indices_simi = [u'cooccurrence' ,'pourcentage de cooccurrence',u'Russel',u'Jaccard', 'Kulczynski1', 'Kulczynski2', 'Mountford', 'Fager', 'simple matching', 'Hamman', 'Faith', 'Tanimoto', 'Dice', 'Phi', 'Stiles', 'Michael', 'Mozley', 'Yule', 'Yule2', 'Ochiai', 'Simpson', 'Braun-Blanquet','Chi-squared', 'Phi-squared', 'Tschuprow', 'Cramer', 'Pearson', 'binomial']
+def normpath_win32(path) :
+ if not sys.platform == 'win32' :
+ return path
+ while '\\\\' in path :
+ path = path.replace('\\\\', '\\')
+ if path.startswith('\\') and not path.startswith('\\\\') :
+ path = '\\' + path
+ return path
+
class TGen :
def __init__(self, path = None, encoding = 'utf8'):
self.path = path
def __getitem__(self, key):
return self.tgen[key]
- def read(self, path):
+ def read(self, path = None):
+ if path is None :
+ path = self.path
with codecs.open(path, 'r', self.encoding) as f :
tgen = f.read()
tgen = [line.split('\t') for line in tgen.splitlines()]
def writetable(self, pathout, tgens, totocc):
etoiles = totocc.keys()
+ etoiles.sort()
with open(pathout, 'w') as f :
line = '\t'.join([u'tgens'] + etoiles) + '\n'
f.write(line.encode(self.encoding))
def __init__(self, configfile=None, diff = None, parametres = None) :
self.configfile = configfile
self.conf = ConfigParser()
+
if configfile is not None :
+ configfile = normpath_win32(configfile)
self.conf.readfp(codecs.open(configfile, 'r', 'utf8'))
self.parametres = {}
if parametres is not None :
txt += '%s = %s\n' % (option, `parametres[i][option]`)
if outfile is None :
outfile = self.configfile
- with codecs.open(outfile, 'w', 'utf8') as f :
- f.write(txt)
+ outfile = normpath_win32(outfile)
+ with open(outfile, 'w') as f :
+ f.write(txt.encode('utf8'))
#self.conf.write(f)
def totext(self, parametres) :
return [i, int(line[0]), int(line[1]), float(line[2]), float(line[3]), line[6], line[4], line[5]]
def ReadProfileAsDico(File, Alceste=False, encoding = sys.getdefaultencoding()):
- #print 'lecture des profils : ReadProfileAsDico'
- #if Alceste :
- # print 'lecture du dictionnaire de type'
- # dictlem = {}
- # for line in parent.corpus.lem_type_list :
- # dictlem[line[0]] = line[1]
dictlem = {}
print 'lecture des profiles'
- #encoding = sys.getdefaultencoding()
FileReader = codecs.open(File, 'r', encoding)
Filecontent = FileReader.readlines()
FileReader.close()
return '\n\n'.join(proflist)
def formatExceptionInfo(maxTBlevel=5):
- cla, exc, trbk = sys.exc_info()
- try :
- excName = cla.__name__
- except :
- excName = 'None'
- try:
- excArgs = exc.args[0]
- except :
- excArgs = "<no args>"
- excTb = traceback.format_tb(trbk, maxTBlevel)
- return (excName, excArgs, excTb)
+ cla, exc, trbk = sys.exc_info()
+ try :
+ excName = cla.__name__
+ except :
+ excName = 'None'
+ try:
+ excArgs = exc.args[0]
+ except :
+ excArgs = "<no args>"
+ excTb = traceback.format_tb(trbk, maxTBlevel)
+ return (excName, excArgs, excTb)
#fonction des etudiants de l'iut
'EmptyText' : u"Texte vide (probablement un problème de formatage du corpus). Le problème est apparu à la ligne ",
'CorpusEncoding' : u"Problème d'encodage.",
'TextBeforeTextMark' : u"Problème de formatage : du texte avant le premier marqueur de texte (****). Le problème est survenu à la ligne ",
+ 'MissingAnalyse' : u'Aucun fichier à cet emplacement :\n',
}
def BugReport(parent, error = None):
txt += u'*************************************\n'
txt += '\n'.join(excTb).replace(' ', ' ')
txt += excName + '\n'
- txt += exc
+ txt += `exc`
title = "Bug"
dial = BugDialog(parent, **{'title' : title})
else :
parent.lexique = ReadDicoAsDico(filein)
else :
- parent.lexique = {}
+ if filein is None :
+ parent.lexique = {}
+ else :
+ parent.lexique = ReadDicoAsDico(filein)
def ReadList(filein, encoding = sys.getdefaultencoding(), sep = ';'):
#file = open(filein)
else :
parent = self
try :
- print '###horrible hack progressbar'
maxi = int(maxi)
except :
maxi = 1