MonDelaysTTDat::setDelayRMS(), MonPedestalsDat::setPedRMSG1(), MonPedestalsDat::setPedRMSG12(), MonPedestalsDat::setPedRMSG6(), ITimingDat::setTimingRMS(), MonLed2Dat::setVPTOverPNRMS(), MonLed1Dat::setVPTOverPNRMS(), MonLed1Dat::setVPTRMS(), MonLed2Dat::setVPTRMS(), and ecaldqm::MESetTrend::shift_().

00061               :
00062   s2, n = 0., 0.
00063   for x in xlist:
00064     s2 += x**2
00065     n += 1.
00066   return sqrt(s2/n)

def plotscripts::saveTestResultsMap (   run_name)

Definition at line 1181 of file plotscripts.py.

01182                                 :
01183   if len(MAP_RESULTS_SAWTOOTH)+len(MAP_RESULTS_FITSIN)==0: return None
01184   ff = open("tmp_test_results_map__%s.pkl" % run_name, "wb")
01185   pickle.dump(MAP_RESULTS_SAWTOOTH, ff)
01186   pickle.dump(MAP_RESULTS_FITSIN, ff)
01187   ff.close()
01188 

def plotscripts::segdiff (   tfiles,
  component,
  pair,
  args 
)

Definition at line 2889 of file plotscripts.py.

02890                                             :
02891     tdrStyle.SetOptFit(1)
02892     tdrStyle.SetOptTitle(1)
02893     tdrStyle.SetTitleBorderSize(1)
02894     tdrStyle.SetTitleFontSize(0.05)
02895     tdrStyle.SetStatW(0.2)
02896     tdrStyle.SetStatY(0.9)
02897     tdrStyle.SetStatFontSize(0.06)
02898 
02899     if component[0:2] == "dt":
02900         wheel = args["wheel"]
02901         wheelletter = wheelLetter(wheel)
02902         sector = args["sector"]
02903         profname = "%s_%s_%02d_%s" % (component, wheelletter, sector, str(pair))
02904         posname = "pos" + profname
02905         negname = "neg" + profname
02906         #print profname
02907 
02908         station1 = int(str(pair)[0])
02909         station2 = int(str(pair)[1])
02910         phi1 = signConventions["DT", wheel, station1, sector][4]
02911         phi2 = signConventions["DT", wheel, station2, sector][4]
02912         if abs(phi1 - phi2) > 1.:
02913             if phi1 > phi2: phi1 -= 2.*pi
02914             else: phi1 += 2.*pi
02915         phi = (phi1 + phi2) / 2.
02916         while (phi < -pi): phi += 2.*pi
02917         while (phi > pi): phi -= 2.*pi
02918 
02919     elif component[0:3] == "csc":
02920         endcap = args["endcap"]
02921         if endcap=="m":
02922             endcapnum=2
02923             endcapsign="-"
02924         elif endcap=="p":
02925             endcapnum=1
02926             endcapsign="+"
02927         else: raise Exception
02928         
02929         ring = args["ring"]
02930         if ring>2 or ring<1: raise Exception
02931         station1 = int(str(pair)[0])
02932         station2 = int(str(pair)[1])
02933         if   ring==1: ringname="inner"
02934         elif ring==2: ringname="outer"
02935         else: raise Exception
02936         
02937         chamber = args["chamber"]
02938         if (ring==1 and chamber>18) or (ring==2 and chamber>36): raise Exception
02939         
02940         profname = "csc%s_%s_%s_%02d_%s" % (ringname,component[4:], endcap, chamber, str(pair))
02941         posname = "pos" + profname
02942         negname = "neg" + profname
02943         #print profname
02944 
02945         station1 = int(str(pair)[0])
02946         station2 = int(str(pair)[1])
02947         phi1 = signConventions["CSC", endcapnum, station1, ring, chamber][4]
02948         phi2 = signConventions["CSC", endcapnum, station2, ring, chamber][4]
02949         if abs(phi1 - phi2) > 1.:
02950             if phi1 > phi2: phi1 -= 2.*pi
02951             else: phi1 += 2.*pi
02952         phi = (phi1 + phi2) / 2.
02953         while (phi < -pi*5./180.): phi += 2.*pi
02954         while (phi > pi*(2.-5./180.)): phi -= 2.*pi
02955     
02956     else: raise Exception
02957 
02958     if "window" in args: window = args["window"]
02959     else: window = 5.
02960 
02961     global tmpprof, tmppos, tmpneg
02962     pdir = "AlignmentMonitorSegmentDifferences/iter1/"
02963     tmpprof = tfiles[0].Get(pdir + profname).Clone()
02964     tmpprof.SetMarkerStyle(8)
02965     tmppos = tfiles[0].Get(pdir + posname).Clone()
02966     tmpneg = tfiles[0].Get(pdir + negname).Clone()
02967     for tfile in tfiles[1:]:
02968         tmpprof.Add(tfile.Get(pdir + profname))
02969         tmppos.Add(tfile.Get(pdir + posname))
02970         tmpneg.Add(tfile.Get(pdir + negname))
02971 
02972     for i in xrange(1, tmpprof.GetNbinsX()+1):
02973         if tmpprof.GetBinError(i) < 1e-5:
02974             tmpprof.SetBinError(i, 100.)
02975     tmpprof.SetAxisRange(-window, window, "Y")
02976 
02977     f = ROOT.TF1("p1", "[0] + [1]*x", tmpprof.GetBinLowEdge(1), -tmpprof.GetBinLowEdge(1))
02978     f.SetParameters((tmppos.GetMean() + tmpneg.GetMean())/2., 0.)
02979 
02980     tmpprof.SetXTitle("q/p_{T} (c/GeV)")
02981     if component == "dt13_resid":
02982         tmpprof.SetYTitle("#Deltax^{local} (mm)")
02983         tmppos.SetXTitle("#Deltax^{local} (mm)")
02984         tmpneg.SetXTitle("#Deltax^{local} (mm)")
02985         f.SetParNames("#Deltax^{local}_{0}", "Slope")
02986     if component == "dt13_slope":
02987         tmpprof.SetYTitle("#Deltadx/dz^{local} (mrad)")
02988         tmppos.SetXTitle("#Deltadx/dz^{local} (mrad)")
02989         tmpneg.SetXTitle("#Deltadx/dz^{local} (mrad)")
02990         f.SetParNames("#Deltadx/dz^{local}_{0}", "Slope")
02991     if component == "dt2_resid":
02992         tmpprof.SetYTitle("#Deltay^{local} (mm)")
02993         tmppos.SetXTitle("#Deltay^{local} (mm)")
02994         tmpneg.SetXTitle("#Deltay^{local} (mm)")
02995         f.SetParNames("#Deltay^{local}_{0}", "Slope")
02996     if component == "dt2_slope":
02997         tmpprof.SetYTitle("#Deltady/dz^{local} (mrad)")
02998         tmppos.SetXTitle("#Deltady/dz^{local} (mrad)")
02999         tmpneg.SetXTitle("#Deltady/dz^{local} (mrad)")
03000         f.SetParNames("#Deltady/dz^{local}_{0}", "Slope")
03001     if component == "csc_resid":
03002         tmpprof.SetXTitle("q/p_{z} (c/GeV)")
03003         tmpprof.SetYTitle("#Delta(r#phi)^{local} (mm)")
03004         tmppos.SetXTitle("#Delta(r#phi)^{local} (mm)")
03005         tmpneg.SetXTitle("#Delta(r#phi)^{local} (mm)")
03006         f.SetParNames("#Delta(r#phi)^{local}_{0}", "Slope")
03007     if component == "csc_slope":
03008         tmpprof.SetXTitle("q/p_{z} (c/GeV)")
03009         tmpprof.SetYTitle("#Deltad(r#phi)/dz^{local} (mrad)")
03010         tmppos.SetXTitle("#Deltad(r#phi)/dz^{local} (mrad)")
03011         tmpneg.SetXTitle("#Deltad(r#phi)/dz^{local} (mrad)")
03012         f.SetParNames("#Deltad(r#phi)/dz^{local}_{0}", "Slope")
03013     
03014     tmpprof.GetXaxis().CenterTitle()
03015     tmpprof.GetYaxis().CenterTitle()
03016     tmppos.GetXaxis().CenterTitle()
03017     tmpneg.GetXaxis().CenterTitle()
03018     if component[0:2] == "dt":
03019         tmpprof.SetTitle("MB%d - MB%d, wheel %d, sector %02d" % (station1, station2, int(wheel), int(sector)))
03020     elif component[0:3] == "csc":
03021         tmpprof.SetTitle("ME%d - ME%d, for ME%s%d/%d/%d" % (station1, station2, endcapsign, station2, ring, chamber))
03022     else: raise Exception
03023 
03024     tmppos.SetTitle("Positive muons")
03025     tmpneg.SetTitle("Negative muons")
03026 
03027     c1.Clear()
03028     c1.Divide(2, 1)
03029     c1.GetPad(1).cd()
03030     fit1 = tmpprof.Fit("p1", "qS")
03031     tmpprof.Draw("e1")
03032     c1.GetPad(2).cd()
03033     c1.GetPad(2).Divide(1, 2)
03034     c1.GetPad(2).GetPad(1).cd()
03035     tmppos.Draw()
03036     f = ROOT.TF1("gausR", "[0]*exp(-(x - [1])**2 / 2. / [2]**2) / sqrt(2.*3.1415926) / [2]", 
03037                  tmppos.GetMean() - tmppos.GetRMS(), tmppos.GetMean() + tmppos.GetRMS())
03038     f.SetParameters(tmppos.GetEntries() * ((10. - -10.)/100.), tmppos.GetMean(), tmppos.GetRMS())
03039     f.SetParNames("Constant", "Mean", "Sigma")
03040     fit2 = tmppos.Fit("gausR", "qRS")
03041     c1.GetPad(2).GetPad(2).cd()
03042     tmpneg.Draw()
03043     f = ROOT.TF1("gausR", "[0]*exp(-(x - [1])**2 / 2. / [2]**2) / sqrt(2.*3.1415926) / [2]", 
03044                  tmpneg.GetMean() - tmpneg.GetRMS(), tmpneg.GetMean() + tmpneg.GetRMS())
03045     f.SetParameters(tmpneg.GetEntries() * ((10. - -10.)/100.), tmpneg.GetMean(), tmpneg.GetRMS())
03046     f.SetParNames("Constant", "Mean", "Sigma")
03047     fit3 = tmpneg.Fit("gausR", "qRS")
03048 
03049     fit1ok = fit1.Status()==0 and fit1.CovMatrixStatus()==3
03050     fit2ok = fit2.Status()==0 and fit2.CovMatrixStatus()==3
03051     fit3ok = fit3.Status()==0 and fit3.CovMatrixStatus()==3
03052 
03053     fitresult1 = None, None
03054     if fit1ok:
03055         fitresult1 = tmpprof.GetFunction("p1").GetParameter(0), tmpprof.GetFunction("p1").GetParError(0)
03056     fitresult2 = None, None
03057     if fit2ok and fit3ok:
03058         fitresult2 = (tmppos.GetFunction("gausR").GetParameter(1) + tmpneg.GetFunction("gausR").GetParameter(1)) / 2., \
03059                      sqrt(tmppos.GetFunction("gausR").GetParError(1)**2 + tmpneg.GetFunction("gausR").GetParError(1)**2) / 2.
03060     return phi, fitresult1[0], fitresult1[1], fitresult2[0], fitresult2[1], fit1ok, fit2ok, fit3ok
03061 
03062 

