CMS 3D CMS Logo

/afs/cern.ch/work/a/aaltunda/public/www/CMSSW_5_3_13_patch3/src/Alignment/MuonAlignmentAlgorithms/scripts/createTree.py

Go to the documentation of this file.
00001 #! /usr/bin/env python
00002 
00003 import re,os,sys
00004 import optparse
00005 
00006 # python 2.6 has json modue; <2.6 could use simplejson
00007 try:
00008   import json
00009 except ImportError:
00010   import simplejson as json
00011 
00012 from mutypes import * 
00013 
00014 import pprint
00015 pp = pprint.PrettyPrinter(indent=2)
00016 
00017 
00018 NAME_TO_TITLE = {
00019 "map_DTvsphi_dxdz.png" : "map of dxdz residual vs phi",
00020 "map_DTvsphi_dydz.png" : "map of dydz residual vs phi",
00021 "map_DTvsphi_x.png" : "map of x residual vs phi",
00022 "map_DTvsphi_y.png" : "map of y residual vs phi",
00023 "map_DTvsz_dxdz.png" : "map of dxdz residual vs z",
00024 "map_DTvsz_dydz.png" : "map of dydz residual vs z",
00025 "map_DTvsz_x.png" : "map of x residual vs z",
00026 "map_DTvsz_y.png" : "map of y residual vs z",
00027 "map_CSCvsphi_dxdz.png" : "map of d(rphi)/dz residual vs phi",
00028 "map_CSCvsphi_x.png" : "map of rphi residual vs phi",
00029 "map_CSCvsr_dxdz.png" : "map of d(rphi)/dz residual vs r",
00030 "map_CSCvsr_x.png" : "map of rphi residual vs r",
00031 "segdifphi_dt13_resid.png" : "segdiff in x residuals vs phi",
00032 "segdifphi_dt13_slope.png" : "segdiff in dxdz residuals vs phi",
00033 "segdifphi_dt2_resid.png" : "segdiff in y residuals vs phi",
00034 "segdifphi_dt2_slope.png" : "segdiff in dydz residuals vs phi",
00035 "segdif_dt13_resid.png" : "segdiff in x residuals",
00036 "segdif_dt13_slope.png" : "segdiff in dxdz residuals",
00037 "segdif_dt2_resid.png" : "segdiff in y residuals",
00038 "segdif_dt2_slope.png" : "segdiff in dydz residuals",
00039 "segdifphi_csc_resid.png" : "segdiff in rphi residuals vs phi",
00040 "segdifphi_csc_slope.png" : "segdiff in d(rphi)/dz residuals vs phi",
00041 "segdif_csc_resid.png" : "segdiff in rphi residuals",
00042 "segdif_csc_slope.png" : "segdiff in d(rphi)/dz residuals",
00043 "dt_bellcurves.png" : "residuals distributions",
00044 "dt_polynomials.png" : "residuals relations to misalignments",
00045 "csc_bellcurves.png" : "residuals distributions",
00046 "csc_polynomials.png" : "residuals relations to misalignments",
00047 'dt_curvature_deltax.png' : 'Delta x residuals vs. curvature',
00048 'dt_curvature_deltadxdz.png' : 'Delta dxdz residuals vs. curvature',
00049 "medians.png" : "medians distribution"
00050 }
00051 ######################################################
00052 # functions definitions
00053 
00054 ######################################################
00055 # To parse commandline args
00056 
00057 usage='%prog [options]\n'+\
00058   'Creates a tree_items.js data file for a browsable JavaScript tree using results produced '+\
00059   'by running alignment_validation_plots.py.'
00060 
00061 parser=optparse.OptionParser(usage)
00062 
00063 parser.add_option("-i", "--inputDir",
00064   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",
00065   type="string",
00066   default='',
00067   dest="inputDir")
00068 
00069 parser.add_option("-v", "--verbose",
00070   help="Degree of debug info verbosity",
00071   type="int",
00072   default=0,
00073   dest="verbose")
00074 
00075 options,args=parser.parse_args()
00076 
00077 if options.inputDir=='':
00078   print "\nOne or more of REQUIRED options is missing!\n"
00079   parser.print_help()
00080   # See \n"+sys.argv[0]+" --help"
00081   sys.exit()
00082 
00083 ######################################################
00084 
00085 
00086 
00087 ############################################################################################################
00088 ############################################################################################################
00089 # main script
00090 
00091 # create directory structure
00092 
00093 #basedir='/disks/sdb5/home_reloc/khotilov/db/cms/alignment'
00094 #os.chdir(basedir)
00095 os.chdir(options.inputDir)
00096 
00097 #iteration1 = "iteration_01"
00098 #iteration3 = "iteration_03"
00099 #iteration1 = "NOV4DT_PASS3noweight_TkHIP_01"
00100 #iteration3 = "NOV4DT_PASS3noweight_TkHIP_05"
00101 iteration1 = "iter1"
00102 iterationN = "iterN"
00103 comdir = "common/"
00104 
00105 ######################################################
00106 # open root and py result files
00107 
00108 iteration_directory = iterationN
00109 
00110 
00111 def parseDir(dir,label,it1="",itN=""):
00112   """it1 and itN   are the first and the last iterations' directory names
00113      dir           is some directory with the results from for the LAST 
00114                    iteration, so it must contain a itN substring 
00115      label         is a label for tree's folder for this directory"""
00116   if len(itN)>0 and dir.find(itN)==-1:
00117     print "directory ", dir, "has no ", itN, " in it!!"
