1 import ROOT, array, os, re, random
10 import simplejson
as json
13 from signConventions
import *
21 MAP_RESULTS_SAWTOOTH = {}
22 MAP_RESULTS_FITSIN = {}
31 def wheelm2only(dt, wheel, station, sector):
return dt ==
"DT" and wheel == -2
32 def wheelm1only(dt, wheel, station, sector):
return dt ==
"DT" and wheel == -1
33 def wheel0only(dt, wheel, station, sector):
return dt ==
"DT" and wheel == 0
34 def wheelp1only(dt, wheel, station, sector):
return dt ==
"DT" and wheel == 1
35 def wheelp2only(dt, wheel, station, sector):
return dt ==
"DT" and wheel == 2
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" 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
73 return sqrt(s2/n - (s/n)**2)
82 return s/w,
sqrt(1./w)
89 tdrStyle = ROOT.TStyle(
"tdrStyle",
"Style for P-TDR")
91 tdrStyle.SetCanvasBorderMode(0)
92 tdrStyle.SetCanvasColor(ROOT.kWhite)
93 tdrStyle.SetCanvasDefH(600)
94 tdrStyle.SetCanvasDefW(600)
95 tdrStyle.SetCanvasDefX(0)
96 tdrStyle.SetCanvasDefY(0)
99 tdrStyle.SetPadBorderMode(0)
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)
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)
120 tdrStyle.SetHistLineColor(1)
121 tdrStyle.SetHistLineStyle(0)
122 tdrStyle.SetHistLineWidth(1)
126 tdrStyle.SetEndErrorSize(2)
128 tdrStyle.SetErrorX(0.)
130 tdrStyle.SetMarkerStyle(20)
133 tdrStyle.SetOptFit(1)
134 tdrStyle.SetFitFormat(
"5.4g")
135 tdrStyle.SetFuncColor(2)
136 tdrStyle.SetFuncStyle(1)
137 tdrStyle.SetFuncWidth(1)
140 tdrStyle.SetOptDate(0)
145 tdrStyle.SetOptFile(0)
146 tdrStyle.SetOptStat(0)
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)
160 tdrStyle.SetPadTopMargin(0.05)
161 tdrStyle.SetPadBottomMargin(0.13)
162 tdrStyle.SetPadLeftMargin(0.13)
163 tdrStyle.SetPadRightMargin(0.05)
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)
180 tdrStyle.SetTitleColor(1,
"XYZ")
181 tdrStyle.SetTitleFont(42,
"XYZ")
182 tdrStyle.SetTitleSize(0.06,
"XYZ")
185 tdrStyle.SetTitleXOffset(0.9)
186 tdrStyle.SetTitleYOffset(1.05)
190 tdrStyle.SetLabelColor(1,
"XYZ")
191 tdrStyle.SetLabelFont(42,
"XYZ")
192 tdrStyle.SetLabelOffset(0.007,
"XYZ")
193 tdrStyle.SetLabelSize(0.05,
"XYZ")
196 tdrStyle.SetAxisColor(1,
"XYZ")
197 tdrStyle.SetStripDecimals(
True)
198 tdrStyle.SetTickLength(0.03,
"XYZ")
199 tdrStyle.SetNdivisions(510,
"XYZ")
200 tdrStyle.SetPadTickX(1)
201 tdrStyle.SetPadTickY(1)
204 tdrStyle.SetOptLogx(0)
205 tdrStyle.SetOptLogy(0)
206 tdrStyle.SetOptLogz(0)
209 tdrStyle.SetPaperSize(20.,20.)
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""" 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])
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]
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]
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]
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]
276 s = array.array(
'd', stops)
277 r = array.array(
'd', red)
278 g = array.array(
'd', green)
279 b = array.array(
'd', blue)
282 ROOT.TColor.CreateGradientColorTable(npoints, s, r, g, b, ncontours)
283 ROOT.gStyle.SetNumberContours(ncontours)
293 phiedgesCSC36 = [pi/180.*(-5. + 10.*i)
for i
in range(36)]
294 phiedgesCSC18 = [pi/180.*(-5. + 20.*i)
for i
in range(18)]
306 [0.35228048120123945, 0.87587781482541827, 1.3994776462193192, 1.923076807996136, 2.4466741416203148, 2.970273973014216,
307 -2.7893121723885534, -2.2657148387643748, -1.7421150073704739, -1.2185158455936571, -0.69491851196947851, -0.17131868057557731],
308 [0.22000706229660855, 0.74360690430428489, 1.267204926935573, 1.7908033890915052, 2.3144032310991816, 2.8380012537304697,
309 -2.9215855912931841, -2.3979857492855081, -1.8743877266542202, -1.3507892644982882, -0.82718942249061178, -0.30359139985932365],
310 [0.29751957124275596, 0.82111826253905784, 1.3447162969496083, 1.8683158980376524, 2.3919145893339548, 2.915512623744505,
311 -2.844073082347037, -2.3204743910507353, -1.7968763566401849, -1.2732767555521407, -0.74967806425583894, -0.22608002984528835],
312 [3.0136655290752188, -2.7530905195097337, -2.2922883025568734, -1.9222915077192773, -1.5707963267948966, -1.2193011458705159,
313 -0.84930435103291968, -0.38850213408005951, 0.127927124514574, 0.65152597487624719, 1.1322596819239259, 1.5707963267948966,
314 2.0093329716658674, 2.4900666787135459]]
318 for ed
in phiedges[:]:
321 ed.extend([999
for n
in range(0,37-len(ed))])
322 lines.append(
'{' +
', '.
join(
map(str, ed)) +
'}')
324 res =
', '.
join(lines)
325 ff = open(
"phiedges_export.h",mode=
"w")
326 print>>ff,
'double phiedges[14][37] = {' + res +
'};' 335 self.ed.append(pi+1.)
340 if x < self.
ed[0]: x += 2*pi
342 for i
in range(0,self.
n):
343 if x <= self.
ed[i]:
continue 344 if x > self.
ed[i+1]:
continue 345 return par[i*2] + par[i*2+1]*(x - self.
ed[i])
348 print self.
name, self.
n 354 if (
"MB" in name
or "ME" in name):
357 if pa
is None:
return None 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
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
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
393 global philine_tlines, philine_labels
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()
407 labels = [
" 7",
" 8",
" 9",
"14",
"10",
"11",
"12",
" 1",
" 2",
" 3",
"13",
" 4",
" 5",
" 6"]
409 labels = [
" 8",
" 9",
"10",
"11",
"12",
" 1",
" 2",
" 3",
" 4",
" 5",
" 6"]
411 for phi, label
in zip(edges, labels):
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()
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"]
427 for phi, label
in zip(edges, labels):
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()
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()
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()
458 if disk == 1: rl = [150., 270., 480.]
