-#---------------------------------------------------------------------------
-#class ProfListctrl(wx.ListCtrl, listmix.ListCtrlAutoWidthMixin):
-# def __init__(self, parent, ID, pos=wx.DefaultPosition,
-# size=wx.DefaultSize, style=0):
-# wx.ListCtrl.__init__(self, parent, ID, pos, size, style)
-# listmix.ListCtrlAutoWidthMixin.__init__(self)
-#
-#
-#class ProfListctrlPanel(wx.Panel, listmix.ColumnSorterMixin):
-# def __init__(self, parent, gparent, ProfClasse, Alceste=False, cl=0):
-# self.parent = parent
-# classe = ProfClasse
-# self.cl = cl
-# self.Source = gparent
-# if 'tableau' in dir(self.Source):
-# self.tableau = self.Source.tableau
-# self.Alceste = Alceste
-# self.var_mod = {}
-#
-#
-# wx.Panel.__init__(self, parent, -1, style=wx.WANTS_CHARS)
-#
-# search_id = wx.NewId()
-# searchall_id = wx.NewId()
-# self.parent.Bind(wx.EVT_MENU, self.onsearch, id = search_id)
-# self.parent.Bind(wx.EVT_MENU, self.onsearchall, id = searchall_id)
-# self.accel_tbl = wx.AcceleratorTable([(wx.ACCEL_CTRL, ord('F'), search_id),
-# (wx.ACCEL_CTRL|wx.ACCEL_SHIFT, ord('F'), searchall_id)])
-# self.SetAcceleratorTable(self.accel_tbl)
-#
-# self.il = wx.ImageList(16, 16)
-## self.idx1 = self.il.Add(images.getSmilesBitmap())
-# self.sm_up = self.il.Add(getSmallUpArrowBitmap())
-# self.sm_dn = self.il.Add(getSmallDnArrowBitmap())
-# tID = wx.NewId()
-#
-# self.list = ProfListctrl(self, tID,
-# style=wx.LC_REPORT
-# | wx.BORDER_NONE
-# | wx.LC_EDIT_LABELS
-# | wx.LC_SORT_ASCENDING
-# )
-# line1 = classe.pop(0)
-# limit = 0
-# limitsup = 0
-# i = 0
-# dictdata = {}
-# classen = [line for line in classe if line[0] != '*' and line[0] != '*****']
-# if len(classen) == 0 :
-# lenact = 0
-# lensup = 0
-# lenet = 0
-# else :
-# lenact = [i for i,b in enumerate(classe) if b[0] == '*****']
-# if lenact == [] :
-# lensup = 0
-# lenact = [i for i,b in enumerate(classe) if b[0] == '*']
-# if lenact == [] :
-# lenact = len(classen)
-# lenet = 0
-# else :
-# lenact = 0
-# lenet = len(classen)
-# else :
-# lenact = lenact[0]
-# lensup = [i for i,b in enumerate(classe[1:]) if b[0] == '*']
-# if lensup != [] :
-# lensup = lensup[0] - lenact
-# lenet = len(classen) - lensup
-# else :
-# lensup == 0
-# lenet = len(classen)
-# debsup = lenact
-#
-# self.lenact = lenact
-#
-# debet = lenact + lensup
-# dictdata = dict(zip([i for i in range(0,len(classen))], classen))
-# self.list.SetImageList(self.il, wx.IMAGE_LIST_SMALL)
-#
-# self.PopulateList(dictdata, debet, debsup, Alceste)
-#
-# self.Bind(wx.EVT_SIZE, self.OnSize)
-# self.Bind(wx.EVT_LIST_COL_CLICK, self.OnColClick)
-# self.Bind(wx.EVT_LIST_ITEM_SELECTED, self.OnItemSelected, self.list)
-#
-# # for wxMSW
-# self.list.Bind(wx.EVT_COMMAND_RIGHT_CLICK, self.OnRightClick)
-#
-# # for wxGTK
-# self.list.Bind(wx.EVT_RIGHT_UP, self.OnRightClick)
-# self.itemDataMap = dictdata
-# listmix.ColumnSorterMixin.__init__(self, 8)
-# self.do_greyline()
