# # Gramps - a GTK+/GNOME based genealogy program # # Copyright (C) 2000-2004 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 # # # Modified by Alex Roitman to enable translation of warnings and errors. # Modified further to use cStringIO object. # # $Id$ "View/Verify" #------------------------------------------------------------------------ # # standard python modules # #------------------------------------------------------------------------ import os import cStringIO #------------------------------------------------------------------------ # # GNOME/GTK modules # #------------------------------------------------------------------------ from gnome.ui import * import gtk import gtk.glade #------------------------------------------------------------------------ # # GRAMPS modules # #------------------------------------------------------------------------ import RelLib import Utils import Gregorian from gettext import gettext as _ def runTool(database,active_person,callback,parent=None): Verify(database,active_person,parent) #------------------------------------------------------------------------- # # #------------------------------------------------------------------------- class Verify: def __init__(self,database,active_person,parent): self.db = database self.parent = parent self.win_key = self base = os.path.dirname(__file__) self.glade_file = base + os.sep + "verify.glade" self.top = gtk.glade.XML(self.glade_file,"verify_settings","gramps") self.top.signal_autoconnect({ "destroy_passed_object" : self.close, "on_verify_delete_event" : self.on_delete_event, "on_verify_ok_clicked" : self.on_apply_clicked }) self.window = self.top.get_widget('verify_settings') Utils.set_titles(self.window, self.top.get_widget('title'), _('Database Verify')) self.add_itself_to_menu() self.window.show() def on_delete_event(self,obj,b): self.remove_itself_from_menu() def close(self,obj): self.remove_itself_from_menu() self.window.destroy() def add_itself_to_menu(self): self.parent.child_windows[self.win_key] = self self.parent_menu_item = gtk.MenuItem(_('Database Verify')) self.parent_menu_item.connect("activate",self.present) self.parent_menu_item.show() self.parent.winsmenu.append(self.parent_menu_item) def remove_itself_from_menu(self): del self.parent.child_windows[self.win_key] self.parent_menu_item.destroy() def present(self,obj): self.window.present() def get_year(self,event_handle): """ Returns the year of an event (by its id) or 0 if no event_handle or no year specified in the event """ year = 0 if event_handle: event = self.db.find_event_from_handle(event_handle) dateObj = event.get_date_object() if dateObj: if dateObj.get_calendar().NAME != Gregorian.Gregorian: dateObj.set_calendar(Gregorian.Gregorian) year = dateObj.get_year() return year def on_apply_clicked(self,obj): personList = self.db.get_person_handles(sort_handles=False) oldage = int(self.top.get_widget("oldage").get_text()) hwdif = int(self.top.get_widget("hwdif").get_text()) cspace = int(self.top.get_widget("cspace").get_text()) cbspan = int(self.top.get_widget("cbspan").get_text()) yngmar = int(self.top.get_widget("yngmar").get_text()) oldmar = int(self.top.get_widget("oldmar").get_text()) oldmom = int(self.top.get_widget("oldmom").get_text()) yngmom = int(self.top.get_widget("yngmom").get_text()) olddad = int(self.top.get_widget("olddad").get_text()) yngdad = int(self.top.get_widget("yngdad").get_text()) wedder = int(self.top.get_widget("wedder").get_text()) lngwdw = int(self.top.get_widget("lngwdw").get_text()) estimate_age = self.top.get_widget("estimate").get_active() oldunm = 99 # maximum age at death for unmarried person error = cStringIO.StringIO() warn = cStringIO.StringIO() for person_handle in personList: person = self.db.get_person_from_handle(person_handle) idstr = "%s (%s)" % (person.get_primary_name().get_name(),person_handle) # individual checks ageatdeath = 0 byear = self.get_year( person.get_birth_handle() ) bapyear = 0 dyear = self.get_year( person.get_death_handle() ) buryear = 0 if byear>0 and bapyear>0: if byear > bapyear: if person.get_gender() == RelLib.Person.male: error.write( _("Baptized before birth: %(male_name)s born %(byear)d, baptized %(bapyear)d.\n") % { 'male_name' : idstr, 'byear' : byear, 'bapyear' : bapyear } ) if person.get_gender() == RelLib.Person.female: error.write( _("Baptized before birth: %(female_name)s born %(byear)d, baptized %(bapyear)d.\n") % { 'female_name' : idstr, 'byear' : byear, 'bapyear' : bapyear } ) if byear < bapyear: if person.get_gender() == RelLib.Person.male: warn.write( _("Baptized late: %(male_name)s born %(byear)d, baptized %(bapyear)d.\n") % { 'male_name' : idstr, 'byear' : byear, 'bapyear' : bapyear } ) if person.get_gender() == RelLib.Person.female: warn.write( _("Baptized late: %(female_name)s born %(byear)d, baptized %(bapyear)d.\n") % { 'female_name' : idstr, 'byear' : byear, 'bapyear' : bapyear } ) if dyear>0 and buryear>0: if dyear > buryear: if person.get_gender() == RelLib.Person.male: error.write( _("Buried before death: %(male_name)s died %(dyear)d, buried %(buryear)d.\n") % { 'male_name' : idstr, 'dyear' : dyear, 'buryear' : buryear } ) if person.get_gender() == RelLib.Person.female: error.write( _("Buried before death: %(female_name)s died %(dyear)d, buried %(buryear)d.\n") % { 'female_name' : idstr, 'dyear' : dyear, 'buryear' : buryear } ) if dyear < buryear: if person.get_gender() == RelLib.Person.male: warn.write( _("Buried late: %(male_name)s died %(dyear)d, buried %(buryear)d.\n") % { 'male_name' : idstr, 'dyear' : dyear, 'buryear' : buryear } ) if person.get_gender() == RelLib.Person.female: warn.write( _("Buried late: %(female_name)s died %(dyear)d, buried %(buryear)d.\n") % { 'female_name' : idstr, 'dyear' : dyear, 'buryear' : buryear } ) if dyear>0 and (byear>dyear): if person.get_gender() == RelLib.Person.male: error.write( _("Died before birth: %(male_name)s born %(byear)d, died %(dyear)d.\n") % { 'male_name' : idstr, 'byear' : byear, 'dyear' : dyear } ) if person.get_gender() == RelLib.Person.female: error.write( _("Died before birth: %(female_name)s born %(byear)d, died %(dyear)d.\n") % { 'female_name' : idstr, 'byear' : byear, 'dyear' : dyear } ) if dyear>0 and (bapyear>dyear): if person.get_gender() == RelLib.Person.male: error.write( _("Died before baptism: %(male_name)s baptized %(bapyear)d, died %(dyear)d.\n") % { 'male_name' : idstr, 'bapyear' : bapyear, 'dyear' : dyear } ) if person.get_gender() == RelLib.Person.female: error.write( _("Died before baptism: %(female_name)s baptized %(bapyear)d, died %(dyear)d.\n") % { 'female_name' : idstr, 'bapyear' : bapyear, 'dyear' : dyear } ) if buryear>0 and (byear>buryear): if person.get_gender() == RelLib.Person.male: error.write( _("Buried before birth: %(male_name)s born %(byear)d, buried %(buryear)d.\n") % { 'male_name' : idstr, 'byear' : byear, 'buryear' : buryear } ) if person.get_gender() == RelLib.Person.female: error.write( _("Buried before birth: %(female_name)s born %(byear)d, buried %(buryear)d.