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()
470 if postal_address == r.postal_address:
477 def DBMC(database, reports, window=10., windows=None, selection=None, phi=False,
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)
483 def DBdiff(database1, database2, reports1, reports2,
484 window=10., windows=
None, selection=
None, phi=
False, color=ROOT.kBlue-8,
485 style=1, bins=50, normalized=
False, getvalues=
False, name=
"tmp", canvas=
None, reportdiff=
False, inlog=
False ):
487 tdrStyle.SetOptStat(
"emrou")
488 tdrStyle.SetStatW(0.40)
491 if windows
is not None:
497 global hx, hy, hz, hphix, hphiy, hphiz
500 hx = ROOT.TH1F(
"%s_phi" % name,
"", bins, -wnd[0], wnd[0])
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])
510 if selection
is None or (selection.__code__.co_argcount == len(r1.postal_address)
and selection(*r1.postal_address)):
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.)
517 if r2
is None:
continue 520 if r1.postal_address[0] ==
"DT":
521 if r1.postal_address[1:]
in database1.dt:
523 db1 = database1.dt[r1.postal_address[1:]]
524 if database2
is None:
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.
529 db2 = database2.dt[r1.postal_address[1:]]
533 if r1.postal_address[2]==1
and r1.postal_address[3]==4:
continue 534 if r1.postal_address[1:]
in database1.csc:
536 db1 = database1.csc[r1.postal_address[1:]]
537 if database2
is None:
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.
542 db2 = database2.csc[r1.postal_address[1:]]
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
550 fill = delta/
sqrt(r1.deltax.error**2 + r2.deltax.error**2) * signConventions[r1.postal_address][0]
553 fill = delta/signConventions[r1.postal_address][3] * 1000. * signConventions[r1.postal_address][0]
555 fill = delta * 10. * signConventions[r1.postal_address][0]
557 if getvalues
not in (
False,
None):
558 getvalues[
"x"].
append((fill, 10. *
sqrt(r1.deltax.error**2 + r2.deltax.error**2)))
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
565 fill = delta/
sqrt(r1.deltay.error**2 + r2.deltay.error**2) * signConventions[r1.postal_address][1]
567 fill = delta * 10. * signConventions[r1.postal_address][1]
569 if getvalues
not in (
False,
None):
570 getvalues[
"y"].
append((fill, 10. *
sqrt(r1.deltay.error**2 + r2.deltay.error**2)))
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
577 fill = delta/
sqrt(r1.deltaz.error**2 + r2.deltaz.error**2) * signConventions[r1.postal_address][2]
579 fill = delta * 10. * signConventions[r1.postal_address][2]
581 if getvalues
not in (
False,
None):
582 getvalues[
"z"].
append((fill, 10. *
sqrt(r1.deltaz.error**2 + r2.deltaz.error**2)))
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
589 fill = delta/
sqrt(r1.deltaphix.error**2 + r2.deltaphix.error**2)
593 if getvalues
not in (
False,
None):
594 getvalues[
"phix"].
append((fill, 10. *
sqrt(r1.deltaphix.error**2 + r2.deltaphix.error**2)))
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
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
603 fill = delta/
sqrt(r1.deltaphiy.error**2 + r2.deltaphiy.error**2)
607 if getvalues
not in (
False,
None):
608 getvalues[
"phiy"].
append((fill, 10. *
sqrt(r1.deltaphiy.error**2 + r2.deltaphiy.error**2)))
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
615 fill = delta/
sqrt(r1.deltaphiz.error**2 + r2.deltaphiz.error**2)
619 if getvalues
not in (
False,
None):
620 getvalues[
"phiz"].
append((fill, 10. *
sqrt(r1.deltaphiz.error**2 + r2.deltaphiz.error**2)))
624 hx.SetXTitle(
"#delta_{#phi} position (mrad)")
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)")
634 hx.SetXTitle(
"#delta_{#phi}(XML) - #delta_{#phi}(report) position (mrad)")
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)")
644 hx.SetXTitle(
"#delta_{#phi}/#sigma_{#phi} position")
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}}")
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)
659 if canvas
is not None: c = canvas
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:
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")
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
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()
693 c.GetPad(3).cd(); hphiy.Draw()
694 c.GetPad(4).cd(); hphiz.Draw()
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()
702 if hx.GetEntries()>0: c.GetPad(1).SetLogy(1)
703 if hy.GetEntries()>0: c.GetPad(2).SetLogy(1)
705 if hphiy.GetEntries()>0: c.GetPad(3).SetLogy(1)
706 if hphiz.GetEntries()>0: c.GetPad(4).SetLogy(1)
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)
713 return hx, hy, hz, hphix, hphiy, hphiz
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)
720 def DBdiffVersus(quantity, versus, database1, database2, reports1, reports2, windwselection=None, color=ROOT.kBlack):
721 tdrStyle.SetOptStat(
"")
728 if selection
is None or (selection.__code__.co_argcount == len(r1.postal_address)
and selection(*r1.postal_address)):
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.)
736 if r1.postal_address == r2.postal_address:
739 if not found:
continue 742 if r1.postal_address[0] ==
"DT":
743 if r1.postal_address[1:]
in database1.dt:
745 db1 = database1.dt[r1.postal_address[1:]]
746 if database2
is None:
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.
751 db2 = database2.dt[r1.postal_address[1:]]
753 if r1.postal_address[1:]
in database1.csc:
755 db1 = database1.csc[r1.postal_address[1:]]
756 if database2
is None:
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.
761 db2 = database2.csc[r1.postal_address[1:]]
763 if found
and r1.status ==
"PASS" and r2.status ==
"PASS":
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.:
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])
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.:
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])
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.:
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])
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.:
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])
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.:
800 values.append((db1.phix - db2.phix) * 1000.)
801 errors.append((r1.deltaphix.error**2 + r2.deltaphix.error**2) * 1000.)
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.:
807 values.append((db1.phiy - db2.phiy) * 1000.)
808 errors.append((r1.deltaphiy.error**2 + r2.deltaphiy.error**2) * 1000.)
