2 # -*- coding: utf-8 -*-
3 #Author: Pierre Ratinaud
4 #Copyright (c) 2008-2009 Pierre Ratinaud
7 from chemins import ConstructPathOut, ConstructAfcUciPath, ChdTxtPathOut
8 from corpus import Corpus
9 from OptionAlceste import OptionPam
12 from ConfigParser import *
14 from functions import print_liste, exec_rcode, CreateIraFile, progressbar, check_Rresult, BugDialog
15 from layout import PrintRapport
16 from PrintRScript import AlcesteTxtProf, RPamTxt
17 from openanalyse import OpenAnalyse
18 from time import time, sleep
22 def __init__(self, parent, corpus, cmd = False):
28 self.dlg = progressbar(self, 9)
31 ucis_txt, ucis_paras_txt = self.corpus.start_analyse(self.parent, dlg = self.dlg, cmd = self.cmd)
32 self.corpus.make_len_uce(self.corpus.get_tot_occ_from_ucis_txt(ucis_txt))
35 self.dlg.Update(5, '%i ucis - Construction des uces' % len(self.corpus.ucis))
36 if self.corpus.parametre['type'] == 0 :
37 self.corpus.make_ucis_paras_uces(ucis_paras_txt, make_uce = True)
39 self.corpus.make_ucis_paras_uces(ucis_paras_txt, make_uce = False)
43 self.dlg.Update(6, u'Dictionnaires')
44 uces, orderuces = self.corpus.make_forms_and_uces()
45 self.corpus.ucenb = len(uces)
46 self.corpus.make_lems(self.parent.lexique)
47 self.corpus.min_eff_formes()
48 self.corpus.make_var_actives()
49 self.corpus.make_var_supp()
52 self.dlg.Update(7, u'Creation des tableaux')
53 if self.corpus.parametre['type'] == 0:
54 tabuc1 = self.corpus.make_table_with_uce(orderuces)
56 uces1 = [[uce, i] for i,uce in enumerate(orderuces)]
57 self.corpus.write_tab([[u'uce',u'uc']] + [[i, i] for i in range(0,len(uces))], self.corpus.dictpathout['listeuce1'])
59 tabuc1 = self.corpus.make_table_with_uci()
61 uces1 = [[uce, i] for i, uce in enumerate(orderuces)]
62 self.corpus.write_tab([[u'uce',u'uc']] + [[i, i] for i in range(0,len(orderuces))], self.corpus.dictpathout['listeuce1'])
63 self.corpus.write_tab(tabuc1,self.corpus.dictpathout['TableUc1'])
64 self.corpus.lenuc1 = len(tabuc1)
66 RPamTxt(self.corpus, self.parent.RscriptsPath)
67 pid = exec_rcode(self.parent.RPath,self.corpus.dictpathout['Rchdtxt'], wait = False)
68 while pid.poll() == None :
70 self.dlg.Pulse(u'CHD...')
74 check_Rresult(self.parent, pid)
75 ucecl = self.corpus.read_uce_from_R(self.corpus.dictpathout['uce'])
76 ucecl0 = [cl for uce,cl in ucecl if cl != 0]
77 clnb = len(list(set(ucecl0)))
78 classes = [cl for uce, cl in ucecl]
79 uces1 = [val for val, i in uces1]
80 self.corpus.make_lc(uces1, classes, clnb)
81 self.corpus.build_profile(clnb, classes, self.corpus.actives, self.corpus.dictpathout['Contout'])
83 #passives = [lem for lem in self.corpus.lems if lem not in self.corpus.actives]
84 self.corpus.build_profile(clnb, classes, self.corpus.supp, self.corpus.dictpathout['ContSupOut'])
85 self.corpus.make_etoiles(self.corpus.para_coords)
86 self.corpus.build_profile_et(clnb, classes, uces1, self.corpus.dictpathout['ContEtOut'])
87 AlcesteTxtProf(self.corpus.dictpathout, self.parent.RscriptsPath, clnb, '0.9')
88 pid = exec_rcode(self.parent.RPath, self.corpus.dictpathout['RTxtProfGraph'], wait = False)
89 while pid.poll() == None :
91 self.dlg.Pulse(u'AFC...')