\n") % { 'female_name' : idstr, 'byear' : byear, 'buryear' : buryear } ) if buryear>0 and (bapyear>buryear): if person.get_gender() == RelLib.Person.male: error.write( _("Buried before baptism: %(male_name)s baptized %(bapyear)d, buried %(buryear)d.\n") % { 'male_name' : idstr, 'bapyear' : bapyear, 'buryear' : buryear } ) if person.get_gender() == RelLib.Person.female: error.write( _("Buried before baptism: %(female_name)s baptized %(bapyear)d, buried %(buryear)d.\n") % { 'female_name' : idstr, 'bapyear' : bapyear, 'buryear' : buryear } ) if byear == 0 and estimate_age: byear = bapyear # guess baptism = birth if dyear == 0 and estimate_age: dyear = buryear # guess burial = death if byear>0 and dyear>0: ageatdeath = dyear - byear else: ageatdeath = 0 if ageatdeath > oldage: if person.get_gender() == RelLib.Person.male: warn.write( _("Old age: %(male_name)s born %(byear)d, died %(dyear)d, at the age of %(ageatdeath)d.\n") % { 'male_name' : idstr, 'byear' : byear, 'dyear' : dyear, 'ageatdeath' : ageatdeath } ) if person.get_gender() == RelLib.Person.female: warn.write( _("Old age: %(female_name)s born %(byear)d, died %(dyear)d, at the age of %(ageatdeath)d.\n") % { 'female_name' : idstr, 'byear' : byear, 'dyear' : dyear, 'ageatdeath' : ageatdeath } ) # gender checks if person.get_gender() == RelLib.Person.female: oldpar = oldmom yngpar = yngmom if person.get_gender() == RelLib.Person.male: oldpar = olddad yngpar = yngdad if (person.get_gender() != RelLib.Person.female) and (person.get_gender() != RelLib.Person.male): warn.write( _("Unknown gender for %s.\n") % idstr ) oldpar = olddad yngpar = yngdad if (person.get_gender() == RelLib.Person.female) and (person.get_gender() == RelLib.Person.male): error.write( _("Ambiguous gender for %s.\n") % idstr ) oldpar = olddad yngpar = yngdad # multiple parentage check if( len( person.get_parent_family_handle_list() ) > 1 ): warn.write( _("Multiple parentage for %s.\n") % idstr ) # marriage checks nkids = 0 nfam = len( person.get_family_handle_list() ) if nfam > wedder: if person.get_gender() == RelLib.Person.male: warn.write( _("Married often: %(male_name)s married %(nfam)d times.\n") % { 'male_name' : idstr, 'nfam' : nfam } ) if person.get_gender() == RelLib.Person.female: warn.write( _("Married often: %(female_name)s married %(nfam)d times.\n") % { 'female_name' : idstr, 'nfam' : nfam } ) if ageatdeath>oldunm and nfam == 0: if person.get_gender() == RelLib.Person.male: warn.write( _("Old and unmarried: %(male_name)s died unmarried, at the age of %(ageatdeath)d years.\n") % { 'male_name' : idstr, 'ageatdeath' : ageatdeath } ) if person.get_gender() == RelLib.Person.female: warn.write( _("Old and unmarried: %(female_name)s died unmarried, at the age of %(ageatdeath)d years.\n") % { 'female_name' : idstr, 'ageatdeath' : ageatdeath } ) prev_cbyear=0 prev_maryear=0 prev_sdyear=0 fnum = 0 for family_handle in person.get_family_handle_list(): family = self.db.get_family_from_handle(family_handle) fnum = fnum + 1 mother_handle = family.get_mother_handle() father_handle = family.get_father_handle() if mother_handle: mother = self.db.get_person_from_handle(mother_handle) if father_handle: father = self.db.get_person_from_handle(father_handle) if mother_handle and father_handle: if ( mother.get_gender() == father.get_gender() ) and mother.get_gender() != RelLib.Person.unknown: warn.write( _("Homosexual marriage: %s in family %s.\n") % ( idstr, family.get_handle() ) ) if father_handle == person.get_handle() and person.get_gender() == RelLib.Person.female: error.write( _("Female husband: %s in family %s.