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.:
814 values.append((db1.phiz - db2.phiz) * 1000.)
815 errors.append((r1.deltaphiz.error**2 + r2.deltaphiz.error**2) * 1000.)
817 else:
raise Exception
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
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)")
832 bkgndhist = ROOT.TH1F(
"bkgndhist",
"", 100, -1100., 1100.)
833 bkgndhist.SetXTitle(
"z (cm)")
834 bkgndhist.GetXaxis().CenterTitle()
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()
848 tgraph = ROOT.TGraphErrors(0)
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)
856 if tgraph.GetN() > 0: tgraph.Draw(
"p")
857 return bkgndhist, tgraph, domain, values, errors
863 if len(id)!=9:
return None 866 pa = (
"DT",
int(id[2:4]),
int(id[5]),
int(id[7:9]))
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 874 elif id[2]==
"-": ec=2
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 885 if postal_address[0] ==
"DT":
886 wheel, station, sector = postal_address[1:]
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)
897 if name[0:2] ==
"MB":
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" 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 =
"-" 915 return "ME%s%s/%s/%s" % (endcap, station, ring, chamber)
922 for iwheel
in DT_TYPES:
923 if iwheel[1]==
"ALL":
continue 924 dts.append(iwheel[0])
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])
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)
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])
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)
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)
968 for endcap
in CSC_TYPES:
969 for station
in endcap[2]:
970 cscs.append(
"%s%s" % (endcap[0], station[1]))
972 for endcap
in CSC_TYPES:
973 for station
in endcap[2]:
974 for ring
in station[2]:
975 if ring[1]==
"ALL":
continue 977 cscs.append(
"%s%s/%s" % (endcap[0], station[1],ring[1]))
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):
985 cscs.append(
"%s%s/ALL/%02d" % (endcap[0], station[1],chamber))
987 for endcap
in CSC_TYPES:
988 for station
in endcap[2]:
989 for ring
in station[2]:
990 if ring[1]!=
"ALL":
continue 992 cscs.append(
"%s%s/ALL" % (endcap[0], station[1]))
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):
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)
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)
1022 {
"idx":0,
"name":
"NONE",
"color":
"lightgreen",
"hex":
"#90EE90"},
1023 {
"idx":1,
"name":
"LOWSTAT05",
"color":
"lightgreen",
"hex":
"#96D953"},
1024 {
"idx":2,
"name":
"LOWSTAT075",
"color":
"lightgreen",
"hex":
"#94E26F"},
1025 {
"idx":3,
"name":
"LOWSTAT1",
"color":
"yellowgreen",
"hex":
"#9ACD32"},
1026 {
"idx":4,
"name":
"LOWSTAT",
"color":
"yellow",
"hex":
"#FFFF00"},
1027 {
"idx":5,
"name":
"TOLERABLE",
"color":
"lightpink",
"hex":
"#FFB6C1"},
1028 {
"idx":6,
"name":
"SEVERE",
"color":
"orange",
"hex":
"#FFA500"},
1029 {
"idx":7,
"name":
"CRITICAL",
"color":
"red",
"hex":
"#FF0000"}];
1034 if c
in TEST_RESULTS: TEST_RESULTS[c].extend(res)
1035 else: TEST_RESULTS[c] = res
1040 for sev
in DQM_SEVERITY:
1041 if sev[
"name"]==severity: s = sev[
"idx"]
1042 return {
"testID":testID,
"scope":scope,
"descr":descr,
"severity":s}
1046 if abs(x[1])==0.:
return 0.
1047 pull =
abs(x[0])/
abs(x[1])
1048 if pull <= 5:
return 0.
1058 for i
in range(1,n+1):
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 )
1072 if df > 0: res.append(i)
1082 if not postal_address:
continue 1087 if r.postal_address == postal_address:
1090 if not found:
continue 1094 scope = postal_address[0]
1097 if r.status ==
"FAIL" or r.status ==
"MINUITFAIL":
1098 res.append(
testEntry(
"FAILURE",scope,r.status+
" failure",
"CRITICAL"))
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"))
1110 sdx = 10.*r.deltax.error
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"))
1118 res.append(
testEntry(
"BIG_CHI2",scope,
"chi2=%f>20" % r.redchi2,
"TOLERABLE"))
1121 medx, meddx = 10.*r.median_x, 1000.*r.median_dxdz
1123 if medx>2: res.append(
testEntry(
"BIG_MED_X",scope,
"median dx=%f>2 mm"%medx,
"SEVERE"))
1125 if meddx>2: res.append(
testEntry(
"BIG_MED_DXDZ",scope,
"median d(dx/dz)=%f>2 mrad"%meddx,
"SEVERE"))
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"))
1147 if c[0:2]==
"MB": scope =
"DT" 1148 if c[0:2]==
"ME": scope =
"CSC" 1150 print "strange cell ID: ", c
1153 if c
in MAP_RESULTS_FITSIN:
1154 t = MAP_RESULTS_FITSIN[c]
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"))
1162 if c
in MAP_RESULTS_SAWTOOTH:
1163 t = MAP_RESULTS_SAWTOOTH[c]
1167 descr =
"map discontinuities: %s" %
",".
join(
map(str,t_a))
1168 res.append(
testEntry(
"MAP_DISCONTIN",scope,descr,
"SEVERE"))
1170 t_b =
map(testZeroWithin5Sigma, t[
'b'])
1172 for i
in range(0,len(t_b)):
1173 if t_b[i]>0: t_bi.append(i+1)
1175 descr =
"map sawteeth: %s" %
",".