-##-----------------------------------------------------------------------------------------
-#
-# def PopulateList(self, dictdata, limit, limitsup, Alceste):
-#
-#
-# # for normal, simple columns, you can add them like this:
-# self.list.InsertColumn(0, "num", wx.LIST_FORMAT_RIGHT)
-# self.list.InsertColumn(1, "eff. uce", wx.LIST_FORMAT_RIGHT)
-# self.list.InsertColumn(2, "eff. total", wx.LIST_FORMAT_RIGHT)
-# self.list.InsertColumn(3, "pourcentage", wx.LIST_FORMAT_RIGHT)
-# self.list.InsertColumn(4, "chi2", wx.LIST_FORMAT_RIGHT)
-# self.list.InsertColumn(5, "Type", wx.LIST_FORMAT_RIGHT)
-# self.list.InsertColumn(6, "forme", wx.LIST_FORMAT_RIGHT)
-# self.list.InsertColumn(7, "p", wx.LIST_FORMAT_RIGHT)
-#
-# for key in dictdata : #.iteritems():
-# index = self.list.InsertStringItem(sys.maxint, '%4i' % key)
-# i = 1
-# for val in dictdata[key][1:]:
-# self.list.SetStringItem(index, i, str(dictdata[key][i]))
-# i += 1
-# self.list.SetItemData(index, key)
-#
-# self.list.SetColumnWidth(0, 60)
-# self.list.SetColumnWidth(1, 70)
-# self.list.SetColumnWidth(2, 80)
-# self.list.SetColumnWidth(3, 100)
-# self.list.SetColumnWidth(4, 70)
-# self.list.SetColumnWidth(5, wx.LIST_AUTOSIZE)
-# self.list.SetColumnWidth(6, wx.LIST_AUTOSIZE)
-# self.list.SetColumnWidth(7, wx.LIST_AUTOSIZE)
-#
-# # show how to change the colour of a couple items
-# for i in range(limitsup, limit):
-# item = self.list.GetItem(i)
-# item.SetTextColour(wx.RED)
-# self.list.SetItem(item)
-#
-# for i in range(limit, len(dictdata)):
-# item = self.list.GetItem(i)
-# item.SetTextColour(wx.BLUE)
-# self.list.SetItem(item)
-#
-# if self.lenact != 0 :
-# self.la = [self.getColumnText(i,6) for i in range(0, self.lenact)]
-# self.lchi = [float(self.getColumnText(i,4)) for i in range(0, self.lenact)]
-# self.lfreq = [int(self.getColumnText(i,1)) for i in range(0, self.lenact)]
-# else :
-# self.la = []
-# self.lchi = []
-# self.lfreq = []
-#
-# def do_greyline(self):
-# for row in xrange(self.list.GetItemCount()):
-# if row % 2 :
-# self.list.SetItemBackgroundColour(row, (230, 230, 230))
-# else :
-# self.list.SetItemBackgroundColour(row, wx.WHITE)
-#
-#
-# # Used by the ColumnSorterMixin, see wx/lib/mixins/listctrl.py
-# def GetListCtrl(self):
-# return self.list
-#
-# # Used by the ColumnSorterMixin, see wx/lib/mixins/listctrl.py
-# def GetSortImages(self):
-# return (self.sm_dn, self.sm_up)
-#
-#
-# def OnRightDown(self, event):
-# x = event.GetX()
-# y = event.GetY()
-# item, flags = self.list.HitTest((x, y))
-#
-# if flags & wx.LIST_HITTEST_ONITEM:
-# self.list.Select(item)
-#
-# event.Skip()
-#
-#
-# def getColumnText(self, index, col):
-# item = self.list.GetItem(index, col)
-# return item.GetText()
-#
-#
-# def OnItemSelected(self, event):
-# self.currentItem = event.m_itemIndex
-# event.Skip()
-#
-# def onsearch(self, evt) :
-# self.dial = SearchDial(self, self, 6, True)
-# self.dial.CenterOnParent()
