# # Gramps - a GTK+/GNOME based genealogy program # # Copyright (C) 2000 Donald N. Allingham # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA # "Database Processing/Merge people" #------------------------------------------------------------------------- # # GRAMPS modules # #------------------------------------------------------------------------- import RelLib import Utils import soundex import GrampsCfg import ListModel import MergeData from intl import gettext as _ #------------------------------------------------------------------------- # # standard python models # #------------------------------------------------------------------------- import string import os #------------------------------------------------------------------------- # # GNOME libraries # #------------------------------------------------------------------------- from gnome.ui import * import gtk import gtk.glade #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- def is_initial(name): if len(name) > 2: return 0 elif len(name) == 2: if name[0] == name[0].upper() and name[1] == '.': return 1 else: return name[0] == name[0].upper() #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- def ancestors_of(p1,list): if p1 == None or p1 in list: return list.append(p1) f1 = p1.getMainParents() if f1 != None: ancestors_of(f1.getFather(),list) ancestors_of(f1.getMother(),list) #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- class Merge: def __init__(self,database,callback): self.db = database self.map = {} self.list = [] self.index = 0 self.merger = None self.mergee = None self.removed = {} self.update = callback self.use_soundex = 1 self.family_list = database.getFamilyMap().values()[:] self.person_list = database.getPersonMap().values()[:] base = os.path.dirname(__file__) self.glade_file = "%s/%s" % (base,"merge.glade") top = gtk.glade.XML(self.glade_file,"dialog") my_menu = gtk.Menu() item = gtk.MenuItem(_("Low")) item.set_data("v",0.25) item.show() my_menu.append(item) item = gtk.MenuItem(_("Medium")) item.set_data("v",1.0) item.show() my_menu.append(item) item = gtk.MenuItem(_("High")) item.set_data("v",2.0) item.show() my_menu.append(item) self.soundex_obj = top.get_widget("soundex") self.menu = top.get_widget("menu") self.menu.set_menu(my_menu) Utils.set_titles(top.get_widget('dialog'), top.get_widget('title'), _('Merge people')) top.signal_autoconnect({ "on_merge_ok_clicked" : self.on_merge_ok_clicked, "destroy_passed_object" : Utils.destroy_passed_object }) def on_merge_ok_clicked(self,obj): active = self.menu.get_menu().get_active().get_data("v") self.use_soundex = self.soundex_obj.get_active() Utils.destroy_passed_object(obj) self.find_potentials(active) self.show() def progress_update(self,val): self.progress.set_fraction(val/100.0) while gtk.events_pending(): gtk.mainiteration() def find_potentials(self,thresh): top = gtk.glade.XML(self.glade_file,"message") self.topWin = top.get_widget("message") self.progress = top.get_widget("progressbar1") Utils.set_titles(self.topWin,top.get_widget('title'), _('Determining possible merges')) index = 0 males = {} females = {} for p1 in self.person_list: key = self.gen_key(p1.getPrimaryName().getSurname()) if p1.getGender() == RelLib.Person.male: if males.has_key(key): males[key].append(p1.getId()) else: males[key] = [p1.getId()] else: if females.has_key(key): females[key].append(p1.getId()) else: females[key] = [p1.getId()] length = len(self.person_list) num = 0 for p1 in self.person_list: p1key = p1.getId() if num % 25 == 0: self.progress_update((float(num)/float(length))*100) num = num + 1 key = self.gen_key(p1.getPrimaryName().getSurname()) if p1.getGender() == RelLib.Person.male: remaining = males[key] else: remaining = females[key] index = 0 for p2key in remaining: index = index + 1 if p1key == p2key: continue p2 = self.db.getPerson(p2key) if self.map.has_key(p2key): (v,c) = self.map[p2key] if v == p1: continue chance = self.compare_people(p1,p2) if chance >= thresh: if self.map.has_key(p1key): val = self.map[p1key] if val[1] > chance: self.map[p1key] = (p2,chance) else: self.map[p1key] = (p2,chance) self.list = self.map.keys() self.list.sort() self.length = len(self.list) self.topWin.destroy() self.dellist = {} def show(self): top = gtk.glade.XML(self.glade_file,"mergelist") self.window = top.get_widget("mergelist") Utils.set_titles(self.window, top.get_widget('title'), _('Potential Merges')) self.mlist = top.get_widget("mlist") top.signal_autoconnect({ "destroy_passed_object" : Utils.destroy_passed_object, "on_do_merge_clicked" : self.on_do_merge_clicked, }) mtitles = [(_('Rating'),3,75),(_('First Person'),1,200), (_('Second Person'),2,200),('',-1,0)] self.list = ListModel.ListModel(self.mlist,mtitles, event_func=self.on_do_merge_clicked) self.redraw() def redraw(self): list = [] for p1 in self.map.keys(): if self.dellist.has_key(p1): continue (p2,c) = self.map[p1] p2key = p2.getId() if self.dellist.has_key(p2key): p2 = self.dellist[p2key] if p1 == p2: continue list.append((c,p1,p2.getId())) self.list.clear() for (c,p1,p2) in list: c1 = "%5.2f" % c c2 = "%5.2f" % (100-c) pn1 = self.db.getPerson(p1).getPrimaryName().getName() pn2 = self.db.getPerson(p2).getPrimaryName().getName() self.list.add([c, pn1, pn2,c2],(p1,p2)) def on_do_merge_clicked(self,obj): store,iter = self.list.selection.get_selected() if not iter: return (p1,p2) = self.list.get_object(iter) pn1 = self.db.getPerson(p1) pn2 = self.db.getPerson(p2) MergeData.MergePeople(self.db,pn1,pn2,self.on_update) def on_update(self,p1,p2,old_id): self.dellist[p2.getId()] = p1.getId() for key in self.dellist.keys(): if self.dellist[key] == p2.getId(): self.dellist[key] = p1.getId() self.redraw() def update_and_destroy(self,obj): self.update(1) Utils.destroy_passed_object(obj) def list_reduce(self,list1,list2): value = 0 for name in list1: for name2 in list2: if is_initial(name) and name[0] == name2[0]: value = value + 0.25 break if is_initial(name2) and name2[0] == name[0]: value = value + 0.25 break if name == name2: value = value + 0.5 break if name[0] == name2[0] and self.name_compare(name,name2): value = value + 0.25 break if value == 0: return -1 else: return min(value,1) def gen_key(self,val): if self.use_soundex: return soundex.soundex(val) else: return val def name_compare(self,s1,s2): if self.use_soundex: return soundex.compare(s1,s2) else: return s1 == s2 def date_match(self,date1,date2): if date1.getDate() == "" or date2.getDate() == "": return 0 if date1.getDate() == date2.getDate(): return 1 if date1.isRange() or date2.isRange(): return self.range_compare(date1,date2) date1 = date1.get_start_date() date2 = date2.get_start_date() if date1.getYear() == date2.getYear(): if date1.getMonth() == date2.getMonth(): return 0.75 if not date1.getMonthValid() or not date2.getMonthValid(): return 0.75 else: return -1 else: return -1 def range_compare(self,date1,date2): if date1.isRange() and date2.isRange(): if date1.get_start_date() >= date2.get_start_date() and \ date1.get_start_date() <= date2.get_stop_date() or \ date2.get_start_date() >= date1.get_start_date() and \ date2.get_start_date() <= date1.get_stop_date() or \ date1.get_stop_date() >= date2.get_start_date() and \ date1.get_stop_date() <= date2.get_stop_date() or \ date2.get_stop_date() >= date1.get_start_date() and \ date2.get_stop_date() <= date1.get_stop_date(): return 0.5 else: return -1 elif date2.isRange(): if date1.get_start_date() >= date2.get_start_date() and \ date1.get_start_date() <= date2.get_stop_date(): return 0.5 else: return -1 else: if date2.get_start_date() >= date1.get_start_date() and \ date2.get_start_date() <= date1.get_stop_date(): return 0.5 else: return -1 def name_match(self,name,name1): if not name1 or not name: return 0 srn1 = name.getSurname() sfx1 = name.getSuffix() srn2 = name1.getSurname() sfx2 = name1.getSuffix() if not self.name_compare(srn1,srn2): return -1 if sfx1 != sfx2: if sfx1 != "" and sfx2 != "": return -1 if name.getFirstName() == name1.getFirstName(): return 1 else: list1 = string.split(name.getFirstName()) list2 = string.split(name1.getFirstName()) if len(list1) < len(list2): return self.list_reduce(list1,list2) else: return self.list_reduce(list2,list1) def place_match(self,p1,p2): if p1 == p2: return 1 if p1 == None: name1 = "" else: name1 = p1.get_title() if p2 == None: name2 = "" else: name2 = p2.get_title() if name1 == "" or name2 == "": return 0 if name1 == name2: return 1 list1 = string.split(string.replace(name1,","," ")) list2 = string.split(string.replace(name2,","," ")) value = 0 for name in list1: for name2 in list2: if name == name2: value = value + 0.5 break if name[0] == name2[0] and self.name_compare(name,name2): value = value + 0.25 break if value == 0: return -1 else: return min(value,1) def compare_people(self,p1,p2): name1 = p1.getPrimaryName() name2 = p2.getPrimaryName() chance = self.name_match(name1,name2) if chance == -1 : return -1 birth1 = p1.getBirth() death1 = p1.getDeath() birth2 = p2.getBirth() death2 = p2.getDeath() value = self.date_match(birth1.getDateObj(),birth2.getDateObj()) if value == -1 : return -1 chance = chance + value value = self.date_match(death1.getDateObj(),death2.getDateObj()) if value == -1 : return -1 chance = chance + value value = self.place_match(birth1.getPlace(),birth2.getPlace()) if value == -1 : return -1 chance = chance + value value = self.place_match(death1.getPlace(),death2.getPlace()) if value == -1 : return -1 chance = chance + value ancestors = [] ancestors_of(p1,ancestors) if p2 in ancestors: return -1 ancestors = [] ancestors_of(p2,ancestors) if p1 in ancestors: return -1 f1 = p1.getMainParents() f2 = p2.getMainParents() if f1 and f2: dad1 = get_name_obj(f1.getFather()) dad2 = get_name_obj(f2.getFather()) value = self.name_match(dad1,dad2) if value == -1: return -1 chance = chance + value mom1 = get_name_obj(f1.getMother()) mom2 = get_name_obj(f2.getMother()) value = self.name_match(mom1,mom2) if value == -1: return -1 chance = chance + value for f1 in p1.getFamilyList(): for f2 in p2.getFamilyList(): if p1.getGender() == RelLib.Person.female: father1 = f1.getFather() father2 = f2.getFather() if father1 and father2: if father1 == father2: chance = chance + 1 else: fname1 = get_name_obj(father1) fname2 = get_name_obj(father2) value = self.name_match(fname1,fname2) if value != -1: chance = chance + value else: mother1 = f1.getMother() mother2 = f2.getMother() if mother1 and mother2: if mother1 == mother2: chance = chance + 1 else: mname1 = get_name_obj(mother1) mname2 = get_name_obj(mother2) value = self.name_match(mname1,mname2) if value != -1: chance = chance + value return chance def name_of(p): if not p: return "" return "%s (%s)" % ( GrampsCfg.nameof(p),p.getId()) def get_name_obj(person): if person: return person.getPrimaryName() else: return None #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- def runTool(database,active_person,callback): try: Merge(database,callback) except: import DisplayTrace DisplayTrace.DisplayTrace() #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- def by_id(p1,p2): return cmp(p1.getId(),p2.getId()) #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- from Plugins import register_tool register_tool( runTool, _("Find possible duplicate people"), category=_("Database Processing"), description=_("Searches the entire database, looking for " "individual entries that may represent the same person.") )