join(
map(str,t_bi))
1176 res.append(
testEntry(
"MAP_SAWTEETH",scope,descr,
"TOLERABLE"))
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)
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)
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)
1215 def doTests(reports, pic_ids, fname_base, fname_dqm, run_name):
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)
1244 def plotmedians(reports1, reports2, selection=None, binsx=100, windowx=5., ceilingx=None, binsy=100, windowy=5.,
1245 ceilingy=
None, binsdxdz=100, windowdxdz=5., ceilingdxdz=
None, binsdydz=100, windowdydz=5., ceilingdydz=
None,
1246 r1text=
" before", r2text=
" after", which=
"median"):
1247 tdrStyle.SetOptStat(
"emrou")
1248 tdrStyle.SetStatW(0.40)
1249 tdrStyle.SetStatFontSize(0.05)
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
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)
1265 if which ==
"median":
1266 whichx = whichy = whichdxdz = whichdydz =
"median" 1267 elif which ==
"bigmean":
1270 whichdxdz =
"mean20" 1271 whichdydz =
"mean50" 1272 elif which ==
"mean":
1275 whichdxdz =
"mean10" 1276 whichdydz =
"mean25" 1277 elif which ==
"bigwmean":
1280 whichdxdz =
"wmean20" 1281 whichdydz =
"wmean50" 1282 elif which ==
"wmean":
1285 whichdxdz =
"wmean10" 1286 whichdydz =
"wmean25" 1287 elif which ==
"bigstdev":
1290 whichdxdz =
"stdev20" 1291 whichdydz =
"stdev50" 1292 elif which ==
"stdev":
1295 whichdxdz =
"stdev10" 1296 whichdydz =
"stdev25" 1298 raise Exception(which +
" not recognized")
1301 if selection
is None or (selection.__code__.co_argcount == len(r1.postal_address)
and selection(*r1.postal_address)):
1304 if r1.postal_address == r2.postal_address:
1307 if not found:
continue 1310 if r1.postal_address[0]==
'CSC':
1311 if r1.postal_address[2]==1
and r1.postal_address[3]==4:
continue 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))
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))
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)
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)
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()
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")
1361 hmedianx_after.Draw()
1362 hmedianx_before.Draw(
"same")
1363 hmedianx_after.Draw(
"same")
1364 hmedianx_beforecopy.Draw(
"same")
1365 hmedianx_after.Draw(
"axissame")
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")
1375 hmediandxdz_after.Draw()
1376 hmediandxdz_before.Draw(
"same")
1377 hmediandxdz_after.Draw(
"same")
1378 hmediandxdz_beforecopy.Draw(
"same")
1379 hmediandxdz_after.Draw(
"axissame")
1382 hmediany_after.Draw()
1383 hmediany_before.Draw(
"same")
1384 hmediany_after.Draw(
"same")
1385 hmediany_beforecopy.Draw(
"same")
1386 hmediany_after.Draw(
"axissame")
1389 hmediandydz_after.Draw()
1390 hmediandydz_before.Draw(
"same")
1391 hmediandydz_after.Draw(
"same")
1392 hmediandydz_beforecopy.Draw(
"same")
1393 hmediandydz_after.Draw(
"axissame")
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
1404 htmp = ROOT.gROOT.FindObject(the2d.GetName()+
"_peaks")
1405 if htmp !=
None: htmp.Delete()
1407 hpeaks = the2d.ProjectionX(the2d.GetName()+
"_peaks")
1411 for i
in xrange(0,
int(the2d.GetNbinsX()), rebin):
1412 tmp = the2d.ProjectionY(
"tmp", i+1, i + rebin)
1413 nn = tmp.GetEntries()
1415 drange = tmp.GetRMS()
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())
1425 fr = tmp.Fit(
"fgaus",
"RNSQ")
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 1431 bad_fit_bins.append(i/rebin+1)
1432 if nn > 1.
and tmp.GetRMS() > 0:
1433 hpeaks.SetBinContent(i/rebin+1, tmp.GetMean())
1434 hpeaks.SetBinError(i/rebin+1, ROOT.TMath.StudentQuantile(0.841345,nn) * tmp.GetRMS() /
sqrt(nn))
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
1444 def mapplot(tfiles, name, param, mode="from2d", window=10., abscissa=None, title="",
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)
1450 tdrStyle.SetOptFit(0)
1451 tdrStyle.SetTitleFontSize(0.05)
1452 tdrStyle.SetPadRightMargin(0.1)
1458 global hist, hist2d, hist2dweight, tline1, tline2, tline3
1460 if fitsine
or fitsawteeth:
1463 print "bad id for ", name
1466 hdir =
"AlignmentMonitorMuonSystemMap1D/iter1/" 1467 hpref=
"%s_%s" % (name, param)
1471 if "ALL" in name
and (
"CSCvsr" in name
or "DTvsz" in name): combine_all =
True 1473 add1d = (
"vsphi" in name)
and (param ==
"x")
1476 hist2d = args[
"h2d"].Clone(hpref+
"_2d_")
1477 if "CSC" in name
and add1d: hist1d = args[
"h1d"].Clone(hpref+
"_1d_")
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)]
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_")
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"))
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"))
1507 if mode ==
"from2d":
1510 hist = the2d.ProjectionX()
1519 for i
in xrange(0,
int(the2d.GetNbinsX()), skip):
1520 tmp = the2d.ProjectionY(
"tmp", i+1, i + skip)
1521 if tmp.GetEntries() > 1:
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()))
1530 hist.SetBinContent(i/skip+1, 0.)
1531 hist.SetBinError(i/skip+1, 0.)
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)")
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)")
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)
1562 hist2d.Draw(
"colzsame")
1563 if widebins: hist.Draw(
"samee1")
1564 else: hist.Draw(
"same")
1566 hpeaks.SetMarkerStyle(20)
1567 hpeaks.SetMarkerSize(0.9)
1568 hpeaks.SetMarkerColor(ROOT.kRed)
1569 hpeaks.SetLineColor(ROOT.kRed)
1570 hpeaks.SetLineWidth(2)
1574 if fitsine
and "vsphi" in name:
1575 global fitsine_const, fitsine_sin, fitsine_cos, fitsine_chi2, fitsine_ndf
1577 f = ROOT.TF1(
"f",
"[0] + [1]*sin(x) + [2]*cos(x)", -pi/180.*5., pi*(2.-5./180.))
1579 f = ROOT.TF1(
"f",
"[0] + [1]*sin(x) + [2]*cos(x)", -pi, pi)
1580 f.SetLineColor(ROOT.kRed)
1582 if len(fixfitpars)>0:
1583 for fpar
in fixfitpars.keys():
1584 f.FixParameter(fpar, fixfitpars[fpar])
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
1598 MAP_RESULTS_FITSIN[id] = {
'a':fitsine_const,
'phi':fitsine_const,
'sin': fitsine_sin,
'cos': fitsine_cos,
'chi2': fitsine_chi2,
'ndf': fitsine_ndf}
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()
1615 if 'CSC' in name
and add1d:
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)
1624 f1 = ROOT.TF1(
"f1",
"gaus", rangea, rangeb)
1625 fit = hist1d.Fit(f1,
"NRQ")
1626 nn = hist1d.GetEntries()
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)
1631 MAP_RESULTS_FITSIN[id][
'phi'] = (dphiz, ephiz)
1633 global ttex_sine_, ttex_sine, ttex_1d_, ttex_1d
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()
1648 f = ROOT.TF1(
"f",
"[0] + [1]*x", -1000., 1000.)