-# self.dial.ShowModal()
-# self.dial.Destroy()
-#
-# def onsearchall(self, evt) :
-# if 'FrameSearch' not in dir(self.Source) :
-# self.Source.FrameSearch = SearchFrame(self.parent, -1, u"Rechercher...", self.Source.corpus)
-# self.dial = SearchDial(self, self.Source.FrameSearch.liste, 1, False)
-# self.dial.CenterOnParent()
-# self.dial.ShowModal()
-# self.dial.Destroy()
-#
-# def OnRightClick(self, event):
-#
-# # only do this part the first time so the events are only bound once
-# if self.Alceste:
-# if not hasattr(self, "popupID1"):
-# self.popupID1 = wx.NewId()
-# self.popupID2 = wx.NewId()
-# self.popupID3 = wx.NewId()
-# self.popupID4 = wx.NewId()
-# self.popupID5 = wx.NewId()
-# self.popupID6 = wx.NewId()
-# self.popupID7 = wx.NewId()
-# self.popupID8 = wx.NewId()
-# self.popupID9 = wx.NewId()
-# #self.popupID10 = wx.NewId()
-# self.popupIDgraph = wx.NewId()
-# self.idseg = wx.NewId()
-# self.iducecarac = wx.NewId()
-# self.idtablex = wx.NewId()
-# self.idchimod = wx.NewId()
-# self.idwordgraph = wx.NewId()
-# self.popup_proxe = wx.NewId()
-# self.idlexdendro = wx.NewId()
-# self.idexport = wx.NewId()
-# # self.export_classes = wx.NewId()
-#
-# self.Bind(wx.EVT_MENU, self.OnPopupOne, id=self.popupID1)
-# self.Bind(wx.EVT_MENU, self.OnPopupTwo, id=self.popupID2)
-# self.Bind(wx.EVT_MENU, self.OnPopupThree, id=self.popupID3)
-# self.Bind(wx.EVT_MENU, self.OnPopupFour, id=self.popupID4)
-# self.Bind(wx.EVT_MENU, self.OnPopupFive, id=self.popupID5)
-# self.Bind(wx.EVT_MENU, self.OnPopupSix, id=self.popupID6)
-# self.Bind(wx.EVT_MENU, self.OnPopupSeven, id=self.popupID7)
-# self.Bind(wx.EVT_MENU, self.OnPopupHeight, id=self.popupID8)
-# self.Bind(wx.EVT_MENU, self.OnPopupNine, id=self.popupID9)
-# #self.Bind(wx.EVT_MENU, self.OnPopupSpec, id=self.popupID10)
-# self.Bind(wx.EVT_MENU, self.on_graph, id=self.popupIDgraph)
-# self.Bind(wx.EVT_MENU, self.on_segments, id=self.idseg)
-# self.Bind(wx.EVT_MENU, self.on_uce_carac, id = self.iducecarac)
-# self.Bind(wx.EVT_MENU, self.on_tablex, id = self.idtablex)
-# self.Bind(wx.EVT_MENU, self.quest_var_mod, id = self.idchimod)
-# self.Bind(wx.EVT_MENU, self.onwordgraph, id = self.idwordgraph)
-# self.Bind(wx.EVT_MENU, self.onproxe, id = self.popup_proxe)
-# self.Bind(wx.EVT_MENU, self.onlexdendro, id = self.idlexdendro)
-# self.Bind(wx.EVT_MENU, self.onexport, id = self.idexport)
-# # self.Bind(wx.EVT_MENU, self.on_export_classes, id = self.export_classes)
-# # self.Bind(wx.EVT_MENU, self.OnPopupThree, id=self.popupID3)
-#
-# # make a menu
-# menu = wx.Menu()
-# menu.Append(self.popupID1, u"Formes associées")
-# menu.Append(self.idtablex, u"Chi2 par classe")
-# menu.Append(self.idlexdendro, u"Chi2 par classe + dendro")
-# menu.Append(self.idchimod, u"Chi2 modalités de la variable")
-# menu.Append(self.idwordgraph, u"Graphe du mot")
-# #menu.Append(self.export_classes, u"Exporter le corpus...")
