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plotscripts Namespace Reference

Classes

class  SawTeethFunction
 

Functions

def addToTestResults (c, res)
 
def availableCellsCSC (reports)
 
def availableCellsDT (reports)
 
def bellcurves (tfile, reports, name, twobin=True, suppressblue=False)
 
def clearDDT ()
 
def 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) More...
 
def createPeaksProfile (the2d, rebin=1)
 
def curvatureDTsummary (tfiles, window=15., pdgSfactor=False)
 
def 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) More...
 
def 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)
 
def DBdiffVersus (quantity, versus, database1, database2, reports1, reports2, windwselection=None, color=ROOT.kBlack)
 
def 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)
 
def DBMCVersus (quantity, versus, database, reports, window=10., selection=None, color=ROOT.kBlack)
 
def doTests (reports, pic_ids, fname_base, fname_dqm, run_name)
 
def doTestsForMapPlots (cells)
 
def doTestsForReport (cells, reports)
 
def getname (r)
 
def getReportByPostalAddress (postal_address, report)
 
def idToPostalAddress (id)
 
def loadTestResultsMap (run_name)
 
def mapNameToId (name)
 
def 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)
 
def mean (xlist)
 
def nameToId (name)
 
def phiedges2c ()
 
def philines (name, window, abscissa)
 
def 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")
 
def polynomials (tfile, reports, name, twobin=True, suppressblue=False)
 
def postalAddressToId (postal_address)
 
def printDeltaTs ()
 
def rlines (disk, window, abscissa)
 
def rms (xlist)
 
def saveTestResultsMap (run_name)
 
def segdiff (tfiles, component, pair, args)
 
def segdiff_xalign (tfiles, component, args)
 
def segdiffvsphi (tfiles, reports, component, wheel, window=5., excludesectors=())
 
def segdiffvsphi_xalign (tfiles, wheel, window=10.)
 
def segdiffvsphicsc (tfiles, component, pair, window=5., args)
 
def set_palette (name=None, ncontours=999)
 
def setTDRStyle ()
 
def stationIndex (name)
 
def stdev (xlist)
 
def testDeltaWithin5Sigma (x, sx)
 
def testEntry (testID, scope, descr, severity)
 
def testZeroWithin5Sigma (x)
 
def wheel0only (dt, wheel, station, sector)
 
def wheelLetter (wheel)
 
def wheelm1only (dt, wheel, station, sector)
 
def wheelm2only (dt, wheel, station, sector)
 Convenience functions. More...
 
def wheelNumber (wheell)
 
def wheelp1only (dt, wheel, station, sector)
 
def wheelp2only (dt, wheel, station, sector)
 
def wmean (xlist)
 
def writeDQMReport (fname_dqm, run_name)
 
def zlines (window, abscissa)
 

Variables

bool 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 More...
 
 tdrStyle = None
 
dictionary TEST_RESULTS = {}
 

Function Documentation

def plotscripts.addToTestResults (   c,
  res 
)

Definition at line 1032 of file plotscripts.py.

Referenced by doTestsForMapPlots(), and doTestsForReport().

1032 def addToTestResults(c,res):
1033  if len(res)>0:
1034  if c in TEST_RESULTS: TEST_RESULTS[c].extend(res)
1035  else: TEST_RESULTS[c] = res
1036 
1037 
def addToTestResults(c, res)
def plotscripts.availableCellsCSC (   reports)

Definition at line 965 of file plotscripts.py.

Referenced by doTests().

965 def availableCellsCSC(reports):
966  cscs = []
967  # CSC station
968  for endcap in CSC_TYPES:
969  for station in endcap[2]:
970  cscs.append("%s%s" % (endcap[0], station[1]))
971  # CSC station & ring
972  for endcap in CSC_TYPES:
973  for station in endcap[2]:
974  for ring in station[2]:
975  if ring[1]=="ALL": continue
976  #label = "CSCvsphi_me%s%s%s" % (endcap[1], station[1], ring[1])
977  cscs.append("%s%s/%s" % (endcap[0], station[1],ring[1]))
978  # CSC station and chamber
979  for endcap in CSC_TYPES:
980  for station in endcap[2]:
981  for ring in station[2]:
982  if ring[1]!="ALL": continue
983  for chamber in range(1,ring[2]+1):
984  #label = "CSCvsr_me%s%sch%02d" % (endcap[1], station[1], chamber)
985  cscs.append("%s%s/ALL/%02d" % (endcap[0], station[1],chamber))
986  # CSC station and ALL chambers
987  for endcap in CSC_TYPES:
988  for station in endcap[2]:
989  for ring in station[2]:
990  if ring[1]!="ALL": continue
991  #label = "CSCvsr_me%s%schALL" % (endcap[1], station[1])
992  cscs.append("%s%s/ALL" % (endcap[0], station[1]))
993  # CSC chambers
994  for endcap in CSC_TYPES:
995  for station in endcap[2]:
996  for ring in station[2]:
997  if ring[1]=="ALL": continue
998  for chamber in range(1,ring[2]+1):
999  # exclude non instrumented ME4/2
1000  if station[1]=="4" and ring[1]=="2":
1001  if endcap[1]=="m": continue
1002  if chamber<9 or chamber>13: continue
1003  schamber = "%02d" % chamber
1004  label = "ME%s%s%s_%s" % (endcap[1], station[1], ring[1], schamber)
1005  if len(reports)==0:
1006  # no reports case: do not include chambers
1007  #cscs.append(endcap[0]+station[1]+'/'+ring[1]+'/'+schamber)
1008  continue
1009  found = False
1010  for r in reports:
1011  if r.name == label:
1012  found = True
1013  break
1014  if not found: continue
1015  if r.status == "TOOFEWHITS" and r.posNum+r.negNum==0: continue
1016  if r.status == "NOFIT": continue
1017  cscs.append(endcap[0]+station[1]+'/'+ring[1]+'/'+schamber)
1018  return cscs
1019 
1020 
def availableCellsCSC(reports)
Definition: plotscripts.py:965
def plotscripts.availableCellsDT (   reports)

Definition at line 919 of file plotscripts.py.

References createfilelist.int, and wheelLetter().

Referenced by doTests().

919 def availableCellsDT(reports):
920  dts = []
921  # DT wheels
922  for iwheel in DT_TYPES:
923  if iwheel[1]=="ALL": continue
924  dts.append(iwheel[0])
925  # DT wheel & station
926  for wheel in DT_TYPES:
927  if wheel[1]=="ALL": continue
928  for station in wheel[2]:
929  dts.append(wheel[0]+'/'+station[1])
930  # DT station & sector
931  for wheel in DT_TYPES:
932  if wheel[1]!="ALL": continue
933  for station in wheel[2]:
934  for sector in range(1,station[2]+1):
935  ssector = "%02d" % sector
936  dts.append(wheel[0]+'/'+station[1]+'/'+ssector)
937  # DT station & ALL sectors
938  for wheel in DT_TYPES:
939  if wheel[1]!="ALL": continue
940  for station in wheel[2]:
941  dts.append(wheel[0]+'/'+station[1])
942  # DT chambers
943  for wheel in DT_TYPES:
944  if wheel[1]=="ALL": continue
945  for station in wheel[2]:
946  for sector in range(1,station[2]+1):
947  ssector = "%02d" % sector
948  label = "MBwh%sst%ssec%s" % (wheelLetter(int(wheel[1])),station[1],ssector)
949  if len(reports)==0:
950  # no reports case: do not include chambers
951  #dts.append(wheel[0]+'/'+station[1]+'/'+ssector)
952  continue
953  found = False
954  for r in reports:
955  if r.name == label:
956  found = True
957  break
958  if not found: continue
959  if r.status == "TOOFEWHITS" and r.posNum+r.negNum==0: continue
960  if r.status == "NOFIT": continue
961  dts.append(wheel[0]+'/'+station[1]+'/'+ssector)
962  return dts
963 
964 
def availableCellsDT(reports)
Definition: plotscripts.py:919
def wheelLetter(wheel)
Definition: plotscripts.py:37
def plotscripts.bellcurves (   tfile,
  reports,
  name,
  twobin = True,
  suppressblue = False 
)

Definition at line 2053 of file plotscripts.py.

References getname().

Referenced by alignmentValidation.doFitFunctionsPlotsCSC(), and alignmentValidation.doFitFunctionsPlotsDT().

2053 def bellcurves(tfile, reports, name, twobin=True, suppressblue=False):
2054  t1 = time.time()
2055  ddt[0] += 1
2056  tdrStyle.SetOptTitle(1)
2057  tdrStyle.SetTitleBorderSize(1)
2058  tdrStyle.SetTitleFontSize(0.1)
2059  tdrStyle.SetOptStat(0)
2060  tdrStyle.SetHistMinimumZero()
2061 
2062  c1.Clear()
2063  c1.ResetAttPad()
2064 
2065  found = False
2066  for r in reports:
2067  if r.name == name:
2068  found = True
2069  break
2070  if not found: raise Exception("Not a valid name")
2071  if r.status == "FAIL":
2072  #raise Exception, "Fit failed"
2073  print "Fit failed"
2074  c1.Clear()
2075  return
2076 
2077  Pos = "Pos"; Neg = "Neg"
2078  if not twobin:
2079  Pos = ""; Neg = ""
2080 
2081  pdirPos = "MuonAlignmentFromReference/%s%s" % (name, Pos)
2082  pdirNeg = "MuonAlignmentFromReference/%s%s" % (name, Neg)
2083 
2084  t2 = time.time()
2085  ddt[1] = 1./ddt[0]*((ddt[0]-1)*ddt[1] + t2-t1)
2086 
2087  chamber_x = tfile.Get(pdirPos+"_x")
2088  chamber_x_fit = tfile.Get(pdirPos+"_x_fit")
2089  chamber_y = tfile.Get(pdirPos+"_y")
2090  chamber_y_fit = tfile.Get(pdirPos+"_y_fit")
2091  chamber_dxdz = tfile.Get(pdirPos+"_dxdz")
2092  chamber_dxdz_fit = tfile.Get(pdirPos+"_dxdz_fit")
2093  chamber_dydz = tfile.Get(pdirPos+"_dydz")
2094  chamber_dydz_fit = tfile.Get(pdirPos+"_dydz_fit")
2095  chamber_alphax = tfile.Get(pdirPos+"_alphax")
2096  chamber_alphax_fit = tfile.Get(pdirPos+"_alphax_fit")
2097  chamber_alphay = tfile.Get(pdirPos+"_alphay")
2098  chamber_alphay_fit = tfile.Get(pdirPos+"_alphay_fit")
2099  if twobin:
2100  chamber_x_fit2 = tfile.Get(pdirNeg+"_x_fit")
2101  chamber_y_fit2 = tfile.Get(pdirNeg+"_y_fit")
2102  chamber_dxdz_fit2 = tfile.Get(pdirNeg+"_dxdz_fit")
2103  chamber_dydz_fit2 = tfile.Get(pdirNeg+"_dydz_fit")
2104  chamber_alphax_fit2 = tfile.Get(pdirNeg+"_alphax_fit")
2105  chamber_alphay_fit2 = tfile.Get(pdirNeg+"_alphay_fit")
2106 
2107  if not chamber_x:
2108  chamber_x = tfile.Get(pdirPos+"_residual")
2109  chamber_x_fit = tfile.Get(pdirPos+"_residual_fit")
2110  chamber_dxdz = tfile.Get(pdirPos+"_resslope")
2111  chamber_dxdz_fit = tfile.Get(pdirPos+"_resslope_fit")
2112  chamber_alphax = tfile.Get(pdirPos+"_alpha")
2113  chamber_alphax_fit = tfile.Get(pdirPos+"_alpha_fit")
2114  if twobin:
2115  chamber_x_fit2 = tfile.Get(pdirNeg+"_residual_fit")
2116  chamber_dxdz_fit2 = tfile.Get(pdirNeg+"_resslope_fit")
2117  chamber_alphax_fit2 = tfile.Get(pdirNeg+"_alpha_fit")
2118 
2119  if not chamber_x:
2120  print "Can't find neither "+pdirPos+"_x nor "+pdirPos+"_residual"
2121  return
2122 
2123  t3 = time.time()
2124  ddt[2] = 1./ddt[0]*((ddt[0]-1)*ddt[2] + t3-t2)
2125 
2126  ####
2127  chamber_x.SetAxisRange(-50., 50., "X")
2128  if chamber_x.GetRMS()>15: chamber_x.SetAxisRange(-75., 75., "X")
2129  chamber_dxdz.SetAxisRange(-30., 30., "X")
2130  chamber_alphax.SetAxisRange(-50., 50., "X")
2131  if not not chamber_y:
2132  chamber_y.SetAxisRange(-75., 75., "X")
2133  chamber_dydz.SetAxisRange(-120., 120., "X")
2134  chamber_alphay.SetAxisRange(-120., 120., "X")
2135  chamber_alphay.SetAxisRange(-75., 75., "Y")
2136  ####
2137 
2138  chamber_x.SetXTitle("Local x residual (mm)")
2139  chamber_dxdz.SetXTitle("Local dx/dz residual (mrad)")
2140  chamber_alphax.SetXTitle("Local dx/dz residual (mrad)")
2141  chamber_alphax.SetYTitle("Local x residual (mm)")
2142  if not not chamber_y:
2143  chamber_y.SetXTitle("Local y residual (mm)")
2144  chamber_dydz.SetXTitle("Local dy/dz residual (mrad)")
2145  chamber_alphay.SetXTitle("Local dy/dz residual (mrad)")
2146  chamber_alphay.SetYTitle("Local y residual (mm)")
2147  if name[0:2] == "ME":
2148  chamber_x.SetXTitle("Local r#phi residual (mm)")
2149  chamber_dxdz.SetXTitle("Local d(r#phi)/dz residual (mrad)")
2150  chamber_alphax.SetXTitle("Local d(r#phi)/dz residual (mrad)")
2151  chamber_alphax.SetYTitle("Local r#phi residual (mm)")
2152 
2153  t4 = time.time()
2154  ddt[3] = 1./ddt[0]*((ddt[0]-1)*ddt[3] + t4-t3)
2155 
2156  for h in chamber_x, chamber_dxdz, chamber_alphax, chamber_alphax, \
2157  chamber_y, chamber_dydz, chamber_alphay, chamber_alphay:
2158  if not not h:
2159  h.GetXaxis().CenterTitle()
2160  h.GetYaxis().CenterTitle()
2161  h.GetXaxis().SetLabelSize(0.05)
2162  h.GetYaxis().SetLabelSize(0.05)
2163  h.GetXaxis().SetTitleSize(0.07)
2164  h.GetYaxis().SetTitleSize(0.07)
2165  h.GetXaxis().SetTitleOffset(0.9)
2166  h.GetYaxis().SetTitleOffset(0.9)
2167 
2168  if twobin:
2169  for f in chamber_x_fit2, chamber_y_fit2, chamber_dxdz_fit2, chamber_dydz_fit2, \
2170  chamber_alphax_fit2, chamber_alphay_fit2:
2171  if not not f:
2172  f.SetLineColor(4)
2173  if not twobin:
2174  suppressblue = True
2175 
2176  t5 = time.time()
2177  ddt[4] = 1./ddt[0]*((ddt[0]-1)*ddt[4] + t5-t4)
2178 
2179  global l1, l2, l3, l4
2180  if not not chamber_y:
2181  c1.Clear()
2182  c1.Divide(3, 2)
2183  chamber_x.SetTitle(getname(r))
2184 
2185  c1.GetPad(1).cd()
2186  chamber_x.Draw()
2187  if not suppressblue: chamber_x_fit2.Draw("same")
2188  chamber_x_fit.Draw("same")
2189  l1 = ROOT.TLatex(0.67,0.8,"#splitline{#mu: %0.2f#pm%0.2f}{#sigma: %0.1f#pm%0.1f}" % (
2190  chamber_x_fit.GetParameter(1), chamber_x_fit.GetParError(1),
2191  chamber_x_fit.GetParameter(2), chamber_x_fit.GetParError(2)))
2192  l1.Draw()
2193 
2194  c1.GetPad(2).cd()
2195  chamber_dxdz.Draw()
2196  if not suppressblue: chamber_dxdz_fit2.Draw("same")
2197  chamber_dxdz_fit.Draw("same")
2198  l2 = ROOT.TLatex(0.67,0.8,"#splitline{#mu: %0.2f#pm%0.2f}{#sigma: %0.1f#pm%0.1f}" % (
2199  chamber_dxdz_fit.GetParameter(1), chamber_dxdz_fit.GetParError(1),
2200  chamber_dxdz_fit.GetParameter(2), chamber_dxdz_fit.GetParError(2)))
2201  l2.Draw()
2202 
2203  c1.GetPad(3).cd()
2204  chamber_alphax.Draw("col")
2205  if not suppressblue: chamber_alphax_fit2.Draw("same")
2206  chamber_alphax_fit.Draw("same")
2207 
2208  c1.GetPad(4).cd()
2209  chamber_y.Draw()
2210  if not suppressblue: chamber_y_fit2.Draw("same")
2211  chamber_y_fit.Draw("same")
2212  l3 = ROOT.TLatex(0.67,0.8,"#splitline{#mu: %0.2f#pm%0.2f}{#sigma: %0.1f#pm%0.1f}" % (
2213  chamber_y_fit.GetParameter(1), chamber_y_fit.GetParError(1),
2214  chamber_y_fit.GetParameter(2), chamber_y_fit.GetParError(2)))
2215  l3.Draw()
2216 
2217  c1.GetPad(5).cd()
2218  chamber_dydz.Draw()
2219  if not suppressblue: chamber_dydz_fit2.Draw("same")
2220  chamber_dydz_fit.Draw("same")
2221  l4 = ROOT.TLatex(0.67,0.8,"#splitline{#mu: %0.2f#pm%0.2f}{#sigma: %0.1f#pm%0.1f}" % (
2222  chamber_dydz_fit.GetParameter(1), chamber_dydz_fit.GetParError(1),
2223  chamber_dydz_fit.GetParameter(2), chamber_dydz_fit.GetParError(2)))
2224  l4.Draw()
2225 
2226  for lb in l1,l2,l3,l4:
2227  lb.SetNDC(1)
2228  lb.SetTextColor(ROOT.kRed)
2229 
2230  c1.GetPad(6).cd()
2231  chamber_alphay.Draw("col")
2232  if not suppressblue: chamber_alphay_fit2.Draw("same")
2233  chamber_alphay_fit.Draw("same")
2234 
2235  else:
2236  c1.Clear()
2237  c1.Divide(3, 1)
2238  chamber_x.SetTitle(getname(r))
2239 
2240  c1.GetPad(1).cd()
2241  chamber_x.Draw()
2242  if not suppressblue: chamber_x_fit2.Draw("same")
2243  chamber_x_fit.Draw("same")
2244  l1 = ROOT.TLatex(0.67,0.8,"#splitline{#mu: %0.2f#pm%0.2f}{#sigma: %0.1f#pm%0.1f}" % (
2245  chamber_x_fit.GetParameter(1), chamber_x_fit.GetParError(1),
2246  chamber_x_fit.GetParameter(2), chamber_x_fit.GetParError(2)))
2247  l1.Draw()
2248 
2249  c1.GetPad(2).cd()
2250  chamber_dxdz.Draw()
2251  if not suppressblue: chamber_dxdz_fit2.Draw("same")
2252  chamber_dxdz_fit.Draw("same")
2253  l2 = ROOT.TLatex(0.67,0.8,"#splitline{#mu: %0.2f#pm%0.2f}{#sigma: %0.1f#pm%0.1f}" % (
2254  chamber_dxdz_fit.GetParameter(1), chamber_dxdz_fit.GetParError(1),
2255  chamber_dxdz_fit.GetParameter(2), chamber_dxdz_fit.GetParError(2)))
2256  l2.Draw()
2257 
2258  c1.GetPad(3).cd()
2259  chamber_alphax.Draw("col")
2260  if not suppressblue: chamber_alphax_fit2.Draw("same")
2261  chamber_alphax_fit.Draw("same")
2262 
2263  for lb in l1,l2:
2264  lb.SetNDC(1)
2265  lb.SetTextColor(ROOT.kRed)
2266 
2267  t6 = time.time()
2268  ddt[5] = 1./ddt[0]*((ddt[0]-1)*ddt[5] + t6-t5)
2269  ddt[6] = 1./ddt[0]*((ddt[0]-1)*ddt[6] + t6-t1)
2270 
2271 
def getname(r)
def bellcurves(tfile, reports, name, twobin=True, suppressblue=False)
def plotscripts.clearDDT ( )

Definition at line 2042 of file plotscripts.py.

Referenced by alignmentValidation.doFitFunctionsPlotsCSC(), and alignmentValidation.doFitFunctionsPlotsDT().

2042 def clearDDT():
2043  for i in range(0,15):
2044  ddt[i]=0.
2045 
def clearDDT()
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 3553 of file plotscripts.py.

References funct.abs(), mps_alisetup.append, getReportByPostalAddress(), createfilelist.int, edm::detail.isnan(), list(), genParticles_cff.map, hpstanc_transforms.max, corrVsCorr.selection, mathSSE.sqrt(), and ComparisonHelper.zip().

Referenced by segdiffvsphicsc().

3553  which="110011"):
3554 
3555  tdrStyle.SetOptStat(0)
3556  tdrStyle.SetStatW(0.40)
3557 
3558  # determine what are we plotting: report vs report or xml vs xml
3559  mode = None
3560  check_reports = False
3561  if reportsX is not None and reportsY is not None:
3562  mode = "reports"
3563  check_reports = True
3564  if geometry0 is not None and geometryX is not None and geometryY is not None:
3565  mode = "xmls"
3566  if mode is None:
3567  print "Either couple of reports or three geometries have to be given as input. Exiting..."
3568  return
3569 
3570  # setup ranges with the maximum [-window,window] that later will be optimized to [-wnd_adaptive,wnd_adaptive]
3571  wnd = [window]*6
3572  wnd_adaptive = [.1]*6
3573 
3574  global hx, hy, hz, hphix, hphiy, hphiz
3575  bins=2000
3576  hx = ROOT.TH2F("%s_x" % name, "", bins, -wnd[0], wnd[0], bins, -wnd[0], wnd[0])
3577  hy = ROOT.TH2F("%s_y" % name, "", bins, -wnd[1], wnd[1], bins, -wnd[1], wnd[1])
3578  hz = ROOT.TH2F("%s_z" % name, "", bins, -wnd[2], wnd[2], bins, -wnd[2], wnd[2])
3579  hphix = ROOT.TH2F("%s_phix" % name, "", bins, -wnd[3], wnd[3], bins, -wnd[3], wnd[3])
3580  hphiy = ROOT.TH2F("%s_phiy" % name, "", bins, -wnd[4], wnd[4], bins, -wnd[4], wnd[4])
3581  hphiz = ROOT.TH2F("%s_phiz" % name, "", bins, -wnd[5], wnd[5], bins, -wnd[5], wnd[5])
3582  hhh = [hx, hy, hz, hphix, hphiy, hphiz]
3583 
3584  # initialize PCA objects
3585  global pca_x, pca_y, pca_z, pca_phix, pca_phiy, pca_phiz
3586  pca_x = ROOT.TPrincipal(2,"D")
3587  pca_y = ROOT.TPrincipal(2,"D")
3588  pca_z = ROOT.TPrincipal(2,"D")
3589  pca_phix = ROOT.TPrincipal(2,"D")
3590  pca_phiy = ROOT.TPrincipal(2,"D")
3591  pca_phiz = ROOT.TPrincipal(2,"D")
3592  pcas = [pca_x, pca_y, pca_z, pca_phix, pca_phiy, pca_phiz]
3593 
3594  # arrays to later fill graphs with
3595  ax=[]; ay=[]; az=[]; aphix=[]; aphiy=[]; aphiz=[]
3596  aaa = [ax, ay, az, aphix, aphiy, aphiz]
3597 
3598  # list of postal addresses
3599  postal_addresses = []
3600 
3601  # if reports are given, use them to fill addresses and do extra checks
3602  if check_reports:
3603  for r1 in reportsX:
3604  # skip ME1/a
3605  if r1.postal_address[0]=='CSC' and r1.postal_address[2]==1 and r1.postal_address[3]==4: continue
3606  if selection is None or (selection.__code__.co_argcount == len(r1.postal_address) and selection(*r1.postal_address)):
3607  r2 = getReportByPostalAddress(r1.postal_address, reportsY)
3608  if r2 is None:
3609  print "bad r2 in ",r1.postal_address
3610  continue
3611 
3612  if r1.status != "PASS" or r2.status != "PASS":
3613  print "bad status", r1.postal_address, r1.status, r2.status
3614  continue
3615  postal_addresses.append(r1.postal_address)
3616  # otherwise, use chamber addresses from xmls
3617  else:
3618  for key in geometry0.dt.keys():
3619  if len(key)==3 and key in geometryX.dt and key in geometryY.dt:
3620  postal_addresses.append( tuple(['DT'] + list(key)) )
3621  for key in geometry0.csc.keys():
3622  # skip ME1/a
3623  if key[2]==1 and key[3]==4: continue
3624  if len(key)==4 and key in geometryX.csc and key in geometryY.csc:
3625  postal_addresses.append( tuple(['CSC'] + list(key)) )
3626 
3627  # fill the values
3628  for addr in postal_addresses:
3629 
3630  # checks the selection function
3631  if not (selection is None or (selection.__code__.co_argcount == len(addr) and selection(*addr)) ): continue
3632 
3633  factors = [10. * signConventions[addr][0], 10. * signConventions[addr][1], 10. * signConventions[addr][2],
3634  1000., 1000., 1000. ]
3635 
3636  if check_reports:
3637  rX = getReportByPostalAddress(addr, reportsX)
3638  rY = getReportByPostalAddress(addr, reportsY)
3639  deltasX = [rX.deltax, rX.deltay, rX.deltaz, rX.deltaphix, rX.deltaphiy, rX.deltaphiz]
3640  deltasY = [rY.deltax, rY.deltay, rY.deltaz, rY.deltaphix, rY.deltaphiy, rY.deltaphiz]
3641 
3642  if mode == "reports":
3643 
3644  checks = map( lambda d1, d2: d1 is not None and d2 is not None and d1.error is not None \
3645  and d2.error is not None and (d1.error**2 + d2.error**2) > 0. , \
3646  deltasX, deltasY)
3647 
3648  for i in range(len(checks)):
3649  if not checks[i]: continue
3650  fillX = deltasX[i].value * factors[i]
3651  fillY = deltasY[i].value * factors[i]
3652  aaa[i].append([fillX,fillY])
3653  pcas[i].AddRow(array.array('d',[fillX,fillY]))
3654  mx = max(abs(fillX), abs(fillY))
3655  if mx > wnd_adaptive[i]: wnd_adaptive[i] = mx
3656 
3657  if mode == "xmls":
3658 
3659  db0 = dbX = dbY = None
3660  if addr[0] == "DT":
3661  db0, dbX, dbY = geometry0.dt[addr[1:]], geometryX.dt[addr[1:]], geometryY.dt[addr[1:]]
3662  if addr[0] == 'CSC':
3663  db0, dbX, dbY = geometry0.csc[addr[1:]], geometryX.csc[addr[1:]], geometryY.csc[addr[1:]]
3664 
3665  checks = [True]*6
3666  if check_reports:
3667  checks = map( lambda d1, d2: d1 is not None and d2 is not None , deltasX, deltasY)
3668 
3669  gdeltas0 = [db0.x, db0.y, db0.z, db0.phix, db0.phiy, db0.phiz]
3670  gdeltasX = [dbX.x, dbX.y, dbX.z, dbX.phix, dbX.phiy, dbX.phiz]
3671  gdeltasY = [dbY.x, dbY.y, dbY.z, dbY.phix, dbY.phiy, dbY.phiz]
3672 
3673  for i in range(len(checks)):
3674  if not checks[i]: continue
3675  fillX = (gdeltasX[i] - gdeltas0[i]) * factors[i]
3676  fillY = (gdeltasY[i] - gdeltas0[i]) * factors[i]
3677  aaa[i].append([fillX,fillY])
3678  pcas[i].AddRow(array.array('d',[fillX,fillY]))
3679  mx = max(abs(fillX), abs(fillY))
3680  if mx > wnd_adaptive[i]: wnd_adaptive[i] = mx
3681  #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)
3682  #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)
3683  #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)
3684 
3685  if mode == "xmls":
3686  if pre_title_x is None: pre_title_x = "geometry 1 "
3687  if pre_title_y is None: pre_title_y = "geometry 2 "
3688  if mode == "reports":
3689  if pre_title_x is None: pre_title_x = "iteration's "
3690  if pre_title_y is None: pre_title_y = "other iteration's "
3691  tmptitles = ["#Deltax (mm)", "#Deltay (mm)", "#Deltaz (mm)",
3692  "#Delta#phi_{x} (mrad)", "#Delta#phi_{y} (mrad)", "#Delta#phi_{z} (mrad)"]
3693  htitles = []
3694  for t in tmptitles: htitles.append([pre_title_x + t, pre_title_y + t])
3695 
3696  if canvas is not None: c = canvas
3697  else: c = c1
3698  c.Clear()
3699  ndraw = which.count('1')
3700  if ndraw > 4: c.Divide(3, 2)
3701  elif ndraw > 2: c.Divide(2, 2)
3702  elif ndraw > 1: c.Divide(2, 1)
3703 
3704  global lines, graphs, texs
3705  lines = []; graphs = []; texs = []
3706 
3707  ipad = 0
3708  for i in range(6):
3709 
3710  # decode 'which' binary mask
3711  if ( int(which,2) & (1<<i) ) == 0: continue
3712 
3713  ipad += 1
3714  c.GetPad(ipad).cd()
3715  c.GetPad(ipad).SetGridx(1)
3716  c.GetPad(ipad).SetGridy(1)
3717 
3718  wn = 1.08 * wnd_adaptive[i]
3719  hhh[i].GetXaxis().SetRangeUser(-wn, wn)
3720  hhh[i].GetYaxis().SetRangeUser(-wn, wn)
3721  hhh[i].SetXTitle(htitles[i][0])
3722  hhh[i].SetYTitle(htitles[i][1])
3723  hhh[i].GetXaxis().CenterTitle()
3724  hhh[i].GetYaxis().CenterTitle()
3725  hhh[i].Draw()
3726 
3727  if len(aaa[i]) == 0: continue
3728 
3729  a1, a2 = map( lambda x: array.array('d',x), list(zip(*aaa[i])) )
3730  g = ROOT.TGraph(len(a1), a1, a2)
3731  g.SetMarkerStyle(5)
3732  g.SetMarkerSize(0.3)
3733  g.SetMarkerColor(ROOT.kBlue)
3734  graphs.append(g)
3735 
3736  pcas[i].MakePrincipals()
3737  #pcas[i].Print()
3738  #pcas[i].MakeHistograms()
3739  b = pcas[i].GetEigenVectors()(1,0) / pcas[i].GetEigenVectors()(0,0)
3740  a = pcas[i].GetMeanValues()[1] - b * pcas[i].GetMeanValues()[0]
3741  #print a, b, " ", pcas[i].GetEigenValues()[0], pcas[i].GetEigenValues()[1]
3742 
3743  cov = pcas[i].GetCovarianceMatrix()
3744  r = cov(0,1)/sqrt(cov(1,1)*cov(0,0))
3745  print "r, RMSx, RMSy =", r, g.GetRMS(1), g.GetRMS(2)
3746  texrms = ROOT.TLatex(0.17,0.87, "RMS x,y = %.02g, %.02g" % (g.GetRMS(1),g.GetRMS(2)))
3747  texr = ROOT.TLatex(0.17,0.80, "r = %.02g" % r)
3748  for t in texr, texrms:
3749  t.SetNDC(1)
3750  t.SetTextColor(ROOT.kBlue)
3751  t.SetTextSize(0.053)
3752  t.Draw()
3753  texs.append(t)
3754 
3755  g.Draw("p")
3756 
3757  if not isnan(b):
3758  wn = wnd_adaptive[i]
3759  line = ROOT.TLine(-wn, a - b*wn, wn, a + b*wn)
3760  line.SetLineColor(ROOT.kRed)
3761  line.Draw()
3762  lines.append(line)
3763 
3764  #return hx, hy, hphiy, hphiz, pca_x, pca_y, pca_phiy, pca_phiz
3765  return aaa
3766 
selection
main part
Definition: corrVsCorr.py:98
bool isnan(float x)
Definition: math.h:13
OutputIterator zip(InputIterator1 first1, InputIterator1 last1, InputIterator2 first2, InputIterator2 last2, OutputIterator result, Compare comp)
T sqrt(T t)
Definition: SSEVec.h:18
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
def getReportByPostalAddress(postal_address, report)
Definition: plotscripts.py:468
How EventSelector::AcceptEvent() decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION[A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision and the trigger will pass if any such matching triggers are FAIL or EXCEPTION A wildcarded negative criterion that matches more than one trigger in the trigger list("!*","!HLTx*"if it matches 2 triggers or more) will accept the event if all the matching triggers are FAIL.It will reject the event if any of the triggers are PASS or EXCEPTION(this matches the behavior of"!*"before the partial wildcard feature was incorporated).Triggers which are in the READY state are completely ignored.(READY should never be returned since the trigger paths have been run
def plotscripts.createPeaksProfile (   the2d,
  rebin = 1 
)

Definition at line 1403 of file plotscripts.py.

