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/data/refman/pasoursint/CMSSW_4_1_8_patch13/src/DQM/CSCMonitorModule/data/bookConverter.py

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00001 import xml.dom.minidom as dom
00002 import sys, os, optparse
00003 
00004 class OptionParser(optparse.OptionParser):
00005   """
00006   OptionParser is main class to parse options.
00007   """
00008   def __init__(self):
00009     optparse.OptionParser.__init__(self, usage="%prog --help or %prog [options] file", version="%prog 0.0.1", conflict_handler="resolve")
00010     self.add_option("--src", action="store", type="string", dest="src", help="specify source XML file")
00011     self.add_option("--min", action="store", type="int", dest="min", help="Minimum length to measure")
00012     self.add_option("--max", action="store", type="int", dest="max", help="Maximum length to measure")
00013     self.add_option("--cid", action="store", type="int", dest="cid", help="Apply combination ID")
00014     self.add_option("--xsd", action="store_true", dest="xsd", help="Create XML Schema fragment")
00015 
00016 def read_data():
00017   print "Reading histogram file"
00018   n = 0
00019   histos = srcdoc.getElementsByTagName("Histogram")
00020   for histo in histos:
00021     h = []
00022     for key in histo.childNodes:
00023       if key.nodeType == key.ELEMENT_NODE:
00024         name = key.localName
00025         value = key.childNodes[0].nodeValue
00026         found = 0
00027 
00028         if not elements.has_key(name):
00029           elements[name] = {'type': '', 'count': 0}
00030         elements[name]['count'] = elements[name]['count'] + 1
00031 
00032         try:
00033           i = int(value)
00034           if elements[name]['type'] == '':
00035             elements[name]['type'] = 'xs:integer'
00036         except ValueError:
00037           try:
00038             i = float(value)  
00039             if elements[name]['type'] in ('', 'xs:integer'):
00040               elements[name]['type'] = 'xs:double'
00041           except ValueError:
00042             elements[name]['type'] = 'xs:string'
00043 
00044         for k in keys.keys():
00045           if keys[k]['name'] == name and keys[k]['value'] == value:
00046             keys[k]['count'] = keys[k]['count'] + 1
00047             h.append(k)
00048             found = 1
00049             break
00050         if found == 0:
00051           keys[n] = {'name': name, 'value': value, 'count': 1}
00052           h.append(n)
00053           n += 1
00054     h.sort()
00055     histograms.append(h)
00056 
00057 def create_xsd():
00058   for k in keys.keys():
00059     name = keys[k]['name']
00060 
00061   root = resdoc.createElement("xs:complexType")
00062   root.setAttribute("name", "HistogramType")
00063   resdoc.appendChild(root)
00064   seq = resdoc.createElement("xs:all")
00065   root.appendChild(seq)
00066   for e in sorted(elements.keys()):
00067     el = resdoc.createElement("xs:element")
00068     el.setAttribute("name", e)
00069     el.setAttribute("type", elements[e]['type'])
00070     if elements[e]['count'] < len(histograms):
00071       el.setAttribute("minOccurs", '0')
00072       el.setAttribute("maxOccurs", '1')
00073     seq.appendChild(el)
00074 
00075 def create_declaration(cid):
00076   co = comb[cid]
00077   print "Declaration to apply:", co
00078   for k in comb[cid]:
00079     print keys[k]['name'], '=', keys[k]['value']
00080 
00081 def cexists(s, c):
00082   d = len(c)
00083   for v1 in s:
00084     for v2 in c:
00085       if v1 == v2:
00086         d = d - 1
00087   return (d == 0)
00088 
00089 def ccopy(a):
00090   r = []
00091   for v in a:
00092     r.append(v)
00093   return r
00094 
00095 def kpermutation(vfrom, vto, min, max):
00096   vto = vto + 1
00097   queue = []
00098   for i in range(vfrom, vto):
00099     for j in range(i, vto):
00100       queue.append(j)
00101       if len(queue) >= min and len(queue) <= max:
00102         yield queue
00103     queue = []
00104 
00105 def compute(min, max):
00106   print "Computing permutations"
00107   for v in kpermutation(0, len(keys), min, max):
00108     ci = -1
00109     for h in histograms:
00110       if cexists(h, v):
00111         if ci == -1:
00112           ci = len(comb)
00113           comb[ci] = ccopy(v)
00114           results[ci] = [h]
00115         else:
00116           results[ci].append(h) 
00117 
00118 def priorities():
00119   for ci in comb.keys():
00120     l = len(results[ci])
00121     if l == 1: 
00122       continue
00123     if not prior.has_key(l):
00124       prior[l] = [ci]
00125     else:
00126       prior[l].append(ci)
00127 
00128 if __name__ == "__main__":
00129 
00130   optManager  = OptionParser()
00131   (opts, args) = optManager.parse_args()
00132   opts = opts.__dict__
00133 
00134   if opts['src'] in ('', None):
00135     print "You must specify a valid source xml file"
00136     sys.exit(0)
00137 
00138   resdoc = dom.Document()
00139   srcdoc = dom.parse(opts['src'])
00140 
00141   histograms = []
00142   keys = {}
00143   results = {}
00144   comb = {}
00145   prior = {}
00146   elements = {}
00147   len_min = 1000000
00148   len_max = 0
00149 
00150   read_data()
00151 
00152   if opts['xsd'] != None:
00153 
00154     create_xsd()
00155     print resdoc.toprettyxml()
00156 
00157   else:
00158 
00159     for h in histograms:
00160       if len(h) > len_max: len_max = len(h)
00161       if len(h) < len_min: len_min = len(h)
00162     print "Computed len: min = ", len_min, ", max = ", len_max
00163 
00164     min = 2
00165     if opts['min'] not in (0, None): min = opts['min']
00166     max = len_max
00167     if opts['max'] not in (0, None): max = opts['max']
00168     print "Computing lens from", min, " to ", max
00169 
00170     compute(min, max)
00171     priorities()
00172 
00173     for pi in sorted(prior.keys()):
00174       print pi, "=", prior[pi]
00175 
00176     if opts['cid'] != None:
00177       create_declaration(opts['cid'])