def plotscripts::segdiff_xalign (   tfiles,
  component,
  args 
)

Definition at line 3065 of file plotscripts.py.

03066                                              :
03067     tdrStyle.SetOptFit(1)
03068     tdrStyle.SetOptTitle(1)
03069     tdrStyle.SetTitleBorderSize(1)
03070     tdrStyle.SetTitleFontSize(0.05)
03071     tdrStyle.SetStatW(0.2)
03072     tdrStyle.SetStatY(0.9)
03073     tdrStyle.SetStatFontSize(0.06)
03074     
03075     if component[0:4] == "x_dt":
03076         wheel = int(args["wheel"])
03077         if int(wheel)<0:
03078           wheell = "m%d" % abs(wheel)
03079           endcapsign="-"
03080         else:
03081           wheell = "p%d" % abs(wheel)
03082           endcapsign="+"
03083         station_dt = component[4]
03084         station_csc_1 = args["cscstations"][0]
03085         if station_csc_1=='1':  ring_1 = 3
03086         else:                   ring_1 = 2
03087         sector = args["sector"]
03088         profname = "%s%s_W%sS%02d" % (component, station_csc_1, wheell, sector)
03089         posname_1 = "pos_" + profname
03090         negname_1 = "neg_" + profname
03091         if len(args["cscstations"]) > 1:
03092           station_csc_2 = args["cscstations"][1]
03093           if station_csc_2=='1':  ring_2 = 3
03094           else:                   ring_2 = 2
03095           profname = "%s%s_W%sS%02d" % (component, station_csc_2, wheell, sector)
03096           posname_2 = "pos_" + profname
03097           negname_2 = "neg_" + profname
03098 
03099         phi = signConventions["DT", wheel, int(station_dt), sector][4]
03100         while (phi < -pi): phi += 2.*pi
03101         while (phi > pi): phi -= 2.*pi
03102         
03103     else: raise Exception
03104 
03105     if "window" in args: window = args["window"]
03106     else: window = 5.
03107 
03108     global tmppos, tmpneg, tmppos_2, tmpneg_2
03109     pdir = "AlignmentMonitorSegmentDifferences/iter1/"
03110     tmppos = tfiles[0].Get(pdir + posname_1).Clone()
03111     tmpneg = tfiles[0].Get(pdir + negname_1).Clone()
03112     if len(args["cscstations"]) > 1:
03113       tmppos_2 = tfiles[0].Get(pdir + posname_2).Clone()
03114       tmpneg_2 = tfiles[0].Get(pdir + negname_2).Clone()
03115     tmpneg.Rebin(2); tmppos.Rebin(2)
03116     for tfile in tfiles[1:]:
03117       tmppos.Add(tfile.Get(pdir + posname_1))
03118       tmpneg.Add(tfile.Get(pdir + negname_1))
03119       if len(args["cscstations"]) > 1:
03120         tmppos_2.Add(tfile.Get(pdir + posname_2))
03121         tmpneg_2.Add(tfile.Get(pdir + negname_2))
03122       tmpneg_2.Rebin(2); tmppos_2.Rebin(2)
03123 
03124     result = {}
03125     result["fit_ok"] = False
03126     result["phi"] = phi
03127     ntot = tmppos.GetEntries() + tmpneg.GetEntries()
03128     if ntot == 0:
03129       return result
03130 
03131     tmppos.SetXTitle("#Deltax^{loc}_{MB} - r_{DT}/r_{CSC}#times#Deltax^{loc}_{ME} (mm)")
03132     tmpneg.SetXTitle("#Deltax^{loc}_{MB} - r_{DT}/r_{CSC}#times#Deltax^{loc}_{ME} (mm)")
03133     title1 =  "MB(W%+d St%s Sec%d) - ME%s%s/%d" % (wheel, station_dt, int(sector), endcapsign, station_csc_1, ring_1)
03134     tmppos.SetTitle("Positive #mu:  %s" % title1);
03135     tmpneg.SetTitle("Negative #mu:  %s" % title1);
03136     tmppos.GetXaxis().CenterTitle()
03137     tmpneg.GetXaxis().CenterTitle()
03138     if len(args["cscstations"]) > 1:
03139       tmppos.SetXTitle("#Deltax^{loc}_{DT} - r_{DT}/r_{CSC}#times#Deltax^{loc}_{CSC} (mm)")
03140       tmpneg.SetXTitle("#Deltax^{loc}_{DT} - r_{DT}/r_{CSC}#times#Deltax^{loc}_{CSC} (mm)")
03141       title2 =  "MB(W%+d St%s Sec%d) - ME%s%s/%d" % (wheel, station_dt, int(sector), endcapsign, station_csc_2, ring_2)
03142       tmppos_2.SetTitle("Positive #mu:  %s" % title2);
03143       tmpneg_2.SetTitle("Negative #mu:  %s" % title2);
03144       tmppos_2.GetXaxis().CenterTitle()
03145       tmpneg_2.GetXaxis().CenterTitle()
03146 
03147     c1.Clear()
03148     c1.Divide(2, 2)
03149 
03150     c1.GetPad(1).cd()
03151     tmppos.Draw()
03152     fpos = ROOT.TF1("gpos", "gaus", tmppos.GetMean() - tmppos.GetRMS(), tmppos.GetMean() + tmppos.GetRMS())
03153     fpos.SetParameters(tmppos.GetEntries() * 2.5, tmppos.GetMean(), tmppos.GetRMS())
03154     fit_pos = tmppos.Fit("gpos", "qRS")
03155 
03156     c1.GetPad(3).cd()
03157     tmpneg.Draw()
03158     fneg = ROOT.TF1("gneg", "gaus", tmpneg.GetMean() - tmpneg.GetRMS(), tmpneg.GetMean() + tmpneg.GetRMS())
03159     fneg.SetParameters(tmpneg.GetEntries() * 2.5, tmpneg.GetMean(), tmpneg.GetRMS())
03160     fit_neg = tmpneg.Fit("gneg", "qRS")
03161     
03162     result["fit_ok"] = (fit_pos.Status()==0 and fit_pos.CovMatrixStatus()==3 and fit_neg.Status()==0 and fit_neg.CovMatrixStatus()==3)
03163     result["fit_peak"] = (fpos.GetParameter(1)*tmppos.GetEntries() + fneg.GetParameter(1)*tmpneg.GetEntries()) / ntot
03164     result["fit_peak_error"] = sqrt( (fpos.GetParError(1)*tmppos.GetEntries())**2 + (fneg.GetParError(1)*tmpneg.GetEntries())**2) / ntot
03165     
03166     if len(args["cscstations"]) > 1:
03167       c1.GetPad(2).cd()
03168       tmppos_2.Draw()
03169       fpos_2 = ROOT.TF1("gpos2", "gaus", tmppos_2.GetMean() - tmppos_2.GetRMS(), tmppos_2.GetMean() + tmppos_2.GetRMS())
03170       fpos_2.SetParameters(tmppos_2.GetEntries() * 2.5, tmppos_2.GetMean(), tmppos_2.GetRMS())
03171       fit_pos_2 = tmppos_2.Fit("gpos2", "qRS")
03172 
03173       c1.GetPad(4).cd()
03174       tmpneg_2.Draw()
03175       fneg_2 = ROOT.TF1("gneg2", "gaus", tmpneg_2.GetMean() - tmpneg_2.GetRMS(), tmpneg_2.GetMean() + tmpneg_2.GetRMS())
03176       fneg_2.SetParameters(tmpneg_2.GetEntries() * 2.5, tmpneg_2.GetMean(), tmpneg_2.GetRMS())
03177       fit_neg_2 = tmpneg_2.Fit("gneg2", "qRS")
03178 
03179       result["fit_ok_2"] = (fit_pos_2.Status()==0 and fit_pos_2.CovMatrixStatus()==3 and fit_neg_2.Status()==0 and fit_neg_2.CovMatrixStatus()==3)
03180       ntot = tmppos_2.GetEntries() + tmpneg_2.GetEntries()
03181       result["fit_peak_2"] = (fpos_2.GetParameter(1)*tmppos_2.GetEntries() + fneg_2.GetParameter(1)*tmpneg_2.GetEntries()) / ntot
03182       result["fit_peak_error_2"] = sqrt( (fpos_2.GetParError(1)*tmppos_2.GetEntries())**2 + (fneg_2.GetParError(1)*tmpneg_2.GetEntries())**2) / ntot
03183 
03184     return result