References createfilelist.int, mapplot(), and mathSSE.sqrt().

Referenced by curvatureplot(), and mapplot().

1403 def createPeaksProfile(the2d, rebin=1):
1404  htmp = ROOT.gROOT.FindObject(the2d.GetName()+"_peaks")
1405  if htmp != None: htmp.Delete()
1406 
1407  hpeaks = the2d.ProjectionX(the2d.GetName()+"_peaks")
1408  hpeaks.Reset()
1409  hpeaks.Rebin(rebin)
1410  bad_fit_bins = []
1411  for i in xrange(0, int(the2d.GetNbinsX()), rebin):
1412  tmp = the2d.ProjectionY("tmp", i+1, i + rebin)
1413  nn = tmp.GetEntries()
1414 
1415  drange = tmp.GetRMS()
1416  drange = 2.*drange
1417  fgaus = ROOT.TF1("fgaus","gaus", tmp.GetMean() - drange, tmp.GetMean() + drange)
1418  fgaus.SetParameter(0,nn)
1419  fgaus.SetParameter(1,tmp.GetMean())
1420  fgaus.SetParameter(2,tmp.GetRMS())
1421  #print " ", i, nn, tmp.GetMean() , drange, "[", tmp.GetMean() - drange, tmp.GetMean() + drange, ']'
1422 
1423  fitOk = False
1424  if nn > 10: # good to fit
1425  fr = tmp.Fit("fgaus","RNSQ")
1426  #print " ", fgaus.GetParameter(1), " +- ", fgaus.GetParError(1), " fitres = " , fr.Status() , fr.CovMatrixStatus()
1427  hpeaks.SetBinContent(i/rebin+1, fgaus.GetParameter(1))
1428  hpeaks.SetBinError(i/rebin+1, fgaus.GetParError(1))
1429  if fr.Status()==0 and fr.CovMatrixStatus()==3 : fitOk = True
1430  if not fitOk:
1431  bad_fit_bins.append(i/rebin+1)
1432  if nn > 1. and tmp.GetRMS() > 0: # use mean
1433  hpeaks.SetBinContent(i/rebin+1, tmp.GetMean())
1434  hpeaks.SetBinError(i/rebin+1, ROOT.TMath.StudentQuantile(0.841345,nn) * tmp.GetRMS() / sqrt(nn))
1435  else:
1436  hpeaks.SetBinContent(i/rebin+1, 0.)
1437  hpeaks.SetBinError(i/rebin+1, 0.)
1438  if len(bad_fit_bins): print "createPeaksProfile bad fit bins: ", bad_fit_bins
1439  return hpeaks
1440 
1441 
T sqrt(T t)
Definition: SSEVec.h:18
def createPeaksProfile(the2d, rebin=1)
def plotscripts.curvatureDTsummary (   tfiles,
  window = 15.,
  pdgSfactor = False 
)

Definition at line 1971 of file plotscripts.py.

References mps_alisetup.append, curvatureplot(), createfilelist.int, set_palette(), and mathSSE.sqrt().

1971 def curvatureDTsummary(tfiles, window=15., pdgSfactor=False):
1972  global h, gm2, gm1, gz, gp1, gp2, tlegend
1973 
1974  set_palette("blues")
1975  phis = {-2: [], -1: [], 0: [], 1: [], 2: []}
1976  diffs = {-2: [], -1: [], 0: [], 1: [], 2: []}
1977  differrs = {-2: [], -1: [], 0: [], 1: [], 2: []}
1978  for wheelstr, wheel in ("m2", "-2"), ("m1", "-1"), ("z", "0"), ("p1", "+1"), ("p2", "+2"):
1979  for sector in "01", "02", "03", "04", "05", "06", "07", "08", "09", "10", "11", "12":
1980  curvatureplot(tfiles, "wheel%s_sector%s" % (wheelstr, sector), "deltax",
1981  title="Wheel %s, sector %s" % (wheel, sector), fitgauss=True, reset_palette=False)
1982  if fitgauss_diff[1] < window:
1983  uncertainty = fitgauss_diff[1]
1984  if pdgSfactor and (fitgauss_chi2/fitgauss_ndf) > 1.: uncertainty *= sqrt(fitgauss_chi2/fitgauss_ndf)
1985 
1986  phis[int(wheel)].append(signConventions["DT", int(wheel), 1, int(sector)][4])
1987  diffs[int(wheel)].append(fitgauss_diff[0])
1988  differrs[int(wheel)].append(uncertainty)
1989 
1990  h = ROOT.TH1F("h", "", 1, -pi, pi)
1991  h.SetAxisRange(-window, window, "Y")
1992  h.SetXTitle("#phi (rad)")
1993  h.SetYTitle("#Deltax(p_{T} #rightarrow #infty) - #Deltax(p_{T} #rightarrow 0) (mm)")
1994  h.GetXaxis().CenterTitle()
1995  h.GetYaxis().CenterTitle()
1996 
1997  gm2 = ROOT.TGraphErrors(len(phis[-2]), array.array("d", phis[-2]), array.array("d", diffs[-2]),
1998  array.array("d", [0.]*len(phis[-2])), array.array("d", differrs[-2]))
1999  gm1 = ROOT.TGraphErrors(len(phis[-1]), array.array("d", phis[-1]), array.array("d", diffs[-1]),
2000  array.array("d", [0.]*len(phis[-1])), array.array("d", differrs[-1]))
2001  gz = ROOT.TGraphErrors(len(phis[0]), array.array("d", phis[0]), array.array("d", diffs[0]),
2002  array.array("d", [0.]*len(phis[0])), array.array("d", differrs[0]))
2003  gp1 = ROOT.TGraphErrors(len(phis[1]), array.array("d", phis[1]), array.array("d", diffs[1]),
2004  array.array("d", [0.]*len(phis[1])), array.array("d", differrs[1]))
2005  gp2 = ROOT.TGraphErrors(len(phis[2]), array.array("d", phis[2]), array.array("d", diffs[2]),
2006  array.array("d", [0.]*len(phis[2])), array.array("d", differrs[2]))
2007 
2008  gm2.SetMarkerStyle(21); gm2.SetMarkerColor(ROOT.kRed); gm2.SetLineColor(ROOT.kRed)
2009  gm1.SetMarkerStyle(22); gm1.SetMarkerColor(ROOT.kBlue); gm1.SetLineColor(ROOT.kBlue)
2010  gz.SetMarkerStyle(3); gz.SetMarkerColor(ROOT.kBlack); gz.SetLineColor(ROOT.kBlack)
2011  gp1.SetMarkerStyle(26); gp1.SetMarkerColor(ROOT.kBlue); gp1.SetLineColor(ROOT.kBlue)
2012  gp2.SetMarkerStyle(25); gp2.SetMarkerColor(ROOT.kRed); gp2.SetLineColor(ROOT.kRed)
2013 
2014  h.Draw()
2015  tlegend = ROOT.TLegend(0.25, 0.2, 0.85, 0.5)
2016  tlegend.SetFillColor(ROOT.kWhite)
2017  tlegend.SetBorderSize(0)
2018  tlegend.AddEntry(gm2, "Wheel -2", "p")
2019  tlegend.AddEntry(gm1, "Wheel -1", "p")
2020  tlegend.AddEntry(gz, "Wheel 0", "p")
2021  tlegend.AddEntry(gp1, "Wheel +1", "p")
2022  tlegend.AddEntry(gp2, "Wheel +2", "p")
2023  tlegend.Draw()
2024 
2025  gm2.Draw("p")
2026  gm1.Draw("p")
2027  gz.Draw("p")
2028  gp1.Draw("p")
2029  gp2.Draw("p")
2030 
2031 
def 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 resid...
T sqrt(T t)
Definition: SSEVec.h:18
def curvatureDTsummary(tfiles, window=15., pdgSfactor=False)
def set_palette(name=None, ncontours=999)
Definition: plotscripts.py:226
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.

References createPeaksProfile(), createfilelist.int, set_palette(), and mathSSE.sqrt().

Referenced by curvatureDTsummary(), and alignmentValidation.doCurvaturePlotsDT().

1804 def curvatureplot(tfiles, name, param, mode="from2d", window=15., widebins=False, title="", fitgauss=False, fitconst=False, fitline=False, fitpeaks=True, reset_palette=False):
1805  tdrStyle.SetOptTitle(1)
1806  tdrStyle.SetTitleBorderSize(0)
1807  tdrStyle.SetOptStat(0)
1808  tdrStyle.SetOptFit(0)
1809  tdrStyle.SetTitleFontSize(0.05)
1810 
1811  c1.Clear()
1812  if reset_palette: set_palette("blues")
1813  global hist, histCOPY, hist2d, tline1, tline2, tline3, tline4, tline5
1814 
1815  hdir = "AlignmentMonitorMuonVsCurvature/iter1/"
1816 
1817  if name not in ("all", "top", "bottom"):
1818  hsuffix = "_%s_%s" % (name, param)
1819  prof = tfiles[0].Get(hdir+"tprofile"+hsuffix).Clone("tprofile_"+hsuffix)
1820  hist2d = tfiles[0].Get(hdir+"th2f"+hsuffix).Clone("th2f_"+hsuffix)
1821  for tfile in tfiles[1:]:
1822  prof.Add(tfile.Get(hdir+"tprofile"+hsuffix))
1823  hist2d.Add(tfile.Get(hdir+"th2f"+hsuffix))
1824  else:
1825  prof = None
1826  hist2d = None
1827  for wheel in "m2", "m1", "z", "p1", "p2":
1828  if name == "all": sectors = "01", "02", "03", "04", "05", "06", "07", "08", "09", "10", "11", "12"
1829  elif name == "top": sectors = "01", "02", "03", "04", "05", "06"
1830  elif name == "bottom": sectors = "07", "08", "09", "10", "11", "12"
1831  else: raise Exception
1832 
1833  for sector in sectors:
1834  hsuffix = "_%s_%s" % ("wheel%s_sector%s" % (wheel, sector), param)
1835  for tfile in tfiles:
1836  if prof is None:
1837  prof = tfiles[0].Get(hdir+"tprofile"+hsuffix).Clone("tprofile_"+hsuffix)
1838  hist2d = tfiles[0].Get(hdir+"th2f"+hsuffix).Clone("tprofile_"+hsuffix)
1839  else:
1840  prof.Add(tfile.Get(hdir+"tprofile"+hsuffix))
1841  hist2d.Add(tfile.Get(hdir+"th2f"+hsuffix))
1842 
1843  hist = ROOT.TH1F("hist", "", prof.GetNbinsX(), prof.GetBinLowEdge(1), -prof.GetBinLowEdge(1))
1844  for i in xrange(1, prof.GetNbinsX()+1):
1845  hist.SetBinContent(i, prof.GetBinContent(i))
1846  hist.SetBinError(i, prof.GetBinError(i))
1847 
1848  if mode == "plain":
1849  hist = prof
1850  elif mode == "from2d":
1851  skip = 1
1852  if widebins:
1853  hist.Rebin(5)
1854  skip = 5
1855  htmp = ROOT.gROOT.FindObject("tmp")
1856  if htmp != None: htmp.Delete()
1857 
1858  for i in xrange(0, int(prof.GetNbinsX()), skip):
1859  tmp = hist2d.ProjectionY("tmp", i+1, i + skip)
1860  if tmp.GetEntries() > 1:
1861  hist.SetBinContent(i/skip+1, tmp.GetMean())
1862  hist.SetBinError(i/skip+1, ROOT.TMath.StudentQuantile(0.841345,tmp.GetEntries()) * tmp.GetRMS() / sqrt(tmp.GetEntries()))
1863  #hist.SetBinError(i/skip+1, tmp.GetRMS() / sqrt(tmp.GetEntries()))
1864  else:
1865  #hist.SetBinContent(i/skip+1, 2000.)
1866  #hist.SetBinError(i/skip+1, 1000.)
1867  hist.SetBinContent(i/skip+1, 0.)
1868  hist.SetBinError(i/skip+1, 0.)
1869 
1870  hpeaks = createPeaksProfile(hist2d, skip)
1871 
1872  else:
1873  raise Exception
1874 
1875 
1876  if fitgauss:
1877  f = ROOT.TF1("f", "[0] + [1]*exp(-x**2/2/0.01**2)", hist.GetBinLowEdge(1), -hist.GetBinLowEdge(1))
1878  f.SetParameters(0, 0., 0.01)
1879  if fitpeaks: hpeaks.Fit(f, "q")
1880  else: hist.Fit(f, "q")
1881  f.SetLineColor(ROOT.kRed)
1882  global fitgauss_diff, fitgauss_chi2, fitgauss_ndf
1883 # fitter = ROOT.TVirtualFitter.GetFitter()
1884 # fitgauss_diff = f.GetParameter(0) - f.GetParameter(1), \
1885 # sqrt(f.GetParError(0)**2 + f.GetParError(1)**2 + 2.*fitter.GetCovarianceMatrixElement(0, 1))
1886  fitgauss_diff = f.GetParameter(1), f.GetParError(1)
1887  fitgauss_chi2 = f.GetChisquare()
1888  fitgauss_ndf = f.GetNDF()
1889 
1890  global fitline_intercept, fitline_slope
1891  if fitconst:
1892  f = ROOT.TF1("f", "[0]", hist.GetBinLowEdge(1), -hist.GetBinLowEdge(1))
1893  if fitpeaks: hpeaks.Fit(f, "q")
1894  else: hist.Fit(f, "q")
1895  f.SetLineColor(ROOT.kRed)
1896  fitline_intercept = f.GetParameter(0), f.GetParError(0)
1897 
1898  if fitline:
1899  f = ROOT.TF1("f", "[0] + [1]*x", hist.GetBinLowEdge(1), -hist.GetBinLowEdge(1))
1900  if fitpeaks: hpeaks.Fit(f, "qNE")
1901  else: hist.Fit(f, "qNE")
1902  f.SetLineColor(ROOT.kRed)
1903  global f2, f3
1904  f2 = ROOT.TF1("2", "[0] + [1]*x", hist.GetBinLowEdge(1), -hist.GetBinLowEdge(1))
1905  f3 = ROOT.TF1("2", "[0] + [1]*x", hist.GetBinLowEdge(1), -hist.GetBinLowEdge(1))
1906  f2.SetParameters(f.GetParameter(0), f.GetParameter(1) + f.GetParError(1))
1907  f3.SetParameters(f.GetParameter(0), f.GetParameter(1) - f.GetParError(1))
1908  f2.SetLineColor(ROOT.kRed)
1909  f3.SetLineColor(ROOT.kRed)
1910  f2.SetLineStyle(2)
1911  f3.SetLineStyle(2)
1912  fitline_intercept = f.GetParameter(0), f.GetParError(0)
1913  fitline_slope = f.GetParameter(1), f.GetParError(1)
1914 
1915  hist2d.SetAxisRange(-window, window, "Y")
1916  hist2d.SetMarkerStyle(20)
1917  hist2d.SetMarkerSize(0.75)
1918  hist2d.GetXaxis().CenterTitle()
1919  hist2d.GetYaxis().CenterTitle()
1920  if param == "curverr":
1921  hist2d.GetYaxis().SetTitleOffset(1.35)
1922  else:
1923  hist2d.GetYaxis().SetTitleOffset(0.75)
1924  hist2d.GetXaxis().SetTitleOffset(1.2)
1925  hist2d.GetXaxis().SetTitleSize(0.05)
1926  hist2d.GetYaxis().SetTitleSize(0.05)
1927  hist2d.SetTitle(title)
1928  if param == "pterr": hist2d.SetXTitle("qp_{T} (GeV/c)")
1929  else: hist2d.SetXTitle("q/p_{T} (c/GeV)")
1930  if param == "deltax": hist2d.SetYTitle("#Deltax' (mm)")
1931  if param == "deltadxdz": hist2d.SetYTitle("#Deltadx'/dz (mrad)")
1932  if param == "pterr": hist2d.SetYTitle("#Deltap_{T}/p_{T} (%)")
1933  if param == "curverr": hist2d.SetYTitle("#Deltaq/p_{T} (c/GeV)")
1934  hist2d.Draw("colz")
1935  hist.SetMarkerColor(ROOT.kBlack)
1936  hist.SetLineColor(ROOT.kBlack)
1937  hist.Draw("same")
1938  #histCOPY = hist.Clone()
1939  #histCOPY.SetXTitle("")
1940  #histCOPY.SetYTitle("")
1941 
1942  #if widebins:
1943  # histCOPY.Draw("samee1")
1944  # histCOPY.Draw("sameaxis")
1945  #else:
1946  # histCOPY.Draw("same")
1947  # histCOPY.Draw("sameaxis")
1948 
1949  if fitline:
1950  f.Draw("same")
1951  #f2.Draw("same")
1952  #f3.Draw("same")
1953 
1954  hpeaks.SetMarkerStyle(20)
1955  hpeaks.SetMarkerSize(0.9)
1956  hpeaks.SetMarkerColor(ROOT.kRed)
1957  hpeaks.SetLineColor(ROOT.kRed)
1958  hpeaks.SetLineWidth(2)
1959  #if fitpeaks: hpeaks.Draw("same")
1960  hpeaks.Draw("same")
1961 
1962  #tline1 = ROOT.TLine(hist.GetBinLowEdge(1), -window, hist.GetBinLowEdge(1), window)
1963  #tline2 = ROOT.TLine(hist.GetBinLowEdge(1), window, -hist.GetBinLowEdge(1), window)
1964  #tline3 = ROOT.TLine(-hist.GetBinLowEdge(1), window, -hist.GetBinLowEdge(1), -window)
1965  #tline4 = ROOT.TLine(-hist.GetBinLowEdge(1), -window, hist.GetBinLowEdge(1), -window)
1966  tline5 = ROOT.TLine(-hist.GetBinLowEdge(1), 0., hist.GetBinLowEdge(1), 0.)
1967  tline5.Draw()
1968  #for t in tline1, tline2, tline3, tline4, tline5: t.Draw()
1969 
1970 
def 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 resid...
T sqrt(T t)
Definition: SSEVec.h:18
def createPeaksProfile(the2d, rebin=1)
def set_palette(name=None, ncontours=999)
Definition: plotscripts.py:226
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 485 of file plotscripts.py.

References funct.abs(), mps_alisetup.append, getReportByPostalAddress(), hpstanc_transforms.max, corrVsCorr.selection, and mathSSE.sqrt().

Referenced by DBMC().

485  style=1, bins=50, normalized=False, getvalues=False, name="tmp", canvas=None, reportdiff=False, inlog=False ):
486 
487  tdrStyle.SetOptStat("emrou")
488  tdrStyle.SetStatW(0.40)
489 
490  wnd = [window]*6
491  if windows is not None:
492  i=0
493  for w in windows:
494  wnd[i] = windows[i]
495  i+=1
496 
497  global hx, hy, hz, hphix, hphiy, hphiz
498 
499  if phi:
500  hx = ROOT.TH1F("%s_phi" % name, "", bins, -wnd[0], wnd[0])
501  else:
502  hx = ROOT.TH1F("%s_x" % name, "", bins, -wnd[0], wnd[0])
503  hy = ROOT.TH1F("%s_y" % name, "", bins, -wnd[1], wnd[1])
504  hz = ROOT.TH1F("%s_z" % name, "", bins, -wnd[2], wnd[2])
505  hphix = ROOT.TH1F("%s_phix" % name, "", bins, -wnd[3], wnd[3])
506  hphiy = ROOT.TH1F("%s_phiy" % name, "", bins, -wnd[4], wnd[4])
507  hphiz = ROOT.TH1F("%s_phiz" % name, "", bins, -wnd[5], wnd[5])
508 
509  for r1 in reports1:
510  if selection is None or (selection.__code__.co_argcount == len(r1.postal_address) and selection(*r1.postal_address)):
511  if reports2 is None:
512  r2 = Report(r1.chamberId, r1.postal_address, r1.name)
513  r2.add_parameters(ValErr(0., 0., 0.), ValErr(0., 0., 0.), ValErr(0., 0., 0.),
514  ValErr(0., 0., 0.), ValErr(0., 0., 0.), ValErr(0., 0., 0.), 0., 0., 0., 0.)
515  else:
516  r2 = getReportByPostalAddress(r1.postal_address, reports2)
517  if r2 is None: continue
518 
519  found = False
520  if r1.postal_address[0] == "DT":
521  if r1.postal_address[1:] in database1.dt:
522  found = True
523  db1 = database1.dt[r1.postal_address[1:]]
524  if database2 is None:
525  db2 = DTAlignable()
526  db2.x = db2.y = db2.z = db2.phix = db2.phiy = db2.phiz = 0.
527  db2.xx = db2.xy = db2.xz = db2.yx = db2.yy = db2.yz = db2.zx = db2.zy = db2.zz = 0.
528  else:
529  db2 = database2.dt[r1.postal_address[1:]]
530 
531  else:
532  # skip ME1/a
533  if r1.postal_address[2]==1 and r1.postal_address[3]==4: continue
534  if r1.postal_address[1:] in database1.csc:
535  found = True
536  db1 = database1.csc[r1.postal_address[1:]]
537  if database2 is None:
538  db2 = CSCAlignable()
539  db2.x = db2.y = db2.z = db2.phix = db2.phiy = db2.phiz = 0.
540  db2.xx = db2.xy = db2.xz = db2.yx = db2.yy = db2.yz = db2.zx = db2.zy = db2.zz = 0.
541  else:
542  db2 = database2.csc[r1.postal_address[1:]]
543 
544  if found and r1.status == "PASS" and r2.status == "PASS":
545  if r1.deltax is not None and r2.deltax is not None and r1.deltax.error is not None and \
546  r2.deltax.error is not None and (r1.deltax.error**2 + r2.deltax.error**2) > 0.:
547  delta = db1.x - db2.x
548  if reportdiff: delta -= r1.deltax.value
549  if normalized:
550  fill = delta/sqrt(r1.deltax.error**2 + r2.deltax.error**2) * signConventions[r1.postal_address][0]
551  else:
552  if phi:
553  fill = delta/signConventions[r1.postal_address][3] * 1000. * signConventions[r1.postal_address][0]
554  else:
555  fill = delta * 10. * signConventions[r1.postal_address][0]
556  hx.Fill(fill)
557  if getvalues not in (False, None):
558  getvalues["x"].append((fill, 10. * sqrt(r1.deltax.error**2 + r2.deltax.error**2)))
559 
560  if r1.deltay is not None and r2.deltay is not None and r1.deltay.error is not None and \
561  r2.deltay.error is not None and (r1.deltay.error**2 + r2.deltay.error**2) > 0.:
562  delta = db1.y - db2.y
563  if reportdiff: delta -= r1.deltay.value
564  if normalized:
565  fill = delta/sqrt(r1.deltay.error**2 + r2.deltay.error**2) * signConventions[r1.postal_address][1]
566  else:
567  fill = delta * 10. * signConventions[r1.postal_address][1]
568  hy.Fill(fill)
569  if getvalues not in (False, None):
570  getvalues["y"].append((fill, 10. * sqrt(r1.deltay.error**2 + r2.deltay.error**2)))
571 
572  if r1.deltaz is not None and r2.deltaz is not None and r1.deltaz.error is not None and \
573  r2.deltaz.error is not None and (r1.deltaz.error**2 + r2.deltaz.error**2) > 0.:
574  delta = db1.z - db2.z
575  if reportdiff: delta -= r1.deltaz.value
576  if normalized:
577  fill = delta/sqrt(r1.deltaz.error**2 + r2.deltaz.error**2) * signConventions[r1.postal_address][2]
578  else:
579  fill = delta * 10. * signConventions[r1.postal_address][2]
580  hz.Fill(fill)
581  if getvalues not in (False, None):
582  getvalues["z"].append((fill, 10. * sqrt(r1.deltaz.error**2 + r2.deltaz.error**2)))
583 
584  if r1.deltaphix is not None and r2.deltaphix is not None and r1.deltaphix.error is not None and \
585  r2.deltaphix.error is not None and (r1.deltaphix.error**2 + r2.deltaphix.error**2) > 0.:
586  delta = db1.phix - db2.phix
587  if reportdiff: delta -= r1.deltaphix.value
588  if normalized:
589  fill = delta/sqrt(r1.deltaphix.error**2 + r2.deltaphix.error**2)
590  else:
591  fill = delta * 1000.
592  hphix.Fill(fill)
593  if getvalues not in (False, None):
594  getvalues["phix"].append((fill, 10. * sqrt(r1.deltaphix.error**2 + r2.deltaphix.error**2)))
595 
596  if r1.deltaphiy is not None and r2.deltaphiy is not None and r1.deltaphiy.error is not None and \
597  r2.deltaphiy.error is not None and (r1.deltaphiy.error**2 + r2.deltaphiy.error**2) > 0.:
598  delta = db1.phiy - db2.phiy
599  if reportdiff:
600  delta -= r1.deltaphiy.value
601  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
602  if normalized:
603  fill = delta/sqrt(r1.deltaphiy.error**2 + r2.deltaphiy.error**2)
604  else:
605  fill = delta * 1000.
606  hphiy.Fill(fill)
607  if getvalues not in (False, None):
608  getvalues["phiy"].append((fill, 10. * sqrt(r1.deltaphiy.error**2 + r2.deltaphiy.error**2)))
609 
610  if r1.deltaphiz is not None and r2.deltaphiz is not None and r1.deltaphiz.error is not None and \
611  r2.deltaphiz.error is not None and (r1.deltaphiz.error**2 + r2.deltaphiz.error**2) > 0.:
612  delta = db1.phiz - db2.phiz
613  if reportdiff: delta -= r1.deltaphiz.value
614  if normalized:
615  fill = delta/sqrt(r1.deltaphiz.error**2 + r2.deltaphiz.error**2)
616  else:
617  fill = delta * 1000.
618  hphiz.Fill(fill)
619  if getvalues not in (False, None):
620  getvalues["phiz"].append((fill, 10. * sqrt(r1.deltaphiz.error**2 + r2.deltaphiz.error**2)))
621 
622  if not normalized:
623  if phi:
624  hx.SetXTitle("#delta_{#phi} position (mrad)")
625  else:
626  hx.SetXTitle("#delta_{x'} (mm)")
627  hy.SetXTitle("#delta_{y'} (mm)")
628  hz.SetXTitle("#delta_{z'} (mm)")
629  hphix.SetXTitle("#delta_{#phi_{x}} (mrad)")
630  hphiy.SetXTitle("#delta_{#phi_{y}} (mrad)")
631  hphiz.SetXTitle("#delta_{#phi_{z}} (mrad)")
632  if reportdiff:
633  if phi:
634  hx.SetXTitle("#delta_{#phi}(XML) - #delta_{#phi}(report) position (mrad)")
635  else:
636  hx.SetXTitle("#delta_{x'}(XML) - #delta_{x'}(report) (mm)")
637  hy.SetXTitle("#delta_{y'}(XML) - #delta_{y'}(report) (mm)")
638  hz.SetXTitle("#delta_{z'}(XML) - #delta_{z'}(report) (mm)")
639  hphix.SetXTitle("#delta_{#phi_{x}}(XML) - #delta_{#phi_{x}}(report) (mrad)")
640  hphiy.SetXTitle("#delta_{#phi_{y}}(XML) - #delta_{#phi_{y}}(report) (mrad)")
641  hphiz.SetXTitle("#delta_{#phi_{z}}(XML) - #delta_{#phi_{z}}(report) (mrad)")
642  else:
643  if phi:
644  hx.SetXTitle("#delta_{#phi}/#sigma_{#phi} position")
645  else:
646  hx.SetXTitle("#delta_{x'}/#sigma_{x'}")
647  hy.SetXTitle("#delta_{y'}/#sigma_{y'}")
648  hz.SetXTitle("#delta_{z'}/#sigma_{z'}")
649  hphix.SetXTitle("#delta_{#phi_{x}}/#sigma_{#phi_{x}}")
650  hphiy.SetXTitle("#delta_{#phi_{y}}/#sigma_{#phi_{y}}")
651  hphiz.SetXTitle("#delta_{#phi_{z}}/#sigma_{#phi_{z}}")
652 
653  for h in hx, hy, hz, hphix, hphiy, hphiz:
654  h.GetXaxis().CenterTitle()
655  h.GetYaxis().CenterTitle()
656  h.SetFillColor(color)
657  h.SetLineStyle(style)
658 
659  if canvas is not None: c = canvas
660  else: c = c1
661 
662  if normalized:
663  fx = ROOT.TF1("fx", "%g * exp(-x**2/2.)/sqrt(2.*3.1415926)" % (hx.GetEntries()*2.*window/bins), -window, window)
664  fy = ROOT.TF1("fy", "%g * exp(-x**2/2.)/sqrt(2.*3.1415926)" % (hy.GetEntries()*2.*window/bins), -window, window)
665  fz = ROOT.TF1("fz", "%g * exp(-x**2/2.)/sqrt(2.*3.1415926)" % (hz.GetEntries()*2.*window/bins), -window, window)
666  fphix = ROOT.TF1("fphix", "%g * exp(-x**2/2.)/sqrt(2.*3.1415926)" % (hphix.GetEntries()*2.*window/bins), -window, window)
667  fphiy = ROOT.TF1("fphiy", "%g * exp(-x**2/2.)/sqrt(2.*3.1415926)" % (hphiy.GetEntries()*2.*window/bins), -window, window)
668  fphiz = ROOT.TF1("fphiz", "%g * exp(-x**2/2.)/sqrt(2.*3.1415926)" % (hphiz.GetEntries()*2.*window/bins), -window, window)
669  for f in fx, fy, fz, fphix, fphiy, fphiz:
670  f.SetLineWidth(2)
671  f.SetLineColor(ROOT.kBlue)
672  for h, f in (hx, fx), (hy, fy), (hz, fz), (hphix, fphix), (hphiy, fphiy), (hphiz, fphiz):
673  h.SetAxisRange(0, 1.1*max(h.GetMaximum(), f.GetMaximum()), "Y")
674 
675  c.Clear()
676  c.Divide(3, 2)
677  c.GetPad(1).cd(); hx.Draw(); fx.Draw("same")
678  c.GetPad(2).cd(); hy.Draw(); fy.Draw("same")
679  c.GetPad(3).cd(); hz.Draw(); fz.Draw("same")
680  c.GetPad(4).cd(); hphix.Draw(); fphix.Draw("same")
681  c.GetPad(5).cd(); hphiy.Draw(); fphiy.Draw("same")
682  c.GetPad(6).cd(); hphiz.Draw(); fphiz.Draw("same")
683  return hx, hy, hz, hphix, hphiy, hphiz, fx, fy, fz, fphix, fphiy, fphiz
684  else:
685  nvar = 6
686 
687  c.Clear()
688  if nvar == 4: c.Divide(2, 2)
689  if nvar == 6: c.Divide(3, 2)
690  c.GetPad(1).cd(); hx.Draw()
691  c.GetPad(2).cd(); hy.Draw()
692  if nvar == 4:
693  c.GetPad(3).cd(); hphiy.Draw()
694  c.GetPad(4).cd(); hphiz.Draw()
695  if nvar == 6:
696  c.GetPad(3).cd(); hz.Draw()
697  c.GetPad(4).cd(); hphix.Draw()
698  c.GetPad(5).cd(); hphiy.Draw()
699  c.GetPad(6).cd(); hphiz.Draw()
700 
701  if inlog:
702  if hx.GetEntries()>0: c.GetPad(1).SetLogy(1)
703  if hy.GetEntries()>0: c.GetPad(2).SetLogy(1)
704  if nvar == 4:
705  if hphiy.GetEntries()>0: c.GetPad(3).SetLogy(1)
706  if hphiz.GetEntries()>0: c.GetPad(4).SetLogy(1)
707  if nvar == 6:
708  if hz.GetEntries()>0: c.GetPad(3).SetLogy(1)
709  if hphix.GetEntries()>0: c.GetPad(4).SetLogy(1)
710  if hphiy.GetEntries()>0: c.GetPad(5).SetLogy(1)
711  if hphiz.GetEntries()>0: c.GetPad(6).SetLogy(1)
712 
713  return hx, hy, hz, hphix, hphiy, hphiz
714 
715 
716 
selection
main part
Definition: corrVsCorr.py:98
T sqrt(T t)
Definition: SSEVec.h:18
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
def getReportByPostalAddress(postal_address, report)
Definition: plotscripts.py:468
def plotscripts.DBdiffVersus (   quantity,
  versus,
  database1,
  database2,
  reports1,
  reports2,
  windwselection = None,
  color = ROOT.kBlack 
)