-#
-# #menu.Append(self.popupID10, u"Spécificités")
-#
-# menu_conc = wx.Menu()
-# menu_conc.Append(self.popupID2, u"dans les uce de la classe")
-# menu_conc.Append(self.popupID3, u"dans les uce classées")
-# menu_conc.Append(self.popupID4, u"dans toutes les uce")
-# menu.AppendMenu(-1, u"Concordancier", menu_conc)
-# menu_cnrtl = wx.Menu()
-# menu_cnrtl.Append(self.popupID5, u"Définition")
-# menu_cnrtl.Append(self.popupID6, u"Etymologie")
-# menu_cnrtl.Append(self.popupID7, u"Synonymie")
-# menu_cnrtl.Append(self.popupID8, u"Antonymie")
-# menu_cnrtl.Append(self.popupID9, u"Morphologie")
-# menu_cnrtl.Append(self.popup_proxe, u"Proxémie")
-# menu.AppendMenu(-1, u"Outils du CNRTL", menu_cnrtl)
-# menu.AppendSeparator()
-# menu.Append(self.popupIDgraph, u"Graphe de la classe")
-# menu.Append(self.idseg, u"Segments répétés")
-# menu.Append(self.iducecarac, u"UCE caractéristiques")
-# menu.Append(self.idexport, 'Partitionner...')
-# #menu.Append(self.popupID2, u"Concordancier")
-# # menu.Append(self.popupID3, "recharger")
-#
-# self.PopupMenu(menu)
-# menu.Destroy()
-# elif 'tableau' in dir(self.Source) :
-# if not hasattr(self, "pop1"):
-# self.pop1 = wx.NewId()
-# self.pop2 = wx.NewId()
-# self.pop3 = wx.NewId()
-# self.Bind(wx.EVT_MENU, self.quest_simi, id=self.pop1)
-# self.Bind(wx.EVT_MENU, self.on_tablex, id=self.pop2)
-# self.Bind(wx.EVT_MENU, self.quest_var_mod, id=self.pop3)
-#
-# menu = wx.Menu()
-# menu.Append(self.pop2, u"Chi2 par classe")
-# menu.Append(self.pop3, u"Chi2 modalités de la variable")
-# menu.AppendSeparator()
-# menu.Append(self.pop1, u"Graph de la classe")
-# self.PopupMenu(menu)
-# menu.Destroy()
-#
-# def onexport(self, evt) :
-# if 'corpus' in dir(self.Source):
-# corpus = self.Source.corpus
-# ClasseCHD(self.parent, corpus, self.cl)
-#
-# def quest_var_mod(self, evt) :
-# if 'corpus' in dir(self.Source):
-# corpus = self.Source.corpus
-# if self.var_mod == {} :
-# self.var_mod = treat_var_mod([val for val in corpus.make_etoiles()])
-# else :
-# corpus = self.Source.tableau
-# if self.var_mod == {} :
-# self.var_mod = treat_var_mod([val for val in corpus.actives] + [val for val in corpus.sups])
-# with codecs.open(self.Source.pathout['chisqtable'], 'r', corpus.parametres['syscoding']) as f :
-# chistable = [line.replace('\n','').replace('\r','').replace('"','').replace(',','.').split(';') for line in f]
-# title = chistable[0]
-# title.pop(0)
-# chistable.pop(0)
-# vchistable = [line[1:] for line in chistable]
-# fchistable = [line[0] for line in chistable]
-# word = self.getColumnText(self.list.GetFirstSelected(), 6)
-# if len(word.split('_')) > 1 :
-# var = word.split('_')[0]
-# words = [word for word in self.var_mod[var]]
-# words.sort()
-# tableout = []
-# kwords = []
-# for word in words :
-# if word in fchistable :
-# tableout.append(vchistable[fchistable.index(word)])
-# kwords.append(word)
-# tmpgraph = tempfile.mktemp(dir=self.Source.parent.TEMPDIR)
-# txt = barplot(tableout, kwords, title, self.Source.parent.RscriptsPath['Rgraph'], tmpgraph)
-# tmpscript = tempfile.mktemp(dir=self.Source.parent.TEMPDIR)
-# file = open(tmpscript,'w')
-# file.write(txt)
-# file.close()
-# exec_rcode(self.Source.parent.RPath, tmpscript, wait = True)