def plotscripts::segdiffvsphi (   tfiles,
  reports,
  component,
  wheel,
  window = 5.,
  excludesectors = () 
)

Definition at line 3302 of file plotscripts.py.

03303                                                                                  :
03304     tdrStyle.SetOptTitle(1)
03305     tdrStyle.SetTitleBorderSize(1)
03306     tdrStyle.SetTitleFontSize(0.05)
03307 
03308     global htemp, gtemp_12, gtemp2_12, gtemp_23, gtemp2_23, gtemp_34, gtemp2_34, tlegend
03309     htemp = ROOT.TH1F("htemp", "", 1, -pi, pi)
03310     gtemp_12_phi, gtemp_12_val, gtemp_12_err, gtemp_12_val2, gtemp_12_err2 = [], [], [], [], []
03311     gtemp_23_phi, gtemp_23_val, gtemp_23_err, gtemp_23_val2, gtemp_23_err2 = [], [], [], [], []
03312     gtemp_34_phi, gtemp_34_val, gtemp_34_err, gtemp_34_val2, gtemp_34_err2 = [], [], [], [], []
03313     for sector in xrange(1, 12+1):
03314         #print "sect", sector
03315         r1_found, r2_found, r3_found, r4_found = False, False, False, False
03316         for r1 in reports:
03317             if r1.postal_address == ("DT", wheel, 1, sector):
03318                 r1_found = True
03319                 break
03320         for r2 in reports:
03321             if r2.postal_address == ("DT", wheel, 2, sector):
03322                 r2_found = True
03323                 break
03324         for r3 in reports:
03325             if r3.postal_address == ("DT", wheel, 3, sector):
03326                 r3_found = True
03327                 break
03328         for r4 in reports:
03329             if r4.postal_address == ("DT", wheel, 4, sector):
03330                 r4_found = True
03331                 break
03332         #print "rfounds: ", r1_found, r2_found, r3_found, r4_found
03333         
03334         if sector not in excludesectors:
03335             if r1_found and r2_found and r1.status == "PASS" and r2.status == "PASS":
03336                 phi, val, err, val2, err2, fit1, fit2, fit3 = segdiff(tfiles, component, 12, wheel=wheel, sector=sector)
03337                 #print "segdif 12", phi, val, err, val2, err2, fit1, fit2, fit3
03338                 if fit1 and fit2 and fit3:
03339                     gtemp_12_phi.append(phi)
03340                     gtemp_12_val.append(val)
03341                     gtemp_12_err.append(err)
03342                     gtemp_12_val2.append(val2)
03343                     gtemp_12_err2.append(err2)
03344             if r2_found and r3_found and r2.status == "PASS" and r3.status == "PASS":
03345                 phi, val, err, val2, err2, fit1, fit2, fit3 = segdiff(tfiles, component, 23, wheel=wheel, sector=sector)
03346                 #print "segdif 23", phi, val, err, val2, err2, fit1, fit2, fit3
03347                 if fit1 and fit2 and fit3:
03348                     gtemp_23_phi.append(phi)
03349                     gtemp_23_val.append(val)
03350                     gtemp_23_err.append(err)
03351                     gtemp_23_val2.append(val2)
03352                     gtemp_23_err2.append(err2)
03353             if component[:4] == "dt13":
03354                 if r3_found and r4_found and r3.status == "PASS" and r4.status == "PASS":
03355                     phi, val, err, val2, err2, fit1, fit2, fit3 = segdiff(tfiles, component, 34, wheel=wheel, sector=sector)
03356                     #print "segdif 34", phi, val, err, val2, err2, fit1, fit2, fit3
03357                     if fit1 and fit2 and fit3:
03358                         gtemp_34_phi.append(phi)
03359                         gtemp_34_val.append(val)
03360                         gtemp_34_err.append(err)
03361                         gtemp_34_val2.append(val2)
03362                         gtemp_34_err2.append(err2)
03363 
03364     #print "len(gtemp_12_phi) ", len(gtemp_12_phi)
03365     #print "len(gtemp_23_phi) ",len(gtemp_23_phi)
03366     #print "len(gtemp_34_phi) ",len(gtemp_34_phi)
03367     if len(gtemp_12_phi) > 0:
03368         gtemp_12 = ROOT.TGraphErrors(len(gtemp_12_phi), array.array("d", gtemp_12_phi), array.array("d", gtemp_12_val), 
03369                                      array.array("d", [0.] * len(gtemp_12_phi)), array.array("d", gtemp_12_err))
03370         gtemp2_12 = ROOT.TGraphErrors(len(gtemp_12_phi), array.array("d", gtemp_12_phi), array.array("d", gtemp_12_val2), 
03371                                       array.array("d", [0.] * len(gtemp_12_phi)), array.array("d", gtemp_12_err2))
03372     if len(gtemp_23_phi) > 0:
03373         gtemp_23 = ROOT.TGraphErrors(len(gtemp_23_phi), array.array("d", gtemp_23_phi), array.array("d", gtemp_23_val), 
03374                                      array.array("d", [0.] * len(gtemp_23_phi)), array.array("d", gtemp_23_err))
03375         gtemp2_23 = ROOT.TGraphErrors(len(gtemp_23_phi), array.array("d", gtemp_23_phi), array.array("d", gtemp_23_val2), 
03376                                       array.array("d", [0.] * len(gtemp_23_phi)), array.array("d", gtemp_23_err2))
03377     if len(gtemp_34_phi) > 0:
03378         gtemp_34 = ROOT.TGraphErrors(len(gtemp_34_phi), array.array("d", gtemp_34_phi), array.array("d", gtemp_34_val), 
03379                                      array.array("d", [0.] * len(gtemp_34_phi)), array.array("d", gtemp_34_err))
03380         gtemp2_34 = ROOT.TGraphErrors(len(gtemp_34_phi), array.array("d", gtemp_34_phi), array.array("d", gtemp_34_val2), 
03381                                       array.array("d", [0.] * len(gtemp_34_phi)), array.array("d", gtemp_34_err2))
03382 
03383     if len(gtemp_12_phi) > 0:
03384         gtemp_12.SetMarkerStyle(20);  gtemp_12.SetMarkerSize(1.);  
03385         gtemp_12.SetMarkerColor(ROOT.kBlue);  gtemp_12.SetLineColor(ROOT.kBlue)
03386         gtemp2_12.SetMarkerStyle(24); gtemp2_12.SetMarkerSize(1.); 
03387         gtemp2_12.SetMarkerColor(ROOT.kBlue); gtemp2_12.SetLineColor(ROOT.kBlue)
03388     if len(gtemp_23_phi) > 0:
03389         gtemp_23.SetMarkerStyle(21);  gtemp_23.SetMarkerSize(1.);  
03390         gtemp_23.SetMarkerColor(ROOT.kRed);   gtemp_23.SetLineColor(ROOT.kRed)
03391         gtemp2_23.SetMarkerStyle(25); gtemp2_23.SetMarkerSize(1.); 
03392         gtemp2_23.SetMarkerColor(ROOT.kRed);  gtemp2_23.SetLineColor(ROOT.kRed)
03393     if len(gtemp_34_phi) > 0 and component[:4] == "dt13":
03394         gtemp_34.SetMarkerStyle(22);  gtemp_34.SetMarkerSize(1.25);  
03395         gtemp_34.SetMarkerColor(ROOT.kGreen+2);  gtemp_34.SetLineColor(ROOT.kGreen+2)
03396         gtemp2_34.SetMarkerStyle(26); gtemp2_34.SetMarkerSize(1.25); 
03397         gtemp2_34.SetMarkerColor(ROOT.kGreen+2); gtemp2_34.SetLineColor(ROOT.kGreen+2)
03398 
03399     if wheel == 0: htemp.SetTitle("Wheel %d" % wheel)
03400     else: htemp.SetTitle("Wheel %+d" % wheel)
03401     htemp.SetAxisRange(-window, window, "Y")
03402     htemp.SetXTitle("Average #phi of pair (rad)")
03403     if component == "dt13_resid": htemp.SetYTitle("#Deltax^{local} (mm)")
03404     if component == "dt13_slope": htemp.SetYTitle("#Deltadx/dz^{local} (mrad)")
03405     if component == "dt2_resid": htemp.SetYTitle("#Deltay^{local} (mm)")
03406     if component == "dt2_slope": htemp.SetYTitle("#Deltady/dz^{local} (mrad)")
03407     htemp.GetXaxis().CenterTitle()
03408     htemp.GetYaxis().CenterTitle()
03409     htemp.GetYaxis().SetTitleOffset(0.75)
03410 
03411     c1.Clear()
03412     htemp.Draw()
03413     if len(gtemp_12_phi) > 0:
03414         gtemp_12.Draw("p")
03415         gtemp2_12.Draw("p")
03416     if len(gtemp_23_phi) > 0:
03417         gtemp_23.Draw("p")
03418         gtemp2_23.Draw("p")
03419     if len(gtemp_34_phi) > 0:
03420         gtemp_34.Draw("p")
03421         gtemp2_34.Draw("p")
03422 
03423     tlegend = ROOT.TLegend(0.5, 0.72, 0.9, 0.92)
03424     tlegend.SetBorderSize(0)
03425     tlegend.SetFillColor(ROOT.kWhite)
03426     if len(gtemp_12_phi) > 0:
03427         tlegend.AddEntry(gtemp_12, "MB1 - MB2 (mean: %4.2f, RMS: %4.2f)" % (mean(gtemp_12_val), stdev(gtemp_12_val)), "pl")
03428     if len(gtemp_23_phi) > 0:
03429         tlegend.AddEntry(gtemp_23, "MB2 - MB3 (mean: %4.2f, RMS: %4.2f)" % (mean(gtemp_23_val), stdev(gtemp_23_val)), "pl")
03430     if len(gtemp_34_phi) > 0:
03431         tlegend.AddEntry(gtemp_34, "MB3 - MB4 (mean: %4.2f, RMS: %4.2f)" % (mean(gtemp_34_val), stdev(gtemp_34_val)), "pl")
03432     if len(gtemp_12_phi) > 0:
03433         tlegend.AddEntry(gtemp_12, "total mean: %4.2f, total RMS: %4.2f" % \
03434                                    (mean(gtemp_12_val + gtemp_23_val + gtemp_34_val), 
03435                                    stdev(gtemp_12_val + gtemp_23_val + gtemp_34_val)), "")
03436     tlegend.Draw()
03437 