Definition at line 720 of file plotscripts.py.

References corrVsCorr.selection.

Referenced by DBMCVersus().

720 def DBdiffVersus(quantity, versus, database1, database2, reports1, reports2, windwselection=None, color=ROOT.kBlack):
721  tdrStyle.SetOptStat("")
722 
723  domain = []
724  values = []
725  errors = []
726 
727  for r1 in reports1:
728  if selection is None or (selection.__code__.co_argcount == len(r1.postal_address) and selection(*r1.postal_address)):
729  if reports2 is None:
730  r2 = Report(r1.chamberId, r1.postal_address, r1.name)
731  r2.add_parameters(ValErr(0., 0., 0.), ValErr(0., 0., 0.), ValErr(0., 0., 0.),
732  ValErr(0., 0., 0.), ValErr(0., 0., 0.), ValErr(0., 0., 0.), 0., 0., 0.)
733  else:
734  found = False
735  for r2 in reports2:
736  if r1.postal_address == r2.postal_address:
737  found = True
738  break
739  if not found: continue
740 
741  found = False
742  if r1.postal_address[0] == "DT":
743  if r1.postal_address[1:] in database1.dt:
744  found = True
745  db1 = database1.dt[r1.postal_address[1:]]
746  if database2 is None:
747  db2 = DTAlignable()
748  db2.x = db2.y = db2.z = db2.phix = db2.phiy = db2.phiz = 0.
749  db2.xx = db2.xy = db2.xz = db2.yx = db2.yy = db2.yz = db2.zx = db2.zy = db2.zz = 0.
750  else:
751  db2 = database2.dt[r1.postal_address[1:]]
752  else:
753  if r1.postal_address[1:] in database1.csc:
754  found = True
755  db1 = database1.csc[r1.postal_address[1:]]
756  if database2 is None:
757  db2 = CSCAlignable()
758  db2.x = db2.y = db2.z = db2.phix = db2.phiy = db2.phiz = 0.
759  db2.xx = db2.xy = db2.xz = db2.yx = db2.yy = db2.yz = db2.zx = db2.zy = db2.zz = 0.
760  else:
761  db2 = database2.csc[r1.postal_address[1:]]
762 
763  if found and r1.status == "PASS" and r2.status == "PASS":
764  okay = False
765 
766  if quantity == "phi":
767  if r1.deltax is not None and r2.deltax is not None and r1.deltax.error is not None and \
768  r2.deltax.error is not None and (r1.deltax.error**2 + r2.deltax.error**2) > 0.:
769  okay = True
770  values.append((db1.x - db2.x)/
771  signConventions[r1.postal_address][3] * 1000. * signConventions[r1.postal_address][0])
772  errors.append((r1.deltax.error**2 + r2.deltax.error**2)/
773  signConventions[r1.postal_address][3] * 1000. * signConventions[r1.postal_address][0])
774 
775  elif quantity == "x":
776  if r1.deltax is not None and r2.deltax is not None and r1.deltax.error is not None and \
777  r2.deltax.error is not None and (r1.deltax.error**2 + r2.deltax.error**2) > 0.:
778  okay = True
779  values.append((db1.x - db2.x) * 10. * signConventions[r1.postal_address][0])
780  errors.append((r1.deltax.error**2 + r2.deltax.error**2) * 10. * signConventions[r1.postal_address][0])
781 
782  elif quantity == "y":
783  if r1.deltay is not None and r2.deltay is not None and r1.deltay.error is not None and \
784  r2.deltay.error is not None and (r1.deltay.error**2 + r2.deltay.error**2) > 0.:
785  okay = True
786  values.append((db1.y - db2.y) * 10. * signConventions[r1.postal_address][1])
787  errors.append((r1.deltay.error**2 + r2.deltay.error**2) * 10. * signConventions[r1.postal_address][1])
788 
789  elif quantity == "z":
790  if r1.deltaz is not None and r2.deltaz is not None and r1.deltaz.error is not None and \
791  r2.deltaz.error is not None and (r1.deltaz.error**2 + r2.deltaz.error**2) > 0.:
792  okay = True
793  values.append((db1.z - db2.z) * 10. * signConventions[r1.postal_address][2])
794  errors.append((r1.deltaz.error**2 + r2.deltaz.error**2) * 10. * signConventions[r1.postal_address][2])
795 
796  elif quantity == "phix":
797  if r1.deltaphix is not None and r2.deltaphix is not None and r1.deltaphix.error is not None and \
798  r2.deltaphix.error is not None and (r1.deltaphix.error**2 + r2.deltaphix.error**2) > 0.:
799  okay = True
800  values.append((db1.phix - db2.phix) * 1000.)
801  errors.append((r1.deltaphix.error**2 + r2.deltaphix.error**2) * 1000.)
802 
803  elif quantity == "phiy":
804  if r1.deltaphiy is not None and r2.deltaphiy is not None and r1.deltaphiy.error is not None and \
805  r2.deltaphiy.error is not None and (r1.deltaphiy.error**2 + r2.deltaphiy.error**2) > 0.:
806  okay = True
807  values.append((db1.phiy - db2.phiy) * 1000.)
808  errors.append((r1.deltaphiy.error**2 + r2.deltaphiy.error**2) * 1000.)
809 
810  elif quantity == "phiz":
811  if r1.deltaphiz is not None and r2.deltaphiz is not None and r1.deltaphiz.error is not None and \
812  r2.deltaphiz.error is not None and (r1.deltaphiz.error**2 + r2.deltaphiz.error**2) > 0.:
813  okay = True
814  values.append((db1.phiz - db2.phiz) * 1000.)
815  errors.append((r1.deltaphiz.error**2 + r2.deltaphiz.error**2) * 1000.)
816 
817  else: raise Exception
818 
819  if okay:
820  if versus == "r": domain.append(signConventions[r1.postal_address][3])
821  elif versus == "phi": domain.append(signConventions[r1.postal_address][4])
822  elif versus == "z": domain.append(signConventions[r1.postal_address][5])
823  else: raise Exception
824 
825  if versus == "r":
826  bkgndhist = ROOT.TH1F("bkgndhist", "", 100, 0., 800.)
827  bkgndhist.SetXTitle("R (cm)")
828  elif versus == "phi":
829  bkgndhist = ROOT.TH1F("bkgndhist", "", 100, -pi, pi)
830  bkgndhist.SetXTitle("#phi (rad)")
831  elif versus == "z":
832  bkgndhist = ROOT.TH1F("bkgndhist", "", 100, -1100., 1100.)
833  bkgndhist.SetXTitle("z (cm)")
834  bkgndhist.GetXaxis().CenterTitle()
835 
836  bkgndhist.SetAxisRange(-window, window, "Y")
837  if quantity == "phi": bkgndhist.SetYTitle("#delta_{#phi} position (mrad)")
838  elif quantity == "x": bkgndhist.SetYTitle("#delta_{x'} (mm)")
839  elif quantity == "y": bkgndhist.SetYTitle("#delta_{y'} (mm)")
840  elif quantity == "z": bkgndhist.SetYTitle("#delta_{z'} (mm)")
841  elif quantity == "phix": bkgndhist.SetYTitle("#delta_{#phi_{x}} (mrad)")
842  elif quantity == "phiy": bkgndhist.SetYTitle("#delta_{#phi_{y}} (mrad)")
843  elif quantity == "phiz": bkgndhist.SetYTitle("#delta_{#phi_{z}} (mrad)")
844  else: raise Exception
845  bkgndhist.GetYaxis().CenterTitle()
846 
847  if len(domain) == 0:
848  tgraph = ROOT.TGraphErrors(0)
849  else:
850  tgraph = ROOT.TGraphErrors(len(domain), array.array("d", domain), array.array("d", values),
851  array.array("d", [0.]*len(domain)), array.array("d", errors))
852  tgraph.SetMarkerColor(color)
853  tgraph.SetLineColor(color)
854 
855  bkgndhist.Draw()
856  if tgraph.GetN() > 0: tgraph.Draw("p")
857  return bkgndhist, tgraph, domain, values, errors
858 
def DBdiffVersus(quantity, versus, database1, database2, reports1, reports2, windwselection=None, color=ROOT.kBlack)
Definition: plotscripts.py:720
selection
main part
Definition: corrVsCorr.py:98
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 478 of file plotscripts.py.

References DBdiff().

Referenced by getReportByPostalAddress().

478  color=ROOT.kBlue-8, style=1, bins=50, normalized=False, getvalues=False, name="", canvas=None, reportdiff=False, inlog=True):
479  return DBdiff(database, None, reports, None, window, windows, selection, phi, color, style, bins, normalized, getvalues,
480  name, canvas, reportdiff, inlog)
481 
482 
def 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: plotscripts.py:485
def plotscripts.DBMCVersus (   quantity,
  versus,
  database,
  reports,
  window = 10.,
  selection = None,
  color = ROOT.kBlack 
)

Definition at line 717 of file plotscripts.py.

References DBdiffVersus().

717 def DBMCVersus(quantity, versus, database, reports, window=10., selection=None, color=ROOT.kBlack):
718  return DBdiffVersus(quantity, versus, database, None, reports, None, window, selection, color)
719 
def DBdiffVersus(quantity, versus, database1, database2, reports1, reports2, windwselection=None, color=ROOT.kBlack)
Definition: plotscripts.py:720
def DBMCVersus(quantity, versus, database, reports, window=10., selection=None, color=ROOT.kBlack)
Definition: plotscripts.py:717
def plotscripts.doTests (   reports,
  pic_ids,
  fname_base,
  fname_dqm,
  run_name 
)

Definition at line 1215 of file plotscripts.py.

References availableCellsCSC(), availableCellsDT(), doTestsForMapPlots(), doTestsForReport(), loadTestResultsMap(), plotmedians(), and writeDQMReport().

1215 def doTests(reports, pic_ids, fname_base, fname_dqm, run_name):
1216  # find available baseline
1217  dts = []
1218  cscs = []
1219  if len(reports)>0:
1220  dts = availableCellsDT(reports)
1221  cscs = availableCellsCSC(reports)
1222  elif len(pic_ids)>0:
1223  dts = [id for id in pic_ids if 'MB' in id]
1224  cscs = [id for id in pic_ids if 'ME' in id]
1225  mulist = ['Run: '+run_name,['ALL',['MU']],['DT',dts],['CSC',cscs]]
1226  ff = open(fname_base,mode="w")
1227  print >>ff, "var MU_LIST = ["
1228  json.dump(mulist,ff)
1229  print >>ff, "];"
1230  ff.close()
1231 
1232  doTestsForReport(dts,reports)
1233  doTestsForReport(cscs,reports)
1234 
1235  loadTestResultsMap(run_name)
1236  doTestsForMapPlots(dts)
1237  doTestsForMapPlots(cscs)
1238 
1239  writeDQMReport(fname_dqm, run_name)
1240 
1241 
def writeDQMReport(fname_dqm, run_name)
def availableCellsCSC(reports)
Definition: plotscripts.py:965
def doTests(reports, pic_ids, fname_base, fname_dqm, run_name)
def doTestsForMapPlots(cells)
def loadTestResultsMap(run_name)
def availableCellsDT(reports)
Definition: plotscripts.py:919
def doTestsForReport(cells, reports)
def plotscripts.doTestsForMapPlots (   cells)

Definition at line 1142 of file plotscripts.py.

References addToTestResults(), join(), genParticles_cff.map, testDeltaWithin5Sigma(), testEntry(), and testZeroWithin5Sigma().

Referenced by doTests().

1143  for c in cells:
1144  res = []
1145 
1146  scope = "zzz"
1147  if c[0:2]=="MB": scope = "DT"
1148  if c[0:2]=="ME": scope = "CSC"
1149  if scope == "zzz":
1150  print "strange cell ID: ", c
1151  return None
1152 
1153  if c in MAP_RESULTS_FITSIN:
1154  t = MAP_RESULTS_FITSIN[c]
1155  t_a = testZeroWithin5Sigma(t['a'])
1156  t_s = testZeroWithin5Sigma(t['sin'])
1157  t_c = testZeroWithin5Sigma(t['cos'])
1158  if t_a+t_s+t_c >0:
1159  descr = "map fitsin 5 sigma away from 0; pulls : a=%.2f sin=%.2f, cos=%.2f" % (t_a,t_s,t_c)
1160  res.append(testEntry("MAP_FITSIN",scope,descr,"SEVERE"))
1161 
1162  if c in MAP_RESULTS_SAWTOOTH:
1163  t = MAP_RESULTS_SAWTOOTH[c]
1164 
1165  t_a = testDeltaWithin5Sigma(t['a'],t['da'])
1166  if len(t_a)>0:
1167  descr = "map discontinuities: %s" % ",".join(map(str,t_a))
1168  res.append(testEntry("MAP_DISCONTIN",scope,descr,"SEVERE"))
1169 
1170  t_b = map(testZeroWithin5Sigma, t['b'])
1171  t_bi = []
1172  for i in range(0,len(t_b)):
1173  if t_b[i]>0: t_bi.append(i+1)
1174  if len(t_bi)>0:
1175  descr = "map sawteeth: %s" % ",".join(map(str,t_bi))
1176  res.append(testEntry("MAP_SAWTEETH",scope,descr,"TOLERABLE"))
1177 
1178  addToTestResults(c,res)
1179 
1180 
def testZeroWithin5Sigma(x)
def doTestsForMapPlots(cells)
def testDeltaWithin5Sigma(x, sx)
static std::string join(char **cmd)
Definition: RemoteFile.cc:18
def testEntry(testID, scope, descr, severity)
def addToTestResults(c, res)
def plotscripts.doTestsForReport (   cells,
  reports 
)

Definition at line 1078 of file plotscripts.py.

References addToTestResults(), idToPostalAddress(), and testEntry().

Referenced by doTests().

1078 def doTestsForReport(cells,reports):
1079  for c in cells:
1080  # can a cell be converted to a chamber postal address?
1081  postal_address = idToPostalAddress(c)
1082  if not postal_address: continue
1083 
1084  # is this chamber in _report?
1085  found = False
1086  for r in reports:
1087  if r.postal_address == postal_address:
1088  found = True
1089  break
1090  if not found: continue
1091 
1092  # chamber's tests result
1093  res = []
1094  scope = postal_address[0]
1095 
1096  # noting could be done if fitting fails
1097  if r.status == "FAIL" or r.status == "MINUITFAIL":
1098  res.append(testEntry("FAILURE",scope,r.status+" failure","CRITICAL"))
1099  addToTestResults(c,res)
1100  continue
1101 
1102  # noting could be done if TOOFEWHITS
1103  nseg = r.posNum + r.negNum
1104  if r.status == "TOOFEWHITS" and nseg>0:
1105  res.append(testEntry("LOW_STAT",scope,"low stat, #segments=%d"%nseg,"LOWSTAT"))
1106  addToTestResults(c,res)
1107  continue
1108 
1109  # set shades of light green according to sidma(dx)
1110  sdx = 10.*r.deltax.error
1111  if sdx>0.5:
1112  if sdx<0.75: res.append(testEntry("LOW_STAT_DDX05",scope,"low stat, delta(dx)=%f #segments=%d" % (sdx,nseg),"LOWSTAT05"))
1113  elif sdx<1.: res.append(testEntry("LOW_STAT_DDX075",scope,"low stat, delta(dx)=%f #segments=%d" % (sdx,nseg),"LOWSTAT075"))
1114  else: res.append(testEntry("LOW_STAT_DDX1",scope,"low stat, delta(dx)=%f #segments=%d" % (sdx,nseg),"LOWSTAT1"))
1115 
1116  # check chi2
1117  if r.redchi2 > 20.: #2.5:
1118  res.append(testEntry("BIG_CHI2",scope,"chi2=%f>20" % r.redchi2,"TOLERABLE"))
1119 
1120  # check medians
1121  medx, meddx = 10.*r.median_x, 1000.*r.median_dxdz
1122  #medy, meddy = 10.*r.median_y, 1000.*r.median_dydz
1123  if medx>2: res.append(testEntry("BIG_MED_X",scope,"median dx=%f>2 mm"%medx,"SEVERE"))
1124  #if medy>3: res.append(testEntry("BIG_MED_Y",scope,"median dy=%f>3 mm"%medy,"SEVERE"))
1125  if meddx>2: res.append(testEntry("BIG_MED_DXDZ",scope,"median d(dx/dz)=%f>2 mrad"%meddx,"SEVERE"))
1126  #if meddy>3: res.append(testEntry("BIG_MED_DYDZ",scope,"median d(dy/dz)=%f>3 mrad"%meddy,"SEVERE"))
1127 
1128  # check residuals far from zero
1129  isDTst4 = False
1130  if postal_address[0] == "DT" and postal_address[2]==4: isDTst4 = True
1131  dx, dy, dpy, dpz = 10.*r.deltax.value, 0., 1000.*r.deltaphiy.value, 1000.*r.deltaphiz.value
1132  if not isDTst4: dy = 10.*r.deltay.value
1133  if dx>0.2: res.append(testEntry("BIG_LAST_ITR_DX",scope,"dx=%f>0.2 mm"%dx,"CRITICAL"))
1134  if dy>0.2: res.append(testEntry("BIG_LAST_ITR_DY",scope,"dy=%f>0.2 mm"%dy,"CRITICAL"))
1135  if dpy>0.2: res.append(testEntry("BIG_LAST_ITR_DPHIY",scope,"dphiy=%f>0.2 mrad"%dpy,"CRITICAL"))
1136  if dpz>0.2: res.append(testEntry("BIG_LAST_ITR_DPHIZ",scope,"dphiz=%f>0.2 mrad"%dpz,"CRITICAL"))
1137  #if ddx>0.03: res.append(testEntry("BIG_DX",scope,"dphix=%f>0.03 mrad"%ddx,"CRITICAL"))
1138 
1139  addToTestResults(c,res)
1140 
1141 
def testEntry(testID, scope, descr, severity)
def doTestsForReport(cells, reports)
def idToPostalAddress(id)
Definition: plotscripts.py:861
def addToTestResults(c, res)
def plotscripts.getname (   r)

Definition at line 2032 of file plotscripts.py.

References funct.abs().

Referenced by bellcurves(), Signal.init(), and polynomials().

2032 def getname(r):
2033  if r.postal_address[0] == "DT":
2034  wheel, station, sector = r.postal_address[1:]
2035  return "DT wheel %d, station %d, sector %d" % (wheel, station, sector)
2036  elif r.postal_address[0] == "CSC":
2037  endcap, station, ring, chamber = r.postal_address[1:]
2038  if endcap != 1: station = -1 * abs(station)
2039  return "CSC ME%d/%d chamber %d" % (station, ring, chamber)
2040 
2041 ddt=[0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.]
def getname(r)
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
def plotscripts.getReportByPostalAddress (   postal_address,
  report 
)

Definition at line 468 of file plotscripts.py.

References DBMC().

Referenced by corrections2D(), and DBdiff().

468 def getReportByPostalAddress(postal_address, report):
469  for r in report:
470  if postal_address == r.postal_address:
471  return r
472  return None
473 
474 
def getReportByPostalAddress(postal_address, report)
Definition: plotscripts.py:468
def plotscripts.idToPostalAddress (   id)

Definition at line 861 of file plotscripts.py.

References createfilelist.int.

Referenced by doTestsForReport(), mapplot(), and stationIndex().

862  # only len==9 ids can correspond to valid postal address
863  if len(id)!=9: return None
864  if id[0:2]=="MB":
865  #print id
866  pa = ("DT", int(id[2:4]), int(id[5]), int(id[7:9]))
867  #print pa
868  if pa[1]<-2 or pa[1]>2: return None
869  if pa[2]>4: return None
870  if pa[3]<1 or pa[3]>14 or (pa[3]==4 and pa[3]>12): return None
871  return pa
872  elif id[0:2]=="ME":
873  if id[2]=="+": ec=1
874  elif id[2]=="-": ec=2
875  else: return None
876  pa = ("CSC", ec, int(id[3]), int(id[5]), int(id[7:9]))
877  if pa[2]<1 or pa[2]>4: return None
878  if pa[3]<1 or pa[3]>4 or (pa[2]>1 and pa[3]>2): return None
879  if pa[4]<1 or pa[4]>36 or (pa[2]>1 and pa[3]==1 and pa[4]>18): return None
880  return pa
881  else: return None
882 
883 
def idToPostalAddress(id)
Definition: plotscripts.py:861
def plotscripts.loadTestResultsMap (   run_name)

Definition at line 1189 of file plotscripts.py.

Referenced by doTests().

1189 def loadTestResultsMap(run_name):
1190  print "tmp_test_results_map__%s.pkl" % run_name, os.access("tmp_test_results_map__%s.pkl" % run_name,os.F_OK)
1191  if not os.access("tmp_test_results_map__%s.pkl" % run_name,os.F_OK): return None
1192  global MAP_RESULTS_FITSIN, MAP_RESULTS_SAWTOOTH
1193  ff = open("tmp_test_results_map__%s.pkl" % run_name, "rb")
1194  MAP_RESULTS_SAWTOOTH = pickle.load(ff)
1195  MAP_RESULTS_FITSIN = pickle.load(ff)
1196  ff.close()
1197  #execfile("tmp_test_results_map__%s.py" % run_name)
1198  #print 'asasas', MAP_RESULTS_FITSIN
1199  return True
1200 
def loadTestResultsMap(run_name)
def plotscripts.mapNameToId (   name)

Definition at line 1761 of file plotscripts.py.

Referenced by mapplot().

1761 def mapNameToId(name):
1762  if "DT" in name:
1763  wh = "-ALL"
1764  if name.find('wh')>1: wh = name[name.find('wh')+2]
1765  if wh == "A": w = "-2"
1766  elif wh == "B": w = "-1"
1767  elif wh == "C": w = "-0"
1768  elif wh == "D": w = "+1"
1769  elif wh == "E": w = "+2"
1770  elif wh == "-ALL": w = "-ALL"
1771  else: return None
1772  station=''
1773  if wh == "-ALL":
1774  if name.find('sec')<0: return None
1775  station = name[name.find('sec')-1]
1776  sector = ''
1777  sector = name[name.find('sec')+3:name.find('sec')+5]
1778  return "MB%s/%s/%s" % (w, station, sector)
1779  if name.find('st')>1: station = name[name.find('st')+2]
1780  else: return None
1781  return "MB%s/%s" % (w, station)
1782  elif "CSC" in name:
1783  p = name.find('me')
1784  if p<0: return None
1785  if name[p+2]=="p": endcap = "+"
1786  elif name[p+2]=="m": endcap = "-"
1787  else: return None
1788  station = name[p+3]
1789  pch = name.find('ch')
1790  if pch<0:
1791  ring = name[p+4]
1792  return "ME%s%s/%s" % (endcap, station, ring)
1793  ring = 'ALL'
1794  chamber = name[pch+2:pch+4]
1795  return "ME%s%s/%s/%s" % (endcap, station, ring, chamber)
1796  return None
1797 
1798 
def mapNameToId(name)
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 1445 of file plotscripts.py.

References funct.abs(), createPeaksProfile(), idToPostalAddress(), createfilelist.int, mapNameToId(), phiedges2c(), philines(), rlines(), set_palette(), mathSSE.sqrt(), stationIndex(), and zlines().

Referenced by createPeaksProfile(), alignmentValidation.doMapPlotsCSC(), and alignmentValidation.doMapPlotsDT().

