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createTree.py
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1 #! /usr/bin/env python
2 
3 import re,os,sys
4 import optparse
5 
6 # python 2.6 has json modue; <2.6 could use simplejson
7 try:
8  import json
9 except ImportError:
10  import simplejson as json
11 
12 from mutypes import *
13 
14 import pprint
15 pp = pprint.PrettyPrinter(indent=2)
16 
17 
18 NAME_TO_TITLE = {
19 "map_DTvsphi_dxdz.png" : "map of dxdz residual vs phi",
20 "map_DTvsphi_dydz.png" : "map of dydz residual vs phi",
21 "map_DTvsphi_x.png" : "map of x residual vs phi",
22 "map_DTvsphi_y.png" : "map of y residual vs phi",
23 "map_DTvsz_dxdz.png" : "map of dxdz residual vs z",
24 "map_DTvsz_dydz.png" : "map of dydz residual vs z",
25 "map_DTvsz_x.png" : "map of x residual vs z",
26 "map_DTvsz_y.png" : "map of y residual vs z",
27 "map_CSCvsphi_dxdz.png" : "map of d(rphi)/dz residual vs phi",
28 "map_CSCvsphi_x.png" : "map of rphi residual vs phi",
29 "map_CSCvsr_dxdz.png" : "map of d(rphi)/dz residual vs r",
30 "map_CSCvsr_x.png" : "map of rphi residual vs r",
31 "segdifphi_dt13_resid.png" : "segdiff in x residuals vs phi",
32 "segdifphi_dt13_slope.png" : "segdiff in dxdz residuals vs phi",
33 "segdifphi_dt2_resid.png" : "segdiff in y residuals vs phi",
34 "segdifphi_dt2_slope.png" : "segdiff in dydz residuals vs phi",
35 "segdif_dt13_resid.png" : "segdiff in x residuals",
36 "segdif_dt13_slope.png" : "segdiff in dxdz residuals",
37 "segdif_dt2_resid.png" : "segdiff in y residuals",
38 "segdif_dt2_slope.png" : "segdiff in dydz residuals",
39 "segdifphi_csc_resid.png" : "segdiff in rphi residuals vs phi",
40 "segdifphi_csc_slope.png" : "segdiff in d(rphi)/dz residuals vs phi",
41 "segdif_csc_resid.png" : "segdiff in rphi residuals",
42 "segdif_csc_slope.png" : "segdiff in d(rphi)/dz residuals",
43 "dt_bellcurves.png" : "residuals distributions",
44 "dt_polynomials.png" : "residuals relations to misalignments",
45 "csc_bellcurves.png" : "residuals distributions",
46 "csc_polynomials.png" : "residuals relations to misalignments",
47 'dt_curvature_deltax.png' : 'Delta x residuals vs. curvature',
48 'dt_curvature_deltadxdz.png' : 'Delta dxdz residuals vs. curvature',
49 "medians.png" : "medians distribution"
50 }
51 ######################################################
52 # functions definitions
53 
54 ######################################################
55 # To parse commandline args
56 
57 usage='%prog [options]\n'+\
58  'Creates a tree_items.js data file for a browsable JavaScript tree using results produced '+\
59  'by running alignment_validation_plots.py.'
60 
61 parser=optparse.OptionParser(usage)
62 
63 parser.add_option("-i", "--inputDir",
64  help="[REQUIRED] input directory: should contain 'iter1', 'iterN' and 'common' directories filled with alignment_validation_plots.py. The resulting tree_items.js is also dumped into this directory",
65  type="string",
66  default='',
67  dest="inputDir")
68 
69 parser.add_option("-v", "--verbose",
70  help="Degree of debug info verbosity",
71  type="int",
72  default=0,
73  dest="verbose")
74 
75 options,args=parser.parse_args()
76 
77 if options.inputDir=='':
78  print "\nOne or more of REQUIRED options is missing!\n"
79  parser.print_help()
80  # See \n"+sys.argv[0]+" --help"
81  sys.exit()
82 
83 ######################################################
84 
85 
86 
87 ############################################################################################################
88 ############################################################################################################
89 # main script
90 
91 # create directory structure
92 
93 #basedir='/disks/sdb5/home_reloc/khotilov/db/cms/alignment'
94 #os.chdir(basedir)
95 os.chdir(options.inputDir)
96 
97 #iteration1 = "iteration_01"
98 #iteration3 = "iteration_03"
99 #iteration1 = "NOV4DT_PASS3noweight_TkHIP_01"
100 #iteration3 = "NOV4DT_PASS3noweight_TkHIP_05"
101 iteration1 = "iter1"
102 iterationN = "iterN"
103 comdir = "common/"
104 
105 ######################################################
106 # open root and py result files
107 
108 iteration_directory = iterationN
109 
110 
111 def parseDir(dir,label,it1="",itN=""):
112  """it1 and itN are the first and the last iterations' directory names
113  dir is some directory with the results from for the LAST
114  iteration, so it must contain a itN substring
115  label is a label for tree's folder for this directory"""
116  if len(itN)>0 and dir.find(itN)==-1:
117  print "directory ", dir, "has no ", itN, " in it!!"