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()
1665 ROOT.gPad.RedrawAxis()
1668 if not widebins:
philines(name, window, abscissa)
1669 if abscissa
is None:
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()
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()
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()
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()
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()
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()
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()
1706 if "vsphi" in name
and fitsawteeth:
1710 ROOT.gROOT.ProcessLine(
".L phiedges_fitfunctions.C++")
1728 fn.SetLineColor(ROOT.kYellow)
1736 ed.append(pi+
abs(ed[0]))
1738 global sawtooth_a, 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()}
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)
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" 1774 if name.find(
'sec')<0:
return None 1775 station = name[name.find(
'sec')-1]
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]
1781 return "MB%s/%s" % (w, station)
1785 if name[p+2]==
"p": endcap =
"+" 1786 elif name[p+2]==
"m": endcap =
"-" 1789 pch = name.find(
'ch')
1792 return "ME%s%s/%s" % (endcap, station, ring)
1794 chamber = name[pch+2:pch+4]
1795 return "ME%s%s/%s/%s" % (endcap, station, ring, chamber)
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)
1813 global hist, histCOPY, hist2d, tline1, tline2, tline3, tline4, tline5
1815 hdir =
"AlignmentMonitorMuonVsCurvature/iter1/" 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))
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
1833 for sector
in sectors:
1834 hsuffix =
"_%s_%s" % (
"wheel%s_sector%s" % (wheel, sector), param)
1835 for tfile
in tfiles:
1837 prof = tfiles[0].Get(hdir+
"tprofile"+hsuffix).Clone(
"tprofile_"+hsuffix)
1838 hist2d = tfiles[0].Get(hdir+
"th2f"+hsuffix).Clone(
"tprofile_"+hsuffix)
1840 prof.Add(tfile.Get(hdir+
"tprofile"+hsuffix))
1841 hist2d.Add(tfile.Get(hdir+
"th2f"+hsuffix))
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))
1850 elif mode ==
"from2d":
1855 htmp = ROOT.gROOT.FindObject(
"tmp")
1856 if htmp !=
None: htmp.Delete()
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()))
1867 hist.SetBinContent(i/skip+1, 0.)
1868 hist.SetBinError(i/skip+1, 0.)
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
1886 fitgauss_diff = f.GetParameter(1), f.GetParError(1)
1887 fitgauss_chi2 = f.GetChisquare()
1888 fitgauss_ndf = f.GetNDF()
1890 global fitline_intercept, fitline_slope
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)
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)
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)
1912 fitline_intercept = f.GetParameter(0), f.GetParError(0)
1913 fitline_slope = f.GetParameter(1), f.GetParError(1)
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)
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)")
1935 hist.SetMarkerColor(ROOT.kBlack)
1936 hist.SetLineColor(ROOT.kBlack)
1954 hpeaks.SetMarkerStyle(20)
1955 hpeaks.SetMarkerSize(0.9)
1956 hpeaks.SetMarkerColor(ROOT.kRed)
1957 hpeaks.SetLineColor(ROOT.kRed)
1958 hpeaks.SetLineWidth(2)
1966 tline5 = ROOT.TLine(-hist.GetBinLowEdge(1), 0., hist.GetBinLowEdge(1), 0.)
1972 global h, gm2, gm1, gz, gp1, gp2, tlegend
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)
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)
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()
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]))
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)
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")
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)
2041 ddt=[0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.,0.]
2043 for i
in range(0,15):
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)
2053 def bellcurves(tfile, reports, name, twobin=True, suppressblue=False):
2056 tdrStyle.SetOptTitle(1)
2057 tdrStyle.SetTitleBorderSize(1)
2058 tdrStyle.SetTitleFontSize(0.1)
2059 tdrStyle.SetOptStat(0)
2060 tdrStyle.SetHistMinimumZero()
2070 if not found:
raise Exception(
"Not a valid name")
2071 if r.status ==
"FAIL":
2077 Pos =
"Pos"; Neg =
"Neg" 2081 pdirPos =
"MuonAlignmentFromReference/%s%s" % (name, Pos)
2082 pdirNeg =
"MuonAlignmentFromReference/%s%s" % (name, Neg)
2085 ddt[1] = 1./ddt[0]*((ddt[0]-1)*ddt[1] + t2-t1)
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")
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")
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")
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")
2120 print "Can't find neither "+pdirPos+
"_x nor "+pdirPos+
"_residual" 2124 ddt[2] = 1./ddt[0]*((ddt[0]-1)*ddt[2] + t3-t2)
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")
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)")
2154 ddt[3] = 1./ddt[0]*((ddt[0]-1)*ddt[3] + t4-t3)
2156 for h
in chamber_x, chamber_dxdz, chamber_alphax, chamber_alphax, \
2157 chamber_y, chamber_dydz, chamber_alphay, chamber_alphay:
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)
2169 for f
in chamber_x_fit2, chamber_y_fit2, chamber_dxdz_fit2, chamber_dydz_fit2, \
2170 chamber_alphax_fit2, chamber_alphay_fit2:
2177 ddt[4] = 1./ddt[0]*((ddt[0]-1)*ddt[4] + t5-t4)
2179 global l1, l2, l3, l4
2180 if not not chamber_y:
2183 chamber_x.SetTitle(
getname(r))
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)))
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)))
2204 chamber_alphax.Draw(
"col")
2205 if not suppressblue: chamber_alphax_fit2.Draw(
"same")
2206 chamber_alphax_fit.Draw(
"same")
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)))
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)))
2226 for lb
in l1,l2,l3,l4:
2228 lb.SetTextColor(ROOT.kRed)
2231 chamber_alphay.Draw(
"col")
2232 if not suppressblue: chamber_alphay_fit2.Draw(
"same")
2233 chamber_alphay_fit.Draw(
"same")
2238 chamber_x.SetTitle(
getname(r))
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)))
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)))
2259 chamber_alphax.Draw(
"col")
2260 if not suppressblue: chamber_alphax_fit2.Draw(
"same")
2261 chamber_alphax_fit.Draw(
"same")
2265 lb.SetTextColor(ROOT.kRed)
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)
2272 def polynomials(tfile, reports, name, twobin=True, suppressblue=False):