1445  widebins=False, fitsine=False, fitline=False, reset_palette=False, fitsawteeth=False, fitpeaks=False, peaksbins=1, fixfitpars={}, **args):
1446  tdrStyle.SetOptTitle(1)
1447  tdrStyle.SetTitleBorderSize(0)
1448  tdrStyle.SetOptStat(0)
1449  #tdrStyle.SetOptStat("emrou")
1450  tdrStyle.SetOptFit(0)
1451  tdrStyle.SetTitleFontSize(0.05)
1452  tdrStyle.SetPadRightMargin(0.1) # to see the pallete labels on the left
1453 
1454  c1.Clear()
1455  c1.ResetAttPad()
1456 
1457  if reset_palette: set_palette("blues")
1458  global hist, hist2d, hist2dweight, tline1, tline2, tline3
1459 
1460  if fitsine or fitsawteeth:
1461  id = mapNameToId(name)
1462  if not id:
1463  print "bad id for ", name
1464  raise Exception
1465 
1466  hdir = "AlignmentMonitorMuonSystemMap1D/iter1/"
1467  hpref= "%s_%s" % (name, param)
1468  hhh = hdir+hpref
1469 
1470  combine_all = False
1471  if "ALL" in name and ("CSCvsr" in name or "DTvsz" in name): combine_all = True
1472 
1473  add1d = ("vsphi" in name) and (param == "x")
1474 
1475  if "h2d" in args:
1476  hist2d = args["h2d"].Clone(hpref+"_2d_")
1477  if "CSC" in name and add1d: hist1d = args["h1d"].Clone(hpref+"_1d_")
1478 
1479  elif combine_all:
1480  nch = 12
1481  if "DT" in name and name[6:9]=='st4': nch = 14
1482  if "CSC" in name: nch = 36
1483  chambers = ["%02d" % ch for ch in range (2,nch+1)]
1484 
1485  ch_hhh = hhh.replace('ALL','01')
1486  ch_hpref = hpref.replace('ALL','01')
1487  hist2d = tfiles[0].Get(ch_hhh+"_2d").Clone(ch_hpref+"_2d_")
1488  if "CSC" in name and add1d: hist1d = tfiles[0].Get(ch_hhh+"_1d").Clone(ch_hpref+"_1d_")
1489 
1490  for ch in chambers:
1491  ch_hhh = hhh.replace('ALL',ch)
1492  ch_hpref = hpref.replace('ALL',ch)
1493  hist2d.Add(tfiles[0].Get(ch_hhh+"_2d"))
1494  if "CSC" in name and add1d: hist1d.Add(tfiles[0].Get(ch_hhh+"_1d"))
1495  for tfile in tfiles[1:]:
1496  hist2d.Add(tfile.Get(ch_hhh+"_2d"))
1497  if "CSC" in name and add1d: hist1d.Add(tfile.Get(ch_hhh+"_1d"))
1498 
1499  else:
1500  hist2d = tfiles[0].Get(hhh+"_2d").Clone(hpref+"_2d_")
1501  if "CSC" in name and add1d: hist1d = tfiles[0].Get(hhh+"_1d").Clone(hpref+"_1d_")
1502  for tfile in tfiles[1:]:
1503  hist2d.Add(tfile.Get(hhh+"_2d"))
1504  if "CSC" in name and add1d: hist1d.Add(tfile.Get(hhh+"_1d"))
1505 
1506 
1507  if mode == "from2d":
1508  the2d = hist2d
1509 
1510  hist = the2d.ProjectionX()
1511  hist.Reset()
1512 
1513  skip = 1
1514  if widebins:
1515  hist.Rebin(10)
1516  skip = 10
1517 
1518  #f = ROOT.TF1("g", "gaus", -40., 40)
1519  for i in xrange(0, int(the2d.GetNbinsX()), skip):
1520  tmp = the2d.ProjectionY("tmp", i+1, i + skip)
1521  if tmp.GetEntries() > 1:
1522  #tmp.Fit("g","LNq")
1523  hist.SetBinContent(i/skip+1, tmp.GetMean())
1524  hist.SetBinError(i/skip+1, ROOT.TMath.StudentQuantile(0.841345,tmp.GetEntries()) * tmp.GetRMS() / sqrt(tmp.GetEntries()))
1525  #hist.SetBinError(i/skip+1, tmp.GetRMS() / sqrt(tmp.GetEntries()))
1526  #hist.SetBinError(i/skip+1, f.GetParameter(2))
1527  else:
1528  #hist.SetBinContent(i/skip+1, 2000.)
1529  #hist.SetBinError(i/skip+1, 1000.)
1530  hist.SetBinContent(i/skip+1, 0.)
1531  hist.SetBinError(i/skip+1, 0.)
1532 
1533  hpeaks = createPeaksProfile(the2d, peaksbins)
1534 
1535  else:
1536  raise Exception
1537 
1538  hist.SetAxisRange(-window, window, "Y")
1539  if abscissa is not None: hist.SetAxisRange(abscissa[0], abscissa[1], "X")
1540  hist.SetMarkerStyle(20)
1541  hist.SetMarkerSize(0.75)
1542  hist.GetXaxis().CenterTitle()
1543  hist.GetYaxis().CenterTitle()
1544  hist.GetYaxis().SetTitleOffset(0.75)
1545  hist.GetXaxis().SetTitleSize(0.05)
1546  hist.GetYaxis().SetTitleSize(0.05)
1547  hist.SetTitle(title)
1548  if "vsphi" in name: hist.SetXTitle("Global #phi position (rad)")
1549  elif "vsz" in name: hist.SetXTitle("Global z position (cm)")
1550  elif "vsr" in name: hist.SetXTitle("Global R position (cm)")
1551  if "DT" in name:
1552  if param == "x": hist.SetYTitle("x' residual (mm)")
1553  if param == "dxdz": hist.SetYTitle("dx'/dz residual (mrad)")
1554  if param == "y": hist.SetYTitle("y' residual (mm)")
1555  if param == "dydz": hist.SetYTitle("dy'/dz residual (mrad)")
1556  if "CSC" in name:
1557  if param == "x": hist.SetYTitle("r#phi residual (mm)")
1558  if param == "dxdz": hist.SetYTitle("d(r#phi)/dz residual (mrad)")
1559  hist.SetMarkerColor(ROOT.kBlack)
1560  hist.SetLineColor(ROOT.kBlack)
1561  hist.Draw()
1562  hist2d.Draw("colzsame")
1563  if widebins: hist.Draw("samee1")
1564  else: hist.Draw("same")
1565 
1566  hpeaks.SetMarkerStyle(20)
1567  hpeaks.SetMarkerSize(0.9)
1568  hpeaks.SetMarkerColor(ROOT.kRed)
1569  hpeaks.SetLineColor(ROOT.kRed)
1570  hpeaks.SetLineWidth(2)
1571  #if fitpeaks: hpeaks.Draw("same")
1572  hpeaks.Draw("same")
1573 
1574  if fitsine and "vsphi" in name:
1575  global fitsine_const, fitsine_sin, fitsine_cos, fitsine_chi2, fitsine_ndf
1576  if 'CSC' in name:
1577  f = ROOT.TF1("f", "[0] + [1]*sin(x) + [2]*cos(x)", -pi/180.*5., pi*(2.-5./180.))
1578  else:
1579  f = ROOT.TF1("f", "[0] + [1]*sin(x) + [2]*cos(x)", -pi, pi)
1580  f.SetLineColor(ROOT.kRed)
1581  f.SetLineWidth(2)
1582  if len(fixfitpars)>0:
1583  for fpar in fixfitpars.keys():
1584  f.FixParameter(fpar, fixfitpars[fpar])
1585  #hist.Fit(f,"N")
1586  if fitpeaks: hpeaks.Fit(f,"NQ")
1587  else: hist.Fit(f,"NEQ")
1588  if len(fixfitpars)>0:
1589  for fpar in fixfitpars.keys():
1590  f.ReleaseParameter(fpar)
1591  fitsine_const = f.GetParameter(0), f.GetParError(0)
1592  fitsine_sin = f.GetParameter(1), f.GetParError(1)
1593  fitsine_cos = f.GetParameter(2), f.GetParError(2)
1594  fitsine_chi2 = f.GetChisquare()
1595  fitsine_ndf = f.GetNDF()
1596  global MAP_RESULTS_FITSIN
1597  # 'phi' coefficienct will be updated further for CSC
1598  MAP_RESULTS_FITSIN[id] = {'a':fitsine_const, 'phi':fitsine_const, 'sin': fitsine_sin, 'cos': fitsine_cos, 'chi2': fitsine_chi2, 'ndf': fitsine_ndf}
1599  f.Draw("same")
1600  global fitsine_ttext, fitsine_etext
1601  text_xposition = -1.
1602  if 'CSC' in name: text_xposition = 2.
1603  fitsine_ttext = ROOT.TLatex(text_xposition, 0.8*window,
1604  "%+.3f %+.3f sin#phi %+.3f cos#phi" % (fitsine_const[0], fitsine_sin[0], fitsine_cos[0]))
1605  fitsine_ttext.SetTextColor(ROOT.kRed)
1606  fitsine_ttext.SetTextSize(0.05)
1607  fitsine_ttext.Draw()
1608  fitsine_etext = ROOT.TLatex(text_xposition, 0.70*window,
1609  " #pm%.3f #pm%.3f #pm%.3f" % (fitsine_const[1], fitsine_sin[1], fitsine_cos[1]))
1610  fitsine_etext.SetTextColor(ROOT.kRed)
1611  fitsine_etext.SetTextSize(0.045)
1612  fitsine_etext.Draw()
1613 
1614  # additional estimate of phiz ring rotation from 1d distribution
1615  if 'CSC' in name and add1d:
1616  # zero-order rough fit to obtain the fitting range:
1617  f0 = ROOT.TF1("f0", "gaus", hist1d.GetBinLowEdge(1), -hist1d.GetBinLowEdge(1))
1618  fit = hist1d.Fit(f0,"NRQ")
1619  rangea, rangeb = hist1d.GetMean() - hist1d.GetRMS(), hist1d.GetMean() + hist1d.GetRMS()
1620  if fit==0: rangea, rangeb = f0.GetParameter(1) - f0.GetParameter(2), f0.GetParameter(1) + f0.GetParameter(2)
1621  #print rangea, rangeb
1622 
1623  # second fit for finding the peak:
1624  f1 = ROOT.TF1("f1", "gaus", rangea, rangeb)
1625  fit = hist1d.Fit(f1,"NRQ")
1626  nn = hist1d.GetEntries()
1627  dphiz, ephiz = 0, 0
1628  if nn>0: dphiz, ephiz = hist1d.GetMean(), ROOT.TMath.StudentQuantile(0.841345,nn) * hist1d.GetRMS() / sqrt(nn)
1629  if fit==0: dphiz, ephiz = f1.GetParameter(1), f1.GetParError(1)
1630  #print dphiz, ephiz
1631  MAP_RESULTS_FITSIN[id]['phi'] = (dphiz, ephiz)
1632 
1633  global ttex_sine_, ttex_sine, ttex_1d_, ttex_1d
1634  postal_address = idToPostalAddress(id+'/01')
1635  ttex_sine_ = ROOT.TLatex(0, 0.8*window,"#Delta#phi_{z}^{sine} (mrad):")
1636  ttex_sine_.SetTextColor(ROOT.kGreen+2); ttex_sine_.SetTextSize(0.04); ttex_sine_.Draw()
1637  ttex_sine = ROOT.TLatex(0, 0.7*window," %+.3f#pm%.3f" %
1638  (-100*fitsine_const[0]/signConventions[postal_address][3],
1639  100*fitsine_const[1]/signConventions[postal_address][3]))
1640  ttex_sine.SetTextColor(ROOT.kGreen+2); ttex_sine.SetTextSize(0.04); ttex_sine.Draw()
1641  ttex_1d_ = ROOT.TLatex(0, 0.6*window,"#Delta#phi_{z}^{phi} (mrad):")
1642  ttex_1d_.SetTextColor(ROOT.kGreen+2); ttex_1d_.SetTextSize(0.04); ttex_1d_.Draw()
1643  ttex_1d = ROOT.TLatex(0, 0.5*window," %+.3f#pm%.3f" % (-dphiz, ephiz))
1644  ttex_1d.SetTextColor(ROOT.kGreen+2); ttex_1d.SetTextSize(0.04); ttex_1d.Draw()
1645  ROOT.gPad.Update()
1646 
1647  if fitline:
1648  f = ROOT.TF1("f", "[0] + [1]*x", -1000., 1000.)
1649  hist2d.Fit(f, "q")
1650  hist2d.GetFunction("f").SetLineColor(ROOT.kRed)
1651  global fitline_const, fitline_linear, fitline_chi2, fitline_ndf
1652  fitline_const = hist2d.GetFunction("f").GetParameter(0), hist2d.GetFunction("f").GetParError(0)
1653  fitline_linear = hist2d.GetFunction("f").GetParameter(1), hist2d.GetFunction("f").GetParError(1)
1654  fitline_chi2 = hist2d.GetFunction("f").GetChisquare()
1655  fitline_ndf = hist2d.GetFunction("f").GetNDF()
1656  hist2d.GetFunction("f").Draw("same")
1657  global fitline_ttext
1658  if "vsz" in name: which = "Z"
1659  elif "vsr" in name: which = "R"
1660  fitline_ttext = ROOT.TText(hist.GetBinCenter(hist.GetNbinsX()/4),
1661  0.8*window, "%.3g %+.3g %s" % (fitline_const[0], fitline_linear[0], which))
1662  fitline_ttext.SetTextColor(ROOT.kRed)
1663  fitline_ttext.Draw()
1664 
1665  ROOT.gPad.RedrawAxis()
1666 
1667  if "vsphi" in name:
1668  if not widebins: philines(name, window, abscissa)
1669  if abscissa is None:
1670  if 'CSC' in name:
1671  tline1 = ROOT.TLine(-pi/180.*5., 0, pi*(2.-5./180.), 0); tline1.Draw()
1672  tline2 = ROOT.TLine(-pi/180.*5., -window, pi*(2.-5./180.), -window); tline2.SetLineWidth(2); tline2.Draw()
1673  tline3 = ROOT.TLine(-pi/180.*5., window, pi*(2.-5./180.), window); tline3.Draw()
1674  else:
1675  tline1 = ROOT.TLine(-pi, 0, pi, 0); tline1.Draw()
1676  tline2 = ROOT.TLine(-pi, -window, pi, -window); tline2.SetLineWidth(2); tline2.Draw()
1677  tline3 = ROOT.TLine(-pi, window, pi, window); tline3.Draw()
1678  else:
1679  tline1 = ROOT.TLine(abscissa[0], 0, abscissa[1], 0); tline1.Draw()
1680  tline2 = ROOT.TLine(abscissa[0], -window, abscissa[1], -window); tline2.SetLineWidth(2); tline2.Draw()
1681  tline3 = ROOT.TLine(abscissa[0], window, abscissa[1], window); tline3.Draw()
1682  elif "vsz" in name:
1683  if not widebins: zlines(window, abscissa)
1684  if abscissa is None:
1685  tline1 = ROOT.TLine(-660, 0, 660, 0); tline1.Draw()
1686  tline2 = ROOT.TLine(-660, -window, 660, -window); tline2.SetLineWidth(2); tline2.Draw()
1687  tline3 = ROOT.TLine(-660, window, 660, window); tline3.Draw()
1688  else:
1689  tline1 = ROOT.TLine(abscissa[0], 0, abscissa[1], 0); tline1.Draw()
1690  tline2 = ROOT.TLine(abscissa[0], -window, abscissa[1], -window); tline2.SetLineWidth(2); tline2.Draw()
1691  tline3 = ROOT.TLine(abscissa[0], window, abscissa[1], window); tline3.Draw()
1692  elif "vsr" in name:
1693  if "mem1" in name or "mep1" in name and not widebins: rlines(1, window, abscissa)
1694  if "mem2" in name or "mep2" in name and not widebins: rlines(2, window, abscissa)
1695  if "mem3" in name or "mep3" in name and not widebins: rlines(3, window, abscissa)
1696  if "mem4" in name or "mep4" in name and not widebins: rlines(4, window, abscissa)
1697  if abscissa is None:
1698  tline1 = ROOT.TLine(100, 0, 700, 0); tline1.Draw()
1699  tline2 = ROOT.TLine(100, -window, 700, -window); tline2.SetLineWidth(2); tline2.Draw()
1700  tline3 = ROOT.TLine(100, window, 700, window); tline3.Draw()
1701  else:
1702  tline1 = ROOT.TLine(abscissa[0], 0, abscissa[1], 0); tline1.Draw()
1703  tline2 = ROOT.TLine(abscissa[0], -window, abscissa[1], -window); tline2.SetLineWidth(2); tline2.Draw()
1704  tline3 = ROOT.TLine(abscissa[0], window, abscissa[1], window); tline3.Draw()
1705 
1706  if "vsphi" in name and fitsawteeth:
1707  global CPP_LOADED
1708  if not CPP_LOADED:
1709  phiedges2c()
1710  ROOT.gROOT.ProcessLine(".L phiedges_fitfunctions.C++")
1711  CPP_LOADED = True
1712  fn={0: ROOT.fitf0,
1713  1: ROOT.fitf2,
1714  2: ROOT.fitf2,
1715  3: ROOT.fitf3,
1716  4: ROOT.fitf4,
1717  5: ROOT.fitf5,
1718  6: ROOT.fitf6,
1719  7: ROOT.fitf7,
1720  8: ROOT.fitf8,
1721  9: ROOT.fitf9,
1722  10: ROOT.fitf10,
1723  11: ROOT.fitf11,
1724  12: ROOT.fitf12,
1725  13: ROOT.fitf13
1726  } [stationIndex(name)]
1727  fn.SetNpx(5000)
1728  fn.SetLineColor(ROOT.kYellow)
1729  hist.Fit(fn,"N")
1730  fn.Draw("same")
1731 
1732  # get properly arranged phi edges
1733  edges = (phiedges[stationIndex(name)])[:]
1734  ed = sorted(edges)
1735  # add some padding to the end
1736  ed.append(pi+abs(ed[0]))
1737 
1738  global sawtooth_a, sawtooth_b
1739  sawtooth_a = []
1740  sawtooth_da = []
1741  sawtooth_b = []
1742  for pr in range(0,fn.GetNpar(),2):
1743  sawtooth_a.append( (fn.GetParameter(pr), fn.GetParError(pr)) )
1744  sawtooth_b.append( (fn.GetParameter(pr+1), fn.GetParError(pr+1)) )
1745  sawtooth_da.append( (fn.Eval(ed[pr/2]+0.01), fn.Eval(ed[pr/2+1]-0.01)) )
1746  global MAP_RESULTS_SAWTOOTH
1747  MAP_RESULTS_SAWTOOTH[id] = {'a': sawtooth_a, 'da': sawtooth_da, 'b': sawtooth_b, 'chi2': fn.GetChisquare(), 'ndf': fn.GetNDF()}
1748 
1749  # fill number of contributiong bins
1750 
1751 
1752  #ROOT.SetOwnership(hist,False)
1753  ROOT.SetOwnership(hist2d,False)
1754  ROOT.SetOwnership(hist,False)
1755  ROOT.SetOwnership(tline1,False)
1756  ROOT.SetOwnership(tline2,False)
1757  ROOT.SetOwnership(tline3,False)
1758  return hist
1759 
1760 
def rlines(disk, window, abscissa)
Definition: plotscripts.py:455
def philines(name, window, abscissa)
Definition: plotscripts.py:392
T sqrt(T t)
Definition: SSEVec.h:18
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
def stationIndex(name)
Definition: plotscripts.py:353
def createPeaksProfile(the2d, rebin=1)
def mapNameToId(name)
def zlines(window, abscissa)
Definition: plotscripts.py:438
def set_palette(name=None, ncontours=999)
Definition: plotscripts.py:226
def idToPostalAddress(id)
Definition: plotscripts.py:861
def phiedges2c()
Definition: plotscripts.py:316
def plotscripts.mean (   xlist)

Definition at line 53 of file plotscripts.py.

Referenced by segdiffvsphi(), segdiffvsphi_xalign(), and segdiffvsphicsc().

53 def mean(xlist):
54  s, n = 0., 0.
55  for x in xlist:
56  s += x
57  n += 1.
58  return s/n
59 
def mean(xlist)
Definition: plotscripts.py:53
def plotscripts.nameToId (   name)

Definition at line 896 of file plotscripts.py.

896 def nameToId(name):
897  if name[0:2] == "MB":
898  wh = name[4]
899  if wh == "A": w = "-2"
900  elif wh == "B": w = "-1"
901  elif wh == "C": w = "-0"
902  elif wh == "D": w = "+1"
903  elif wh == "E": w = "+2"
904  else: return ""
905  station = name[7]
906  sector = name[11:13]
907  return "MB%s/%s/%s" % (w, station, sector)
908  elif name[0:2] == "ME":
909  if name[2]=="p": endcap = "+"
910  elif name[2]=="m": endcap = "-"
911  else: return ""
912  station = name[3]
913  ring = name[4]
914  chamber = name[6:8]
915  return "ME%s%s/%s/%s" % (endcap, station, ring, chamber)
916  return None
917 
918 
def nameToId(name)
Definition: plotscripts.py:896
def plotscripts.phiedges2c ( )

Definition at line 316 of file plotscripts.py.

References join(), and genParticles_cff.map.

Referenced by mapplot().

317  lines = []
318  for ed in phiedges[:]:
319  ed.sort()
320  #print ed
321  ed.extend([999 for n in range(0,37-len(ed))])
322  lines.append('{' + ', '.join(map(str, ed)) + '}')
323  #print lines
324  res = ', '.join(lines)
325  ff = open("phiedges_export.h",mode="w")
326  print>>ff,'double phiedges[14][37] = {' + res + '};'
327  ff.close()
328 
static std::string join(char **cmd)
Definition: RemoteFile.cc:18
def phiedges2c()
Definition: plotscripts.py:316
def plotscripts.philines (   name,
  window,
  abscissa 
)

Definition at line 392 of file plotscripts.py.

References stationIndex(), and ComparisonHelper.zip().

Referenced by mapplot().

392 def philines(name, window, abscissa):
393  global philine_tlines, philine_labels
394  philine_tlines = []
395  edges = phiedges[stationIndex(name)]
396  #print name, len(edges)
397  for phi in edges:
398  if abscissa is None or abscissa[0] < phi < abscissa[1]:
399  philine_tlines.append(ROOT.TLine(phi, -window, phi, window))
400  philine_tlines[-1].SetLineStyle(2)
401  philine_tlines[-1].Draw()
402  if "st" in name: # DT labels
403  philine_labels = []
404  edges = edges[:]
405  edges.sort()
406  if "st4" in name:
407  labels = [" 7", " 8", " 9", "14", "10", "11", "12", " 1", " 2", " 3", "13", " 4", " 5", " 6"]
408  else:
409  labels = [" 8", " 9", "10", "11", "12", " 1", " 2", " 3", " 4", " 5", " 6"]
410  edges = edges[1:]
411  for phi, label in zip(edges, labels):
412  littlebit = 0.
413  if label in (" 7", " 9", "14", "10", "11"): littlebit = 0.05
414  philine_labels.append(ROOT.TText(phi-0.35+littlebit, -0.9*window, label))
415  philine_labels[-1].Draw()
416  philine_labels.append(ROOT.TText(-2.9, -0.75*window, "Sector:"))
417  philine_labels[-1].Draw()
418  if "CSC" in name: # DT labels
419  philine_labels = []
420  edges = edges[:]
421  edges.sort()
422  labels = [" 1", " 2", " 3", " 4", " 5", " 6", " 7", " 8", " 9", "10", "11", "12", "13", "14", "15", "16", "17", "18",
423  "19", "20", "21", "22", "23", "24", "25", "26", "27", "28", "29", "30", "31", "32", "33", "34", "35", "36"]
424  #else:
425  # labels = [" 8", " 9", "10", "11", "12", " 1", " 2", " 3", " 4", " 5", " 6"]
426  # edges = edges[1:]
427  for phi, label in zip(edges, labels):
428  littlebit = 0.
429  #if label in (" 7", " 9", "14", "10", "11"): littlebit = 0.05
430  philine_labels.append(ROOT.TText(phi+littlebit, -0.9*window, label))
431  philine_labels[-1].SetTextFont(42)
432  philine_labels[-1].SetTextSize(0.028)
433  philine_labels[-1].Draw()
434  philine_labels.append(ROOT.TText(0, -0.78*window, "Chamber:"))
435  philine_labels[-1].SetTextSize(0.035)
436  philine_labels[-1].Draw()
437 
def philines(name, window, abscissa)
Definition: plotscripts.py:392
OutputIterator zip(InputIterator1 first1, InputIterator1 last1, InputIterator2 first2, InputIterator2 last2, OutputIterator result, Compare comp)
def stationIndex(name)
Definition: plotscripts.py:353
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 1246 of file plotscripts.py.

References corrVsCorr.selection.

Referenced by doTests().

1246  r1text=" before", r2text=" after", which="median"):
1247  tdrStyle.SetOptStat("emrou")
1248  tdrStyle.SetStatW(0.40)
1249  tdrStyle.SetStatFontSize(0.05)
1250 
1251  global hmediandxdz_after, hmediandxdz_before, hmediandxdz_beforecopy, \
1252  hmediandydz_after, hmediandydz_before, hmediandydz_beforecopy, \
1253  hmedianx_after, hmedianx_before, hmedianx_beforecopy, \
1254  hmediany_after, hmediany_before, hmediany_beforecopy, tlegend
1255 
1256  hmedianx_before = ROOT.TH1F("hmedianx_before", "", binsx, -windowx, windowx)
1257  hmediany_before = ROOT.TH1F("hmediany_before", "", binsy, -windowy, windowy)
1258  hmediandxdz_before = ROOT.TH1F("hmediandxdz_before", "", binsdxdz, -windowdxdz, windowdxdz)
1259  hmediandydz_before = ROOT.TH1F("hmediandydz_before", "", binsdydz, -windowdydz, windowdydz)
1260  hmedianx_after = ROOT.TH1F("hmedianx_after", "", binsx, -windowx, windowx)
1261  hmediany_after = ROOT.TH1F("hmediany_after", "", binsy, -windowy, windowy)
1262  hmediandxdz_after = ROOT.TH1F("hmediandxdz_after", "", binsdxdz, -windowdxdz, windowdxdz)
1263  hmediandydz_after = ROOT.TH1F("hmediandydz_after", "", binsdydz, -windowdydz, windowdydz)
1264 
1265  if which == "median":
1266  whichx = whichy = whichdxdz = whichdydz = "median"
1267  elif which == "bigmean":
1268  whichx = "mean30"
1269  whichy = "mean30"
1270  whichdxdz = "mean20"
1271  whichdydz = "mean50"
1272  elif which == "mean":
1273  whichx = "mean15"
1274  whichy = "mean15"
1275  whichdxdz = "mean10"
1276  whichdydz = "mean25"
1277  elif which == "bigwmean":
1278  whichx = "wmean30"
1279  whichy = "wmean30"
1280  whichdxdz = "wmean20"
1281  whichdydz = "wmean50"
1282  elif which == "wmean":
1283  whichx = "wmean15"
1284  whichy = "wmean15"
1285  whichdxdz = "wmean10"
1286  whichdydz = "wmean25"
1287  elif which == "bigstdev":
1288  whichx = "stdev30"
1289  whichy = "stdev30"
1290  whichdxdz = "stdev20"
1291  whichdydz = "stdev50"
1292  elif which == "stdev":
1293  whichx = "stdev15"
1294  whichy = "stdev15"
1295  whichdxdz = "stdev10"
1296  whichdydz = "stdev25"
1297  else:
1298  raise Exception(which + " not recognized")
1299 
1300  for r1 in reports1:
1301  if selection is None or (selection.__code__.co_argcount == len(r1.postal_address) and selection(*r1.postal_address)):
1302  found = False
1303  for r2 in reports2:
1304  if r1.postal_address == r2.postal_address:
1305  found = True
1306  break
1307  if not found: continue
1308 
1309  #skip ME1/1a
1310  if r1.postal_address[0]=='CSC':
1311  if r1.postal_address[2]==1 and r1.postal_address[3]==4: continue
1312 
1313  if r1.status == "PASS" and r2.status == "PASS":
1314  hmedianx_before.Fill(10.*eval("r1.%s_x" % whichx))
1315  hmediandxdz_before.Fill(1000.*eval("r1.%s_dxdz" % whichdxdz))
1316  hmedianx_after.Fill(10.*eval("r2.%s_x" % whichx))
1317  hmediandxdz_after.Fill(1000.*eval("r2.%s_dxdz" % whichdxdz))
1318 
1319  if r1.median_y is not None:
1320  hmediany_before.Fill(10.*eval("r1.%s_y" % whichy))
1321  hmediandydz_before.Fill(1000.*eval("r1.%s_dydz" % whichdydz))
1322  hmediany_after.Fill(10.*eval("r2.%s_y" % whichy))
1323  hmediandydz_after.Fill(1000.*eval("r2.%s_dydz" % whichdydz))
1324 
1325  hmedianx_beforecopy = hmedianx_before.Clone()
1326  hmediany_beforecopy = hmediany_before.Clone()
1327  hmediandxdz_beforecopy = hmediandxdz_before.Clone()
1328  hmediandydz_beforecopy = hmediandydz_before.Clone()
1329  hmedianx_beforecopy.SetLineStyle(2)
1330  hmediany_beforecopy.SetLineStyle(2)
1331  hmediandxdz_beforecopy.SetLineStyle(2)
1332  hmediandydz_beforecopy.SetLineStyle(2)
1333 
1334  hmedianx_before.SetFillColor(ROOT.kMagenta+2)
1335  hmediany_before.SetFillColor(ROOT.kMagenta+2)
1336  hmediandxdz_before.SetFillColor(ROOT.kMagenta+2)
1337  hmediandydz_before.SetFillColor(ROOT.kMagenta+2)
1338  hmedianx_after.SetFillColor(ROOT.kYellow)
1339  hmediany_after.SetFillColor(ROOT.kYellow)
1340  hmediandxdz_after.SetFillColor(ROOT.kYellow)
1341  hmediandydz_after.SetFillColor(ROOT.kYellow)
1342 
1343  hmedianx_after.SetXTitle("median(#Deltax) (mm)")
1344  hmediany_after.SetXTitle("median(#Deltay) (mm)")
1345  hmediandxdz_after.SetXTitle("median(#Deltadx/dz) (mrad)")
1346  hmediandydz_after.SetXTitle("median(#Deltadydz) (mrad)")
1347  hmedianx_after.GetXaxis().CenterTitle()
1348  hmediany_after.GetXaxis().CenterTitle()
1349  hmediandxdz_after.GetXaxis().CenterTitle()
1350  hmediandydz_after.GetXaxis().CenterTitle()
1351 
1352  if ceilingx is not None: hmedianx_after.SetAxisRange(0., ceilingx, "Y")
1353  if ceilingy is not None: hmediany_after.SetAxisRange(0., ceilingy, "Y")
1354  if ceilingdxdz is not None: hmediandxdz_after.SetAxisRange(0., ceilingdxdz, "Y")
1355  if ceilingdydz is not None: hmediandydz_after.SetAxisRange(0., ceilingdydz, "Y")
1356 
1357  c1.Clear()
1358  c1.Divide(2, 2)
1359 
1360  c1.GetPad(1).cd()
1361  hmedianx_after.Draw()
1362  hmedianx_before.Draw("same")
1363  hmedianx_after.Draw("same")
1364  hmedianx_beforecopy.Draw("same")
1365  hmedianx_after.Draw("axissame")
1366 
1367  tlegend = ROOT.TLegend(0.17, 0.75-0.05, 0.45+0.05, 0.9)
1368  tlegend.SetFillColor(ROOT.kWhite)
1369  tlegend.SetBorderSize(0)
1370  tlegend.AddEntry(hmedianx_after, r2text, "f")
1371  tlegend.AddEntry(hmedianx_before, r1text, "f")
1372  tlegend.Draw()
1373 
1374  c1.GetPad(2).cd()
1375  hmediandxdz_after.Draw()
1376  hmediandxdz_before.Draw("same")
1377  hmediandxdz_after.Draw("same")
1378  hmediandxdz_beforecopy.Draw("same")
1379  hmediandxdz_after.Draw("axissame")
1380 
1381  c1.GetPad(3).cd()
1382  hmediany_after.Draw()
1383  hmediany_before.Draw("same")
1384  hmediany_after.Draw("same")
1385  hmediany_beforecopy.Draw("same")
1386  hmediany_after.Draw("axissame")
1387 
1388  c1.GetPad(4).cd()
1389  hmediandydz_after.Draw()
1390  hmediandydz_before.Draw("same")
1391  hmediandydz_after.Draw("same")
1392  hmediandydz_beforecopy.Draw("same")
1393  hmediandydz_after.Draw("axissame")
1394 
1395  return hmediandxdz_after, hmediandxdz_before, hmediandxdz_beforecopy, \
1396  hmediandydz_after, hmediandydz_before, hmediandydz_beforecopy, \
1397  hmedianx_after, hmedianx_before, hmedianx_beforecopy, \
1398  hmediany_after, hmediany_before, hmediany_beforecopy, tlegend
1399 
1400 
selection
main part
Definition: corrVsCorr.py:98
def plotscripts.polynomials (   tfile,
  reports,
  name,
  twobin = True,
  suppressblue = False 
)

Definition at line 2272 of file plotscripts.py.