\n") % ( idstr, family.get_handle() ) ) if mother_handle == person.get_handle() and person.get_gender() == RelLib.Person.male: error.write( _("Male wife: %s in family %s.\n") % ( idstr, family.get_handle() ) ) if father_handle == person.get_handle(): spouse_id = mother_handle else: spouse_id = father_handle if spouse_id: spouse = self.db.get_person_from_handle(spouse_id) if person.get_gender() == RelLib.Person.male and \ person.get_primary_name().get_surname() == spouse.get_primary_name().get_surname(): warn.write( _("Husband and wife with the same surname: %s in family %s, and %s.\n") % ( idstr,family.get_handle(), spouse.get_primary_name().get_name() ) ) sdyear = self.get_year( spouse.get_death_handle() ) sbyear = self.get_year( spouse.get_birth_handle() ) if abs(sbyear-byear) > hwdif: warn.write( _("Large age difference between husband and wife: %s in family %s, and %s.\n") % ( idstr,family.get_handle(), spouse.get_primary_name().get_name() ) ) if sdyear == 0: sdyear = 0 # burial year for event_handle in family.get_event_list(): if event_handle: event = self.db.find_event_from_handle(event_handle) if event.get_name() == "Marriage": marriage_id = event_handle break else: marriage_id = None maryear = self.get_year( marriage_id ) if maryear == 0 and estimate_age: # estimate marriage year cnum=0 for child_handle in family.get_child_handle_list(): cnum = cnum + 1 if maryear == 0: child = self.db.get_person_from_handle(child_handle) birthyear = self.get_year( child.get_birth_handle() ) if birthyear > 0: maryear = birthyear-cnum if maryear > 0: if byear > 0: marage = maryear - byear if marage < 0: if person.get_gender() == RelLib.Person.male: error.write( _("Married before birth: %(male_name)s born %(byear)d, married %(maryear)d to %(spouse)s.\n") % { 'male_name' : idstr, 'byear' : byear, 'maryear' : maryear, 'spouse' : spouse.get_primary_name().get_name() } ) if person.get_gender() == RelLib.Person.female: error.write( _("Married before birth: %(female_name)s born %(byear)d, married %(maryear)d to %(spouse)s.\n") % { 'female_name' : idstr, 'byear' : byear, 'maryear' : maryear, 'spouse' : spouse.get_primary_name().get_name() } ) else: if marage < yngmar: if person.get_gender() == RelLib.Person.male: warn.write( _("Young marriage: %(male_name)s married at age %(marage)d to %(spouse)s.\n") % { 'male_name' : idstr, 'marage' : marage, 'spouse' : spouse.get_primary_name().get_name() } ) if person.get_gender() == RelLib.Person.female: warn.write( _("Young marriage: %(female_name)s married at age %(marage)d to %(spouse)s.\n") % { 'female_name' : idstr, 'marage' : marage, 'spouse' : spouse.get_primary_name().get_name() } ) if marage > oldmar: if person.get_gender() == RelLib.Person.male: warn.write( _("Old marriage: %(male_name)s married at age %(marage)d to %(spouse)s.\n") % { 'male_name' : idstr, 'marage' : marage, 'spouse' : spouse.get_primary_name().get_name() } ) if person.get_gender() == RelLib.Person.female: warn.write( _("Old marriage: %(female_name)s married at age %(marage)d to %(spouse)s.\n") % { 'female_name' : idstr, 'marage' : marage, 'spouse' : spouse.get_primary_name().get_name() } ) if dyear>0 and maryear > dyear: if person.get_gender() == RelLib.Person.male: error.write( _("Married after death: %(male_name)s died %(dyear)d, married %(maryear)d to %(spouse)s.