def plotscripts::segdiffvsphi_xalign (   tfiles,
  wheel,
  window = 10. 
)

Definition at line 3187 of file plotscripts.py.

03188                                                   :
03189     tdrStyle.SetOptTitle(1)
03190     tdrStyle.SetTitleBorderSize(1)
03191     tdrStyle.SetTitleFontSize(0.05)
03192 
03193     global htemp, gtemp_12, gtemp_21, gtemp_11, tlegend
03194     htemp = ROOT.TH1F("htemp", "", 1, -pi, pi)
03195     gtemp_11_phi, gtemp_11_val, gtemp_11_err = [], [], []
03196     gtemp_12_phi, gtemp_12_val, gtemp_12_err = [], [], []
03197     gtemp_21_phi, gtemp_21_val, gtemp_21_err = [], [], []
03198     for sector in xrange(1, 12+1):
03199       #print "sect", sector
03200       r1 = segdiff_xalign(tfiles, "x_dt1_csc", wheel=wheel, sector=sector, cscstations = "12")
03201       r2 = segdiff_xalign(tfiles, "x_dt2_csc", wheel=wheel, sector=sector, cscstations = "1")
03202       
03203       if r1["fit_ok"]:
03204         gtemp_11_phi.append(r1["phi"])
03205         gtemp_11_val.append(r1["fit_peak"])
03206         gtemp_11_err.append(r1["fit_peak_error"])
03207       if r1["fit_ok_2"]:
03208         gtemp_12_phi.append(r1["phi"])
03209         gtemp_12_val.append(r1["fit_peak_2"])
03210         gtemp_12_err.append(r1["fit_peak_error_2"])
03211       if r2["fit_ok"]:
03212         gtemp_21_phi.append(r2["phi"])
03213         gtemp_21_val.append(r2["fit_peak"])
03214         gtemp_21_err.append(r2["fit_peak_error"])
03215 
03216     #print "len(gtemp_11_phi) ",len(gtemp_11_phi)
03217     #print "len(gtemp_12_phi) ",len(gtemp_12_phi)
03218     #print "len(gtemp_21_phi) ",len(gtemp_21_phi)
03219     if len(gtemp_11_phi) > 0:
03220         gtemp_11 = ROOT.TGraphErrors(len(gtemp_11_phi), array.array("d", gtemp_11_phi), array.array("d", gtemp_11_val), 
03221                                      array.array("d", [0.] * len(gtemp_11_phi)), array.array("d", gtemp_11_err))
03222     if len(gtemp_12_phi) > 0:
03223         gtemp_12 = ROOT.TGraphErrors(len(gtemp_12_phi), array.array("d", gtemp_12_phi), array.array("d", gtemp_12_val), 
03224                                      array.array("d", [0.] * len(gtemp_12_phi)), array.array("d", gtemp_12_err))
03225     if len(gtemp_11_phi) > 0:
03226         gtemp_21 = ROOT.TGraphErrors(len(gtemp_21_phi), array.array("d", gtemp_21_phi), array.array("d", gtemp_21_val), 
03227                                      array.array("d", [0.] * len(gtemp_21_phi)), array.array("d", gtemp_21_err))
03228 
03229     if len(gtemp_11_phi) > 0:
03230         gtemp_11.SetMarkerStyle(20);  gtemp_11.SetMarkerSize(1.5);  
03231         gtemp_11.SetMarkerColor(ROOT.kRed);  gtemp_11.SetLineColor(ROOT.kRed)
03232     if len(gtemp_12_phi) > 0:
03233         gtemp_12.SetMarkerStyle(22);  gtemp_12.SetMarkerSize(1.);  
03234         gtemp_12.SetMarkerColor(ROOT.kGreen+2);  gtemp_12.SetLineColor(ROOT.kGreen+2)
03235     if len(gtemp_21_phi) > 0:
03236         gtemp_21.SetMarkerStyle(21);  gtemp_21.SetMarkerSize(1.5);  
03237         gtemp_21.SetMarkerColor(ROOT.kBlue);  gtemp_21.SetLineColor(ROOT.kBlue)
03238     
03239     htemp.SetTitle("Wheel %+d" % wheel)
03240     htemp.SetAxisRange(-window, window, "Y")
03241     htemp.SetXTitle("#phi of MB")
03242     htemp.SetYTitle("#Deltax^{loc}_{DT} - r_{DT}/r_{CSC}#times#Deltax^{loc}_{CSC} (mm)")
03243     htemp.GetXaxis().CenterTitle()
03244     htemp.GetYaxis().CenterTitle()
03245     htemp.GetYaxis().SetTitleOffset(0.75)
03246 
03247     c1.Clear()
03248     htemp.Draw()
03249     if len(gtemp_12_phi) > 0:
03250         gtemp_12.Draw("p")
03251     if len(gtemp_21_phi) > 0:
03252         gtemp_21.Draw("p")
03253     if len(gtemp_11_phi) > 0:
03254         gtemp_11.Draw("p")
03255 
03256     tlegend = ROOT.TLegend(0.59, 0.75, 0.99, 0.92)
03257     tlegend.SetBorderSize(0)
03258     tlegend.SetFillColor(ROOT.kWhite)
03259     if len(gtemp_11_phi) > 0:
03260         tlegend.AddEntry(gtemp_11, "MB1 - ME1/3 (mean: %4.2f, RMS: %4.2f)" % (mean(gtemp_11_val), stdev(gtemp_11_val)), "pl")
03261     if len(gtemp_21_phi) > 0:
03262         tlegend.AddEntry(gtemp_21, "MB2 - ME1/3 (mean: %4.2f, RMS: %4.2f)" % (mean(gtemp_21_val), stdev(gtemp_21_val)), "pl")
03263     if len(gtemp_12_phi) > 0:
03264         tlegend.AddEntry(gtemp_12, "MB1 - ME2/2 (mean: %4.2f, RMS: %4.2f)" % (mean(gtemp_12_val), stdev(gtemp_12_val)), "pl")
03265     #if len(gtemp_12_phi) > 0:
03266     #    tlegend.AddEntry(gtemp_12, "total mean: %4.2f, total RMS: %4.2f" % \
03267     #                               (mean(gtemp_11_val + gtemp_12_val + gtemp_21_val), 
03268     #                               stdev(gtemp_11_val + gtemp_12_val + gtemp_21_val)), "")
03269     tlegend.Draw()
03270 
03271     f_11 = ROOT.TF1("f11", "[0] + [1]*sin(x) + [2]*cos(x)", -pi, pi)
03272     f_11.SetLineColor(ROOT.kRed)
03273     f_11.SetLineWidth(2)
03274     f_21 = ROOT.TF1("f21", "[0] + [1]*sin(x) + [2]*cos(x)", -pi, pi)
03275     f_21.SetLineColor(ROOT.kBlue)
03276     f_21.SetLineWidth(2)
03277     if len(gtemp_11_phi) > 0:
03278       gtemp_11.Fit(f_11,"")
03279     if len(gtemp_21_phi) > 0:
03280       gtemp_21.Fit(f_21,"")
03281     
03282     global f_txt,f_11_txt, f_21_txt 
03283     f_txt = ROOT.TLatex(-2.9, -0.7*window, "ME1/3 ring corrections equivalents:")
03284     f_txt.SetTextSize(0.028)
03285     f_txt.Draw()
03286     if len(gtemp_11_phi) > 0:
03287       rdt = signConventions[("DT", 2, 1, 1)][3]*10
03288       f_11_txt = ROOT.TLatex(-2.9, -0.8*window, "#Deltax=%.2f#pm%.2f mm   #Deltay=%.2f#pm%.2f mm   #Delta#phi_{z}=%.2f#pm%.2f mrad" % (
03289                              -f_11.GetParameter(1), f_11.GetParError(1), f_11.GetParameter(2), f_11.GetParError(2), -f_11.GetParameter(0)/rdt*1000, f_11.GetParError(0)/rdt*1000))
03290       f_11_txt.SetTextSize(0.028)
03291       f_11_txt.SetTextColor(ROOT.kRed)
03292       f_11_txt.Draw()
03293     if len(gtemp_11_phi) > 0:
03294       rdt = signConventions[("DT", 2, 2, 1)][3]*10
03295       f_21_txt = ROOT.TLatex(-2.9, -0.9*window, "#Deltax=%.2f#pm%.2f mm   #Deltay=%.2f#pm%.2f mm   #Delta#phi_{z}=%.2f#pm%.2f mrad" % (
03296                              -f_21.GetParameter(1), f_21.GetParError(1), f_21.GetParameter(2), f_21.GetParError(2), -f_21.GetParameter(0)/rdt*1000, f_21.GetParError(0)/rdt*1000))
03297       f_21_txt.SetTextSize(0.028)
03298       f_21_txt.SetTextColor(ROOT.kBlue)
03299       f_21_txt.Draw()