References getname().

Referenced by alignmentValidation.doFitFunctionsPlotsCSC(), and alignmentValidation.doFitFunctionsPlotsDT().

2272 def polynomials(tfile, reports, name, twobin=True, suppressblue=False):
2273  t1 = time.time()
2274  ddt[7] += 1
2275  global label1, label2, label3, label4, label5, label6, label7, label8, label9
2276  plotDirectory = "MuonAlignmentFromReference"
2277  tdrStyle.SetOptTitle(1)
2278  tdrStyle.SetTitleBorderSize(1)
2279  tdrStyle.SetTitleFontSize(0.1)
2280  tdrStyle.SetOptStat(0)
2281 
2282  c1.Clear()
2283  c1.ResetAttPad()
2284 
2285  found = False
2286  for r in reports:
2287  if r.name == name:
2288  found = True
2289  break
2290  if not found: raise Exception("Not a valid name")
2291 
2292  if r.status == "FAIL":
2293  #raise Exception, "Fit failed"
2294  print "Fit failed"
2295  c1.Clear()
2296  return
2297 
2298  Pos = "Pos"; Neg = "Neg"
2299  if not twobin:
2300  Pos = ""; Neg = ""
2301 
2302  pdirPos = "MuonAlignmentFromReference/%s%s" % (name, Pos)
2303  pdirNeg = "MuonAlignmentFromReference/%s%s" % (name, Neg)
2304 
2305  global chamber_x_trackx, chamber_x_trackx_fit, chamber_y_trackx, chamber_y_trackx_fit, \
2306  chamber_dxdz_trackx, chamber_dxdz_trackx_fit, chamber_dydz_trackx, chamber_dydz_trackx_fit, \
2307  chamber_x_trackx_fit2, chamber_y_trackx_fit2, chamber_dxdz_trackx_fit2, chamber_dydz_trackx_fit2
2308  global chamber_x_tracky, chamber_x_tracky_fit, chamber_y_tracky, chamber_y_tracky_fit, \
2309  chamber_dxdz_tracky, chamber_dxdz_tracky_fit, chamber_dydz_tracky, chamber_dydz_tracky_fit, \
2310  chamber_x_tracky_fit2, chamber_y_tracky_fit2, chamber_dxdz_tracky_fit2, chamber_dydz_tracky_fit2
2311  global chamber_x_trackdxdz, chamber_x_trackdxdz_fit, chamber_y_trackdxdz, chamber_y_trackdxdz_fit, \
2312  chamber_dxdz_trackdxdz, chamber_dxdz_trackdxdz_fit, chamber_dydz_trackdxdz, chamber_dydz_trackdxdz_fit, \
2313  chamber_x_trackdxdz_fit2, chamber_y_trackdxdz_fit2, chamber_dxdz_trackdxdz_fit2, chamber_dydz_trackdxdz_fit2
2314  global chamber_x_trackdydz, chamber_x_trackdydz_fit, chamber_y_trackdydz, chamber_y_trackdydz_fit, \
2315  chamber_dxdz_trackdydz, chamber_dxdz_trackdydz_fit, chamber_dydz_trackdydz, chamber_dydz_trackdydz_fit, \
2316  chamber_x_trackdydz_fit2, chamber_y_trackdydz_fit2, chamber_dxdz_trackdydz_fit2, chamber_dydz_trackdydz_fit2
2317 
2318  chamber_x_trackx = tfile.Get(pdirPos+"_x_trackx")
2319  chamber_x_trackx_fit = tfile.Get(pdirPos+"_x_trackx_fitline")
2320  chamber_y_trackx = tfile.Get(pdirPos+"_y_trackx")
2321  chamber_y_trackx_fit = tfile.Get(pdirPos+"_y_trackx_fitline")
2322  chamber_dxdz_trackx = tfile.Get(pdirPos+"_dxdz_trackx")
2323  chamber_dxdz_trackx_fit = tfile.Get(pdirPos+"_dxdz_trackx_fitline")
2324  chamber_dydz_trackx = tfile.Get(pdirPos+"_dydz_trackx")
2325  chamber_dydz_trackx_fit = tfile.Get(pdirPos+"_dydz_trackx_fitline")
2326  chamber_x_trackx_fit2 = tfile.Get(pdirNeg+"_x_trackx_fitline")
2327  chamber_y_trackx_fit2 = tfile.Get(pdirNeg+"_y_trackx_fitline")
2328  chamber_dxdz_trackx_fit2 = tfile.Get(pdirNeg+"_dxdz_trackx_fitline")
2329  chamber_dydz_trackx_fit2 = tfile.Get(pdirNeg+"_dydz_trackx_fitline")
2330 
2331  chamber_x_tracky = tfile.Get(pdirPos+"_x_tracky")
2332  chamber_x_tracky_fit = tfile.Get(pdirPos+"_x_tracky_fitline")
2333  chamber_y_tracky = tfile.Get(pdirPos+"_y_tracky")
2334  chamber_y_tracky_fit = tfile.Get(pdirPos+"_y_tracky_fitline")
2335  chamber_dxdz_tracky = tfile.Get(pdirPos+"_dxdz_tracky")
2336  chamber_dxdz_tracky_fit = tfile.Get(pdirPos+"_dxdz_tracky_fitline")
2337  chamber_dydz_tracky = tfile.Get(pdirPos+"_dydz_tracky")
2338  chamber_dydz_tracky_fit = tfile.Get(pdirPos+"_dydz_tracky_fitline")
2339  chamber_x_tracky_fit2 = tfile.Get(pdirNeg+"_x_tracky_fitline")
2340  chamber_y_tracky_fit2 = tfile.Get(pdirNeg+"_y_tracky_fitline")
2341  chamber_dxdz_tracky_fit2 = tfile.Get(pdirNeg+"_dxdz_tracky_fitline")
2342  chamber_dydz_tracky_fit2 = tfile.Get(pdirNeg+"_dydz_tracky_fitline")
2343 
2344  chamber_x_trackdxdz = tfile.Get(pdirPos+"_x_trackdxdz")
2345  chamber_x_trackdxdz_fit = tfile.Get(pdirPos+"_x_trackdxdz_fitline")
2346  chamber_y_trackdxdz = tfile.Get(pdirPos+"_y_trackdxdz")
2347  chamber_y_trackdxdz_fit = tfile.Get(pdirPos+"_y_trackdxdz_fitline")
2348  chamber_dxdz_trackdxdz = tfile.Get(pdirPos+"_dxdz_trackdxdz")
2349  chamber_dxdz_trackdxdz_fit = tfile.Get(pdirPos+"_dxdz_trackdxdz_fitline")
2350  chamber_dydz_trackdxdz = tfile.Get(pdirPos+"_dydz_trackdxdz")
2351  chamber_dydz_trackdxdz_fit = tfile.Get(pdirPos+"_dydz_trackdxdz_fitline")
2352  chamber_x_trackdxdz_fit2 = tfile.Get(pdirNeg+"_x_trackdxdz_fitline")
2353  chamber_y_trackdxdz_fit2 = tfile.Get(pdirNeg+"_y_trackdxdz_fitline")
2354  chamber_dxdz_trackdxdz_fit2 = tfile.Get(pdirNeg+"_dxdz_trackdxdz_fitline")
2355  chamber_dydz_trackdxdz_fit2 = tfile.Get(pdirNeg+"_dydz_trackdxdz_fitline")
2356 
2357  chamber_x_trackdydz = tfile.Get(pdirPos+"_x_trackdydz")
2358  chamber_x_trackdydz_fit = tfile.Get(pdirPos+"_x_trackdydz_fitline")
2359  chamber_y_trackdydz = tfile.Get(pdirPos+"_y_trackdydz")
2360  chamber_y_trackdydz_fit = tfile.Get(pdirPos+"_y_trackdydz_fitline")
2361  chamber_dxdz_trackdydz = tfile.Get(pdirPos+"_dxdz_trackdydz")
2362  chamber_dxdz_trackdydz_fit = tfile.Get(pdirPos+"_dxdz_trackdydz_fitline")
2363  chamber_dydz_trackdydz = tfile.Get(pdirPos+"_dydz_trackdydz")
2364  chamber_dydz_trackdydz_fit = tfile.Get(pdirPos+"_dydz_trackdydz_fitline")
2365  chamber_x_trackdydz_fit2 = tfile.Get(pdirNeg+"_x_trackdydz_fitline")
2366  chamber_y_trackdydz_fit2 = tfile.Get(pdirNeg+"_y_trackdydz_fitline")
2367  chamber_dxdz_trackdydz_fit2 = tfile.Get(pdirNeg+"_dxdz_trackdydz_fitline")
2368  chamber_dydz_trackdydz_fit2 = tfile.Get(pdirNeg+"_dydz_trackdydz_fitline")
2369 
2370  if not chamber_x_trackx:
2371  chamber_x_trackx = tfile.Get(pdirPos+"_residual_trackx")
2372  chamber_x_trackx_fit = tfile.Get(pdirPos+"_residual_trackx_fitline")
2373  chamber_dxdz_trackx = tfile.Get(pdirPos+"_resslope_trackx")
2374  chamber_dxdz_trackx_fit = tfile.Get(pdirPos+"_resslope_trackx_fitline")
2375  chamber_x_trackx_fit2 = tfile.Get(pdirNeg+"_residual_trackx_fitline")
2376  chamber_dxdz_trackx_fit2 = tfile.Get(pdirNeg+"_resslope_trackx_fitline")
2377 
2378  chamber_x_tracky = tfile.Get(pdirPos+"_residual_tracky")
2379  chamber_x_tracky_fit = tfile.Get(pdirPos+"_residual_tracky_fitline")
2380  chamber_dxdz_tracky = tfile.Get(pdirPos+"_resslope_tracky")
2381  chamber_dxdz_tracky_fit = tfile.Get(pdirPos+"_resslope_tracky_fitline")
2382  chamber_x_tracky_fit2 = tfile.Get(pdirNeg+"_residual_tracky_fitline")
2383  chamber_dxdz_tracky_fit2 = tfile.Get(pdirNeg+"_resslope_tracky_fitline")
2384 
2385  chamber_x_trackdxdz = tfile.Get(pdirPos+"_residual_trackdxdz")
2386  chamber_x_trackdxdz_fit = tfile.Get(pdirPos+"_residual_trackdxdz_fitline")
2387  chamber_dxdz_trackdxdz = tfile.Get(pdirPos+"_resslope_trackdxdz")
2388  chamber_dxdz_trackdxdz_fit = tfile.Get(pdirPos+"_resslope_trackdxdz_fitline")
2389  chamber_x_trackdxdz_fit2 = tfile.Get(pdirNeg+"_residual_trackdxdz_fitline")
2390  chamber_dxdz_trackdxdz_fit2 = tfile.Get(pdirNeg+"_resslope_trackdxdz_fitline")
2391 
2392  chamber_x_trackdydz = tfile.Get(pdirPos+"_residual_trackdydz")
2393  chamber_x_trackdydz_fit = tfile.Get(pdirPos+"_residual_trackdydz_fitline")
2394  chamber_dxdz_trackdydz = tfile.Get(pdirPos+"_resslope_trackdydz")
2395  chamber_dxdz_trackdydz_fit = tfile.Get(pdirPos+"_resslope_trackdydz_fitline")
2396  chamber_x_trackdydz_fit2 = tfile.Get(pdirNeg+"_residual_trackdydz_fitline")
2397  chamber_dxdz_trackdydz_fit2 = tfile.Get(pdirNeg+"_resslope_trackdydz_fitline")
2398 
2399  if not chamber_x_trackx:
2400  print "Can't find neither "+pdirPos+"_residual nor "+pdirPos+"_residual_trackx"
2401  return
2402 
2403  chamber_x_trackx = chamber_x_trackx.Clone()
2404  chamber_dxdz_trackx = chamber_dxdz_trackx.Clone()
2405  chamber_x_tracky = chamber_x_tracky.Clone()
2406  chamber_dxdz_tracky = chamber_dxdz_tracky.Clone()
2407  chamber_x_trackdxdz = chamber_x_trackdxdz.Clone()
2408  chamber_dxdz_trackdxdz = chamber_dxdz_trackdxdz.Clone()
2409  chamber_x_trackdydz = chamber_x_trackdydz.Clone()
2410  chamber_dxdz_trackdydz = chamber_dxdz_trackdydz.Clone()
2411 
2412  if not not chamber_y_trackx:
2413  chamber_y_trackx = chamber_y_trackx.Clone()
2414  chamber_dydz_trackx = chamber_dydz_trackx.Clone()
2415  chamber_y_tracky = chamber_y_tracky.Clone()
2416  chamber_dydz_tracky = chamber_dydz_tracky.Clone()
2417  chamber_y_trackdxdz = chamber_y_trackdxdz.Clone()
2418  chamber_dydz_trackdxdz = chamber_dydz_trackdxdz.Clone()
2419  chamber_y_trackdydz = chamber_y_trackdydz.Clone()
2420  chamber_dydz_trackdydz = chamber_dydz_trackdydz.Clone()
2421 
2422  if not not chamber_y_trackx:
2423  tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_x_trackx")); chamber_x_trackx.Merge(tlist)
2424  tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_dxdz_trackx")); chamber_dxdz_trackx.Merge(tlist)
2425  tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_x_tracky")); chamber_x_tracky.Merge(tlist)
2426  tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_dxdz_tracky")); chamber_dxdz_tracky.Merge(tlist)
2427  tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_x_trackdxdz")); chamber_x_trackdxdz.Merge(tlist)
2428  tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_dxdz_trackdxdz")); chamber_dxdz_trackdxdz.Merge(tlist)
2429  tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_x_trackdydz")); chamber_x_trackdydz.Merge(tlist)
2430  tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_dxdz_trackdydz")); chamber_dxdz_trackdydz.Merge(tlist)
2431  tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_y_trackx")); chamber_y_trackx.Merge(tlist)
2432  tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_dydz_trackx")); chamber_dydz_trackx.Merge(tlist)
2433  tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_y_tracky")); chamber_y_tracky.Merge(tlist)
2434  tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_dydz_tracky")); chamber_dydz_tracky.Merge(tlist)
2435  tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_y_trackdxdz")); chamber_y_trackdxdz.Merge(tlist)
2436  tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_dydz_trackdxdz")); chamber_dydz_trackdxdz.Merge(tlist)
2437  tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_y_trackdydz")); chamber_y_trackdydz.Merge(tlist)
2438  tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_dydz_trackdydz")); chamber_dydz_trackdydz.Merge(tlist)
2439  else:
2440  tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_residual_trackx")); chamber_x_trackx.Merge(tlist)
2441  tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_resslope_trackx")); chamber_dxdz_trackx.Merge(tlist)
2442  tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_residual_tracky")); chamber_x_tracky.Merge(tlist)
2443  tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_resslope_tracky")); chamber_dxdz_tracky.Merge(tlist)
2444  tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_residual_trackdxdz")); chamber_x_trackdxdz.Merge(tlist)
2445  tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_resslope_trackdxdz")); chamber_dxdz_trackdxdz.Merge(tlist)
2446  tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_residual_trackdydz")); chamber_x_trackdydz.Merge(tlist)
2447  tlist = ROOT.TList(); tlist.Add(tfile.Get(pdirNeg+"_resslope_trackdydz")); chamber_dxdz_trackdydz.Merge(tlist)
2448 
2449  rr1=10.
2450  rr2=10.
2451  chamber_x_trackx.SetAxisRange(-rr1, rr1, "Y")
2452  chamber_dxdz_trackx.SetAxisRange(-rr2, rr2, "Y")
2453  chamber_x_tracky.SetAxisRange(-rr1, rr1, "Y")
2454  chamber_dxdz_tracky.SetAxisRange(-rr2, rr2, "Y")
2455  chamber_x_trackdxdz.SetAxisRange(-rr1, rr1, "Y")
2456  chamber_dxdz_trackdxdz.SetAxisRange(-rr2, rr2, "Y")
2457  chamber_x_trackdydz.SetAxisRange(-rr1, rr1, "Y")
2458  chamber_dxdz_trackdydz.SetAxisRange(-rr2, rr2, "Y")
2459 
2460  rr3=10.
2461  if not not chamber_y_trackx:
2462  chamber_y_trackx.SetAxisRange(-rr3, rr3, "Y")
2463  chamber_dydz_trackx.SetAxisRange(-rr3, rr3, "Y")
2464  chamber_y_tracky.SetAxisRange(-rr3, rr3, "Y")
2465  chamber_dydz_tracky.SetAxisRange(-rr3, rr3, "Y")
2466  chamber_y_trackdxdz.SetAxisRange(-rr3, rr3, "Y")
2467  chamber_dydz_trackdxdz.SetAxisRange(-rr3, rr3, "Y")
2468  chamber_y_trackdydz.SetAxisRange(-rr3, rr3, "Y")
2469  chamber_dydz_trackdydz.SetAxisRange(-rr3, rr3, "Y")
2470 
2471  for h in chamber_x_trackx, chamber_y_trackx, chamber_dxdz_trackx, chamber_dydz_trackx, \
2472  chamber_x_tracky, chamber_y_tracky, chamber_dxdz_tracky, chamber_dydz_tracky, \
2473  chamber_x_trackdxdz, chamber_y_trackdxdz, chamber_dxdz_trackdxdz, chamber_dydz_trackdxdz, \
2474  chamber_x_trackdydz, chamber_y_trackdydz, chamber_dxdz_trackdydz, chamber_dydz_trackdydz:
2475  if not not h:
2476  h.SetMarkerStyle(20)
2477  h.SetMarkerSize(0.5)
2478  h.GetXaxis().SetLabelSize(0.12)
2479  h.GetYaxis().SetLabelSize(0.12)
2480  h.GetXaxis().SetNdivisions(505)
2481  h.GetYaxis().SetNdivisions(505)
2482  h.GetXaxis().SetLabelOffset(0.03)
2483  h.GetYaxis().SetLabelOffset(0.03)
2484 
2485  trackdxdz_minimum, trackdxdz_maximum = None, None
2486  for h in chamber_x_trackdxdz, chamber_y_trackdxdz, chamber_dxdz_trackdxdz, chamber_dydz_trackdxdz:
2487  if not not h:
2488  for i in xrange(1, h.GetNbinsX()+1):
2489  if h.GetBinError(i) > 0.01 and h.GetBinContent(i) - h.GetBinError(i) < 10. and \
2490  h.GetBinContent(i) + h.GetBinError(i) > -10.:
2491  if not trackdxdz_minimum or trackdxdz_minimum > h.GetBinCenter(i):
2492  trackdxdz_minimum = h.GetBinCenter(i)
2493  if trackdxdz_maximum < h.GetBinCenter(i):
2494  trackdxdz_maximum = h.GetBinCenter(i)
2495  if not not trackdxdz_minimum and not not trackdxdz_maximum:
2496  for h in chamber_x_trackdxdz, chamber_y_trackdxdz, chamber_dxdz_trackdxdz, chamber_dydz_trackdxdz:
2497  if not not h:
2498  h.SetAxisRange(trackdxdz_minimum, trackdxdz_maximum, "X")
2499 
2500  trackdydz_minimum, trackdydz_maximum = None, None
2501  for h in chamber_x_trackdydz, chamber_y_trackdydz, chamber_dxdz_trackdydz, chamber_dydz_trackdydz:
2502  if not not h:
2503  for i in xrange(1, h.GetNbinsX()+1):
2504  if h.GetBinError(i) > 0.01 and h.GetBinContent(i) - h.GetBinError(i) < 10. and \
2505  h.GetBinContent(i) + h.GetBinError(i) > -10.:
2506  if not trackdydz_minimum or trackdydz_minimum > h.GetBinCenter(i):
2507  trackdydz_minimum = h.GetBinCenter(i)
2508  if trackdydz_maximum < h.GetBinCenter(i):
2509  trackdydz_maximum = h.GetBinCenter(i)
2510  if not not trackdydz_minimum and not not trackdydz_maximum:
2511  for h in chamber_x_trackdydz, chamber_y_trackdydz, chamber_dxdz_trackdydz, chamber_dydz_trackdydz:
2512  if not not h:
2513  h.SetAxisRange(trackdydz_minimum, trackdydz_maximum, "X")
2514 
2515  for f in chamber_x_trackx_fit2, chamber_y_trackx_fit2, chamber_dxdz_trackx_fit2, chamber_dydz_trackx_fit2, \
2516  chamber_x_tracky_fit2, chamber_y_tracky_fit2, chamber_dxdz_tracky_fit2, chamber_dydz_tracky_fit2, \
2517  chamber_x_trackdxdz_fit2, chamber_y_trackdxdz_fit2, chamber_dxdz_trackdxdz_fit2, chamber_dydz_trackdxdz_fit2, \
2518  chamber_x_trackdydz_fit2, chamber_y_trackdydz_fit2, chamber_dxdz_trackdydz_fit2, chamber_dydz_trackdydz_fit2:
2519  if not not f:
2520  f.SetLineColor(4)
2521 
2522  if not not chamber_y_trackx:
2523  c1.Clear()
2524  #c1.Divide(5, 5, 1e-5, 1e-5)
2525  pads = [None]
2526  pads.append(ROOT.TPad("p1" ,"",0.00,0.78,0.07,1.00,0,0,0))
2527  pads.append(ROOT.TPad("p2" ,"",0.07,0.78,0.34,1.00,0,0,0))
2528  pads.append(ROOT.TPad("p3" ,"",0.34,0.78,0.56,1.00,0,0,0))
2529  pads.append(ROOT.TPad("p4" ,"",0.56,0.78,0.78,1.00,0,0,0))
2530  pads.append(ROOT.TPad("p5" ,"",0.78,0.78,1.00,1.00,0,0,0))
2531  pads.append(ROOT.TPad("p6" ,"",0.00,0.56,0.07,0.78,0,0,0))
2532  pads.append(ROOT.TPad("p7" ,"",0.07,0.56,0.34,0.78,0,0,0))
2533  pads.append(ROOT.TPad("p8" ,"",0.34,0.56,0.56,0.78,0,0,0))
2534  pads.append(ROOT.TPad("p9" ,"",0.56,0.56,0.78,0.78,0,0,0))
2535  pads.append(ROOT.TPad("p10","",0.78,0.56,1.00,0.78,0,0,0))
2536  pads.append(ROOT.TPad("p11","",0.00,0.34,0.07,0.56,0,0,0))
2537  pads.append(ROOT.TPad("p12","",0.07,0.34,0.34,0.56,0,0,0))
2538  pads.append(ROOT.TPad("p13","",0.34,0.34,0.56,0.56,0,0,0))
2539  pads.append(ROOT.TPad("p14","",0.56,0.34,0.78,0.56,0,0,0))
2540  pads.append(ROOT.TPad("p15","",0.78,0.34,1.00,0.56,0,0,0))
2541  pads.append(ROOT.TPad("p16","",0.00,0.07,0.07,0.34,0,0,0))
2542  pads.append(ROOT.TPad("p17","",0.07,0.07,0.34,0.34,0,0,0))
2543  pads.append(ROOT.TPad("p18","",0.34,0.07,0.56,0.34,0,0,0))
2544  pads.append(ROOT.TPad("p19","",0.56,0.07,0.78,0.34,0,0,0))
2545  pads.append(ROOT.TPad("p20","",0.78,0.07,1.00,0.34,0,0,0))
2546  pads.append(ROOT.TPad("p21","",0.00,0.00,0.07,0.07,0,0,0))
2547  pads.append(ROOT.TPad("p22","",0.07,0.00,0.34,0.07,0,0,0))
2548  pads.append(ROOT.TPad("p23","",0.34,0.00,0.56,0.07,0,0,0))
2549  pads.append(ROOT.TPad("p24","",0.56,0.00,0.78,0.07,0,0,0))
2550  pads.append(ROOT.TPad("p25","",0.78,0.00,1.00,0.07,0,0,0))
2551  for p in pads:
2552  if not not p:
2553  p.Draw()
2554  ROOT.SetOwnership(p,False)
2555 
2556  label1 = ROOT.TPaveLabel(0, 0, 1, 1, "x residuals (mm)","")
2557  label2 = ROOT.TPaveLabel(0, 0, 1, 1, "y residuals (mm)","")
2558  label3 = ROOT.TPaveLabel(0, 0, 1, 1, "dx/dz residuals (mrad)","")
2559  label4 = ROOT.TPaveLabel(0, 0, 1, 1, "dy/dz residuals (mrad)","")
2560  label5 = ROOT.TPaveLabel(0, 0, 1, 1, "x position (cm)","")
2561  label6 = ROOT.TPaveLabel(0, 0, 1, 1, "y position (cm)","")
2562  label7 = ROOT.TPaveLabel(0, 0, 1, 1, "dx/dz angle (rad)","")
2563  label8 = ROOT.TPaveLabel(0, 0, 1, 1, "dy/dz angle (rad)","")
2564  label9 = ROOT.TPaveLabel(0, 0.85, 1, 1, getname(r),"NDC")
2565 
2566  for l in label1, label2, label3, label4, label5, label6, label7, label8, label9:
2567  l.SetBorderSize(0)
2568  l.SetFillColor(ROOT.kWhite)
2569 
2570  for l in label1, label2, label3, label4:
2571  l.SetTextAngle(90)
2572  l.SetTextSize(0.09)
2573 
2574  #label9.SetTextAngle(30)
2575  label9.SetTextSize(0.59)
2576 
2577  pads[1].cd(); label1.Draw()
2578  pads[6].cd(); label2.Draw()
2579  pads[11].cd(); label3.Draw()
2580  pads[16].cd(); label4.Draw()
2581  pads[22].cd(); label5.Draw()
2582  pads[23].cd(); label6.Draw()
2583  pads[24].cd(); label7.Draw()
2584  pads[25].cd(); label8.Draw()
2585 
2586  pads[2].SetRightMargin(1e-5)
2587  pads[2].SetBottomMargin(1e-5)
2588  pads[2].SetLeftMargin(0.17)
2589  pads[3].SetLeftMargin(1e-5)
2590  pads[3].SetRightMargin(1e-5)
2591  pads[3].SetBottomMargin(1e-5)
2592  pads[4].SetLeftMargin(1e-5)
2593  pads[4].SetRightMargin(1e-5)
2594  pads[4].SetBottomMargin(1e-5)
2595  pads[5].SetLeftMargin(1e-5)
2596  pads[5].SetBottomMargin(1e-5)
2597 
2598  pads[7].SetRightMargin(1e-5)
2599  pads[7].SetBottomMargin(1e-5)
2600  pads[7].SetTopMargin(1e-5)
2601  pads[7].SetLeftMargin(0.17)
2602  pads[8].SetLeftMargin(1e-5)
2603  pads[8].SetRightMargin(1e-5)
2604  pads[8].SetBottomMargin(1e-5)
2605  pads[8].SetTopMargin(1e-5)
2606  pads[9].SetLeftMargin(1e-5)
2607  pads[9].SetRightMargin(1e-5)
2608  pads[9].SetBottomMargin(1e-5)
2609  pads[9].SetTopMargin(1e-5)
2610  pads[10].SetLeftMargin(1e-5)
2611  pads[10].SetBottomMargin(1e-5)
2612  pads[10].SetTopMargin(1e-5)
2613 
2614  pads[12].SetRightMargin(1e-5)
2615  pads[12].SetBottomMargin(1e-5)
2616  pads[12].SetTopMargin(1e-5)
2617  pads[12].SetLeftMargin(0.17)
2618  pads[13].SetLeftMargin(1e-5)
2619  pads[13].SetRightMargin(1e-5)
2620  pads[13].SetBottomMargin(1e-5)
2621  pads[13].SetTopMargin(1e-5)
2622  pads[14].SetLeftMargin(1e-5)
2623  pads[14].SetRightMargin(1e-5)
2624  pads[14].SetBottomMargin(1e-5)
2625  pads[14].SetTopMargin(1e-5)
2626  pads[15].SetLeftMargin(1e-5)
2627  pads[15].SetBottomMargin(1e-5)
2628  pads[15].SetTopMargin(1e-5)
2629 
2630  pads[17].SetRightMargin(1e-5)
2631  pads[17].SetTopMargin(1e-5)
2632  pads[17].SetLeftMargin(0.17)
2633  pads[18].SetLeftMargin(1e-5)
2634  pads[18].SetRightMargin(1e-5)
2635  pads[18].SetTopMargin(1e-5)
2636  pads[19].SetLeftMargin(1e-5)
2637  pads[19].SetRightMargin(1e-5)
2638  pads[19].SetTopMargin(1e-5)
2639  pads[20].SetLeftMargin(1e-5)
2640  pads[20].SetTopMargin(1e-5)
2641 
2642  chamber_x_trackx.GetXaxis().SetLabelColor(ROOT.kWhite)
2643  chamber_x_tracky.GetXaxis().SetLabelColor(ROOT.kWhite)
2644  chamber_x_tracky.GetYaxis().SetLabelColor(ROOT.kWhite)
2645  chamber_x_trackdxdz.GetXaxis().SetLabelColor(ROOT.kWhite)
2646  chamber_x_trackdxdz.GetYaxis().SetLabelColor(ROOT.kWhite)
2647  chamber_x_trackdydz.GetXaxis().SetLabelColor(ROOT.kWhite)
2648  chamber_x_trackdydz.GetYaxis().SetLabelColor(ROOT.kWhite)
2649  chamber_y_trackx.GetXaxis().SetLabelColor(ROOT.kWhite)
2650  chamber_y_tracky.GetXaxis().SetLabelColor(ROOT.kWhite)
2651  chamber_y_tracky.GetYaxis().SetLabelColor(ROOT.kWhite)
2652  chamber_y_trackdxdz.GetXaxis().SetLabelColor(ROOT.kWhite)
2653  chamber_y_trackdxdz.GetYaxis().SetLabelColor(ROOT.kWhite)
2654  chamber_y_trackdydz.GetXaxis().SetLabelColor(ROOT.kWhite)
2655  chamber_y_trackdydz.GetYaxis().SetLabelColor(ROOT.kWhite)
2656  chamber_dxdz_trackx.GetXaxis().SetLabelColor(ROOT.kWhite)
2657  chamber_dxdz_tracky.GetXaxis().SetLabelColor(ROOT.kWhite)
2658  chamber_dxdz_tracky.GetYaxis().SetLabelColor(ROOT.kWhite)
2659  chamber_dxdz_trackdxdz.GetXaxis().SetLabelColor(ROOT.kWhite)
2660  chamber_dxdz_trackdxdz.GetYaxis().SetLabelColor(ROOT.kWhite)
2661  chamber_dxdz_trackdydz.GetXaxis().SetLabelColor(ROOT.kWhite)
2662  chamber_dxdz_trackdydz.GetYaxis().SetLabelColor(ROOT.kWhite)
2663 
2664  # chamber_dydz_trackx
2665  chamber_dydz_tracky.GetYaxis().SetLabelColor(ROOT.kWhite)
2666  chamber_dydz_trackdxdz.GetYaxis().SetLabelColor(ROOT.kWhite)
2667  chamber_dydz_trackdydz.GetYaxis().SetLabelColor(ROOT.kWhite)
2668 
2669  pads[2].cd()
2670  chamber_x_trackx.Draw("e1")
2671  if not suppressblue: chamber_x_trackx_fit2.Draw("samel")
2672  chamber_x_trackx_fit.Draw("samel")
2673  #label99 = ROOT.TPaveLabel(0, 0.8, 1, 1, getname(r),"NDC")
2674  print getname(r)
2675  #label99 = ROOT.TPaveLabel(0, 0.8, 1, 1, "aaa","NDC")
2676  label9.Draw()
2677  #pads[2].Modified()
2678 
2679  pads[3].cd()
2680  chamber_x_tracky.Draw("e1")
2681  if not suppressblue: chamber_x_tracky_fit2.Draw("samel")
2682  chamber_x_tracky_fit.Draw("samel")
2683 
2684  pads[4].cd()
2685  chamber_x_trackdxdz.Draw("e1")
2686  if not suppressblue: chamber_x_trackdxdz_fit2.Draw("samel")
2687  chamber_x_trackdxdz_fit.Draw("samel")
2688 
2689  pads[5].cd()
2690  chamber_x_trackdydz.Draw("e1")
2691  if not suppressblue: chamber_x_trackdydz_fit2.Draw("samel")
2692  chamber_x_trackdydz_fit.Draw("samel")
2693 
2694  pads[7].cd()
2695  chamber_y_trackx.Draw("e1")
2696  if not suppressblue: chamber_y_trackx_fit2.Draw("samel")
2697  chamber_y_trackx_fit.Draw("samel")
2698 
2699  pads[8].cd()
2700  chamber_y_tracky.Draw("e1")
2701  if not suppressblue: chamber_y_tracky_fit2.Draw("samel")
2702  chamber_y_tracky_fit.Draw("samel")
2703 
2704  pads[9].cd()
2705  chamber_y_trackdxdz.Draw("e1")
2706  if not suppressblue: chamber_y_trackdxdz_fit2.Draw("samel")
2707  chamber_y_trackdxdz_fit.Draw("samel")
2708 
2709  pads[10].cd()
2710  chamber_y_trackdydz.Draw("e1")
2711  if not suppressblue: chamber_y_trackdydz_fit2.Draw("samel")
2712  chamber_y_trackdydz_fit.Draw("samel")
2713 
2714  pads[12].cd()
2715  chamber_dxdz_trackx.Draw("e1")
2716  if not suppressblue: chamber_dxdz_trackx_fit2.Draw("samel")
2717  chamber_dxdz_trackx_fit.Draw("samel")
2718 
2719  pads[13].cd()
2720  chamber_dxdz_tracky.Draw("e1")
2721  if not suppressblue: chamber_dxdz_tracky_fit2.Draw("samel")
2722  chamber_dxdz_tracky_fit.Draw("samel")
2723 
2724  pads[14].cd()
2725  chamber_dxdz_trackdxdz.Draw("e1")
2726  if not suppressblue: chamber_dxdz_trackdxdz_fit2.Draw("samel")
2727  chamber_dxdz_trackdxdz_fit.Draw("samel")
2728 
2729  pads[15].cd()
2730  chamber_dxdz_trackdydz.Draw("e1")
2731  if not suppressblue: chamber_dxdz_trackdydz_fit2.Draw("samel")
2732  chamber_dxdz_trackdydz_fit.Draw("samel")
2733 
2734  pads[17].cd()
2735  chamber_dydz_trackx.Draw("e1")
2736  if not suppressblue: chamber_dydz_trackx_fit2.Draw("samel")
2737  chamber_dydz_trackx_fit.Draw("samel")
2738 
2739  pads[18].cd()
2740  chamber_dydz_tracky.Draw("e1")
2741  if not suppressblue: chamber_dydz_tracky_fit2.Draw("samel")
2742  chamber_dydz_tracky_fit.Draw("samel")
2743 
2744  pads[19].cd()
2745  chamber_dydz_trackdxdz.Draw("e1")
2746  if not suppressblue: chamber_dydz_trackdxdz_fit2.Draw("samel")
2747  chamber_dydz_trackdxdz_fit.Draw("samel")
2748 
2749  pads[20].cd()
2750  chamber_dydz_trackdydz.Draw("e1")
2751  if not suppressblue: chamber_dydz_trackdydz_fit2.Draw("samel")
2752  chamber_dydz_trackdydz_fit.Draw("samel")
2753 
2754  else:
2755  c1.Clear()
2756  #c1.Divide(5, 3, 1e-5, 1e-5)
2757  pads = [None]
2758  pads.append(ROOT.TPad("p1" ,"",0.00,0.55,0.07,1.00,0,0,0))
2759  pads.append(ROOT.TPad("p2" ,"",0.07,0.55,0.34,1.00,0,0,0))
2760  pads.append(ROOT.TPad("p3" ,"",0.34,0.55,0.56,1.00,0,0,0))
2761  pads.append(ROOT.TPad("p4" ,"",0.56,0.55,0.78,1.00,0,0,0))
2762  pads.append(ROOT.TPad("p5" ,"",0.78,0.55,1.00,1.00,0,0,0))
2763  pads.append(ROOT.TPad("p6" ,"",0.00,0.1,0.07,0.55,0,0,0))
2764  pads.append(ROOT.TPad("p7" ,"",0.07,0.1,0.34,0.55,0,0,0))
2765  pads.append(ROOT.TPad("p8" ,"",0.34,0.1,0.56,0.55,0,0,0))
2766  pads.append(ROOT.TPad("p9" ,"",0.56,0.1,0.78,0.55,0,0,0))
2767  pads.append(ROOT.TPad("p10","",0.78,0.1,1.00,0.55,0,0,0))
2768  pads.append(ROOT.TPad("p11","",0.00,0.,0.07,0.1,0,0,0))
2769  pads.append(ROOT.TPad("p12","",0.07,0.,0.34,0.1,0,0,0))
2770  pads.append(ROOT.TPad("p13","",0.34,0.,0.56,0.1,0,0,0))
2771  pads.append(ROOT.TPad("p14","",0.56,0.,0.78,0.1,0,0,0))
2772  pads.append(ROOT.TPad("p15","",0.78,0.,1.00,0.1,0,0,0))
2773  for p in pads:
2774  if not not p:
2775  p.Draw()
2776  ROOT.SetOwnership(p,False)
2777 
2778  label1 = ROOT.TPaveLabel(0, 0, 1, 1, "x residuals (mm)")
2779  label2 = ROOT.TPaveLabel(0, 0, 1, 1, "dx/dz residuals (mrad)")
2780  label3 = ROOT.TPaveLabel(0, 0.3, 1, 1, "x position (cm)")
2781  label4 = ROOT.TPaveLabel(0, 0.3, 1, 1, "y position (cm)")
2782  label5 = ROOT.TPaveLabel(0, 0.3, 1, 1, "dx/dz angle (rad)")
2783  label6 = ROOT.TPaveLabel(0, 0.3, 1, 1, "dy/dz angle (rad)")
2784  label9 = ROOT.TPaveLabel(0, 0.85, 1, 1, getname(r),"NDC")
2785 
2786  if name[0:2] == "ME":
2787  label1 = ROOT.TPaveLabel(0, 0, 1, 1, "r#phi residuals (mm)")
2788  label2 = ROOT.TPaveLabel(0, 0, 1, 1, "d(r#phi)/dz residuals (mrad)")
2789 
2790  for l in label1, label2, label3, label4, label5, label6, label9:
2791  l.SetBorderSize(0)
2792  l.SetFillColor(ROOT.kWhite)
2793 
2794  for l in label1, label2:
2795  l.SetTextAngle(90)
2796  l.SetTextSize(0.09)
2797 
2798  #label9.SetTextAngle(30)
2799  label9.SetTextSize(0.29)
2800 
2801  pads[1].cd(); label1.Draw()
2802  pads[6].cd(); label2.Draw()
2803  pads[12].cd(); label3.Draw()
2804  pads[13].cd(); label4.Draw()
2805  pads[14].cd(); label5.Draw()
2806  pads[15].cd(); label6.Draw()
2807  #pads[11].cd(); label9.Draw()
2808 
2809  pads[2].SetRightMargin(1e-5)
2810  pads[2].SetBottomMargin(1e-5)
2811  pads[3].SetLeftMargin(1e-5)
2812  pads[3].SetRightMargin(1e-5)
2813  pads[3].SetBottomMargin(1e-5)
2814  pads[4].SetLeftMargin(1e-5)
2815  pads[4].SetRightMargin(1e-5)
2816  pads[4].SetBottomMargin(1e-5)
2817  pads[5].SetLeftMargin(1e-5)
2818  pads[5].SetBottomMargin(1e-5)
2819 
2820  pads[7].SetRightMargin(1e-5)
2821  pads[7].SetTopMargin(1e-5)
2822  pads[8].SetLeftMargin(1e-5)
2823  pads[8].SetRightMargin(1e-5)
2824  pads[8].SetTopMargin(1e-5)
2825  pads[9].SetLeftMargin(1e-5)
2826  pads[9].SetRightMargin(1e-5)
2827  pads[9].SetTopMargin(1e-5)
2828  pads[10].SetLeftMargin(1e-5)
2829  pads[10].SetTopMargin(1e-5)
2830 
2831  chamber_x_trackx.GetXaxis().SetLabelColor(ROOT.kWhite)
2832  chamber_x_tracky.GetXaxis().SetLabelColor(ROOT.kWhite)
2833  chamber_x_tracky.GetYaxis().SetLabelColor(ROOT.kWhite)
2834  chamber_x_trackdxdz.GetXaxis().SetLabelColor(ROOT.kWhite)
2835  chamber_x_trackdxdz.GetYaxis().SetLabelColor(ROOT.kWhite)
2836  chamber_x_trackdydz.GetXaxis().SetLabelColor(ROOT.kWhite)
2837  chamber_x_trackdydz.GetYaxis().SetLabelColor(ROOT.kWhite)
2838  # chamber_dxdz_trackx
2839  chamber_dxdz_tracky.GetYaxis().SetLabelColor(ROOT.kWhite)
2840  chamber_dxdz_trackdxdz.GetYaxis().SetLabelColor(ROOT.kWhite)
2841  chamber_dxdz_trackdydz.GetYaxis().SetLabelColor(ROOT.kWhite)
2842 
2843  pads[2].cd()
2844  chamber_x_trackx.Draw("e1")
2845  if not suppressblue: chamber_x_trackx_fit2.Draw("samel")
2846  chamber_x_trackx_fit.Draw("samel")
2847  label9.Draw()
2848 
2849  pads[3].cd()
2850  chamber_x_tracky.Draw("e1")
2851  if not suppressblue: chamber_x_tracky_fit2.Draw("samel")
2852  chamber_x_tracky_fit.Draw("samel")
2853 
2854  pads[4].cd()
2855  chamber_x_trackdxdz.Draw("e1")
2856  if not suppressblue: chamber_x_trackdxdz_fit2.Draw("samel")
2857  chamber_x_trackdxdz_fit.Draw("samel")
2858 
2859  pads[5].cd()
2860  chamber_x_trackdydz.Draw("e1")
2861  if not suppressblue: chamber_x_trackdydz_fit2.Draw("samel")
2862  chamber_x_trackdydz_fit.Draw("samel")
2863 
2864  pads[7].cd()
2865  chamber_dxdz_trackx.Draw("e1")
2866  if not suppressblue: chamber_dxdz_trackx_fit2.Draw("samel")
2867  chamber_dxdz_trackx_fit.Draw("samel")
2868 
2869  pads[8].cd()
2870  chamber_dxdz_tracky.Draw("e1")
2871  if not suppressblue: chamber_dxdz_tracky_fit2.Draw("samel")
2872  chamber_dxdz_tracky_fit.Draw("samel")
2873 
2874  pads[9].cd()
2875  chamber_dxdz_trackdxdz.Draw("e1")
2876  if not suppressblue: chamber_dxdz_trackdxdz_fit2.Draw("samel")
2877  chamber_dxdz_trackdxdz_fit.Draw("samel")
2878 
2879  pads[10].cd()
2880  chamber_dxdz_trackdydz.Draw("e1")
2881  if not suppressblue: chamber_dxdz_trackdydz_fit2.Draw("samel")
2882  chamber_dxdz_trackdydz_fit.Draw("samel")
2883 
2884  tn = time.time()
2885  ddt[8] = 1./ddt[7]*((ddt[7]-1)*ddt[8] + tn-t1)
2886 
def getname(r)
def polynomials(tfile, reports, name, twobin=True, suppressblue=False)
def plotscripts.postalAddressToId (   postal_address)

