# copyright : 2012-2013 (c) Pierre Ratinaud
import logging
-from chemins import PathOut, ChdTxtPathOut
-from functions import exec_rcode, check_Rresult, DoConf, print_liste
+from chemins import PathOut
+from functions import exec_rcode, check_Rresult, DoConf, ReadDicoAsDico, progressbar
+from shutil import copy
from time import time, sleep
from uuid import uuid4
import os
-from PrintRScript import RchdTxt, AlcesteTxtProf
-from OptionAlceste import OptionAlc
-from layout import PrintRapport
from openanalyse import OpenAnalyse
from dialog import StatDialog
self.parametres['type'] = parametres['type']
self.parametres['encoding'] = self.ira.syscoding
self.t1 = time()
- self.corpus.make_lems(lem=self.parametres['lem'])
+ if not self.parametres.get('dictionary', False) :
+ self.corpus.make_lems(lem=self.parametres['lem'])
+ else :
+ dico = ReadDicoAsDico(self.parametres['dictionary'])
+ self.corpus.make_lems_from_dict(dico, dolem=self.parametres['lem'])
+ dictname = os.path.basename(self.parametres['dictionary'])
+ dictpath = os.path.join(self.pathout.dirout, dictname)
+ copy(self.parametres['dictionary'], dictpath)
+ self.parametres['dictionary'] = dictpath
self.corpus.parse_active(gramact, gramsup)
+ if dlg :
+ self.dlg = progressbar(self.ira, dlg)
result_analyse = self.doanalyse()
if result_analyse is None :
self.time = time() - self.t1
DoConf().makeoptions([self.parametres['type']], [self.parametres], self.pathout['Analyse.ira'])
self.ira.history.add(self.parametres)
if dlg :
- dlg.Destroy()
+ if not isinstance(dlg, int) :
+ dlg.Destroy()
+ self.dlg.Destroy()
OpenAnalyse(self.parent, self.parametres['ira'])
self.ira.tree.AddAnalyse(self.parametres)
self.val = 5100
else :
self.val = False
if dlg :
- dlg.Destroy()
+ try :
+ self.dlg.Destroy()
+ except :
+ pass
else :
- if dlg :
- dlg.Destroy()
+ #if isinstance(dlg, wx.ProgressDialog) :
+ # self.dlg.Destroy()
self.val = False
def doanalyse(self) :
def lemparam(self) :
if self.dlg and self.lemdial:
- dial = StatDialog(self, self.parent)
+ dial = StatDialog(self.parent, self.keys)
dial.CenterOnParent()
val = dial.ShowModal()
if val == 5100 :
else :
lem = 0
self.parametres['lem'] = lem
+ if dial.radio_dictchoice.GetSelection() == 1 :
+ self.parametres['dictionary'] = dial.dictpath.GetValue()
dial.Destroy()
return self.parametres
else :
-class Alceste(AnalyseText) :
- def doanalyse(self) :
- self.parametres['type'] = 'alceste'
- self.pathout.basefiles(ChdTxtPathOut)
- self.actives, lim = self.corpus.make_actives_nb(self.parametres['max_actives'], 1)
- self.parametres['eff_min_forme'] = lim
- self.parametres['nbactives'] = len(self.actives)
- uci = False
- if self.parametres['classif_mode'] == 0 :
- lenuc1, lenuc2 = self.corpus.make_and_write_sparse_matrix_from_uc(self.actives, self.parametres['tailleuc1'], self.parametres['tailleuc2'], self.pathout['TableUc1'], self.pathout['TableUc2'], self.pathout['listeuce1'], self.pathout['listeuce2'])
- self.parametres['lenuc1'] = lenuc1
- self.parametres['lenuc2'] = lenuc2
- elif self.parametres['classif_mode'] == 1 :
- self.corpus.make_and_write_sparse_matrix_from_uces(self.actives, self.pathout['TableUc1'], self.pathout['listeuce1'])
- elif self.parametres['classif_mode'] == 2 :
- self.corpus.make_and_write_sparse_matrix_from_uci(self.actives, self.pathout['TableUc1'], self.pathout['listeuce1'])
- uci = True
- Rscript = self.printRscript()
- self.doR(Rscript, dlg=self.dlg, message='CHD...')