95 check_Rresult(self.parent, pid)
97 self.corpus.minutes, self.corpus.seconds = divmod(temps, 60)
98 self.corpus.hours, self.corpus.minutes = divmod(self.corpus.minutes, 60)
99 PrintRapport(self.corpus, 'txt')
100 CreateIraFile(self.corpus.dictpathout, clnb, os.path.basename(self.corpus.parametre['filename']))
101 self.corpus.save_corpus(self.corpus.dictpathout['db'])
102 afc_graph_list = [[os.path.basename(self.corpus.dictpathout['AFC2DL_OUT']), u'Variables actives - coordonnées - facteurs 1 / 2'],
103 [os.path.basename(self.corpus.dictpathout['AFC2DSL_OUT']), u'variables supplémentaires - coordonnées - facteurs 1 / 2'],
104 [os.path.basename(self.corpus.dictpathout['AFC2DEL_OUT']), u'Variables illustratives - Coordonnées - facteur 1 / 2'],
105 [os.path.basename(self.corpus.dictpathout['AFC2DCL_OUT']), u'Classes - Coordonnées - facteur 1 / 2'],
106 [os.path.basename(self.corpus.dictpathout['AFC2DCoul']), u'Variables actives - Corrélation - facteur 1/2'],
107 [os.path.basename(self.corpus.dictpathout['AFC2DCoulSup']), u'Variables supplémentaires - Corrélation - facteur 1 / 2'],
108 [os.path.basename(self.corpus.dictpathout['AFC2DCoulEt']), u'Variables illustratives - Corrélations - facteur 1 / 2'],
109 [os.path.basename(self.corpus.dictpathout['AFC2DCoulCl']), u'Classes - Corrélations - facteurs 1 / 2'],]
110 chd_graph_list = [[os.path.basename(self.corpus.dictpathout['arbre1']), u'résultats de la classification']]
111 print_liste(self.corpus.dictpathout['liste_graph_afc'],afc_graph_list)
112 print_liste(self.corpus.dictpathout['liste_graph_chd'],chd_graph_list)
114 self.dlg.Update(9, u'fin')
116 OpenAnalyse(self.parent, self.corpus.dictpathout['ira'])
122 def __init__(self, parent, cmd = False):
124 self.type = 'pamsimple'
126 self.ConfigPath = parent.ConfigPath
127 self.DictPath = parent.DictPath
128 self.pamconf = ConfigParser()
129 self.pamconf.read(self.ConfigPath['pam'])
130 self.KeyConf = ConfigParser()
131 self.KeyConf.read(self.ConfigPath['key'])
132 self.corpus = Corpus(parent)
134 self.corpus.content = self.parent.content
135 self.corpus.parametre['encodage'] = parent.corpus_encodage
136 self.corpus.parametre['filename'] = parent.filename
137 self.corpus.parametre['lang'] = parent.corpus_lang
139 self.dial = OptionPam(self, parent)
140 self.dial.CenterOnParent()
141 self.val = self.dial.ShowModal()
146 if self.val == wx.ID_OK :
147 file = open(self.ConfigPath['key'], 'w')
148 self.KeyConf.write(file)
152 #self.corpus.parametre.update(param)
153 self.corpus.supplementaires = [option for option in self.KeyConf.options('KEYS') if self.KeyConf.get('KEYS', option) == "2"]
154 self.corpus.typeactive = [option for option in self.KeyConf.options('KEYS') if self.KeyConf.get('KEYS', option) == "1"]
155 self.corpus.dictpathout = ChdTxtPathOut(ConstructPathOut(self.corpus.parametre['filename'], 'PamSimple'))
156 AnalysePam(parent, self.corpus ,cmd = cmd)
157 except AttributeError :
158 wx.MessageBox(u'Vous devez charger un corpus\nFichier -> Ouvrir un texte', u'Pas de corpus', wx.OK|wx.ICON_INFORMATION)
161 def print_param(self) :
162 self.pamconf = RawConfigParser()
163 self.pamconf.read(self.parent.ConfigPath['pam'])
164 vallem = self.dial.radio_1.GetSelection()
165 if vallem == 0 : vallem = True
166 else : vallem = False
167 expressions = self.dial.radio_exp.GetSelection()
168 if expressions == 0 : expressions = True
169 else: expressions = False
170 if self.dial.cltype[self.dial.radio_box_3.GetSelection()] == u'k-means (pam)' : cluster_type = 'pam'
171 else : cluster_type = 'fanny'
172 self.pamconf.set('pam', 'lem', vallem)
173 self.pamconf.set('pam', 'expressions', expressions)
174 self.pamconf.set('pam', 'type', self.dial.radio_box_classif.GetSelection())
175 self.pamconf.set('pam', 'method', self.dial.distance[self.dial.choice_1.GetSelection()])
176 self.pamconf.set('pam', 'cluster_type', cluster_type)
177 self.pamconf.set('pam', 'nbforme_uce', str(self.dial.spin_ctrl_3.GetValue()))
178 self.pamconf.set('pam', 'nbcl', str(self.dial.spin_ctrl_4.GetValue()))
179 self.pamconf.set('pam', 'expressions', expressions)
180 self.pamconf.set('pam', 'max_actives', str(self.dial.spin_max_actives.GetValue()))
182 with open(self.ConfigPath['pam'], 'w') as fileout :
183 self.pamconf.write(fileout)
185 def read_param(self) :
186 conf = RawConfigParser()
187 conf.read(self.parent.ConfigPath['pam'])
188 for option in conf.options('pam') :
189 if conf.get('pam', option).isdigit() :
190 self.corpus.parametre[option] = int(conf.get('pam', option))
192 self.corpus.parametre[option] = conf.get('pam', option)
193 list_bool = ['lem', 'expressions']
194 for val in list_bool :
195 if self.corpus.parametre[val] == 'True' :
196 self.corpus.parametre[val] = True
198 self.corpus.parametre[val] = False
199 if self.corpus.parametre['type'] == 0 :
200 self.corpus.parametre['classif_mode'] = 1
202 self.corpus.parametre['classif_mode'] = 2