Definition at line 884 of file plotscripts.py.

References funct.abs().

884 def postalAddressToId(postal_address):
885  if postal_address[0] == "DT":
886  wheel, station, sector = postal_address[1:]
887  w = "%+d"%wheel
888  if w=="+0": w = "-0"
889  return "MB%s/%d/%02d" % (w, station, sector)
890  elif postal_address[0] == "CSC":
891  endcap, station, ring, chamber = postal_address[1:]
892  if endcap != 1: station = -1 * abs(station)
893  return "ME%+d/%d/%02d" % (station, ring, chamber)
894 
895 
def postalAddressToId(postal_address)
Definition: plotscripts.py:884
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
def plotscripts.printDeltaTs ( )

Definition at line 2046 of file plotscripts.py.

2047  n = 0
2048  for t in ddt:
2049  if n==0 or n==7 or n==15: print "%d calls" % t
2050  else: print "%d : %0.3f ms" % (n,t*1000.0)
2051  n += 1
2052 
def printDeltaTs()
def plotscripts.rlines (   disk,
  window,
  abscissa 
)

Definition at line 455 of file plotscripts.py.

Referenced by mapplot().

455 def rlines(disk, window, abscissa):
456  global rline_tlines
457  rline_tlines = []
458  if disk == 1: rl = [150., 270., 480.]
459  else: rl = [350.]
460  for r in rl:
461  if abscissa is None or abscissa[0] < r < abscissa[1]:
462  rline_tlines.append(ROOT.TLine(r, -window, r, window))
463  rline_tlines[-1].SetLineStyle(2)
464  rline_tlines[-1].Draw()
465 
def rlines(disk, window, abscissa)
Definition: plotscripts.py:455
def plotscripts.rms (   xlist)

Definition at line 60 of file plotscripts.py.

References mathSSE.sqrt().

60 def rms(xlist):
61  s2, n = 0., 0.
62  for x in xlist:
63  s2 += x**2
64  n += 1.
65  return sqrt(s2/n)
66 
def rms(xlist)
Definition: plotscripts.py:60
T sqrt(T t)
Definition: SSEVec.h:18
def plotscripts.saveTestResultsMap (   run_name)

Definition at line 1181 of file plotscripts.py.

Referenced by alignmentValidation.doMapPlotsCSC(), and alignmentValidation.doMapPlotsDT().

1181 def saveTestResultsMap(run_name):
1182  if len(MAP_RESULTS_SAWTOOTH)+len(MAP_RESULTS_FITSIN)==0: return None
1183  ff = open("tmp_test_results_map__%s.pkl" % run_name, "wb")
1184  pickle.dump(MAP_RESULTS_SAWTOOTH, ff)
1185  pickle.dump(MAP_RESULTS_FITSIN, ff)
1186  ff.close()
1187 
1188 
def saveTestResultsMap(run_name)
def plotscripts.segdiff (   tfiles,
  component,
  pair,
  args 
)

Definition at line 2889 of file plotscripts.py.

References funct.abs(), MultipleCompare.Divide(), createfilelist.int, mathSSE.sqrt(), harvestTrackValidationPlots.str, and wheelLetter().

Referenced by alignmentValidation.doSegDiffPlotsCSC(), alignmentValidation.doSegDiffPlotsDT(), segdiffvsphi(), and segdiffvsphicsc().

2889 def segdiff(tfiles, component, pair, **args):
2890  tdrStyle.SetOptFit(1)
2891  tdrStyle.SetOptTitle(1)
2892  tdrStyle.SetTitleBorderSize(1)
2893  tdrStyle.SetTitleFontSize(0.05)
2894  tdrStyle.SetStatW(0.2)
2895  tdrStyle.SetStatY(0.9)
2896  tdrStyle.SetStatFontSize(0.06)
2897 
2898  if component[0:2] == "dt":
2899  wheel = args["wheel"]
2900  wheelletter = wheelLetter(wheel)
2901  sector = args["sector"]
2902  profname = "%s_%s_%02d_%s" % (component, wheelletter, sector, str(pair))
2903  posname = "pos" + profname
2904  negname = "neg" + profname
2905  #print profname
2906 
2907  station1 = int(str(pair)[0])
2908  station2 = int(str(pair)[1])
2909  phi1 = signConventions["DT", wheel, station1, sector][4]
2910  phi2 = signConventions["DT", wheel, station2, sector][4]
2911  if abs(phi1 - phi2) > 1.:
2912  if phi1 > phi2: phi1 -= 2.*pi
2913  else: phi1 += 2.*pi
2914  phi = (phi1 + phi2) / 2.
2915  while (phi < -pi): phi += 2.*pi
2916  while (phi > pi): phi -= 2.*pi
2917 
2918  elif component[0:3] == "csc":
2919  endcap = args["endcap"]
2920  if endcap=="m":
2921  endcapnum=2
2922  endcapsign="-"
2923  elif endcap=="p":
2924  endcapnum=1
2925  endcapsign="+"
2926  else: raise Exception
2927 
2928  ring = args["ring"]
2929  if ring>2 or ring<1: raise Exception
2930  station1 = int(str(pair)[0])
2931  station2 = int(str(pair)[1])
2932  if ring==1: ringname="inner"
2933  elif ring==2: ringname="outer"
2934  else: raise Exception
2935 
2936  chamber = args["chamber"]
2937  if (ring==1 and chamber>18) or (ring==2 and chamber>36): raise Exception
2938 
2939  profname = "csc%s_%s_%s_%02d_%s" % (ringname,component[4:], endcap, chamber, str(pair))
2940  posname = "pos" + profname
2941  negname = "neg" + profname
2942  #print profname
2943 
2944  station1 = int(str(pair)[0])
2945  station2 = int(str(pair)[1])
2946  phi1 = signConventions["CSC", endcapnum, station1, ring, chamber][4]
2947  phi2 = signConventions["CSC", endcapnum, station2, ring, chamber][4]
2948  if abs(phi1 - phi2) > 1.:
2949  if phi1 > phi2: phi1 -= 2.*pi
2950  else: phi1 += 2.*pi
2951  phi = (phi1 + phi2) / 2.
2952  while (phi < -pi*5./180.): phi += 2.*pi
2953  while (phi > pi*(2.-5./180.)): phi -= 2.*pi
2954 
2955  else: raise Exception
2956 
2957  if "window" in args: window = args["window"]
2958  else: window = 5.
2959 
2960  global tmpprof, tmppos, tmpneg
2961  pdir = "AlignmentMonitorSegmentDifferences/iter1/"
2962  tmpprof = tfiles[0].Get(pdir + profname).Clone()
2963  tmpprof.SetMarkerStyle(8)
2964  tmppos = tfiles[0].Get(pdir + posname).Clone()
2965  tmpneg = tfiles[0].Get(pdir + negname).Clone()
2966  for tfile in tfiles[1:]:
2967  tmpprof.Add(tfile.Get(pdir + profname))
2968  tmppos.Add(tfile.Get(pdir + posname))
2969  tmpneg.Add(tfile.Get(pdir + negname))
2970 
2971  for i in xrange(1, tmpprof.GetNbinsX()+1):
2972  if tmpprof.GetBinError(i) < 1e-5:
2973  tmpprof.SetBinError(i, 100.)
2974  tmpprof.SetAxisRange(-window, window, "Y")
2975 
2976  f = ROOT.TF1("p1", "[0] + [1]*x", tmpprof.GetBinLowEdge(1), -tmpprof.GetBinLowEdge(1))
2977  f.SetParameters((tmppos.GetMean() + tmpneg.GetMean())/2., 0.)
2978 
2979  tmpprof.SetXTitle("q/p_{T} (c/GeV)")
2980  if component == "dt13_resid":
2981  tmpprof.SetYTitle("#Deltax^{local} (mm)")
2982  tmppos.SetXTitle("#Deltax^{local} (mm)")
2983  tmpneg.SetXTitle("#Deltax^{local} (mm)")
2984  f.SetParNames("#Deltax^{local}_{0}", "Slope")
2985  if component == "dt13_slope":
2986  tmpprof.SetYTitle("#Deltadx/dz^{local} (mrad)")
2987  tmppos.SetXTitle("#Deltadx/dz^{local} (mrad)")
2988  tmpneg.SetXTitle("#Deltadx/dz^{local} (mrad)")
2989  f.SetParNames("#Deltadx/dz^{local}_{0}", "Slope")
2990  if component == "dt2_resid":
2991  tmpprof.SetYTitle("#Deltay^{local} (mm)")
2992  tmppos.SetXTitle("#Deltay^{local} (mm)")
2993  tmpneg.SetXTitle("#Deltay^{local} (mm)")
2994  f.SetParNames("#Deltay^{local}_{0}", "Slope")
2995  if component == "dt2_slope":
2996  tmpprof.SetYTitle("#Deltady/dz^{local} (mrad)")
2997  tmppos.SetXTitle("#Deltady/dz^{local} (mrad)")
2998  tmpneg.SetXTitle("#Deltady/dz^{local} (mrad)")
2999  f.SetParNames("#Deltady/dz^{local}_{0}", "Slope")
3000  if component == "csc_resid":
3001  tmpprof.SetXTitle("q/p_{z} (c/GeV)")
3002  tmpprof.SetYTitle("#Delta(r#phi)^{local} (mm)")
3003  tmppos.SetXTitle("#Delta(r#phi)^{local} (mm)")
3004  tmpneg.SetXTitle("#Delta(r#phi)^{local} (mm)")
3005  f.SetParNames("#Delta(r#phi)^{local}_{0}", "Slope")
3006  if component == "csc_slope":
3007  tmpprof.SetXTitle("q/p_{z} (c/GeV)")
3008  tmpprof.SetYTitle("#Deltad(r#phi)/dz^{local} (mrad)")
3009  tmppos.SetXTitle("#Deltad(r#phi)/dz^{local} (mrad)")
3010  tmpneg.SetXTitle("#Deltad(r#phi)/dz^{local} (mrad)")
3011  f.SetParNames("#Deltad(r#phi)/dz^{local}_{0}", "Slope")
3012 
3013  tmpprof.GetXaxis().CenterTitle()
3014  tmpprof.GetYaxis().CenterTitle()
3015  tmppos.GetXaxis().CenterTitle()
3016  tmpneg.GetXaxis().CenterTitle()
3017  if component[0:2] == "dt":
3018  tmpprof.SetTitle("MB%d - MB%d, wheel %d, sector %02d" % (station1, station2, int(wheel), int(sector)))
3019  elif component[0:3] == "csc":
3020  tmpprof.SetTitle("ME%d - ME%d, for ME%s%d/%d/%d" % (station1, station2, endcapsign, station2, ring, chamber))
3021  else: raise Exception
3022 
3023  tmppos.SetTitle("Positive muons")
3024  tmpneg.SetTitle("Negative muons")
3025 
3026  c1.Clear()
3027  c1.Divide(2, 1)
3028  c1.GetPad(1).cd()
3029  fit1 = tmpprof.Fit("p1", "qS")
3030  tmpprof.Draw("e1")
3031  c1.GetPad(2).cd()
3032  c1.GetPad(2).Divide(1, 2)
3033  c1.GetPad(2).GetPad(1).cd()
3034  tmppos.Draw()
3035  f = ROOT.TF1("gausR", "[0]*exp(-(x - [1])**2 / 2. / [2]**2) / sqrt(2.*3.1415926) / [2]",
3036  tmppos.GetMean() - tmppos.GetRMS(), tmppos.GetMean() + tmppos.GetRMS())
3037  f.SetParameters(tmppos.GetEntries() * ((10. - -10.)/100.), tmppos.GetMean(), tmppos.GetRMS())
3038  f.SetParNames("Constant", "Mean", "Sigma")
3039  fit2 = tmppos.Fit("gausR", "qRS")
3040  c1.GetPad(2).GetPad(2).cd()
3041  tmpneg.Draw()
3042  f = ROOT.TF1("gausR", "[0]*exp(-(x - [1])**2 / 2. / [2]**2) / sqrt(2.*3.1415926) / [2]",
3043  tmpneg.GetMean() - tmpneg.GetRMS(), tmpneg.GetMean() + tmpneg.GetRMS())
3044  f.SetParameters(tmpneg.GetEntries() * ((10. - -10.)/100.), tmpneg.GetMean(), tmpneg.GetRMS())
3045  f.SetParNames("Constant", "Mean", "Sigma")
3046  fit3 = tmpneg.Fit("gausR", "qRS")
3047 
3048  fit1ok = fit1.Status()==0 and fit1.CovMatrixStatus()==3
3049  fit2ok = fit2.Status()==0 and fit2.CovMatrixStatus()==3
3050  fit3ok = fit3.Status()==0 and fit3.CovMatrixStatus()==3
3051 
3052  fitresult1 = None, None
3053  if fit1ok:
3054  fitresult1 = tmpprof.GetFunction("p1").GetParameter(0), tmpprof.GetFunction("p1").GetParError(0)
3055  fitresult2 = None, None
3056  if fit2ok and fit3ok:
3057  fitresult2 = (tmppos.GetFunction("gausR").GetParameter(1) + tmpneg.GetFunction("gausR").GetParameter(1)) / 2., \
3058  sqrt(tmppos.GetFunction("gausR").GetParError(1)**2 + tmpneg.GetFunction("gausR").GetParError(1)**2) / 2.
3059  return phi, fitresult1[0], fitresult1[1], fitresult2[0], fitresult2[1], fit1ok, fit2ok, fit3ok
3060 
3061 
3062 
def Divide(hNum, hDen)
T sqrt(T t)
Definition: SSEVec.h:18
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
def segdiff(tfiles, component, pair, args)
def wheelLetter(wheel)
Definition: plotscripts.py:37
def plotscripts.segdiff_xalign (   tfiles,
  component,
  args 
)

Definition at line 3065 of file plotscripts.py.