-# win = MessageImage(self, -1, u"Graphique", size=(700, 500),style = wx.DEFAULT_FRAME_STYLE)
-# win.addsaveimage(tmpgraph)
-# txt = "<img src='%s'>" % tmpgraph
-# win.HtmlPage.SetPage(txt)
-# win.Show(True)
-# else :
-# dial = wx.MessageDialog(self, u"Ce n'est pas une forme du type variable_modalité", u"Problème", wx.OK | wx.ICON_WARNING)
-# dial.CenterOnParent()
-# dial.ShowModal()
-# dial.Destroy()
-#
-# def quest_simi(self, evt) :
-# tableau = self.Source.tableau
-# tab = tableau.make_table_from_classe(self.cl, self.la)
-# pathout = ConstructPathOut(self.Source.pathout+'/', 'simi_classe_%i' %self.cl)
-# self.filename = os.path.join(pathout,'mat01.csv')
-# tableau.printtable(self.filename, tab)
-# del tab
-# paramsimi = {'coeff' : 0,
-# 'layout' : 2,
-# 'type' : 1,
-# 'arbremax' : 1,
-# 'coeff_tv' : 1,
-# 'coeff_tv_nb' : 0,
-# 'tvprop' : 0,
-# 'tvmin' : 5,
-# 'tvmax' : 30,
-# 'coeff_te' : 1,
-# 'coeff_temin' : 1,
-# 'coeff_temax' : 10,
-# 'label_v': 1,
-# 'label_e': 1,
-# 'vcex' : 0,
-# 'vcexmin' : 10,
-# 'vcexmax' : 25,
-# 'cex' : 10,
-# 'cexfromchi' : True,
-# 'sfromchi': False,
-# 'seuil_ok' : 0,
-# 'seuil' : 1,
-# 'cols' : (255,0,0),
-# 'cola' : (200,200,200),
-# 'width' : 1000,
-# 'height' : 1000,
-# 'first' : True,
-# 'keep_coord' : True,
-# 'alpha' : 20,
-# 'film': False,
-# }
-## self.tableau.actives = {}
-## self.tableau.lchi = self.lchi
-## self.tableau.chi = {}
-## for i, val in enumerate(self.la) :
-## self.tableau.actives[val] = [self.lfreq[i]]
-## self.tableau.chi[val] = [self.lchi[i]]
-#
-# act = {}
-# self.tableau.chi = {}
-# self.tableau.lchi = self.lchi
-# self.tableau.parametre['fromprof'] = True
-# for i, val in enumerate(self.la) :
-# act[val] = [self.lfreq[i]]
-# self.tableau.chi[val] = [self.lchi[i]]
-# DoSimi(self, param = paramsimi, fromprof = ffr(self.filename), pathout = pathout, listactives = self.la, actives = act)
-#
-# def onwordgraph(self, evt):
-# word = self.getColumnText(self.list.GetFirstSelected(), 6)
-# dlg = progressbar(self, 2)
-# corpus = self.Source.corpus
-# uces = corpus.lc[self.cl-1]
-# dlg.Update(1, u'Tableau...')
-# #tab = corpus.make_table_with_classe(uces, self.la)
-# pathout = ConstructPathOut(self.Source.pathout.dirout + '/' , 'simi_%s' % word)
-# self.filename = os.path.join(pathout,'mat01.csv')
-# dlg.Update(2, u'Ecriture...')
-# #corpus.write_tab(tab, self.filename)
-# #del tab
-# corpus.make_and_write_sparse_matrix_from_classe(self.la, uces, self.filename)
-# dlg.Destroy()
-# paramsimi = {'coeff' : 0,
-# 'layout' : 2,
-# 'type' : 1,
-# 'arbremax' : 0,
-# 'coeff_tv' : 1,
-# 'coeff_tv_nb' : 0,
-# 'tvprop' : 0,
-# 'tvmin' : 5,
-# 'tvmax' : 30,
-# 'coeff_te' : 1,
-# 'coeff_temin' : 1,
-# 'coeff_temax' : 10,
-# 'label_v': 1,
-# 'label_e': 0,
-# 'vcex' : 1,
-# 'vcexmin' : 10,
-# 'vcexmax' : 25,
-# 'cex' : 10,
-# 'seuil_ok' : 1,
-# 'seuil' : 1,
-# 'cols' : (255,0,0),
-# 'cola' : (200,200,200),
-# 'width' : 600,
-# 'height' : 600,
-# 'first' : True,
-# 'keep_coord' : True,
-# 'alpha' : 20,
-# 'film': False,
-# }
-# self.tableau = Tableau(self.parent, '')
-# self.tableau.listactives = self.la
-# self.tableau.actives = {}
-# for i, val in enumerate(self.la) :
-# self.tableau.actives[val] = [self.lfreq[i]]
-# DoSimi(self, param = paramsimi, fromprof = ffr(self.filename), pathout = pathout, wordgraph = word)
-#
-#