def plotscripts::segdiffvsphicsc (   tfiles,
  component,
  pair,
  window = 5.,
  args 
)

Definition at line 3440 of file plotscripts.py.

03441                                                                :
03442     tdrStyle.SetOptTitle(1)
03443     tdrStyle.SetTitleBorderSize(1)
03444     tdrStyle.SetTitleFontSize(0.05)
03445 
03446     if not component[0:3] == "csc": Exception
03447     
03448     endcap = args["endcap"]
03449     if endcap=="m":
03450       endcapnum=2
03451       endcapsign="-"
03452     elif endcap=="p":
03453       endcapnum=1
03454       endcapsign="+"
03455     else: raise Exception
03456     
03457     station1 = int(str(pair)[0])
03458     station2 = int(str(pair)[1])
03459     if not station2-station1==1: raise Exception
03460     
03461     rings = [1,2]
03462     if station2==4: rings = [1]
03463     
03464     
03465     global htemp, gtemp_1, gtemp2_1, gtemp_2, gtemp2_2, tlegend
03466     htemp = ROOT.TH1F("htemp", "", 1, -pi*5./180., pi*(2.-5./180.))
03467     gtemp_1_phi, gtemp_1_val, gtemp_1_err, gtemp_1_val2, gtemp_1_err2 = [], [], [], [], []
03468     gtemp_2_phi, gtemp_2_val, gtemp_2_err, gtemp_2_val2, gtemp_2_err2 = [], [], [], [], []
03469     
03470     for ring in rings:
03471       chambers = xrange(1,37)
03472       if ring == 1: chambers = xrange(1,19)
03473       
03474       for chamber in chambers:
03475         phi, val, err, val2, err2, fit1, fit2, fit3 = segdiff(tfiles, component, pair, endcap=endcap, ring=ring, chamber=chamber)
03476         if fit1 and fit2 and fit3:
03477           if ring==1:
03478             gtemp_1_phi.append(phi)
03479             gtemp_1_val.append(val)
03480             gtemp_1_err.append(err)
03481             gtemp_1_val2.append(val2)
03482             gtemp_1_err2.append(err2)
03483           if ring==2:
03484             gtemp_2_phi.append(phi)
03485             gtemp_2_val.append(val)
03486             gtemp_2_err.append(err)
03487             gtemp_2_val2.append(val2)
03488             gtemp_2_err2.append(err2)
03489 
03490     #print "len(gtemp_12_phi) ", len(gtemp_12_phi)
03491     #print "len(gtemp_23_phi) ",len(gtemp_23_phi)
03492     #print "len(gtemp_34_phi) ",len(gtemp_34_phi)
03493     if len(gtemp_1_phi) > 0:
03494         gtemp_1 = ROOT.TGraphErrors(len(gtemp_1_phi), array.array("d", gtemp_1_phi), array.array("d", gtemp_1_val), 
03495                                      array.array("d", [0.] * len(gtemp_1_phi)), array.array("d", gtemp_1_err))
03496         gtemp2_1 = ROOT.TGraphErrors(len(gtemp_1_phi), array.array("d", gtemp_1_phi), array.array("d", gtemp_1_val2), 
03497                                       array.array("d", [0.] * len(gtemp_1_phi)), array.array("d", gtemp_1_err2))
03498     if len(gtemp_2_phi) > 0:
03499         gtemp_2 = ROOT.TGraphErrors(len(gtemp_2_phi), array.array("d", gtemp_2_phi), array.array("d", gtemp_2_val), 
03500                                      array.array("d", [0.] * len(gtemp_2_phi)), array.array("d", gtemp_2_err))
03501         gtemp2_2 = ROOT.TGraphErrors(len(gtemp_2_phi), array.array("d", gtemp_2_phi), array.array("d", gtemp_2_val2), 
03502                                       array.array("d", [0.] * len(gtemp_2_phi)), array.array("d", gtemp_2_err2))
03503 
03504     if len(gtemp_1_phi) > 0:
03505         gtemp_1.SetMarkerStyle(20);  gtemp_1.SetMarkerSize(1.);  
03506         gtemp_1.SetMarkerColor(ROOT.kBlue);  gtemp_1.SetLineColor(ROOT.kBlue)
03507         gtemp2_1.SetMarkerStyle(24); gtemp2_1.SetMarkerSize(1.); 
03508         gtemp2_1.SetMarkerColor(ROOT.kBlue); gtemp2_1.SetLineColor(ROOT.kBlue)
03509     if len(gtemp_2_phi) > 0:
03510         gtemp_2.SetMarkerStyle(21);  gtemp_2.SetMarkerSize(1.);  
03511         gtemp_2.SetMarkerColor(ROOT.kRed);  gtemp_2.SetLineColor(ROOT.kRed)
03512         gtemp2_2.SetMarkerStyle(25); gtemp2_2.SetMarkerSize(1.); 
03513         gtemp2_2.SetMarkerColor(ROOT.kRed); gtemp2_2.SetLineColor(ROOT.kRed)
03514 
03515     htemp.SetTitle("ME%s%d - ME%s%d" % (endcapsign,station2,endcapsign,station1))
03516     htemp.SetAxisRange(-window, window, "Y")
03517     htemp.SetXTitle("Average #phi of pair (rad)")
03518     if component == "csc_resid": htemp.SetYTitle("#Delta(r#phi)^{local} (mm)")
03519     if component == "csc_slope": htemp.SetYTitle("#Deltad(r#phi)/dz^{local} (mrad)")
03520     htemp.GetXaxis().CenterTitle()
03521     htemp.GetYaxis().CenterTitle()
03522     htemp.GetYaxis().SetTitleOffset(0.75)
03523 
03524     c1.Clear()
03525     htemp.Draw()
03526     if len(gtemp_1_phi) > 0:
03527         gtemp_1.Draw("p")
03528         gtemp2_1.Draw("p")
03529     if len(gtemp_2_phi) > 0:
03530         gtemp_2.Draw("p")
03531         gtemp2_2.Draw("p")
03532 
03533     tlegend = ROOT.TLegend(0.5, 0.72, 0.9, 0.92)
03534     tlegend.SetBorderSize(0)
03535     tlegend.SetFillColor(ROOT.kWhite)
03536     if len(gtemp_1_phi) > 0:
03537         tlegend.AddEntry(gtemp_1, "ring 1 (mean: %4.2f, RMS: %4.2f)" % (mean(gtemp_1_val), stdev(gtemp_1_val)), "pl")
03538     if len(gtemp_2_phi) > 0:
03539         tlegend.AddEntry(gtemp_2, "ring 2 (mean: %4.2f, RMS: %4.2f)" % (mean(gtemp_2_val), stdev(gtemp_2_val)), "pl")
03540     #if len(gtemp_12_phi) > 0:
03541     #    tlegend.AddEntry(gtemp_12, "total mean: %4.2f, total RMS: %4.2f" % \
03542     #                               (mean(gtemp_12_val + gtemp_23_val + gtemp_34_val), 
03543     #                               stdev(gtemp_12_val + gtemp_23_val + gtemp_34_val)), "")
03544     tlegend.Draw()
03545 
03546 