References funct.abs(), createfilelist.int, and mathSSE.sqrt().

Referenced by alignmentValidation.doSegDiffPlotsDT(), and segdiffvsphi_xalign().

3065 def segdiff_xalign(tfiles, component, **args):
3066  tdrStyle.SetOptFit(1)
3067  tdrStyle.SetOptTitle(1)
3068  tdrStyle.SetTitleBorderSize(1)
3069  tdrStyle.SetTitleFontSize(0.05)
3070  tdrStyle.SetStatW(0.2)
3071  tdrStyle.SetStatY(0.9)
3072  tdrStyle.SetStatFontSize(0.06)
3073 
3074  if component[0:4] == "x_dt":
3075  wheel = int(args["wheel"])
3076  if int(wheel)<0:
3077  wheell = "m%d" % abs(wheel)
3078  endcapsign="-"
3079  else:
3080  wheell = "p%d" % abs(wheel)
3081  endcapsign="+"
3082  station_dt = component[4]
3083  station_csc_1 = args["cscstations"][0]
3084  if station_csc_1=='1': ring_1 = 3
3085  else: ring_1 = 2
3086  sector = args["sector"]
3087  profname = "%s%s_W%sS%02d" % (component, station_csc_1, wheell, sector)
3088  posname_1 = "pos_" + profname
3089  negname_1 = "neg_" + profname
3090  if len(args["cscstations"]) > 1:
3091  station_csc_2 = args["cscstations"][1]
3092  if station_csc_2=='1': ring_2 = 3
3093  else: ring_2 = 2
3094  profname = "%s%s_W%sS%02d" % (component, station_csc_2, wheell, sector)
3095  posname_2 = "pos_" + profname
3096  negname_2 = "neg_" + profname
3097 
3098  phi = signConventions["DT", wheel, int(station_dt), sector][4]
3099  while (phi < -pi): phi += 2.*pi
3100  while (phi > pi): phi -= 2.*pi
3101 
3102  else: raise Exception
3103 
3104  if "window" in args: window = args["window"]
3105  else: window = 5.
3106 
3107  global tmppos, tmpneg, tmppos_2, tmpneg_2
3108  pdir = "AlignmentMonitorSegmentDifferences/iter1/"
3109  tmppos = tfiles[0].Get(pdir + posname_1).Clone()
3110  tmpneg = tfiles[0].Get(pdir + negname_1).Clone()
3111  if len(args["cscstations"]) > 1:
3112  tmppos_2 = tfiles[0].Get(pdir + posname_2).Clone()
3113  tmpneg_2 = tfiles[0].Get(pdir + negname_2).Clone()
3114  tmpneg.Rebin(2); tmppos.Rebin(2)
3115  for tfile in tfiles[1:]:
3116  tmppos.Add(tfile.Get(pdir + posname_1))
3117  tmpneg.Add(tfile.Get(pdir + negname_1))
3118  if len(args["cscstations"]) > 1:
3119  tmppos_2.Add(tfile.Get(pdir + posname_2))
3120  tmpneg_2.Add(tfile.Get(pdir + negname_2))
3121  tmpneg_2.Rebin(2); tmppos_2.Rebin(2)
3122 
3123  result = {}
3124  result["fit_ok"] = False
3125  result["phi"] = phi
3126  ntot = tmppos.GetEntries() + tmpneg.GetEntries()
3127  if ntot == 0:
3128  return result
3129 
3130  tmppos.SetXTitle("#Deltax^{loc}_{MB} - r_{DT}/r_{CSC}#times#Deltax^{loc}_{ME} (mm)")
3131  tmpneg.SetXTitle("#Deltax^{loc}_{MB} - r_{DT}/r_{CSC}#times#Deltax^{loc}_{ME} (mm)")
3132  title1 = "MB(W%+d St%s Sec%d) - ME%s%s/%d" % (wheel, station_dt, int(sector), endcapsign, station_csc_1, ring_1)
3133  tmppos.SetTitle("Positive #mu: %s" % title1);
3134  tmpneg.SetTitle("Negative #mu: %s" % title1);
3135  tmppos.GetXaxis().CenterTitle()
3136  tmpneg.GetXaxis().CenterTitle()
3137  if len(args["cscstations"]) > 1:
3138  tmppos.SetXTitle("#Deltax^{loc}_{DT} - r_{DT}/r_{CSC}#times#Deltax^{loc}_{CSC} (mm)")
3139  tmpneg.SetXTitle("#Deltax^{loc}_{DT} - r_{DT}/r_{CSC}#times#Deltax^{loc}_{CSC} (mm)")
3140  title2 = "MB(W%+d St%s Sec%d) - ME%s%s/%d" % (wheel, station_dt, int(sector), endcapsign, station_csc_2, ring_2)
3141  tmppos_2.SetTitle("Positive #mu: %s" % title2);
3142  tmpneg_2.SetTitle("Negative #mu: %s" % title2);
3143  tmppos_2.GetXaxis().CenterTitle()
3144  tmpneg_2.GetXaxis().CenterTitle()
3145 
3146  c1.Clear()
3147  c1.Divide(2, 2)
3148 
3149  c1.GetPad(1).cd()
3150  tmppos.Draw()
3151  fpos = ROOT.TF1("gpos", "gaus", tmppos.GetMean() - tmppos.GetRMS(), tmppos.GetMean() + tmppos.GetRMS())
3152  fpos.SetParameters(tmppos.GetEntries() * 2.5, tmppos.GetMean(), tmppos.GetRMS())
3153  fit_pos = tmppos.Fit("gpos", "qRS")
3154 
3155  c1.GetPad(3).cd()
3156  tmpneg.Draw()
3157  fneg = ROOT.TF1("gneg", "gaus", tmpneg.GetMean() - tmpneg.GetRMS(), tmpneg.GetMean() + tmpneg.GetRMS())
3158  fneg.SetParameters(tmpneg.GetEntries() * 2.5, tmpneg.GetMean(), tmpneg.GetRMS())
3159  fit_neg = tmpneg.Fit("gneg", "qRS")
3160 
3161  result["fit_ok"] = (fit_pos.Status()==0 and fit_pos.CovMatrixStatus()==3 and fit_neg.Status()==0 and fit_neg.CovMatrixStatus()==3)
3162  result["fit_peak"] = (fpos.GetParameter(1)*tmppos.GetEntries() + fneg.GetParameter(1)*tmpneg.GetEntries()) / ntot
3163  result["fit_peak_error"] = sqrt( (fpos.GetParError(1)*tmppos.GetEntries())**2 + (fneg.GetParError(1)*tmpneg.GetEntries())**2) / ntot
3164 
3165  if len(args["cscstations"]) > 1:
3166  c1.GetPad(2).cd()
3167  tmppos_2.Draw()
3168  fpos_2 = ROOT.TF1("gpos2", "gaus", tmppos_2.GetMean() - tmppos_2.GetRMS(), tmppos_2.GetMean() + tmppos_2.GetRMS())
3169  fpos_2.SetParameters(tmppos_2.GetEntries() * 2.5, tmppos_2.GetMean(), tmppos_2.GetRMS())
3170  fit_pos_2 = tmppos_2.Fit("gpos2", "qRS")
3171 
3172  c1.GetPad(4).cd()
3173  tmpneg_2.Draw()
3174  fneg_2 = ROOT.TF1("gneg2", "gaus", tmpneg_2.GetMean() - tmpneg_2.GetRMS(), tmpneg_2.GetMean() + tmpneg_2.GetRMS())
3175  fneg_2.SetParameters(tmpneg_2.GetEntries() * 2.5, tmpneg_2.GetMean(), tmpneg_2.GetRMS())
3176  fit_neg_2 = tmpneg_2.Fit("gneg2", "qRS")
3177 
3178  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)
3179  ntot = tmppos_2.GetEntries() + tmpneg_2.GetEntries()
3180  result["fit_peak_2"] = (fpos_2.GetParameter(1)*tmppos_2.GetEntries() + fneg_2.GetParameter(1)*tmpneg_2.GetEntries()) / ntot
3181  result["fit_peak_error_2"] = sqrt( (fpos_2.GetParError(1)*tmppos_2.GetEntries())**2 + (fneg_2.GetParError(1)*tmpneg_2.GetEntries())**2) / ntot
3182 
3183  return result
3184 
def segdiff_xalign(tfiles, component, args)
T sqrt(T t)
Definition: SSEVec.h:18
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
def plotscripts.segdiffvsphi (   tfiles,
  reports,
  component,
  wheel,
  window = 5.,
  excludesectors = () 
)

Definition at line 3302 of file plotscripts.py.

References mean(), segdiff(), and stdev().

Referenced by alignmentValidation.doSegDiffPlotsDT().

3302 def segdiffvsphi(tfiles, reports, component, wheel, window=5., excludesectors=()):
3303  tdrStyle.SetOptTitle(1)
3304  tdrStyle.SetTitleBorderSize(1)
3305  tdrStyle.SetTitleFontSize(0.05)
3306 
3307  global htemp, gtemp_12, gtemp2_12, gtemp_23, gtemp2_23, gtemp_34, gtemp2_34, tlegend
3308  htemp = ROOT.TH1F("htemp", "", 1, -pi, pi)
3309  gtemp_12_phi, gtemp_12_val, gtemp_12_err, gtemp_12_val2, gtemp_12_err2 = [], [], [], [], []
3310  gtemp_23_phi, gtemp_23_val, gtemp_23_err, gtemp_23_val2, gtemp_23_err2 = [], [], [], [], []
3311  gtemp_34_phi, gtemp_34_val, gtemp_34_err, gtemp_34_val2, gtemp_34_err2 = [], [], [], [], []
3312  for sector in xrange(1, 12+1):
3313  #print "sect", sector
3314  r1_found, r2_found, r3_found, r4_found = False, False, False, False
3315  for r1 in reports:
3316  if r1.postal_address == ("DT", wheel, 1, sector):
3317  r1_found = True
3318  break
3319  for r2 in reports:
3320  if r2.postal_address == ("DT", wheel, 2, sector):
3321  r2_found = True
3322  break
3323  for r3 in reports:
3324  if r3.postal_address == ("DT", wheel, 3, sector):
3325  r3_found = True
3326  break
3327  for r4 in reports:
3328  if r4.postal_address == ("DT", wheel, 4, sector):
3329  r4_found = True
3330  break
3331  #print "rfounds: ", r1_found, r2_found, r3_found, r4_found
3332 
3333  if sector not in excludesectors:
3334  if r1_found and r2_found and r1.status == "PASS" and r2.status == "PASS":
3335  phi, val, err, val2, err2, fit1, fit2, fit3 = segdiff(tfiles, component, 12, wheel=wheel, sector=sector)
3336  #print "segdif 12", phi, val, err, val2, err2, fit1, fit2, fit3
3337  if fit1 and fit2 and fit3:
3338  gtemp_12_phi.append(phi)
3339  gtemp_12_val.append(val)
3340  gtemp_12_err.append(err)
3341  gtemp_12_val2.append(val2)
3342  gtemp_12_err2.append(err2)
3343  if r2_found and r3_found and r2.status == "PASS" and r3.status == "PASS":
3344  phi, val, err, val2, err2, fit1, fit2, fit3 = segdiff(tfiles, component, 23, wheel=wheel, sector=sector)
3345  #print "segdif 23", phi, val, err, val2, err2, fit1, fit2, fit3
3346  if fit1 and fit2 and fit3:
3347  gtemp_23_phi.append(phi)
3348  gtemp_23_val.append(val)
3349  gtemp_23_err.append(err)
3350  gtemp_23_val2.append(val2)
3351  gtemp_23_err2.append(err2)
3352  if component[:4] == "dt13":
3353  if r3_found and r4_found and r3.status == "PASS" and r4.status == "PASS":
3354  phi, val, err, val2, err2, fit1, fit2, fit3 = segdiff(tfiles, component, 34, wheel=wheel, sector=sector)
3355  #print "segdif 34", phi, val, err, val2, err2, fit1, fit2, fit3
3356  if fit1 and fit2 and fit3:
3357  gtemp_34_phi.append(phi)
3358  gtemp_34_val.append(val)
3359  gtemp_34_err.append(err)
3360  gtemp_34_val2.append(val2)
3361  gtemp_34_err2.append(err2)
3362 
3363  #print "len(gtemp_12_phi) ", len(gtemp_12_phi)
3364  #print "len(gtemp_23_phi) ",len(gtemp_23_phi)
3365  #print "len(gtemp_34_phi) ",len(gtemp_34_phi)
3366  if len(gtemp_12_phi) > 0:
3367  gtemp_12 = ROOT.TGraphErrors(len(gtemp_12_phi), array.array("d", gtemp_12_phi), array.array("d", gtemp_12_val),
3368  array.array("d", [0.] * len(gtemp_12_phi)), array.array("d", gtemp_12_err))
3369  gtemp2_12 = ROOT.TGraphErrors(len(gtemp_12_phi), array.array("d", gtemp_12_phi), array.array("d", gtemp_12_val2),
3370  array.array("d", [0.] * len(gtemp_12_phi)), array.array("d", gtemp_12_err2))
3371  if len(gtemp_23_phi) > 0:
3372  gtemp_23 = ROOT.TGraphErrors(len(gtemp_23_phi), array.array("d", gtemp_23_phi), array.array("d", gtemp_23_val),
3373  array.array("d", [0.] * len(gtemp_23_phi)), array.array("d", gtemp_23_err))
3374  gtemp2_23 = ROOT.TGraphErrors(len(gtemp_23_phi), array.array("d", gtemp_23_phi), array.array("d", gtemp_23_val2),
3375  array.array("d", [0.] * len(gtemp_23_phi)), array.array("d", gtemp_23_err2))
3376  if len(gtemp_34_phi) > 0:
3377  gtemp_34 = ROOT.TGraphErrors(len(gtemp_34_phi), array.array("d", gtemp_34_phi), array.array("d", gtemp_34_val),
3378  array.array("d", [0.] * len(gtemp_34_phi)), array.array("d", gtemp_34_err))
3379  gtemp2_34 = ROOT.TGraphErrors(len(gtemp_34_phi), array.array("d", gtemp_34_phi), array.array("d", gtemp_34_val2),
3380  array.array("d", [0.] * len(gtemp_34_phi)), array.array("d", gtemp_34_err2))
3381 
3382  if len(gtemp_12_phi) > 0:
3383  gtemp_12.SetMarkerStyle(20); gtemp_12.SetMarkerSize(1.);
3384  gtemp_12.SetMarkerColor(ROOT.kBlue); gtemp_12.SetLineColor(ROOT.kBlue)
3385  gtemp2_12.SetMarkerStyle(24); gtemp2_12.SetMarkerSize(1.);
3386  gtemp2_12.SetMarkerColor(ROOT.kBlue); gtemp2_12.SetLineColor(ROOT.kBlue)
3387  if len(gtemp_23_phi) > 0:
3388  gtemp_23.SetMarkerStyle(21); gtemp_23.SetMarkerSize(1.);
3389  gtemp_23.SetMarkerColor(ROOT.kRed); gtemp_23.SetLineColor(ROOT.kRed)
3390  gtemp2_23.SetMarkerStyle(25); gtemp2_23.SetMarkerSize(1.);
3391  gtemp2_23.SetMarkerColor(ROOT.kRed); gtemp2_23.SetLineColor(ROOT.kRed)
3392  if len(gtemp_34_phi) > 0 and component[:4] == "dt13":
3393  gtemp_34.SetMarkerStyle(22); gtemp_34.SetMarkerSize(1.25);
3394  gtemp_34.SetMarkerColor(ROOT.kGreen+2); gtemp_34.SetLineColor(ROOT.kGreen+2)
3395  gtemp2_34.SetMarkerStyle(26); gtemp2_34.SetMarkerSize(1.25);
3396  gtemp2_34.SetMarkerColor(ROOT.kGreen+2); gtemp2_34.SetLineColor(ROOT.kGreen+2)
3397 
3398  if wheel == 0: htemp.SetTitle("Wheel %d" % wheel)
3399  else: htemp.SetTitle("Wheel %+d" % wheel)
3400  htemp.SetAxisRange(-window, window, "Y")
3401  htemp.SetXTitle("Average #phi of pair (rad)")
3402  if component == "dt13_resid": htemp.SetYTitle("#Deltax^{local} (mm)")
3403  if component == "dt13_slope": htemp.SetYTitle("#Deltadx/dz^{local} (mrad)")
3404  if component == "dt2_resid": htemp.SetYTitle("#Deltay^{local} (mm)")
3405  if component == "dt2_slope": htemp.SetYTitle("#Deltady/dz^{local} (mrad)")
3406  htemp.GetXaxis().CenterTitle()
3407  htemp.GetYaxis().CenterTitle()
3408  htemp.GetYaxis().SetTitleOffset(0.75)
3409 
3410  c1.Clear()
3411  htemp.Draw()
3412  if len(gtemp_12_phi) > 0:
3413  gtemp_12.Draw("p")
3414  gtemp2_12.Draw("p")
3415  if len(gtemp_23_phi) > 0:
3416  gtemp_23.Draw("p")
3417  gtemp2_23.Draw("p")
3418  if len(gtemp_34_phi) > 0:
3419  gtemp_34.Draw("p")
3420  gtemp2_34.Draw("p")
3421 
3422  tlegend = ROOT.TLegend(0.5, 0.72, 0.9, 0.92)
3423  tlegend.SetBorderSize(0)
3424  tlegend.SetFillColor(ROOT.kWhite)
3425  if len(gtemp_12_phi) > 0:
3426  tlegend.AddEntry(gtemp_12, "MB1 - MB2 (mean: %4.2f, RMS: %4.2f)" % (mean(gtemp_12_val), stdev(gtemp_12_val)), "pl")
3427  if len(gtemp_23_phi) > 0:
3428  tlegend.AddEntry(gtemp_23, "MB2 - MB3 (mean: %4.2f, RMS: %4.2f)" % (mean(gtemp_23_val), stdev(gtemp_23_val)), "pl")
3429  if len(gtemp_34_phi) > 0:
3430  tlegend.AddEntry(gtemp_34, "MB3 - MB4 (mean: %4.2f, RMS: %4.2f)" % (mean(gtemp_34_val), stdev(gtemp_34_val)), "pl")
3431  if len(gtemp_12_phi) > 0:
3432  tlegend.AddEntry(gtemp_12, "total mean: %4.2f, total RMS: %4.2f" % \
3433  (mean(gtemp_12_val + gtemp_23_val + gtemp_34_val),
3434  stdev(gtemp_12_val + gtemp_23_val + gtemp_34_val)), "")
3435  tlegend.Draw()
3436 
3437 
def mean(xlist)
Definition: plotscripts.py:53
def segdiffvsphi(tfiles, reports, component, wheel, window=5., excludesectors=())
def segdiff(tfiles, component, pair, args)
def stdev(xlist)
Definition: plotscripts.py:67
def plotscripts.segdiffvsphi_xalign (   tfiles,
  wheel,
  window = 10. 
)

Definition at line 3187 of file plotscripts.py.

References mean(), segdiff_xalign(), and stdev().

Referenced by alignmentValidation.doSegDiffPlotsDT().

3187 def segdiffvsphi_xalign(tfiles, wheel, window=10.):
3188  tdrStyle.SetOptTitle(1)
3189  tdrStyle.SetTitleBorderSize(1)
3190  tdrStyle.SetTitleFontSize(0.05)
3191 
3192  global htemp, gtemp_12, gtemp_21, gtemp_11, tlegend
3193  htemp = ROOT.TH1F("htemp", "", 1, -pi, pi)
3194  gtemp_11_phi, gtemp_11_val, gtemp_11_err = [], [], []
3195  gtemp_12_phi, gtemp_12_val, gtemp_12_err = [], [], []
3196  gtemp_21_phi, gtemp_21_val, gtemp_21_err = [], [], []
3197  for sector in xrange(1, 12+1):
3198  #print "sect", sector
3199  r1 = segdiff_xalign(tfiles, "x_dt1_csc", wheel=wheel, sector=sector, cscstations = "12")
3200  r2 = segdiff_xalign(tfiles, "x_dt2_csc", wheel=wheel, sector=sector, cscstations = "1")
3201 
3202  if r1["fit_ok"]:
3203  gtemp_11_phi.append(r1["phi"])
3204  gtemp_11_val.append(r1["fit_peak"])
3205  gtemp_11_err.append(r1["fit_peak_error"])
3206  if r1["fit_ok_2"]:
3207  gtemp_12_phi.append(r1["phi"])
3208  gtemp_12_val.append(r1["fit_peak_2"])
3209  gtemp_12_err.append(r1["fit_peak_error_2"])
3210  if r2["fit_ok"]:
3211  gtemp_21_phi.append(r2["phi"])
3212  gtemp_21_val.append(r2["fit_peak"])
3213  gtemp_21_err.append(r2["fit_peak_error"])
3214 
3215  #print "len(gtemp_11_phi) ",len(gtemp_11_phi)
3216  #print "len(gtemp_12_phi) ",len(gtemp_12_phi)
3217  #print "len(gtemp_21_phi) ",len(gtemp_21_phi)
3218  if len(gtemp_11_phi) > 0:
3219  gtemp_11 = ROOT.TGraphErrors(len(gtemp_11_phi), array.array("d", gtemp_11_phi), array.array("d", gtemp_11_val),
3220  array.array("d", [0.] * len(gtemp_11_phi)), array.array("d", gtemp_11_err))
3221  if len(gtemp_12_phi) > 0:
3222  gtemp_12 = ROOT.TGraphErrors(len(gtemp_12_phi), array.array("d", gtemp_12_phi), array.array("d", gtemp_12_val),
3223  array.array("d", [0.] * len(gtemp_12_phi)), array.array("d", gtemp_12_err))
3224  if len(gtemp_11_phi) > 0:
3225  gtemp_21 = ROOT.TGraphErrors(len(gtemp_21_phi), array.array("d", gtemp_21_phi), array.array("d", gtemp_21_val),
3226  array.array("d", [0.] * len(gtemp_21_phi)), array.array("d", gtemp_21_err))
3227 
3228  if len(gtemp_11_phi) > 0:
3229  gtemp_11.SetMarkerStyle(20); gtemp_11.SetMarkerSize(1.5);
3230  gtemp_11.SetMarkerColor(ROOT.kRed); gtemp_11.SetLineColor(ROOT.kRed)
3231  if len(gtemp_12_phi) > 0:
3232  gtemp_12.SetMarkerStyle(22); gtemp_12.SetMarkerSize(1.);
3233  gtemp_12.SetMarkerColor(ROOT.kGreen+2); gtemp_12.SetLineColor(ROOT.kGreen+2)
3234  if len(gtemp_21_phi) > 0:
3235  gtemp_21.SetMarkerStyle(21); gtemp_21.SetMarkerSize(1.5);
3236  gtemp_21.SetMarkerColor(ROOT.kBlue); gtemp_21.SetLineColor(ROOT.kBlue)
3237 
3238  htemp.SetTitle("Wheel %+d" % wheel)
3239  htemp.SetAxisRange(-window, window, "Y")
3240  htemp.SetXTitle("#phi of MB")
3241  htemp.SetYTitle("#Deltax^{loc}_{DT} - r_{DT}/r_{CSC}#times#Deltax^{loc}_{CSC} (mm)")
3242  htemp.GetXaxis().CenterTitle()
3243  htemp.GetYaxis().CenterTitle()
3244  htemp.GetYaxis().SetTitleOffset(0.75)
3245 
3246  c1.Clear()
3247  htemp.Draw()
3248  if len(gtemp_12_phi) > 0:
3249  gtemp_12.Draw("p")
3250  if len(gtemp_21_phi) > 0:
3251  gtemp_21.Draw("p")
3252  if len(gtemp_11_phi) > 0:
3253  gtemp_11.Draw("p")
3254 
3255  tlegend = ROOT.TLegend(0.59, 0.75, 0.99, 0.92)
3256  tlegend.SetBorderSize(0)
3257  tlegend.SetFillColor(ROOT.kWhite)
3258  if len(gtemp_11_phi) > 0:
3259  tlegend.AddEntry(gtemp_11, "MB1 - ME1/3 (mean: %4.2f, RMS: %4.2f)" % (mean(gtemp_11_val), stdev(gtemp_11_val)), "pl")
3260  if len(gtemp_21_phi) > 0:
3261  tlegend.AddEntry(gtemp_21, "MB2 - ME1/3 (mean: %4.2f, RMS: %4.2f)" % (mean(gtemp_21_val), stdev(gtemp_21_val)), "pl")
3262  if len(gtemp_12_phi) > 0:
3263  tlegend.AddEntry(gtemp_12, "MB1 - ME2/2 (mean: %4.2f, RMS: %4.2f)" % (mean(gtemp_12_val), stdev(gtemp_12_val)), "pl")
3264  #if len(gtemp_12_phi) > 0:
3265  # tlegend.AddEntry(gtemp_12, "total mean: %4.2f, total RMS: %4.2f" % \
3266  # (mean(gtemp_11_val + gtemp_12_val + gtemp_21_val),
3267  # stdev(gtemp_11_val + gtemp_12_val + gtemp_21_val)), "")
3268  tlegend.Draw()
3269 
3270  f_11 = ROOT.TF1("f11", "[0] + [1]*sin(x) + [2]*cos(x)", -pi, pi)
3271  f_11.SetLineColor(ROOT.kRed)
3272  f_11.SetLineWidth(2)
3273  f_21 = ROOT.TF1("f21", "[0] + [1]*sin(x) + [2]*cos(x)", -pi, pi)
3274  f_21.SetLineColor(ROOT.kBlue)
3275  f_21.SetLineWidth(2)
3276  if len(gtemp_11_phi) > 0:
3277  gtemp_11.Fit(f_11,"")
3278  if len(gtemp_21_phi) > 0:
3279  gtemp_21.Fit(f_21,"")
3280 
3281  global f_txt,f_11_txt, f_21_txt
3282  f_txt = ROOT.TLatex(-2.9, -0.7*window, "ME1/3 ring corrections equivalents:")
3283  f_txt.SetTextSize(0.028)
3284  f_txt.Draw()
3285  if len(gtemp_11_phi) > 0:
3286  rdt = signConventions[("DT", 2, 1, 1)][3]*10
3287  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" % (
3288  -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))
3289  f_11_txt.SetTextSize(0.028)
3290  f_11_txt.SetTextColor(ROOT.kRed)
3291  f_11_txt.Draw()
3292  if len(gtemp_11_phi) > 0:
3293  rdt = signConventions[("DT", 2, 2, 1)][3]*10
3294  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" % (
3295  -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))
3296  f_21_txt.SetTextSize(0.028)
3297  f_21_txt.SetTextColor(ROOT.kBlue)
3298  f_21_txt.Draw()
3299 
def mean(xlist)
Definition: plotscripts.py:53
def segdiffvsphi_xalign(tfiles, wheel, window=10.)
def segdiff_xalign(tfiles, component, args)
def stdev(xlist)
Definition: plotscripts.py:67
def plotscripts.segdiffvsphicsc (   tfiles,
  component,
  pair,
  window = 5.,
  args 
)

Definition at line 3440 of file plotscripts.py.

References corrections2D(), createfilelist.int, mean(), segdiff(), stdev(), and harvestTrackValidationPlots.str.

Referenced by alignmentValidation.doSegDiffPlotsCSC().