00118     return ["problem!!!",""]
00119   res = [label,dir]
00120   files = os.listdir(dir)
00121   files.sort()
00122   for f in files:
00123     if re.match(".+\.png", f):
00124       if len(it1)>0 and len(itN)>0:
00125         lnN = [itN,dir+'/'+f]
00126         dir1 = dir.replace(itN,it1)
00127         if not os.access(dir1+'/'+f,os.F_OK):
00128           print "WARNING: no ",dir1+'/'+f," file found!!!"
00129         ln1 = [it1,dir1+'/'+f]
00130         ln = [NAME_TO_TITLE[f],dir+'/'+f,ln1,lnN]
00131         res.append(ln)
00132       else:
00133         ln = [NAME_TO_TITLE[f],dir+'/'+f]
00134         #print ln
00135         res.append(ln)
00136   #pp.pprint(res)
00137   return res
00138 
00139 
00140 mytree = []
00141 tree_level1 = ['test','']
00142 
00143 # DT
00144 dt_basedir = iteration_directory+'/MB/'
00145 tree_level2 = parseDir(dt_basedir,"MB",iteration1,iterationN)
00146 for wheel in DT_TYPES:
00147   dd = dt_basedir + wheel[0]
00148   print dd
00149   tree_level3 = parseDir(dd,wheel[0],iteration1,iterationN)
00150   for station in wheel[2]:
00151     dd = dt_basedir + wheel[0]+'/'+station[1]
00152     print dd 
00153     tree_level4 = parseDir(dd,station[0],iteration1,iterationN)
00154     for sector in range(1,station[2]+1):
00155       ssector = "%02d" % sector
00156       dd = dt_basedir+wheel[0]+'/'+station[1]+'/'+ssector
00157       #print dd
00158       tree_level5 = parseDir(dd,"%s/%d" % (station[0],sector),iteration1,iterationN)
00159       if len(tree_level5) == 2: tree_level5.append(['none',''])
00160       tree_level4.append(tree_level5)
00161     if len(tree_level4) == 2: tree_level4.append(['none',''])
00162     tree_level3.append(tree_level4)
00163   if len(tree_level3) == 2: tree_level3.append(['none',''])
00164   tree_level2.append(tree_level3)
00165 if len(tree_level2) == 2: tree_level2.append(['none',''])
00166 tree_level1.append(tree_level2)
00167 
00168 # CSC
00169 csc_basedir = iteration_directory+'/'
00170 for endcap in CSC_TYPES:
00171   dd = csc_basedir+endcap[0]
00172   print dd
00173   tree_level2 = parseDir(dd,endcap[0],iteration1,iterationN)
00174   for station in endcap[2]:
00175     dd = csc_basedir+endcap[0]+'/'+station[1]
00176     print dd
00177     tree_level3 = parseDir(dd,station[0],iteration1,iterationN)
00178     for ring in station[2]:
00179       dd = csc_basedir+endcap[0]+'/'+station[1]+'/'+ring[1]
00180       print dd
00181       tree_level4 = parseDir(dd,"%s/%s" % (station[0],ring[1]),iteration1,iterationN)
00182       for chamber in range(1,ring[2]+1):
00183         schamber = "%02d" % chamber
00184         dd = csc_basedir+endcap[0]+'/'+station[1]+'/'+ring[1]+'/'+schamber
00185         #print dd
00186         tree_level5 = parseDir(dd,"%s/%s/%d" % (station[0],ring[1],chamber),iteration1,iterationN)
00187         tree_level4.append(tree_level5)
00188       if len(tree_level4) == 2: tree_level4.append(['none',''])
00189       tree_level3.append(tree_level4)
00190     if len(tree_level3) == 2: tree_level3.append(['none',''])
00191     tree_level2.append(tree_level3)
00192   if len(tree_level2) == 2: tree_level2.append(['none',''])
00193   tree_level1.append(tree_level2)
00194 
00195 # Common plots
00196 common_basedir = comdir
00197 tree_level2 = parseDir(common_basedir,"All")
00198 tree_level1.append(tree_level2)
00199 
00200 
00201 mytree.append(tree_level1)
00202 print " "
00203 #pp.pprint(mytree)
00204 print
00205 
00206 ff = open("tree_items.js",mode="w")
00207 print >>ff, "var TREE_ITEMS = "
00208 json.dump(mytree,ff)
00209 ff.close()