def plotscripts::set_palette (   name = None,
  ncontours = 999 
)
Set a color palette from a given RGB list
stops, red, green and blue should all be lists of the same length
see set_decent_colors for an example

Definition at line 226 of file plotscripts.py.

00227                                          :
00228     """Set a color palette from a given RGB list
00229     stops, red, green and blue should all be lists of the same length
00230     see set_decent_colors for an example"""
00231 
00232     if name == "halfgray":
00233         stops = [0.00, 0.34, 0.61, 0.84, 1.00]
00234         red   = map(lambda x: 1. - (1.-x)/2., [1.00, 0.84, 0.61, 0.34, 0.00])
00235         green = map(lambda x: 1. - (1.-x)/2., [1.00, 0.84, 0.61, 0.34, 0.00])
00236         blue  = map(lambda x: 1. - (1.-x)/2., [1.00, 0.84, 0.61, 0.34, 0.00])
00237     elif name == "gray":
00238         stops = [0.00, 0.34, 0.61, 0.84, 1.00]
00239         red   = [1.00, 0.84, 0.61, 0.34, 0.00]
00240         green = [1.00, 0.84, 0.61, 0.34, 0.00]
00241         blue  = [1.00, 0.84, 0.61, 0.34, 0.00]
00242     elif name == "blues":
00243         stops = [0.00, 0.34, 0.61, 0.84, 1.00]
00244         red   = [1.00, 0.84, 0.61, 0.34, 0.00]
00245         green = [1.00, 0.84, 0.61, 0.34, 0.00]
00246         blue  = [1.00, 1.00, 1.00, 1.00, 1.00]
00247     elif name == "reds":
00248         stops = [0.00, 0.34, 0.61, 0.84, 1.00]
00249         red   = [1.00, 1.00, 1.00, 1.00, 1.00]
00250         green = [1.00, 0.84, 0.61, 0.34, 0.00]
00251         blue  = [1.00, 0.84, 0.61, 0.34, 0.00]
00252     elif name == "antigray":
00253         stops = [0.00, 0.34, 0.61, 0.84, 1.00]
00254         red   = [1.00, 0.84, 0.61, 0.34, 0.00]
00255         green = [1.00, 0.84, 0.61, 0.34, 0.00]
00256         blue  = [1.00, 0.84, 0.61, 0.34, 0.00]
00257         red.reverse()
00258         green.reverse()
00259         blue.reverse()
00260     elif name == "fire":
00261         stops = [0.00, 0.20, 0.80, 1.00]
00262         red   = [1.00, 1.00, 1.00, 0.50]
00263         green = [1.00, 1.00, 0.00, 0.00]
00264         blue  = [0.20, 0.00, 0.00, 0.00]
00265     elif name == "antifire":
00266         stops = [0.00, 0.20, 0.80, 1.00]
00267         red   = [0.50, 1.00, 1.00, 1.00]
00268         green = [0.00, 0.00, 1.00, 1.00]
00269         blue  = [0.00, 0.00, 0.00, 0.20]
00270     else:
00271         # default palette, looks cool
00272         stops = [0.00, 0.34, 0.61, 0.84, 1.00]
00273         red   = [0.00, 0.00, 0.87, 1.00, 0.51]
00274         green = [0.00, 0.81, 1.00, 0.20, 0.00]
00275         blue  = [0.51, 1.00, 0.12, 0.00, 0.00]
00276 
00277     s = array.array('d', stops)
00278     r = array.array('d', red)
00279     g = array.array('d', green)
00280     b = array.array('d', blue)
00281 
00282     npoints = len(s)
00283     ROOT.TColor.CreateGradientColorTable(npoints, s, r, g, b, ncontours)
00284     ROOT.gStyle.SetNumberContours(ncontours)
00285 
00286 set_palette()

def plotscripts::setTDRStyle ( )

Definition at line 87 of file plotscripts.py.

Referenced by BTagPerformanceAnalyzerOnData::bookHistos(), BTagPerformanceAnalyzerMC::endJob(), BTagPerformanceAnalyzerOnData::endRun(), LRHelpFunctions::LRHelpFunctions(), EffPurFromHistos::plot(), SoftLeptonTagPlotter::psPlot(), JetTagPlotter::psPlot(), TrackCountingTagPlotter::psPlot(), TrackIPTagPlotter::psPlot(), TrackProbabilityTagPlotter::psPlot(), and RecoBTag::tdrGrid().