3440 def segdiffvsphicsc(tfiles, component, pair, window=5., **args):
3441  tdrStyle.SetOptTitle(1)
3442  tdrStyle.SetTitleBorderSize(1)
3443  tdrStyle.SetTitleFontSize(0.05)
3444 
3445  if not component[0:3] == "csc": Exception
3446 
3447  endcap = args["endcap"]
3448  if endcap=="m":
3449  endcapnum=2
3450  endcapsign="-"
3451  elif endcap=="p":
3452  endcapnum=1
3453  endcapsign="+"
3454  else: raise Exception
3455 
3456  station1 = int(str(pair)[0])
3457  station2 = int(str(pair)[1])
3458  if not station2-station1==1: raise Exception
3459 
3460  rings = [1,2]
3461  if station2==4: rings = [1]
3462 
3463 
3464  global htemp, gtemp_1, gtemp2_1, gtemp_2, gtemp2_2, tlegend
3465  htemp = ROOT.TH1F("htemp", "", 1, -pi*5./180., pi*(2.-5./180.))
3466  gtemp_1_phi, gtemp_1_val, gtemp_1_err, gtemp_1_val2, gtemp_1_err2 = [], [], [], [], []
3467  gtemp_2_phi, gtemp_2_val, gtemp_2_err, gtemp_2_val2, gtemp_2_err2 = [], [], [], [], []
3468 
3469  for ring in rings:
3470  chambers = xrange(1,37)
3471  if ring == 1: chambers = xrange(1,19)
3472 
3473  for chamber in chambers:
3474  phi, val, err, val2, err2, fit1, fit2, fit3 = segdiff(tfiles, component, pair, endcap=endcap, ring=ring, chamber=chamber)
3475  if fit1 and fit2 and fit3:
3476  if ring==1:
3477  gtemp_1_phi.append(phi)
3478  gtemp_1_val.append(val)
3479  gtemp_1_err.append(err)
3480  gtemp_1_val2.append(val2)
3481  gtemp_1_err2.append(err2)
3482  if ring==2:
3483  gtemp_2_phi.append(phi)
3484  gtemp_2_val.append(val)
3485  gtemp_2_err.append(err)
3486  gtemp_2_val2.append(val2)
3487  gtemp_2_err2.append(err2)
3488 
3489  #print "len(gtemp_12_phi) ", len(gtemp_12_phi)
3490  #print "len(gtemp_23_phi) ",len(gtemp_23_phi)
3491  #print "len(gtemp_34_phi) ",len(gtemp_34_phi)
3492  if len(gtemp_1_phi) > 0:
3493  gtemp_1 = ROOT.TGraphErrors(len(gtemp_1_phi), array.array("d", gtemp_1_phi), array.array("d", gtemp_1_val),
3494  array.array("d", [0.] * len(gtemp_1_phi)), array.array("d", gtemp_1_err))
3495  gtemp2_1 = ROOT.TGraphErrors(len(gtemp_1_phi), array.array("d", gtemp_1_phi), array.array("d", gtemp_1_val2),
3496  array.array("d", [0.] * len(gtemp_1_phi)), array.array("d", gtemp_1_err2))
3497  if len(gtemp_2_phi) > 0:
3498  gtemp_2 = ROOT.TGraphErrors(len(gtemp_2_phi), array.array("d", gtemp_2_phi), array.array("d", gtemp_2_val),
3499  array.array("d", [0.] * len(gtemp_2_phi)), array.array("d", gtemp_2_err))
3500  gtemp2_2 = ROOT.TGraphErrors(len(gtemp_2_phi), array.array("d", gtemp_2_phi), array.array("d", gtemp_2_val2),
3501  array.array("d", [0.] * len(gtemp_2_phi)), array.array("d", gtemp_2_err2))
3502 
3503  if len(gtemp_1_phi) > 0:
3504  gtemp_1.SetMarkerStyle(20); gtemp_1.SetMarkerSize(1.);
3505  gtemp_1.SetMarkerColor(ROOT.kBlue); gtemp_1.SetLineColor(ROOT.kBlue)
3506  gtemp2_1.SetMarkerStyle(24); gtemp2_1.SetMarkerSize(1.);
3507  gtemp2_1.SetMarkerColor(ROOT.kBlue); gtemp2_1.SetLineColor(ROOT.kBlue)
3508  if len(gtemp_2_phi) > 0:
3509  gtemp_2.SetMarkerStyle(21); gtemp_2.SetMarkerSize(1.);
3510  gtemp_2.SetMarkerColor(ROOT.kRed); gtemp_2.SetLineColor(ROOT.kRed)
3511  gtemp2_2.SetMarkerStyle(25); gtemp2_2.SetMarkerSize(1.);
3512  gtemp2_2.SetMarkerColor(ROOT.kRed); gtemp2_2.SetLineColor(ROOT.kRed)
3513 
3514  htemp.SetTitle("ME%s%d - ME%s%d" % (endcapsign,station2,endcapsign,station1))
3515  htemp.SetAxisRange(-window, window, "Y")
3516  htemp.SetXTitle("Average #phi of pair (rad)")
3517  if component == "csc_resid": htemp.SetYTitle("#Delta(r#phi)^{local} (mm)")
3518  if component == "csc_slope": htemp.SetYTitle("#Deltad(r#phi)/dz^{local} (mrad)")
3519  htemp.GetXaxis().CenterTitle()
3520  htemp.GetYaxis().CenterTitle()
3521  htemp.GetYaxis().SetTitleOffset(0.75)
3522 
3523  c1.Clear()
3524  htemp.Draw()
3525  if len(gtemp_1_phi) > 0:
3526  gtemp_1.Draw("p")
3527  gtemp2_1.Draw("p")
3528  if len(gtemp_2_phi) > 0:
3529  gtemp_2.Draw("p")
3530  gtemp2_2.Draw("p")
3531 
3532  tlegend = ROOT.TLegend(0.5, 0.72, 0.9, 0.92)
3533  tlegend.SetBorderSize(0)
3534  tlegend.SetFillColor(ROOT.kWhite)
3535  if len(gtemp_1_phi) > 0:
3536  tlegend.AddEntry(gtemp_1, "ring 1 (mean: %4.2f, RMS: %4.2f)" % (mean(gtemp_1_val), stdev(gtemp_1_val)), "pl")
3537  if len(gtemp_2_phi) > 0:
3538  tlegend.AddEntry(gtemp_2, "ring 2 (mean: %4.2f, RMS: %4.2f)" % (mean(gtemp_2_val), stdev(gtemp_2_val)), "pl")
3539  #if len(gtemp_12_phi) > 0:
3540  # tlegend.AddEntry(gtemp_12, "total mean: %4.2f, total RMS: %4.2f" % \
3541  # (mean(gtemp_12_val + gtemp_23_val + gtemp_34_val),
3542  # stdev(gtemp_12_val + gtemp_23_val + gtemp_34_val)), "")
3543  tlegend.Draw()
3544 
3545 
3546 
def mean(xlist)
Definition: plotscripts.py:53
def segdiffvsphicsc(tfiles, component, pair, window=5., args)
def segdiff(tfiles, component, pair, args)
def stdev(xlist)
Definition: plotscripts.py:67
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.

References genParticles_cff.map.

Referenced by curvatureDTsummary(), curvatureplot(), and mapplot().

226 def set_palette(name=None, ncontours=999):
227  """Set a color palette from a given RGB list
228  stops, red, green and blue should all be lists of the same length
229  see set_decent_colors for an example"""
230 
231  if name == "halfgray":
232  stops = [0.00, 0.34, 0.61, 0.84, 1.00]
233  red = map(lambda x: 1. - (1.-x)/2., [1.00, 0.84, 0.61, 0.34, 0.00])
234  green = map(lambda x: 1. - (1.-x)/2., [1.00, 0.84, 0.61, 0.34, 0.00])
235  blue = map(lambda x: 1. - (1.-x)/2., [1.00, 0.84, 0.61, 0.34, 0.00])
236  elif name == "gray":
237  stops = [0.00, 0.34, 0.61, 0.84, 1.00]
238  red = [1.00, 0.84, 0.61, 0.34, 0.00]
239  green = [1.00, 0.84, 0.61, 0.34, 0.00]
240  blue = [1.00, 0.84, 0.61, 0.34, 0.00]
241  elif name == "blues":
242  stops = [0.00, 0.34, 0.61, 0.84, 1.00]
243  red = [1.00, 0.84, 0.61, 0.34, 0.00]
244  green = [1.00, 0.84, 0.61, 0.34, 0.00]
245  blue = [1.00, 1.00, 1.00, 1.00, 1.00]
246  elif name == "reds":
247  stops = [0.00, 0.34, 0.61, 0.84, 1.00]
248  red = [1.00, 1.00, 1.00, 1.00, 1.00]
249  green = [1.00, 0.84, 0.61, 0.34, 0.00]
250  blue = [1.00, 0.84, 0.61, 0.34, 0.00]
251  elif name == "antigray":
252  stops = [0.00, 0.34, 0.61, 0.84, 1.00]
253  red = [1.00, 0.84, 0.61, 0.34, 0.00]
254  green = [1.00, 0.84, 0.61, 0.34, 0.00]
255  blue = [1.00, 0.84, 0.61, 0.34, 0.00]
256  red.reverse()
257  green.reverse()
258  blue.reverse()
259  elif name == "fire":
260  stops = [0.00, 0.20, 0.80, 1.00]
261  red = [1.00, 1.00, 1.00, 0.50]
262  green = [1.00, 1.00, 0.00, 0.00]
263  blue = [0.20, 0.00, 0.00, 0.00]
264  elif name == "antifire":
265  stops = [0.00, 0.20, 0.80, 1.00]
266  red = [0.50, 1.00, 1.00, 1.00]
267  green = [0.00, 0.00, 1.00, 1.00]
268  blue = [0.00, 0.00, 0.00, 0.20]
269  else:
270  # default palette, looks cool
271  stops = [0.00, 0.34, 0.61, 0.84, 1.00]
272  red = [0.00, 0.00, 0.87, 1.00, 0.51]
273  green = [0.00, 0.81, 1.00, 0.20, 0.00]
274  blue = [0.51, 1.00, 0.12, 0.00, 0.00]
275 
276  s = array.array('d', stops)
277  r = array.array('d', red)
278  g = array.array('d', green)
279  b = array.array('d', blue)
280 
281  npoints = len(s)
282  ROOT.TColor.CreateGradientColorTable(npoints, s, r, g, b, ncontours)
283  ROOT.gStyle.SetNumberContours(ncontours)
284 
285 set_palette()
286 
def set_palette(name=None, ncontours=999)
Definition: plotscripts.py:226
def plotscripts.setTDRStyle ( )

Definition at line 87 of file plotscripts.py.

Referenced by BTagPerformanceAnalyzerOnData.bookHistograms(), BTagPerformanceAnalyzerMC.bookHistograms(), BTagPerformanceHarvester.dqmEndJob(), LRHelpFunctions.LRHelpFunctions(), EffPurFromHistos2D.plot(), EffPurFromHistos.plot(), SoftLeptonTagPlotter.psPlot(), TrackCountingTagPlotter.psPlot(), TrackProbabilityTagPlotter.psPlot(), JetTagPlotter.psPlot(), and RecoBTag.tdrGrid().

88  global tdrStyle
89  tdrStyle = ROOT.TStyle("tdrStyle","Style for P-TDR")
90 # For the canvas:
91  tdrStyle.SetCanvasBorderMode(0)
92  tdrStyle.SetCanvasColor(ROOT.kWhite)
93  tdrStyle.SetCanvasDefH(600) #Height of canvas
94  tdrStyle.SetCanvasDefW(600) #Width of canvas
95  tdrStyle.SetCanvasDefX(0) #POsition on screen
96  tdrStyle.SetCanvasDefY(0)
97 
98 # For the Pad:
99  tdrStyle.SetPadBorderMode(0)
100  # tdrStyle.SetPadBorderSize(Width_t size = 1)
101  tdrStyle.SetPadColor(ROOT.kWhite)
102  tdrStyle.SetPadGridX(False)
103  tdrStyle.SetPadGridY(False)
104  tdrStyle.SetGridColor(0)
105  tdrStyle.SetGridStyle(3)
106  tdrStyle.SetGridWidth(1)
107 
108 # For the frame:
109  tdrStyle.SetFrameBorderMode(0)
110  tdrStyle.SetFrameBorderSize(1)
111  tdrStyle.SetFrameFillColor(0)
112  tdrStyle.SetFrameFillStyle(0)
113  tdrStyle.SetFrameLineColor(1)
114  tdrStyle.SetFrameLineStyle(1)
115  tdrStyle.SetFrameLineWidth(1)
116 
117 # For the histo:
118  # tdrStyle.SetHistFillColor(1)
119  # tdrStyle.SetHistFillStyle(0)
120  tdrStyle.SetHistLineColor(1)
121  tdrStyle.SetHistLineStyle(0)
122  tdrStyle.SetHistLineWidth(1)
123  # tdrStyle.SetLegoInnerR(Float_t rad = 0.5)
124  # tdrStyle.SetNumberContours(Int_t number = 20)
125 
126  tdrStyle.SetEndErrorSize(2)
127 # tdrStyle.SetErrorMarker(20)
128  tdrStyle.SetErrorX(0.)
129 
130  tdrStyle.SetMarkerStyle(20)
131 
132 #For the fit/function:
133  tdrStyle.SetOptFit(1)
134  tdrStyle.SetFitFormat("5.4g")
135  tdrStyle.SetFuncColor(2)
136  tdrStyle.SetFuncStyle(1)
137  tdrStyle.SetFuncWidth(1)
138 
139 #For the date:
140  tdrStyle.SetOptDate(0)
141  # tdrStyle.SetDateX(Float_t x = 0.01)
142  # tdrStyle.SetDateY(Float_t y = 0.01)
143 
144 # For the statistics box:
145  tdrStyle.SetOptFile(0)
146  tdrStyle.SetOptStat(0) # To display the mean and RMS: SetOptStat("mr")
147  tdrStyle.SetStatColor(ROOT.kWhite)
148  tdrStyle.SetStatFont(42)
149  tdrStyle.SetStatFontSize(0.025)
150  tdrStyle.SetStatTextColor(1)
151  tdrStyle.SetStatFormat("6.4g")
152  tdrStyle.SetStatBorderSize(1)
153  tdrStyle.SetStatH(0.1)
154  tdrStyle.SetStatW(0.15)
155  # tdrStyle.SetStatStyle(Style_t style = 1001)
156  # tdrStyle.SetStatX(Float_t x = 0)
157  # tdrStyle.SetStatY(Float_t y = 0)
158 
159 # Margins:
160  tdrStyle.SetPadTopMargin(0.05)
161  tdrStyle.SetPadBottomMargin(0.13)
162  tdrStyle.SetPadLeftMargin(0.13)
163  tdrStyle.SetPadRightMargin(0.05)
164 
165 # For the Global title:
166  tdrStyle.SetOptTitle(0)
167  tdrStyle.SetTitleFont(42)
168  tdrStyle.SetTitleColor(1)
169  tdrStyle.SetTitleTextColor(1)
170  tdrStyle.SetTitleFillColor(10)
171  tdrStyle.SetTitleFontSize(0.05)
172  # tdrStyle.SetTitleH(0) # Set the height of the title box
173  # tdrStyle.SetTitleW(0) # Set the width of the title box
174  # tdrStyle.SetTitleX(0) # Set the position of the title box
175  # tdrStyle.SetTitleY(0.985) # Set the position of the title box
176  # tdrStyle.SetTitleStyle(Style_t style = 1001)
177  # tdrStyle.SetTitleBorderSize(2)
178 
179 # For the axis titles:
180  tdrStyle.SetTitleColor(1, "XYZ")
181  tdrStyle.SetTitleFont(42, "XYZ")
182  tdrStyle.SetTitleSize(0.06, "XYZ")
183  # tdrStyle.SetTitleXSize(Float_t size = 0.02) # Another way to set the size?
184  # tdrStyle.SetTitleYSize(Float_t size = 0.02)
185  tdrStyle.SetTitleXOffset(0.9)
186  tdrStyle.SetTitleYOffset(1.05)
187  # tdrStyle.SetTitleOffset(1.1, "Y") # Another way to set the Offset
188 
189 # For the axis labels:
190  tdrStyle.SetLabelColor(1, "XYZ")
191  tdrStyle.SetLabelFont(42, "XYZ")
192  tdrStyle.SetLabelOffset(0.007, "XYZ")
193  tdrStyle.SetLabelSize(0.05, "XYZ")
194 
195 # For the axis:
196  tdrStyle.SetAxisColor(1, "XYZ")
197  tdrStyle.SetStripDecimals(True)
198  tdrStyle.SetTickLength(0.03, "XYZ")
199  tdrStyle.SetNdivisions(510, "XYZ")
200  tdrStyle.SetPadTickX(1) # To get tick marks on the opposite side of the frame
201  tdrStyle.SetPadTickY(1)
202 
203 # Change for log plots:
204  tdrStyle.SetOptLogx(0)
205  tdrStyle.SetOptLogy(0)
206  tdrStyle.SetOptLogz(0)
207 
208 # Postscript options:
209  tdrStyle.SetPaperSize(20.,20.)
210  # tdrStyle.SetLineScalePS(Float_t scale = 3)
211  # tdrStyle.SetLineStyleString(Int_t i, const char* text)
212  # tdrStyle.SetHeaderPS(const char* header)
213  # tdrStyle.SetTitlePS(const char* pstitle)
214 
215  # tdrStyle.SetBarOffset(Float_t baroff = 0.5)
216  # tdrStyle.SetBarWidth(Float_t barwidth = 0.5)
217  # tdrStyle.SetPaintTextFormat(const char* format = "g")
218  # tdrStyle.SetPalette(Int_t ncolors = 0, Int_t* colors = 0)
219  # tdrStyle.SetTimeOffset(Double_t toffset)
220  # tdrStyle.SetHistMinimumZero(True)
221 
222  tdrStyle.cd()
223 
224 setTDRStyle()
225 
def setTDRStyle()
Definition: plotscripts.py:87
def plotscripts.stationIndex (   name)

Definition at line 353 of file plotscripts.py.

References idToPostalAddress().

Referenced by MuonIdProducer.fillArbitrationInfo(), mapplot(), and philines().

353 def stationIndex(name):
354  if ("MB" in name or "ME" in name):
355  # assume the name is ID
356  pa = idToPostalAddress(name)
357  if pa is None: return None
358  if pa[0]=="CSC":
359  if pa[2]==1 and pa[3]==1: return 0
360  if pa[2]==1 and pa[3]==2: return 1
361  if pa[2]==1 and pa[3]==3: return 2
362  if pa[2]==1 and pa[3]==4: return 3
363  if pa[2]==2 and pa[3]==1: return 4
364  if pa[2]==2 and pa[3]==2: return 5
365  if pa[2]==3 and pa[3]==1: return 6
366  if pa[2]==3 and pa[3]==2: return 7
367  if pa[2]==4 and pa[3]==1: return 8
368  if pa[2]==4 and pa[3]==2: return 9
369  if pa[0]=="DT":
370  if pa[2]==1: return 10
371  if pa[2]==2: return 11
372  if pa[2]==3: return 12
373  if pa[2]==4: return 13
374  else:
375  if ("mem11" in name or "mep11" in name): return 0
376  if ("mem12" in name or "mep12" in name): return 1
377  if ("mem13" in name or "mep13" in name): return 2
378  if ("mem14" in name or "mep14" in name): return 3
379  if ("mem21" in name or "mep21" in name): return 4
380  if ("mem22" in name or "mep22" in name): return 5
381  if ("mem31" in name or "mep31" in name): return 6
382  if ("mem32" in name or "mep32" in name): return 7
383  if ("mem41" in name or "mep41" in name): return 8
384  if ("mem42" in name or "mep42" in name): return 9
385  if ("st1" in name): return 10
386  if ("st2" in name): return 11
387  if ("st3" in name): return 12
388  if ("st4" in name): return 13
389 
390 
391 
def stationIndex(name)
Definition: plotscripts.py:353
def idToPostalAddress(id)
Definition: plotscripts.py:861
def plotscripts.stdev (   xlist)

Definition at line 67 of file plotscripts.py.

References mathSSE.sqrt().

Referenced by MuonResidualsAngleFitter.fit(), MuonResidualsBfieldAngleFitter.fit(), MuonResidualsPositionFitter.fit(), SiStripPI.getTheRange(), segdiffvsphi(), segdiffvsphi_xalign(), and segdiffvsphicsc().

67 def stdev(xlist):
68  s, s2, n = 0., 0., 0.
69  for x in xlist:
70  s += x
71  s2 += x**2
72  n += 1.
73  return sqrt(s2/n - (s/n)**2)
74 
T sqrt(T t)
Definition: SSEVec.h:18
def stdev(xlist)
Definition: plotscripts.py:67
def plotscripts.testDeltaWithin5Sigma (   x,
  sx 
)

Definition at line 1052 of file plotscripts.py.

References funct.abs(), and mathSSE.sqrt().

Referenced by doTestsForMapPlots().

1053  n = len(x)
1054  res = []
1055  dr = []
1056  #print x
1057  #print sx
1058  for i in range(1,n+1):
1059  x1 = x[i-1]
1060  sx1 = sx[i-1]
1061  x2 = x[0]
1062  sx2 = sx[0]
1063  if i<n:
1064  x2 = x[i]
1065  sx2 = sx[i]
1066  sig1 = sqrt( (sx1[0]-sx1[1])**2 + x1[1]**2 )
1067  sig2 = sqrt( (sx2[0]-sx2[1])**2 + x2[1]**2 )
1068  df = abs(x1[0]-x2[0]) - 3*( sig1 + sig2 )
1069  #df = abs(sx1[1]-sx2[0]) - 5*(abs(x1[1]) + abs(x2[1]))
1070  #print i, df, '= abs(',sx1[1],'-',sx2[0],')-5*(abs(',x1[1],')+abs(',x2[1],'))'
1071  dr.append(df)
1072  if df > 0: res.append(i)
1073  #print dr
1074  #print res
1075  return res
1076 
1077 
T sqrt(T t)
Definition: SSEVec.h:18
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
def testDeltaWithin5Sigma(x, sx)
def plotscripts.testEntry (   testID,
  scope,
  descr,
  severity 
)

Definition at line 1038 of file plotscripts.py.

Referenced by doTestsForMapPlots(), and doTestsForReport().

1038 def testEntry(testID,scope,descr,severity):
1039  s = 0
1040  for sev in DQM_SEVERITY:
1041  if sev["name"]==severity: s = sev["idx"]
1042  return {"testID":testID,"scope":scope,"descr":descr,"severity":s}
1043 
1044 
def testEntry(testID, scope, descr, severity)
def plotscripts.testZeroWithin5Sigma (   x)

Definition at line 1045 of file plotscripts.py.

References funct.abs().

Referenced by doTestsForMapPlots().

1046  if abs(x[1])==0.: return 0.
1047  pull = abs(x[0])/abs(x[1])
1048  if pull <= 5: return 0.
1049  else: return pull
1050 
1051 
def testZeroWithin5Sigma(x)
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
def plotscripts.wheel0only (   dt,
  wheel,
  station,
  sector 
)

Definition at line 33 of file plotscripts.py.

33 def wheel0only(dt, wheel, station, sector): return dt == "DT" and wheel == 0
def wheel0only(dt, wheel, station, sector)
Definition: plotscripts.py:33
def plotscripts.wheelLetter (   wheel)

Definition at line 37 of file plotscripts.py.

Referenced by availableCellsDT(), alignmentValidation.doFitFunctionsPlotsDT(), alignmentValidation.doMapPlotsDT(), and segdiff().

37 def wheelLetter(wheel):
38  if wheel == -2: return "A"
39  elif wheel == -1: return "B"
40  elif wheel == 0: return "C"
41  elif wheel == +1: return "D"
42  elif wheel == +2: return "E"
43  else: raise Exception
44 
def wheelLetter(wheel)
Definition: plotscripts.py:37
def plotscripts.wheelm1only (   dt,
  wheel,
  station,
  sector 
)

Definition at line 32 of file plotscripts.py.

32 def wheelm1only(dt, wheel, station, sector): return dt == "DT" and wheel == -1
def wheelm1only(dt, wheel, station, sector)
Definition: plotscripts.py:32
def plotscripts.wheelm2only (   dt,
  wheel,
  station,
  sector 
)

Convenience functions.

Definition at line 31 of file plotscripts.py.

31 def wheelm2only(dt, wheel, station, sector): return dt == "DT" and wheel == -2
def wheelm2only(dt, wheel, station, sector)
Convenience functions.
Definition: plotscripts.py:31
def plotscripts.wheelNumber (   wheell)

Definition at line 45 of file plotscripts.py.

Referenced by DTDataIntegrityTest.dqmEndLuminosityBlock().

45 def wheelNumber(wheell):
46  if wheell == "A": return -2
47  elif wheell == "B": return -1
48  elif wheell == "C": return 0
49  elif wheell == "D": return 1
50  elif wheell == "E": return 2
51  else: raise Exception
52 
def wheelNumber(wheell)
Definition: plotscripts.py:45
def plotscripts.wheelp1only (   dt,
  wheel,
  station,
  sector 
)

Definition at line 34 of file plotscripts.py.

34 def wheelp1only(dt, wheel, station, sector): return dt == "DT" and wheel == 1
def wheelp1only(dt, wheel, station, sector)
Definition: plotscripts.py:34
def plotscripts.wheelp2only (   dt,
  wheel,
  station,
  sector 
)

Definition at line 35 of file plotscripts.py.

35 def wheelp2only(dt, wheel, station, sector): return dt == "DT" and wheel == 2
36 
def wheelp2only(dt, wheel, station, sector)
Definition: plotscripts.py:35
def plotscripts.wmean (   xlist)

Definition at line 75 of file plotscripts.py.

References mathSSE.sqrt().

75 def wmean(xlist):
76  s, w = 0., 0.
77  for x, e in xlist:
78  if e > 0.:
79  wi = 1./e**2
80  s += x*wi
81  w += wi
82  return s/w, sqrt(1./w)
83 
T sqrt(T t)
Definition: SSEVec.h:18
def wmean(xlist)
Definition: plotscripts.py:75
def plotscripts.writeDQMReport (   fname_dqm,
  run_name 
)

Definition at line 1201 of file plotscripts.py.

Referenced by doTests().

1201 def writeDQMReport(fname_dqm, run_name):
1202  tests = []
1203  for c in TEST_RESULTS:
1204  tests.append({"objID":c, "name":c, "list":TEST_RESULTS[c]})
1205  lt = time.localtime(time.time())
1206  lts = "%04d-%02d-%02d %02d:%02d:%02d %s" % (lt[0], lt[1], lt[2], lt[3], lt[4], lt[5], time.tzname[1])
1207  dqm_report = {"run":run_name, "genDate": lts, "report":tests}
1208  ff = open(fname_dqm,mode="w")
1209  print >>ff, "var DQM_REPORT = "
1210  json.dump(dqm_report,ff)
1211  #print >>ff, "];"
1212  ff.close()
1213 
1214 
def writeDQMReport(fname_dqm, run_name)
def plotscripts.zlines (   window,
  abscissa 
)

Definition at line 438 of file plotscripts.py.

Referenced by mapplot().

438 def zlines(window, abscissa):
439  global zline_tlines
440  zline_tlines = []
441  for z in -401.625, -133.875, 133.875, 401.625:
442  if abscissa is None or abscissa[0] < z < abscissa[1]:
443  zline_tlines.append(ROOT.TLine(z, -window, z, window))
444  zline_tlines[-1].SetLineStyle(2)
445  zline_tlines[-1].Draw()
446  zline_labels = []
447  zline_labels.append(ROOT.TText(-550, -0.9*window, "-2"))
448  zline_labels.append(ROOT.TText(-300, -0.9*window, "-1"))
449  zline_labels.append(ROOT.TText(-10, -0.9*window, "0"))
450  zline_labels.append(ROOT.TText(250, -0.9*window, "+1"))
451  zline_labels.append(ROOT.TText(500, -0.9*window, "+2"))
452  for z in zline_labels: z.Draw()
453  zline_labels.append(ROOT.TText(-600, -0.75*window, "Wheel:")); zline_labels[-1].Draw()
454 
def zlines(window, abscissa)
Definition: plotscripts.py:438

Variable Documentation

bool plotscripts.CPP_LOADED = False

Definition at line 18 of file plotscripts.py.

list plotscripts.DQM_SEVERITY
Initial value:
1 = [
2  {"idx":0, "name": "NONE", "color": "lightgreen", "hex":"#90EE90"},
3  {"idx":1, "name": "LOWSTAT05", "color": "lightgreen", "hex":"#96D953"},
4  {"idx":2, "name": "LOWSTAT075", "color": "lightgreen", "hex":"#94E26F"},
5  {"idx":3, "name": "LOWSTAT1", "color": "yellowgreen", "hex":"#9ACD32"},
6  {"idx":4, "name": "LOWSTAT", "color": "yellow", "hex":"#FFFF00"},
7  {"idx":5, "name": "TOLERABLE", "color": "lightpink", "hex":"#FFB6C1"},
8  {"idx":6, "name": "SEVERE", "color": "orange", "hex":"#FFA500"},
9  {"idx":7, "name": "CRITICAL", "color": "red", "hex":"#FF0000"}];

Definition at line 1021 of file plotscripts.py.

dictionary plotscripts.MAP_RESULTS_BINS = {}

Definition at line 23 of file plotscripts.py.

dictionary plotscripts.MAP_RESULTS_FITSIN = {}

Definition at line 22 of file plotscripts.py.

dictionary plotscripts.MAP_RESULTS_SAWTOOTH = {}

Definition at line 21 of file plotscripts.py.

list plotscripts.phiedges
Initial value:
1 = [
2  phiedgesCSC36,
3  phiedgesCSC36,
4  phiedgesCSC36,
5  phiedgesCSC36,
6  phiedgesCSC18,
7  phiedgesCSC36,
8  phiedgesCSC18,
9  phiedgesCSC36,
10  phiedgesCSC18,
11  phiedgesCSC36,
12  [0.35228048120123945, 0.87587781482541827, 1.3994776462193192, 1.923076807996136, 2.4466741416203148, 2.970273973014216,
13  -2.7893121723885534, -2.2657148387643748, -1.7421150073704739, -1.2185158455936571, -0.69491851196947851, -0.17131868057557731],
14  [0.22000706229660855, 0.74360690430428489, 1.267204926935573, 1.7908033890915052, 2.3144032310991816, 2.8380012537304697,
15  -2.9215855912931841, -2.3979857492855081, -1.8743877266542202, -1.3507892644982882, -0.82718942249061178, -0.30359139985932365],
16  [0.29751957124275596, 0.82111826253905784, 1.3447162969496083, 1.8683158980376524, 2.3919145893339548, 2.915512623744505,
17  -2.844073082347037, -2.3204743910507353, -1.7968763566401849, -1.2732767555521407, -0.74967806425583894, -0.22608002984528835],
18  [3.0136655290752188, -2.7530905195097337, -2.2922883025568734, -1.9222915077192773, -1.5707963267948966, -1.2193011458705159,
19  -0.84930435103291968, -0.38850213408005951, 0.127927124514574, 0.65152597487624719, 1.1322596819239259, 1.5707963267948966,
20  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.

plotscripts.tdrStyle = None
dictionary plotscripts.TEST_RESULTS = {}

Definition at line 26 of file plotscripts.py.