# # 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 # "Utilities/Relationship calculator" #------------------------------------------------------------------------- # # Standard python modules # #------------------------------------------------------------------------- import os #------------------------------------------------------------------------- # # GNOME libraries # #------------------------------------------------------------------------- from gtk import * from gnome.ui import * import gtk.glade #------------------------------------------------------------------------- # # GRAMPS modules # #------------------------------------------------------------------------- import RelLib import Utils import ListModel from intl import gettext as _ #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- def filter(person,index,list,map): if person == None: return list.append(person) map[person.getId()] = index family = person.getMainParents() if family != None: filter(family.getFather(),index+1,list,map) filter(family.getMother(),index+1,list,map) #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- def get_cousin(f,s,level,removed): if level == 1: if removed == 0: return _("%(p1)s is the first cousin of %(p2)s.") % { 'p1' : f, 'p2' : s} elif removed == 1: return _("%(p1)s is the first cousin once removed of %(p2)s.") % { 'p1' : f, 'p2' : s} elif removed == 2: return _("%(p1)s is the first cousin twice removed of %(p2)s.") % { 'p1' : f,'p2' : s} else: return _("%(p1)s is the first cousin %(removed)d times removed of %(p2)s.") % { 'p1' :f, 'p2' :s, 'removed' : removed} elif level == 2: if removed == 0: return _("%(p1)s is the second cousin of %(p2)s.") % { 'p1' : f, 'p2' : s } elif removed == 1: return _("%(p1)s is the second cousin once removed of %(p2)s.") % { 'p1' : f, 'p2' : s } elif removed == 2: return _("%(p1)s is the second cousin twice removed of %(p2)s.") % { 'p1' : f, 'p2' : s } else: return _("%(p1)s is the second cousin %(removed)d times removed of %(p2)s.") % { 'p1' : f, 'p2' : s, 'removed' : removed } elif level == 3: if removed == 0: return _("%(p1)s is the third cousin of %(p2)s.") % { 'p1' : f, 'p2' : s } elif removed == 1: return _("%(p1)s is the third cousin once removed of %(p2)s.") % { 'p1' : f, 'p2' : s } elif removed == 2: return _("%(p1)s is the third cousin twice removed of %(p2)s.") % { 'p1' : f, 'p2' : s } else: return _("%(p1)s is the third cousin %(removed)d times removed of %(p2)s.") % { 'p1' : f, 'p2' : s, 'removed' : removed } else: if removed == 0: return _("%(p1)s is the %(level)dth cousin of %(p2)s.") % { 'p1': f, 'level': level, 'p2' : s } elif removed == 1: return _("%(p1)s is the %(level)dth cousin once removed of %(p2)s.") % { 'p1': f, 'level': level, 'p2' : s } elif removed == 2: return _("%(p1)s is the %(level)dth cousin twice removed of %(p2)s.") % { 'p1': f, 'level': level, 'p2' : s } else: return _("%(p1)s is the %(level)dth cousin %(removed)d times removed of %(p2)s.") % { 'p1': f, 'level': level, 'removed' : removed, 'p2' : s } def get_father(f,s,level): if level == 1: return _("%(p1)s is the father of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 2: return _("%(p1)s is the grandfather of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 3: return _("%(p1)s is the great grandfather of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 4: return _("%(p1)s is the second great grandfather of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 5: return _("%(p1)s is the third great grandfather of %(p2)s.") % { 'p1': s, 'p2': f } else: return _("%(p1)s is the %(level)dth great grandfather of %(p2)s.") % { 'p1': s, 'level' : level-2, 'p2': f } def get_son(f,s,level): if level == 1: return _("%(p1)s is the son of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 2: return _("%(p1)s is the grandson of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 3: return _("%(p1)s is the great grandson of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 4: return _("%(p1)s is the second great grandson of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 5: return _("%(p1)s is the third great grandson of %(p2)s.") % { 'p1': s, 'p2': f } else: return _("%(p1)s is the %(level)dth great grandson of %(p2)s.") % { 'p1': s, 'level' : level-2, 'p2': f } def get_mother(f,s,level): if level == 1: return _("%(p1)s is the mother of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 2: return _("%(p1)s is the grandmother of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 3: return _("%(p1)s is the great grandmother of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 4: return _("%(p1)s is the second great grandmother of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 5: return _("%(p1)s is the third great grandmother of %(p2)s.") % { 'p1': s, 'p2': f } else: return _("%(p1)s is the %(level)dth great grandmother of %(p2)s.") % { 'p1': s, 'level' : level-2, 'p2': f } def get_daughter(f,s,level): if level == 1: return _("%(p1)s is the daughter of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 2: return _("%(p1)s is the granddaughter of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 3: return _("%(p1)s is the great granddaughter of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 4: return _("%(p1)s is the second great granddaughter of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 5: return _("%(p1)s is the third great granddaughter of %(p2)s.") % { 'p1': s, 'p2': f } else: return _("%(p1)s is the %(level)dth great granddaughter of %(p2)s.") % { 'p1': s, 'level' : level-2, 'p2': f } def get_aunt(f,s,level): if level == 1: return _("%(p1)s is the sister of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 2: return _("%(p1)s is the aunt of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 3: return _("%(p1)s is the grandaunt of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 4: return _("%(p1)s is the great grandaunt