00088                  :
00089   global tdrStyle
00090   tdrStyle = ROOT.TStyle("tdrStyle","Style for P-TDR")
00091 # For the canvas:
00092   tdrStyle.SetCanvasBorderMode(0)
00093   tdrStyle.SetCanvasColor(ROOT.kWhite)
00094   tdrStyle.SetCanvasDefH(600) #Height of canvas
00095   tdrStyle.SetCanvasDefW(600) #Width of canvas
00096   tdrStyle.SetCanvasDefX(0)   #POsition on screen
00097   tdrStyle.SetCanvasDefY(0)
00098 
00099 # For the Pad:
00100   tdrStyle.SetPadBorderMode(0)
00101   # tdrStyle.SetPadBorderSize(Width_t size = 1)
00102   tdrStyle.SetPadColor(ROOT.kWhite)
00103   tdrStyle.SetPadGridX(False)
00104   tdrStyle.SetPadGridY(False)
00105   tdrStyle.SetGridColor(0)
00106   tdrStyle.SetGridStyle(3)
00107   tdrStyle.SetGridWidth(1)
00108 
00109 # For the frame:
00110   tdrStyle.SetFrameBorderMode(0)
00111   tdrStyle.SetFrameBorderSize(1)
00112   tdrStyle.SetFrameFillColor(0)
00113   tdrStyle.SetFrameFillStyle(0)
00114   tdrStyle.SetFrameLineColor(1)
00115   tdrStyle.SetFrameLineStyle(1)
00116   tdrStyle.SetFrameLineWidth(1)
00117 
00118 # For the histo:
00119   # tdrStyle.SetHistFillColor(1)
00120   # tdrStyle.SetHistFillStyle(0)
00121   tdrStyle.SetHistLineColor(1)
00122   tdrStyle.SetHistLineStyle(0)
00123   tdrStyle.SetHistLineWidth(1)
00124   # tdrStyle.SetLegoInnerR(Float_t rad = 0.5)
00125   # tdrStyle.SetNumberContours(Int_t number = 20)
00126 
00127   tdrStyle.SetEndErrorSize(2)
00128 #  tdrStyle.SetErrorMarker(20)
00129   tdrStyle.SetErrorX(0.)
00130 
00131   tdrStyle.SetMarkerStyle(20)
00132 
00133 #For the fit/function:
00134   tdrStyle.SetOptFit(1)
00135   tdrStyle.SetFitFormat("5.4g")
00136   tdrStyle.SetFuncColor(2)
00137   tdrStyle.SetFuncStyle(1)
00138   tdrStyle.SetFuncWidth(1)
00139 
00140 #For the date:
00141   tdrStyle.SetOptDate(0)
00142   # tdrStyle.SetDateX(Float_t x = 0.01)
00143   # tdrStyle.SetDateY(Float_t y = 0.01)
00144 
00145 # For the statistics box:
00146   tdrStyle.SetOptFile(0)
00147   tdrStyle.SetOptStat(0) # To display the mean and RMS:   SetOptStat("mr")
00148   tdrStyle.SetStatColor(ROOT.kWhite)
00149   tdrStyle.SetStatFont(42)
00150   tdrStyle.SetStatFontSize(0.025)
00151   tdrStyle.SetStatTextColor(1)
00152   tdrStyle.SetStatFormat("6.4g")
00153   tdrStyle.SetStatBorderSize(1)
00154   tdrStyle.SetStatH(0.1)
00155   tdrStyle.SetStatW(0.15)
00156   # tdrStyle.SetStatStyle(Style_t style = 1001)
00157   # tdrStyle.SetStatX(Float_t x = 0)
00158   # tdrStyle.SetStatY(Float_t y = 0)
00159 
00160 # Margins:
00161   tdrStyle.SetPadTopMargin(0.05)
00162   tdrStyle.SetPadBottomMargin(0.13)
00163   tdrStyle.SetPadLeftMargin(0.13)
00164   tdrStyle.SetPadRightMargin(0.05)
00165 
00166 # For the Global title:
00167   tdrStyle.SetOptTitle(0)
00168   tdrStyle.SetTitleFont(42)
00169   tdrStyle.SetTitleColor(1)
00170   tdrStyle.SetTitleTextColor(1)
00171   tdrStyle.SetTitleFillColor(10)
00172   tdrStyle.SetTitleFontSize(0.05)
00173   # tdrStyle.SetTitleH(0) # Set the height of the title box
00174   # tdrStyle.SetTitleW(0) # Set the width of the title box
00175   # tdrStyle.SetTitleX(0) # Set the position of the title box
00176   # tdrStyle.SetTitleY(0.985) # Set the position of the title box
00177   # tdrStyle.SetTitleStyle(Style_t style = 1001)
00178   # tdrStyle.SetTitleBorderSize(2)
00179 
00180 # For the axis titles:
00181   tdrStyle.SetTitleColor(1, "XYZ")
00182   tdrStyle.SetTitleFont(42, "XYZ")
00183   tdrStyle.SetTitleSize(0.06, "XYZ")
00184   # tdrStyle.SetTitleXSize(Float_t size = 0.02) # Another way to set the size?
00185   # tdrStyle.SetTitleYSize(Float_t size = 0.02)
00186   tdrStyle.SetTitleXOffset(0.9)
00187   tdrStyle.SetTitleYOffset(1.05)
00188   # tdrStyle.SetTitleOffset(1.1, "Y") # Another way to set the Offset
00189 
00190 # For the axis labels:
00191   tdrStyle.SetLabelColor(1, "XYZ")
00192   tdrStyle.SetLabelFont(42, "XYZ")
00193   tdrStyle.SetLabelOffset(0.007, "XYZ")
00194   tdrStyle.SetLabelSize(0.05, "XYZ")
00195 
00196 # For the axis:
00197   tdrStyle.SetAxisColor(1, "XYZ")
00198   tdrStyle.SetStripDecimals(True)
00199   tdrStyle.SetTickLength(0.03, "XYZ")
00200   tdrStyle.SetNdivisions(510, "XYZ")
00201   tdrStyle.SetPadTickX(1)  # To get tick marks on the opposite side of the frame
00202   tdrStyle.SetPadTickY(1)
00203 
00204 # Change for log plots:
00205   tdrStyle.SetOptLogx(0)
00206   tdrStyle.SetOptLogy(0)
00207   tdrStyle.SetOptLogz(0)
00208 
00209 # Postscript options:
00210   tdrStyle.SetPaperSize(20.,20.)
00211   # tdrStyle.SetLineScalePS(Float_t scale = 3)
00212   # tdrStyle.SetLineStyleString(Int_t i, const char* text)
00213   # tdrStyle.SetHeaderPS(const char* header)
00214   # tdrStyle.SetTitlePS(const char* pstitle)
00215 
00216   # tdrStyle.SetBarOffset(Float_t baroff = 0.5)
00217   # tdrStyle.SetBarWidth(Float_t barwidth = 0.5)
00218   # tdrStyle.SetPaintTextFormat(const char* format = "g")
00219   # tdrStyle.SetPalette(Int_t ncolors = 0, Int_t* colors = 0)
00220   # tdrStyle.SetTimeOffset(Double_t toffset)
00221   # tdrStyle.SetHistMinimumZero(True)
00222 
00223   tdrStyle.cd()
00224 
00225 setTDRStyle()

def plotscripts::stationIndex (   name)

Definition at line 353 of file plotscripts.py.

Referenced by MuonIdProducer::fillArbitrationInfo(), reco::Muon::stationGapMaskDistance(), and reco::Muon::stationGapMaskPull().

00354                       :
00355   if ("MB" in name or "ME" in name):
00356     # assume the name is ID
00357     pa = idToPostalAddress(name)
00358     if pa is None: return None
00359     if pa[0]=="CSC":
00360       if pa[2]==1 and pa[3]==1: return 0
00361       if pa[2]==1 and pa[3]==2: return 1
00362       if pa[2]==1 and pa[3]==3: return 2
00363       if pa[2]==1 and pa[3]==4: return 3
00364       if pa[2]==2 and pa[3]==1: return 4
00365       if pa[2]==2 and pa[3]==2: return 5
00366       if pa[2]==3 and pa[3]==1: return 6
00367       if pa[2]==3 and pa[3]==2: return 7
00368       if pa[2]==4 and pa[3]==1: return 8
00369       if pa[2]==4 and pa[3]==2: return 9
00370     if pa[0]=="DT":
00371       if pa[2]==1: return 10
00372       if pa[2]==2: return 11
00373       if pa[2]==3: return 12
00374       if pa[2]==4: return 13
00375   else:
00376     if ("mem11" in name or "mep11" in name): return 0
00377     if ("mem12" in name or "mep12" in name): return 1
00378     if ("mem13" in name or "mep13" in name): return 2
00379     if ("mem14" in name or "mep14" in name): return 3
00380     if ("mem21" in name or "mep21" in name): return 4
00381     if ("mem22" in name or "mep22" in name): return 5
00382     if ("mem31" in name or "mep31" in name): return 6
00383     if ("mem32" in name or "mep32" in name): return 7
00384     if ("mem41" in name or "mep41" in name): return 8
00385     if ("mem42" in name or "mep42" in name): return 9
00386     if ("st1" in name): return 10
00387     if ("st2" in name): return 11
00388     if ("st3" in name): return 12
00389     if ("st4" in name): return 13
00390 
00391 

def plotscripts::stdev (   xlist)

Definition at line 67 of file plotscripts.py.

Referenced by MuonResidualsPositionFitter::fit(), MuonResidualsBfieldAngleFitter::fit(), and MuonResidualsAngleFitter::fit().

00068                 :
00069   s, s2, n = 0., 0., 0.
00070   for x in xlist:
00071     s += x
00072     s2 += x**2
00073     n += 1.
00074   return sqrt(s2/n - (s/n)**2)

def plotscripts::testDeltaWithin5Sigma (   x,
  sx 
)

Definition at line 1052 of file plotscripts.py.