\n") % { 'male_name' : idstr, 'dyear' : dyear, 'maryear' : maryear, 'spouse' : spouse.get_primary_name().get_name() } ) if person.get_gender() == RelLib.Person.female: error.write( _("Married after death: %(female_name)s died %(dyear)d, married %(maryear)d to %(spouse)s.\n") % { 'female_name' : idstr, 'dyear' : dyear, 'maryear' : maryear, 'spouse' : spouse.get_primary_name().get_name() } ) if prev_cbyear > maryear: if person.get_gender() == RelLib.Person.male: warn.write( _("Marriage before birth from previous family: %(male_name)s married %(maryear)d to %(spouse)s, previous birth %(prev_cbyear)d.\n") % { 'male_name' : idstr, 'maryear' : maryear, 'spouse' : spouse.get_primary_name().get_name(), 'prev_cbyear' : prev_cbyear } ) if person.get_gender() == RelLib.Person.female: warn.write( _("Marriage before birth from previous family: %(female_name)s married %(maryear)d to %(spouse)s, previous birth %(prev_cbyear)d.\n") % { 'female_name' : idstr, 'maryear' : maryear, 'spouse' : spouse.get_primary_name().get_name(), 'prev_cbyear' : prev_cbyear } ) prev_maryear = maryear else: maryear = prev_maryear if maryear>0 and prev_sdyear > 0: wdwyear = maryear-prev_sdyear if wdwyear > lngwdw: if person.get_gender() == RelLib.Person.male: warn.write( _("Long widowhood: %s was a widower %d years before, family %s.\n") % (idstr, wdwyear, family.get_handle() ) ) if person.get_gender() == RelLib.Person.female: warn.write( _("Long widowhood: %s was a widow %d years before, family %s.\n") % (idstr, wdwyear, family.get_handle() ) ) if fnum==nfam and dyear>0 and sdyear>0: wdwyear = dyear - sdyear if wdwyear > lngwdw: if person.get_gender() == RelLib.Person.male: warn.write( _("Long widowhood: %s was a widower %d years.\n") % (idstr, wdwyear) ) if person.get_gender() == RelLib.Person.female: warn.write( _("Long widowhood: %s was a widow %d years.\n") % (idstr, wdwyear) ) nkids = 0 cbyears = [] for child_handle in family.get_child_handle_list(): nkids = nkids+1 child = self.db.get_person_from_handle(child_handle) cbyear = self.get_year( child.get_birth_handle() ) if cbyear: cbyears.append(cbyear) # parentage checks if byear>0 and cbyear>0: bage = cbyear - byear if bage > oldpar: if person.get_gender() == RelLib.Person.male: warn.write( _("Old father: %(male_name)s at age of %(bage)d in family %(fam)s had a child %(child)s.\n") % { 'male_name' : idstr, 'bage' : bage, 'fam' : family.get_handle(), 'child' : child.get_primary_name().get_name() } ) if person.get_gender() == RelLib.Person.female: warn.write( _("Old mother: %(female_name)s at age of %(bage)d in family %(fam)s had a child %(child)s.\n") % { 'female_name' : idstr, 'bage' : bage, 'fam' : family.get_handle(), 'child' : child.get_primary_name().get_name() } ) if bage < 0: if person.get_gender() == RelLib.Person.male: error.write( _("Unborn father: %(male_name)s born %(byear)d, in family %(fam)s had a child %(child)s born %(cbyear)d.\n") % { 'male_name' : idstr, 'byear' : byear, 'fam' : family.get_handle(), 'child' : child.get_primary_name().get_name(), 'cbyear' : cbyear } ) if person.get_gender() == RelLib.Person.female: error.write( _("Unborn mother: %(female_name)s born %(byear)d, in family %(fam)s had a child %(child)s born %(cbyear)d.\n") % { 'female_name' : idstr, 'byear' : byear, 'fam' : family.get_handle(), 'child' : child.get_primary_name().get_name(), 'cbyear' : cbyear } ) else: if bage < yngpar: if person.get_gender() == RelLib.Person.male: warn.write( _("Young father: %(male_name)s at the age of %(bage)d in family %(fam)s had a child %(child)s.