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)
2290 if not found:
raise Exception(
"Not a valid name")
2292 if r.status ==
"FAIL":
2298 Pos =
"Pos"; Neg =
"Neg" 2302 pdirPos =
"MuonAlignmentFromReference/%s%s" % (name, Pos)
2303 pdirNeg =
"MuonAlignmentFromReference/%s%s" % (name, Neg)
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
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")
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")
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")
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")
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")
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")
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")
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")
2399 if not chamber_x_trackx:
2400 print "Can't find neither "+pdirPos+
"_residual nor "+pdirPos+
"_residual_trackx" 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()
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()
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)
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)
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")
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")
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:
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)
2485 trackdxdz_minimum, trackdxdz_maximum =
None,
None 2486 for h
in chamber_x_trackdxdz, chamber_y_trackdxdz, chamber_dxdz_trackdxdz, chamber_dydz_trackdxdz:
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:
2498 h.SetAxisRange(trackdxdz_minimum, trackdxdz_maximum,
"X")
2500 trackdydz_minimum, trackdydz_maximum =
None,
None 2501 for h
in chamber_x_trackdydz, chamber_y_trackdydz, chamber_dxdz_trackdydz, chamber_dydz_trackdydz:
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:
2513 h.SetAxisRange(trackdydz_minimum, trackdydz_maximum,
"X")
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:
2522 if not not chamber_y_trackx:
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))
2554 ROOT.SetOwnership(p,
False)
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")
2566 for l
in label1, label2, label3, label4, label5, label6, label7, label8, label9:
2568 l.SetFillColor(ROOT.kWhite)
2570 for l
in label1, label2, label3, label4:
2575 label9.SetTextSize(0.59)
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()
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)
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)
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)
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)
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)
2665 chamber_dydz_tracky.GetYaxis().SetLabelColor(ROOT.kWhite)
2666 chamber_dydz_trackdxdz.GetYaxis().SetLabelColor(ROOT.kWhite)
2667 chamber_dydz_trackdydz.GetYaxis().SetLabelColor(ROOT.kWhite)
2670 chamber_x_trackx.Draw(
"e1")
2671 if not suppressblue: chamber_x_trackx_fit2.Draw(
"samel")
2672 chamber_x_trackx_fit.Draw(
"samel")
2680 chamber_x_tracky.Draw(
"e1")
2681 if not suppressblue: chamber_x_tracky_fit2.Draw(
"samel")
2682 chamber_x_tracky_fit.Draw(
"samel")
2685 chamber_x_trackdxdz.Draw(
"e1")
2686 if not suppressblue: chamber_x_trackdxdz_fit2.Draw(
"samel")
2687 chamber_x_trackdxdz_fit.Draw(
"samel")
2690 chamber_x_trackdydz.Draw(
"e1")
2691 if not suppressblue: chamber_x_trackdydz_fit2.Draw(
"samel")
2692 chamber_x_trackdydz_fit.Draw(
"samel")
2695 chamber_y_trackx.Draw(
"e1")
2696 if not suppressblue: chamber_y_trackx_fit2.Draw(
"samel")
2697 chamber_y_trackx_fit.Draw(
"samel")
2700 chamber_y_tracky.Draw(
"e1")
2701 if not suppressblue: chamber_y_tracky_fit2.Draw(
"samel")
2702 chamber_y_tracky_fit.Draw(
"samel")
2705 chamber_y_trackdxdz.Draw(
"e1")
2706 if not suppressblue: chamber_y_trackdxdz_fit2.Draw(
"samel")
2707 chamber_y_trackdxdz_fit.Draw(
"samel")
2710 chamber_y_trackdydz.Draw(
"e1")
2711 if not suppressblue: chamber_y_trackdydz_fit2.Draw(
"samel")
2712 chamber_y_trackdydz_fit.Draw(
"samel")
2715 chamber_dxdz_trackx.Draw(
"e1")
2716 if not suppressblue: chamber_dxdz_trackx_fit2.Draw(
"samel")
2717 chamber_dxdz_trackx_fit.Draw(
"samel")
2720 chamber_dxdz_tracky.Draw(
"e1")
2721 if not suppressblue: chamber_dxdz_tracky_fit2.Draw(
"samel")
2722 chamber_dxdz_tracky_fit.Draw(
"samel")
2725 chamber_dxdz_trackdxdz.Draw(
"e1")
2726 if not suppressblue: chamber_dxdz_trackdxdz_fit2.Draw(
"samel")
2727 chamber_dxdz_trackdxdz_fit.Draw(
"samel")
2730 chamber_dxdz_trackdydz.Draw(
"e1")
2731 if not suppressblue: chamber_dxdz_trackdydz_fit2.Draw(
"samel")
2732 chamber_dxdz_trackdydz_fit.Draw(
"samel")
2735 chamber_dydz_trackx.Draw(
"e1")
2736 if not suppressblue: chamber_dydz_trackx_fit2.Draw(
"samel")
2737 chamber_dydz_trackx_fit.Draw(
"samel")
2740 chamber_dydz_tracky.Draw(
"e1")
2741 if not suppressblue: chamber_dydz_tracky_fit2.Draw(
"samel")
2742 chamber_dydz_tracky_fit.Draw(
"samel")
2745 chamber_dydz_trackdxdz.Draw(
"e1")
2746 if not suppressblue: chamber_dydz_trackdxdz_fit2.Draw(
"samel")
2747 chamber_dydz_trackdxdz_fit.Draw(
"samel")
2750 chamber_dydz_trackdydz.Draw(
"e1")
2751 if not suppressblue: chamber_dydz_trackdydz_fit2.Draw(
"samel")
2752 chamber_dydz_trackdydz_fit.Draw(
"samel")
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))
2776 ROOT.SetOwnership(p,
False)
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")
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)")
2790 for l
in label1, label2, label3, label4, label5, label6, label9:
2792 l.SetFillColor(ROOT.kWhite)
2794 for l
in label1, label2:
2799 label9.SetTextSize(0.29)
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()
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)
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)
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)
2839 chamber_dxdz_tracky.GetYaxis().SetLabelColor(ROOT.kWhite)
2840 chamber_dxdz_trackdxdz.GetYaxis().SetLabelColor(ROOT.kWhite)
2841 chamber_dxdz_trackdydz.GetYaxis().SetLabelColor(ROOT.kWhite)
2844 chamber_x_trackx.Draw(
"e1")
2845 if not suppressblue: chamber_x_trackx_fit2.Draw(
"samel")
2846 chamber_x_trackx_fit.Draw(
"samel")
2850 chamber_x_tracky.Draw(
"e1")
2851 if not suppressblue: chamber_x_tracky_fit2.Draw(
"samel")
2852 chamber_x_tracky_fit.Draw(
"samel")
2855 chamber_x_trackdxdz.Draw(
"e1")