118  return ["problem!!!",""]
119  res = [label,dir]
120  files = os.listdir(dir)
121  files.sort()
122  for f in files:
123  if re.match(".+\.png", f):
124  if len(it1)>0 and len(itN)>0:
125  lnN = [itN,dir+'/'+f]
126  dir1 = dir.replace(itN,it1)
127  if not os.access(dir1+'/'+f,os.F_OK):
128  print "WARNING: no ",dir1+'/'+f," file found!!!"
129  ln1 = [it1,dir1+'/'+f]
130  ln = [NAME_TO_TITLE[f],dir+'/'+f,ln1,lnN]
131  res.append(ln)
132  else:
133  ln = [NAME_TO_TITLE[f],dir+'/'+f]
134  #print ln
135  res.append(ln)
136  #pp.pprint(res)
137  return res
138 
139 
140 mytree = []
141 tree_level1 = ['test','']
142 
143 # DT
144 dt_basedir = iteration_directory+'/MB/'
145 tree_level2 = parseDir(dt_basedir,"MB",iteration1,iterationN)
146 for wheel in DT_TYPES:
147  dd = dt_basedir + wheel[0]
148  print dd
149  tree_level3 = parseDir(dd,wheel[0],iteration1,iterationN)
150  for station in wheel[2]:
151  dd = dt_basedir + wheel[0]+'/'+station[1]
152  print dd
153  tree_level4 = parseDir(dd,station[0],iteration1,iterationN)
154  for sector in range(1,station[2]+1):
155  ssector = "%02d" % sector
156  dd = dt_basedir+wheel[0]+'/'+station[1]+'/'+ssector
157  #print dd
158  tree_level5 = parseDir(dd,"%s/%d" % (station[0],sector),iteration1,iterationN)
159  if len(tree_level5) == 2: tree_level5.append(['none',''])
160  tree_level4.append(tree_level5)
161  if len(tree_level4) == 2: tree_level4.append(['none',''])
162  tree_level3.append(tree_level4)
163  if len(tree_level3) == 2: tree_level3.append(['none',''])
164  tree_level2.append(tree_level3)
165 if len(tree_level2) == 2: tree_level2.append(['none',''])
166 tree_level1.append(tree_level2)
167 
168 # CSC
169 csc_basedir = iteration_directory+'/'
170 for endcap in CSC_TYPES:
171  dd = csc_basedir+endcap[0]
172  print dd
173  tree_level2 = parseDir(dd,endcap[0],iteration1,iterationN)
174  for station in endcap[2]:
175  dd = csc_basedir+endcap[0]+'/'+station[1]
176  print dd
177  tree_level3 = parseDir(dd,station[0],iteration1,iterationN)
178  for ring in station[2]:
179  dd = csc_basedir+endcap[0]+'/'+station[1]+'/'+ring[1]
180  print dd
181  tree_level4 = parseDir(dd,"%s/%s" % (station[0],ring[1]),iteration1,iterationN)
182  for chamber in range(1,ring[2]+1):
183  schamber = "%02d" % chamber
184  dd = csc_basedir+endcap[0]+'/'+station[1]+'/'+ring[1]+'/'+schamber
185  #print dd
186  tree_level5 = parseDir(dd,"%s/%s/%d" % (station[0],ring[1],chamber),iteration1,iterationN)
187  tree_level4.append(tree_level5)
188  if len(tree_level4) == 2: tree_level4.append(['none',''])
189  tree_level3.append(tree_level4)
190  if len(tree_level3) == 2: tree_level3.append(['none',''])
191  tree_level2.append(tree_level3)
192  if len(tree_level2) == 2: tree_level2.append(['none',''])
193  tree_level1.append(tree_level2)
194 
195 # Common plots
196 common_basedir = comdir
197 tree_level2 = parseDir(common_basedir,"All")
198 tree_level1.append(tree_level2)
199 
200 
201 mytree.append(tree_level1)
202 print " "
203 #pp.pprint(mytree)
204 print
205 
206 ff = open("tree_items.js",mode="w")
207 print >>ff, "var TREE_ITEMS = "
208 json.dump(mytree,ff)
209 ff.close()
def parseDir
Definition: createTree.py:111