-
- self.corpus.make_ucecl_from_R(self.pathout['uce'])
- self.corpus.make_and_write_profile(self.actives, self.corpus.lc, self.pathout['Contout'], uci = uci)
- self.sup, lim = self.corpus.make_actives_nb(self.parametres['max_actives'], 2)
- self.corpus.make_and_write_profile(self.sup, self.corpus.lc, self.pathout['ContSupOut'], uci = uci)
- self.corpus.make_and_write_profile_et(self.corpus.lc, self.pathout['ContEtOut'], uci = uci)
- self.clnb = len(self.corpus.lc)
- self.parametres['clnb'] = self.clnb
- Rscript = self.printRscript2()
- 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)
- self.parametres['time'] = '%.0fh %.0fm %.0fs' % (hours, minutes, seconds)
- self.print_graph_files()
- def preferences(self) :
- parametres = DoConf(self.parent.ConfigPath['alceste']).getoptions('ALCESTE')
- parametres['corpus'] = self.corpus
- parametres['pathout'] = self.pathout
- self.dial = OptionAlc(self.parent, parametres)
- self.dial.CenterOnParent()
- self.dialok = self.dial.ShowModal()
- if self.dialok == 5100 :
- parametres['classif_mode'] = self.dial.radio_box_2.GetSelection()
- parametres['tailleuc1'] = self.dial.spin_ctrl_1.GetValue()
- parametres['tailleuc2'] = self.dial.spin_ctrl_2.GetValue()
- parametres['mincl'] = self.dial.spin_ctrl_4.GetValue()
- parametres['minforme'] = self.dial.spin_ctrl_5.GetValue()
- parametres['nbcl_p1'] = self.dial.spin_nbcl.GetValue()
- parametres['max_actives'] = self.dial.spin_max_actives.GetValue()
- parametres['corpus'] = ''
- parametres['svdmethod'] = self.dial.svdmethod[self.dial.choicesvd.GetSelection()]
- parametres['pathout'] = self.pathout.dirout
- parametres['mode.patate'] = self.dial.check_patate.GetValue()
- DoConf(self.parent.ConfigPath['alceste']).makeoptions(['ALCESTE'], [parametres])
- self.dial.Destroy()
- print parametres
- return parametres
- else :
- self.dial.Destroy()
- return None
-
- def printRscript(self) :
- RchdTxt(self.pathout, self.parent.RscriptsPath, self.parametres['mincl'], self.parametres['classif_mode'], nbt=self.parametres['nbcl_p1'] - 1, svdmethod=self.parametres['svdmethod'], libsvdc=self.parent.pref.getboolean('iramuteq', 'libsvdc'), libsvdc_path=self.parent.pref.get('iramuteq', 'libsvdc_path'), R_max_mem=False, mode_patate=self.parametres['mode.patate'])
- return self.pathout['Rchdtxt']
-
- def printRscript2(self) :
- AlcesteTxtProf(self.pathout, self.parent.RscriptsPath, self.clnb, 0.9)
- return self.pathout['RTxtProfGraph']
-
- def print_graph_files(self) :
- mess_afc = u"La position des points n'est peut être pas exacte"
- afc_graph_list = [[os.path.basename(self.pathout['AFC2DL_OUT']), u'Variables actives - coordonnées - 30 points par classes - facteurs 1 / 2 - %s' % mess_afc],
- [os.path.basename(self.pathout['AFC2DSL_OUT']), u'variables supplémentaires - coordonnées - 30 points par classes - facteurs 1 / 2 - %s' % mess_afc],
- [os.path.basename(self.pathout['AFC2DEL_OUT']), u'Variables illustratives - Coordonnées - 30 points par classes - facteur 1 / 2 - %s' % mess_afc],
- [os.path.basename(self.pathout['AFC2DCL_OUT']), u'Classes - Coordonnées - facteur 1 / 2']]
- chd_graph_list = [[os.path.basename(self.pathout['dendro1']), u'dendrogramme à partir de chd1']]
- if self.parametres['classif_mode'] == 0 :
- chd_graph_list.append([os.path.basename(self.pathout['dendro2']), u'dendrogramme à partir de chd2'])
- chd_graph_list.append([os.path.basename(self.pathout['arbre1']), u'chd1'])
- if self.parametres['classif_mode'] == 0 :
- 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)
# keys = {'art_def' : 2,