2856 if not suppressblue: chamber_x_trackdxdz_fit2.Draw(
"samel")
2857 chamber_x_trackdxdz_fit.Draw(
"samel")
2860 chamber_x_trackdydz.Draw(
"e1")
2861 if not suppressblue: chamber_x_trackdydz_fit2.Draw(
"samel")
2862 chamber_x_trackdydz_fit.Draw(
"samel")
2865 chamber_dxdz_trackx.Draw(
"e1")
2866 if not suppressblue: chamber_dxdz_trackx_fit2.Draw(
"samel")
2867 chamber_dxdz_trackx_fit.Draw(
"samel")
2870 chamber_dxdz_tracky.Draw(
"e1")
2871 if not suppressblue: chamber_dxdz_tracky_fit2.Draw(
"samel")
2872 chamber_dxdz_tracky_fit.Draw(
"samel")
2875 chamber_dxdz_trackdxdz.Draw(
"e1")
2876 if not suppressblue: chamber_dxdz_trackdxdz_fit2.Draw(
"samel")
2877 chamber_dxdz_trackdxdz_fit.Draw(
"samel")
2880 chamber_dxdz_trackdydz.Draw(
"e1")
2881 if not suppressblue: chamber_dxdz_trackdydz_fit2.Draw(
"samel")
2882 chamber_dxdz_trackdydz_fit.Draw(
"samel")
2885 ddt[8] = 1./ddt[7]*((ddt[7]-1)*ddt[8] + tn-t1)
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)
2898 if component[0:2] ==
"dt":
2899 wheel = args[
"wheel"]
2901 sector = args[
"sector"]
2902 profname =
"%s_%s_%02d_%s" % (component, wheelletter, sector,
str(pair))
2903 posname =
"pos" + profname
2904 negname =
"neg" + profname
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
2914 phi = (phi1 + phi2) / 2.
2915 while (phi < -pi): phi += 2.*pi
2916 while (phi > pi): phi -= 2.*pi
2918 elif component[0:3] ==
"csc":
2919 endcap = args[
"endcap"]
2926 else:
raise Exception
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
2936 chamber = args[
"chamber"]
2937 if (ring==1
and chamber>18)
or (ring==2
and chamber>36):
raise Exception
2939 profname =
"csc%s_%s_%s_%02d_%s" % (ringname,component[4:], endcap, chamber,
str(pair))
2940 posname =
"pos" + profname
2941 negname =
"neg" + profname
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
2951 phi = (phi1 + phi2) / 2.
2952 while (phi < -pi*5./180.): phi += 2.*pi
2953 while (phi > pi*(2.-5./180.)): phi -= 2.*pi
2955 else:
raise Exception
2957 if "window" in args: window = args[
"window"]
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))
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")
2976 f = ROOT.TF1(
"p1",
"[0] + [1]*x", tmpprof.GetBinLowEdge(1), -tmpprof.GetBinLowEdge(1))
2977 f.SetParameters((tmppos.GetMean() + tmpneg.GetMean())/2., 0.)
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")
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
3023 tmppos.SetTitle(
"Positive muons")
3024 tmpneg.SetTitle(
"Negative muons")
3029 fit1 = tmpprof.Fit(
"p1",
"qS")
3032 c1.GetPad(2).
Divide(1, 2)
3033 c1.GetPad(2).GetPad(1).cd()
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()
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")
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
3052 fitresult1 =
None,
None 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
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)
3074 if component[0:4] ==
"x_dt":
3075 wheel =
int(args[
"wheel"])
3077 wheell =
"m%d" %
abs(wheel)
3080 wheell =
"p%d" %
abs(wheel)
3082 station_dt = component[4]
3083 station_csc_1 = args[
"cscstations"][0]
3084 if station_csc_1==
'1': ring_1 = 3
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
3094 profname =
"%s%s_W%sS%02d" % (component, station_csc_2, wheell, sector)
3095 posname_2 =
"pos_" + profname
3096 negname_2 =
"neg_" + profname
3098 phi = signConventions[
"DT", wheel,
int(station_dt), sector][4]
3099 while (phi < -pi): phi += 2.*pi
3100 while (phi > pi): phi -= 2.*pi
3102 else:
raise Exception
3104 if "window" in args: window = args[
"window"]
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)
3124 result[
"fit_ok"] =
False 3126 ntot = tmppos.GetEntries() + tmpneg.GetEntries()
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()
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")
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")
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
3165 if len(args[
"cscstations"]) > 1:
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")
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")
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
3188 tdrStyle.SetOptTitle(1)
3189 tdrStyle.SetTitleBorderSize(1)
3190 tdrStyle.SetTitleFontSize(0.05)
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):
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")
3203 gtemp_11_phi.append(r1[
"phi"])
3204 gtemp_11_val.append(r1[
"fit_peak"])
3205 gtemp_11_err.append(r1[
"fit_peak_error"])
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"])
3211 gtemp_21_phi.append(r2[
"phi"])
3212 gtemp_21_val.append(r2[
"fit_peak"])
3213 gtemp_21_err.append(r2[
"fit_peak_error"])
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))
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)
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)
3248 if len(gtemp_12_phi) > 0:
3250 if len(gtemp_21_phi) > 0:
3252 if len(gtemp_11_phi) > 0:
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")
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,
"")
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)
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)
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)
3302 def segdiffvsphi(tfiles, reports, component, wheel, window=5., excludesectors=()):
3303 tdrStyle.SetOptTitle(1)
3304 tdrStyle.SetTitleBorderSize(1)
3305 tdrStyle.SetTitleFontSize(0.05)
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):
3314 r1_found, r2_found, r3_found, r4_found =
False,
False,
False,
False 3316 if r1.postal_address == (
"DT", wheel, 1, sector):
3320 if r2.postal_address == (
"DT", wheel, 2, sector):
3324 if r3.postal_address == (
"DT", wheel, 3, sector):
3328 if r4.postal_address == (
"DT", wheel, 4, sector):
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)
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)
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)
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)
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))
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)
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)
3412 if len(gtemp_12_phi) > 0:
3415 if len(gtemp_23_phi) > 0:
3418 if len(gtemp_34_phi) > 0:
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)),
"")
3441 tdrStyle.SetOptTitle(1)
3442 tdrStyle.SetTitleBorderSize(1)
