import os
from time import time
from analysetxt import AnalyseText
-from OptionAlceste import OptionAlc
-from PrintRScript import RchdTxt, AlcesteTxtProf
+from OptionAlceste import OptionAlc
+from PrintRScript import RchdTxt, ReinertTxtProf, TgenProfScript, ReDoProfScript
from layout import PrintRapport
-from chemins import ChdTxtPathOut
-from functions import DoConf, print_liste
+from chemins import ChdTxtPathOut, PathOut
+from functions import DoConf, print_liste, TGen
class Reinert(AnalyseText) :
self.doR(Rscript, dlg=self.dlg, message='profils et A.F.C. ...')
self.time = time() - self.t1
minutes, seconds = divmod(self.time, 60)
- hours, minutes = divmod(minutes, 60)
+ hours, minutes = divmod(minutes, 60)
self.parametres['time'] = '%.0fh %.0fm %.0fs' % (hours, minutes, seconds)
self.print_graph_files()
def preferences(self) :
+ print 'parametres en entree config alceste', self.parametres
parametres = DoConf(self.parent.ConfigPath['reinert']).getoptions('ALCESTE')
+ print 'parametres apres doconf', parametres
parametres['corpus'] = self.corpus
parametres['pathout'] = self.pathout
+ parametres['lem'] = self.parametres['lem']
self.dial = OptionAlc(self.parent, parametres)
self.dial.CenterOnParent()
self.dialok = self.dial.ShowModal()
DoConf(self.parent.ConfigPath['reinert']).makeoptions(['ALCESTE'], [parametres])
self.dial.Destroy()
print parametres
- return parametres
+ self.parametres.update(parametres)
+ return self.parametres
else :
self.dial.Destroy()
return None
return self.pathout['Rchdtxt']
def printRscript2(self) :
- AlcesteTxtProf(self.pathout, self.parent.RscriptsPath, self.clnb, 0.9)
+ ReinertTxtProf(self.pathout, self.parent.RscriptsPath, self.clnb, 0.9)
return self.pathout['RTxtProfGraph']
def print_graph_files(self) :
chd_graph_list.append([os.path.basename(self.pathout['arbre2']), u'chd2'])
print_liste(self.pathout['liste_graph_afc'], afc_graph_list)
print_liste(self.pathout['liste_graph_chd'], chd_graph_list)
- PrintRapport(self, self.corpus, self.parametres)
\ No newline at end of file
+ PrintRapport(self, self.corpus, self.parametres)
+
+class TgenProf(AnalyseText):
+ def __init__(self, ira, corpus, parametres, cluster_size):
+ self.ira = ira
+ self.corpus = corpus
+ self.parametres = parametres
+ self.pathout = PathOut(dirout = self.parametres['pathout'])
+ self.cluster_size = [len(classe) for classe in corpus.lc]
+ self.doanalyse()
+
+ def doanalyse(self):
+ self.tgen = TGen(path = self.parametres['tgenpath'], encoding = self.ira.syscoding)
+ self.tgen.read(self.tgen.path)
+ #self.parametres['etoiles'].sort()
+ self.parametres['tgeneff'] = os.path.join(self.parametres['pathout'], 'tgeneff.csv')
+ tgenst = self.corpus.make_tgen_profile(self.tgen.tgen, self.corpus.lc)
+ clnames = ['cluster_%03d' % i for i in range(1, len(self.cluster_size) + 1)]
+ et = dict(zip(clnames, self.cluster_size))
+ tgenst = dict([[line[0], dict(zip(clnames, line[1:]))] for line in tgenst])
+ self.tgen.writetable(self.parametres['tgeneff'], tgenst, et)
+ self.parametres['tgenspec'] = os.path.join(self.parametres['pathout'], 'tgenchi2.csv')
+ self.parametres['tgenlemeff'] = os.path.join(self.parametres['pathout'], 'tgenlemeff.csv')
+ self.parametres['tgenlemspec'] = os.path.join(self.parametres['pathout'], 'tgenlemchi2.csv')
+ tgenlemeff = dict([[lem, dict(zip(clnames, self.corpus.tgenlem[lem]))] for lem in self.corpus.tgenlem])
+ self.tgen.writetable(self.parametres['tgenlemeff'], tgenlemeff, et)
+ self.Rscript = TgenProfScript(self)
+ self.Rscript.make_script()
+ self.Rscript.write()
+ self.doR(self.Rscript.scriptout, dlg = False, message = 'R...')
+
+class ReDoProfile(AnalyseText):
+ def __init__(self, ira, corpus, analyses, parametres):
+ self.ira = ira
+ self.corpus = corpus
+ self.parametres = parametres
+ self.analyse = analyse
+ self.pathout = PathOut(dirout = self.parametres['pathout'])
+ #self.cluster_size = [len(classe) for classe in corpus.lc]
+ self.doanalyse()
+
+ def Rscript(self) :
+ script = ReDoProfScript(self)