01053                                :
01054   n = len(x)
01055   res = []
01056   dr = []
01057   #print x
01058   #print sx
01059   for i in range(1,n+1):
01060     x1 = x[i-1]
01061     sx1 = sx[i-1]
01062     x2 = x[0]
01063     sx2 = sx[0]
01064     if i<n: 
01065       x2 = x[i]
01066       sx2 = sx[i]
01067     sig1 = sqrt( (sx1[0]-sx1[1])**2 + x1[1]**2 )
01068     sig2 = sqrt( (sx2[0]-sx2[1])**2 + x2[1]**2 )
01069     df = abs(x1[0]-x2[0]) - 3*( sig1 + sig2 )
01070     #df = abs(sx1[1]-sx2[0]) - 5*(abs(x1[1]) + abs(x2[1]))
01071     #print i, df, '= abs(',sx1[1],'-',sx2[0],')-5*(abs(',x1[1],')+abs(',x2[1],'))'
01072     dr.append(df)
01073     if df > 0: res.append(i)
01074   #print dr
01075   #print res
01076   return res
01077 

def plotscripts::testEntry (   testID,
  scope,
  descr,
  severity 
)

Definition at line 1038 of file plotscripts.py.

01039                                           :
01040   s = 0
01041   for sev in DQM_SEVERITY:
01042     if sev["name"]==severity: s = sev["idx"]
01043   return {"testID":testID,"scope":scope,"descr":descr,"severity":s}
01044 

def plotscripts::testZeroWithin5Sigma (   x)

Definition at line 1045 of file plotscripts.py.

01046                            :
01047   if abs(x[1])==0.: return 0.
01048   pull = abs(x[0])/abs(x[1])
01049   if pull <= 5: return 0.
01050   else: return pull
01051 

def plotscripts::wheel0only (   dt,
  wheel,
  station,
  sector 
)

Definition at line 33 of file plotscripts.py.

00033 : return dt == "DT" and wheel == 0
def plotscripts::wheelLetter (   wheel)

Definition at line 37 of file plotscripts.py.

00038                       :
00039   if   wheel == -2: return "A"
00040   elif wheel == -1: return "B"
00041   elif wheel ==  0: return "C"
00042   elif wheel == +1: return "D"
00043   elif wheel == +2: return "E"
00044   else: raise Exception

def plotscripts::wheelm1only (   dt,
  wheel,
  station,
  sector 
)

Definition at line 32 of file plotscripts.py.

00032 : return dt == "DT" and wheel == -1
def plotscripts::wheelm2only (   dt,
  wheel,
  station,
  sector 
)

Convenience functions.

Definition at line 31 of file plotscripts.py.

00031 : return dt == "DT" and wheel == -2
def plotscripts::wheelNumber (   wheell)

Definition at line 45 of file plotscripts.py.

Referenced by DTDataIntegrityTest::endLuminosityBlock().

00046                        :
00047   if   wheell == "A": return -2
00048   elif wheell == "B": return -1
00049   elif wheell == "C": return 0
00050   elif wheell == "D": return 1
00051   elif wheell == "E": return 2
00052   else: raise Exception

def plotscripts::wheelp1only (   dt,
  wheel,
  station,
  sector 
)

Definition at line 34 of file plotscripts.py.

00034 : return dt == "DT" and wheel == 1
def plotscripts::wheelp2only (   dt,
  wheel,
  station,
  sector 
)

Definition at line 35 of file plotscripts.py.

00035                                            : return dt == "DT" and wheel == 2
00036 
def plotscripts::wmean (   xlist)

Definition at line 75 of file plotscripts.py.

00076                 :
00077   s, w = 0., 0.
00078   for x, e in xlist:
00079     if e > 0.:
00080       wi = 1./e**2
00081       s += x*wi
00082       w += wi
00083   return s/w, sqrt(1./w)

def plotscripts::writeDQMReport (   fname_dqm,
  run_name 
)

Definition at line 1201 of file plotscripts.py.

01202                                        :
01203   tests = []
01204   for c in TEST_RESULTS:
01205     tests.append({"objID":c, "name":c, "list":TEST_RESULTS[c]})
01206   lt = time.localtime(time.time())
01207   lts = "%04d-%02d-%02d %02d:%02d:%02d %s" % (lt[0], lt[1], lt[2], lt[3], lt[4], lt[5], time.tzname[1])
01208   dqm_report = {"run":run_name, "genDate": lts, "report":tests}
01209   ff = open(fname_dqm,mode="w")
01210   print >>ff, "var DQM_REPORT = "
01211   json.dump(dqm_report,ff)
01212   #print >>ff, "];"
01213   ff.close()
01214 

def plotscripts::zlines (   window,
  abscissa 
)

Definition at line 438 of file plotscripts.py.

00439                             :
00440     global zline_tlines
00441     zline_tlines = []
00442     for z in -401.625, -133.875, 133.875, 401.625:
00443         if abscissa is None or abscissa[0] < z < abscissa[1]:
00444             zline_tlines.append(ROOT.TLine(z, -window, z, window))
00445             zline_tlines[-1].SetLineStyle(2)
00446             zline_tlines[-1].Draw()
00447     zline_labels = []
00448     zline_labels.append(ROOT.TText(-550, -0.9*window, "-2"))
00449     zline_labels.append(ROOT.TText(-300, -0.9*window, "-1"))
00450     zline_labels.append(ROOT.TText(-10, -0.9*window, "0"))
00451     zline_labels.append(ROOT.TText(250, -0.9*window, "+1"))
00452     zline_labels.append(ROOT.TText(500, -0.9*window, "+2"))
00453     for z in zline_labels: z.Draw()
00454     zline_labels.append(ROOT.TText(-600, -0.75*window, "Wheel:")); zline_labels[-1].Draw()


Variable Documentation

Definition at line 18 of file plotscripts.py.

Initial value:
00001 [
00002   {"idx":0, "name": "NONE", "color": "lightgreen", "hex":"#90EE90"},
00003   {"idx":1, "name": "LOWSTAT05", "color": "lightgreen", "hex":"#96D953"},
00004   {"idx":2, "name": "LOWSTAT075", "color": "lightgreen", "hex":"#94E26F"},
00005   {"idx":3, "name": "LOWSTAT1", "color": "yellowgreen", "hex":"#9ACD32"},
00006   {"idx":4, "name": "LOWSTAT", "color": "yellow", "hex":"#FFFF00"},
00007   {"idx":5, "name": "TOLERABLE", "color": "lightpink", "hex":"#FFB6C1"},
00008   {"idx":6, "name": "SEVERE", "color": "orange", "hex":"#FFA500"},
00009   {"idx":7, "name": "CRITICAL", "color": "red", "hex":"#FF0000"}]

Definition at line 1021 of file plotscripts.py.

Definition at line 23 of file plotscripts.py.

Definition at line 22 of file plotscripts.py.

Definition at line 21 of file plotscripts.py.

Initial value:
00001 [
00002    phiedgesCSC36,
00003    phiedgesCSC36,
00004    phiedgesCSC36,
00005    phiedgesCSC36,
00006    phiedgesCSC18,
00007    phiedgesCSC36,
00008    phiedgesCSC18,
00009    phiedgesCSC36,
00010    phiedgesCSC18,
00011    phiedgesCSC36,
00012    [0.35228048120123945, 0.87587781482541827, 1.3994776462193192, 1.923076807996136, 2.4466741416203148, 2.970273973014216,
00013     -2.7893121723885534, -2.2657148387643748, -1.7421150073704739, -1.2185158455936571, -0.69491851196947851, -0.17131868057557731],
00014    [0.22000706229660855, 0.74360690430428489, 1.267204926935573, 1.7908033890915052, 2.3144032310991816, 2.8380012537304697,
00015     -2.9215855912931841, -2.3979857492855081, -1.8743877266542202, -1.3507892644982882, -0.82718942249061178, -0.30359139985932365],
00016    [0.29751957124275596, 0.82111826253905784, 1.3447162969496083, 1.8683158980376524, 2.3919145893339548, 2.915512623744505,
00017     -2.844073082347037, -2.3204743910507353, -1.7968763566401849, -1.2732767555521407, -0.74967806425583894, -0.22608002984528835],
00018    [3.0136655290752188, -2.7530905195097337, -2.2922883025568734, -1.9222915077192773, -1.5707963267948966, -1.2193011458705159,
00019     -0.84930435103291968, -0.38850213408005951, 0.127927124514574, 0.65152597487624719, 1.1322596819239259, 1.5707963267948966, 
00020     2.0093329716658674, 2.4900666787135459]]

Definition at line 295 of file plotscripts.py.

list plotscripts::phiedgesCSC18 = [pi/180.*(-5. + 20.*i) for i in range(18)]

Definition at line 294 of file plotscripts.py.

list plotscripts::phiedgesCSC36 = [pi/180.*(-5. + 10.*i) for i in range(36)]

sector phi edges in: me11 me12 me13 me14 me21 me22 me31 me32 me41 me42 mb1 mb2 mb3 mb4 index: 0 1 2 3 4 5 6 7 8 9 10 11 12 13

Definition at line 293 of file plotscripts.py.

dictionary plotscripts::TEST_RESULTS = {}

Definition at line 26 of file plotscripts.py.