3443 tdrStyle.SetTitleFontSize(0.05)
3445 if not component[0:3] ==
"csc": Exception
3447 endcap = args[
"endcap"]
3454 else:
raise Exception
3456 station1 =
int(
str(pair)[0])
3457 station2 =
int(
str(pair)[1])
3458 if not station2-station1==1:
raise Exception
3461 if station2==4: rings = [1]
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 = [], [], [], [], []
3470 chambers = xrange(1,37)
3471 if ring == 1: chambers = xrange(1,19)
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:
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)
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)
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))
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)
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)
3525 if len(gtemp_1_phi) > 0:
3528 if len(gtemp_2_phi) > 0:
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")
3551 def corrections2D(reportsX=None, reportsY=None, geometry0=None, geometryX=None, geometryY=None,
3552 window=25., selection=
None, name=
"tmp", canvas=
None, pre_title_x=
None, pre_title_y=
None,
3555 tdrStyle.SetOptStat(0)
3556 tdrStyle.SetStatW(0.40)
3560 check_reports =
False 3561 if reportsX
is not None and reportsY
is not None:
3563 check_reports =
True 3564 if geometry0
is not None and geometryX
is not None and geometryY
is not None:
3567 print "Either couple of reports or three geometries have to be given as input. Exiting..." 3572 wnd_adaptive = [.1]*6
3574 global hx, hy, hz, hphix, hphiy, hphiz
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]
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]
3595 ax=[]; ay=[]; az=[]; aphix=[]; aphiy=[]; aphiz=[]
3596 aaa = [ax, ay, az, aphix, aphiy, aphiz]
3599 postal_addresses = []
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)):
3609 print "bad r2 in ",r1.postal_address
3612 if r1.status !=
"PASS" or r2.status !=
"PASS":
3613 print "bad status", r1.postal_address, r1.status, r2.status
3615 postal_addresses.append(r1.postal_address)
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():
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)) )
3628 for addr
in postal_addresses:
3631 if not (selection
is None or (selection.__code__.co_argcount == len(addr)
and selection(*addr)) ):
continue 3633 factors = [10. * signConventions[addr][0], 10. * signConventions[addr][1], 10. * signConventions[addr][2],
3634 1000., 1000., 1000. ]
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]
3642 if mode ==
"reports":
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. , \
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]))
3655 if mx > wnd_adaptive[i]: wnd_adaptive[i] = mx
3659 db0 = dbX = dbY =
None 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:]]
3667 checks =
map(
lambda d1, d2: d1
is not None and d2
is not None , deltasX, deltasY)
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]
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]))
3680 if mx > wnd_adaptive[i]: wnd_adaptive[i] = mx
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)"]
3694 for t
in tmptitles: htitles.append([pre_title_x + t, pre_title_y + t])
3696 if canvas
is not None: c = canvas
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)
3704 global lines, graphs, texs
3705 lines = []; graphs = []; texs = []
3711 if (
int(which,2) & (1<<i) ) == 0:
continue 3715 c.GetPad(ipad).SetGridx(1)
3716 c.GetPad(ipad).SetGridy(1)
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()
3727 if len(aaa[i]) == 0:
continue 3729 a1, a2 =
map(
lambda x: array.array(
'd',x),
list(
zip(*aaa[i])) )
3730 g = ROOT.TGraph(len(a1), a1, a2)
3732 g.SetMarkerSize(0.3)
3733 g.SetMarkerColor(ROOT.kBlue)
3736 pcas[i].MakePrincipals()
3739 b = pcas[i].GetEigenVectors()(1,0) / pcas[i].GetEigenVectors()(0,0)
3740 a = pcas[i].GetMeanValues()[1] - b * pcas[i].GetMeanValues()[0]
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:
3750 t.SetTextColor(ROOT.kBlue)
3751 t.SetTextSize(0.053)
3758 wn = wnd_adaptive[i]
3759 line = ROOT.TLine(-wn, a - b*wn, wn, a + b*wn)
3760 line.SetLineColor(ROOT.kRed)
def rlines(disk, window, abscissa)
def writeDQMReport(fname_dqm, run_name)
def testZeroWithin5Sigma(x)
def segdiffvsphi_xalign(tfiles, wheel, window=10.)
def DBdiffVersus(quantity, versus, database1, database2, reports1, reports2, windwselection=None, color=ROOT.kBlack)
def wheelm1only(dt, wheel, station, sector)
def saveTestResultsMap(run_name)
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...
def philines(name, window, abscissa)
def availableCellsCSC(reports)
def doTests(reports, pic_ids, fname_base, fname_dqm, run_name)
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 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 postalAddressToId(postal_address)
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 ge...
def segdiff_xalign(tfiles, component, args)
def doTestsForMapPlots(cells)
def DBMCVersus(quantity, versus, database, reports, window=10., selection=None, color=ROOT.kBlack)
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 wheelm2only(dt, wheel, station, sector)
Convenience functions.
OutputIterator zip(InputIterator1 first1, InputIterator1 last1, InputIterator2 first2, InputIterator2 last2, OutputIterator result, Compare comp)
def segdiffvsphicsc(tfiles, component, pair, window=5., args)
Abs< T >::type abs(const T &t)
def segdiffvsphi(tfiles, reports, component, wheel, window=5., excludesectors=())
def loadTestResultsMap(run_name)
def polynomials(tfile, reports, name, twobin=True, suppressblue=False)
def testDeltaWithin5Sigma(x, sx)
def bellcurves(tfile, reports, name, twobin=True, suppressblue=False)
def availableCellsDT(reports)
static std::string join(char **cmd)
def wheelp2only(dt, wheel, station, sector)
def testEntry(testID, scope, descr, severity)
def createPeaksProfile(the2d, rebin=1)
def __call__(self, xx, par)
def curvatureDTsummary(tfiles, window=15., pdgSfactor=False)
def doTestsForReport(cells, reports)
def segdiff(tfiles, component, pair, args)
def zlines(window, abscissa)
def wheel0only(dt, wheel, station, sector)
def set_palette(name=None, ncontours=999)
def idToPostalAddress(id)
def addToTestResults(c, res)
def getReportByPostalAddress(postal_address, report)
def wheelp1only(dt, wheel, station, sector)
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 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")