\n") % { 'male_name' : idstr, 'bage' : bage, 'fam' : family.get_handle(), 'child' : child.get_primary_name().get_name() } ) if person.get_gender() == RelLib.Person.female: warn.write( _("Young mother: %(female_name)s at the age of %(bage)d in family %(fam)s had a child %(child)s.\n") % { 'female_name' : idstr, 'bage' : bage, 'fam' : family.get_handle(), 'child' : child.get_primary_name().get_name() } ) if dyear>0 and cbyear>dyear: if cbyear-1>dyear: if person.get_gender() == RelLib.Person.male: error.write( _("Dead father: %(male_name)s died %(dyear)d, but in family %(fam)s had a child %(child)s born %(cbyear)d.\n") % { 'male_name' : idstr, 'dyear' : dyear, 'fam' : family.get_handle(), 'child' : child.get_primary_name().get_name(), 'cbyear' : cbyear} ) if person.get_gender() == RelLib.Person.female: error.write( _("Dead mother: %(female_name)s died %(dyear)d, but in family %(fam)s had a child %(child)s born %(cbyear)d.\n") % { 'female_name' : idstr, 'dyear' : dyear, 'fam' : family.get_handle(), 'child' : child.get_primary_name().get_name(), 'cbyear' : cbyear} ) else: if person.get_gender() == RelLib.Person.male: warn.write( _("Dead father: %(male_name)s died %(dyear)d, but in family %(fam)s had a child %(child)s born %(cbyear)d.\n") % { 'male_name' : idstr, 'dyear' : dyear, 'fam' : family.get_handle(), 'child' : child.get_primary_name().get_name(), 'cbyear' : cbyear} ) if person.get_gender() == RelLib.Person.female: warn.write( _("Dead mother: %(female_name)s died %(dyear)d, but in family %(fam)s had a child %(child)s born %(cbyear)d.\n") % { 'female_name' : idstr, 'dyear' : dyear, 'fam' : family.get_handle(), 'child' : child.get_primary_name().get_name(), 'cbyear' : cbyear} ) if cbyears: cbyears.sort() if (cbyears[-1] - cbyears[0]) > cbspan: warn.write(_("Large year span for all children: family %s.\n") % family.get_handle() ) if len(cbyears) > 1: cby_diff = [ cbyears[i+1]-cbyears[i] for i in range(len(cbyears)-1) ] if max(cby_diff) > cspace: warn.write(_("Large age differences between children: family %s.\n") % family.get_handle() ) text = "" if error: text = _("ERRORS:\n") + error.getvalue() + "\n" if warn: text = _("WARNINGS:\n") + warn.getvalue() error.close() warn.close() top = gtk.glade.XML(self.glade_file,"verify_result","gramps") Utils.set_titles(top.get_widget('verify_result'), top.get_widget('title'), _('Database Verify')) top.signal_autoconnect({ "destroy_passed_object" : self.close_result, "on_result_delete_event" : self.on_result_delete_event, }) self.topwin = top.get_widget("verify_result") self.win_result_key = self.topwin textwindow = top.get_widget("textwindow") textwindow.get_buffer().set_text(text) self.add_result_to_menu() self.topwin.show() def on_result_delete_event(self,obj,b): self.remove_result_from_menu() def close_result(self,obj): self.remove_result_from_menu() self.topwin.destroy() def add_result_to_menu(self): self.parent.child_windows[self.win_result_key] = self.topwin self.result_parent_menu_item = gtk.MenuItem(_('Database Verify results')) self.result_parent_menu_item.connect("activate",self.present_result) self.result_parent_menu_item.show() self.parent.winsmenu.append(self.result_parent_menu_item) def remove_result_from_menu(self): del self.parent.child_windows[self.win_result_key] self.result_parent_menu_item.destroy() def present_result(self,obj): self.topwin.present() #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- from Plugins import register_tool register_tool( runTool, _("Verify the database"), category=_("Utilities"), description=_("Lists exceptions to assertions or checks about the database") )