of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 5: return _("%(p1)s is the second great grandaunt of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 6: return _("%(p1)s is the third great grandaunt of %(p2)s.") % { 'p1': s, 'p2': f } else: return _("%(p1)s is the %(level)dth great grandaunt of %(p2)s.") % { 'p1': s, 'level' : level-3, 'p2': f } def get_uncle(f,s,level): if level == 1: return _("%(p1)s is the brother of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 2: return _("%(p1)s is the uncle of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 3: return _("%(p1)s is the granduncle of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 4: return _("%(p1)s is the great granduncle of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 5: return _("%(p1)s is the second great granduncle of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 6: return _("%(p1)s is the third great granduncle of %(p2)s.") % { 'p1': s, 'p2': f } else: return _("%(p1)s is the %(level)dth great granduncle of %(p2)s.") % { 'p1': s, 'level' : level-3, 'p2': f } def get_nephew(f,s,level): if level == 1: return _("%(p1)s is the nephew of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 2: return _("%(p1)s is the grandnephew of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 3: return _("%(p1)s is the great grandnephew of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 4: return _("%(p1)s is the second great grandnephew of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 5: return _("%(p1)s is the third great grandnephew of %(p2)s.") % { 'p1': s, 'p2': f } else: return _("%(p1)s is the %(level)dth great grandnephew of %(p2)s.") % { 'p1': s, 'level' : level-2, 'p2': f } def get_niece(f,s,level): if level == 1: return _("%(p1)s is the niece of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 2: return _("%(p1)s is the grandniece of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 3: return _("%(p1)s is the great grandniece of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 4: return _("%(p1)s is the second great grandniece of %(p2)s.") % { 'p1': s, 'p2': f } elif level == 5: return _("%(p1)s is the third great grandniece of %(p2)s.") % { 'p1': s, 'p2': f } else: return _("%(p1)s is the %(level)dth great grandniece of %(p2)s.") % { 'p1': s, 'level' : level-2, 'p2': f } #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- def runTool(database,person,callback): RelCalc(database,person) #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- class RelCalc: """ Relationship calculator class. """ def __init__(self,database,person): self.person = person self.db = database base = os.path.dirname(__file__) glade_file = "%s/relcalc.glade" % base self.glade = gtk.glade.XML(glade_file,"relcalc") name = self.person.getPrimaryName().getRegularName() Utils.set_titles(self.glade.get_widget('relcalc'), self.glade.get_widget('title'), _('Relationshp to %s') % name, _('Relationship calculator')) self.people = self.glade.get_widget("peopleList") self.clist = ListModel.ListModel(self.people, [(_('Name'),3,150),(_('ID'),1,50), (_('Birth Date'),4,150), ('',-1,0),('',-1,0)], self.on_apply_clicked) self.clist.new_model() for key in self.db.getPersonKeys(): p = self.db.getPerson(key) val = self.db.getPersonDisplay(key) self.clist.add([val[0],val[1],val[3],val[5],val[6]],p.getId()) self.clist.connect_model() self.glade.signal_autoconnect({ "on_close_clicked" : Utils.destroy_passed_object, "on_apply_clicked" : self.on_apply_clicked }) def on_apply_clicked(self,obj): firstMap = {} firstList = [] secondMap = {} secondList = [] common = [] rank = 9999999 model,iter = self.clist.get_selected() if not iter: return id = self.clist.get_object(iter) other_person = self.db.getPerson(id) filter(self.person,0,firstList,firstMap) filter(other_person,0,secondList,secondMap) for person in firstList: if person in secondList: new_rank = firstMap[person.getId()] if new_rank < rank: rank = new_rank common = [ person ] elif new_rank == rank: common.append(person) firstRel = -1 secondRel = -1 firstName = self.person.getPrimaryName().getRegularName() secondName = other_person.getPrimaryName().getRegularName() length = len(common) if length == 1: person = common[0] secondRel = firstMap[person.getId()] firstRel = secondMap[person.getId()] name = person.getPrimaryName().getRegularName() commontext = " " + _("Their common ancestor is %s.") % name elif length == 2: p1 = common[0] p2 = common[1] secondRel = firstMap[p1.getId()] firstRel = secondMap[p1.getId()] commontext = " " + _("Their common ancestors are %s and %s.") % \ (p1.getPrimaryName().getRegularName(),\ p2.getPrimaryName().getRegularName()) elif length > 2: index = 0 commontext = " " + _("Their common ancestors are : ") for person in common: secondRel = firstMap[person.getId()] firstRel = secondMap[person.getId()] if index != 0: commontext = commontext + ", " commontext = commontext + person.getPrimaryName().getRegularName() index = index + 1 commontext = commontext + "." else: commontext = "" if firstRel == -1: msg = _("There is no relationship between %s and %s.") text = msg % (firstName,secondName) elif firstRel == 0: if secondRel == 0: text = _("%s and %s are the same person.") % (firstName,secondName) elif other_person.getGender() == RelLib.Person.male: text = get_father(firstName,secondName,secondRel) else: text = get_mother(firstName,secondName,secondRel) elif secondRel == 0: if other_person.getGender() == RelLib.Person.male: text = get_son(firstName,secondName,firstRel) else: text = get_daughter(firstName,secondName,firstRel) elif firstRel == 1: if other_person.getGender() == RelLib.Person.male: text = get_uncle(firstName,secondName,secondRel) else: text = get_aunt(firstName,secondName,secondRel) elif secondRel == 1: if other_person.getGender() == RelLib.Person.male: text = get_nephew(firstName,secondName,firstRel-1) else: text = get_niece(firstName,secondName,firstRel-1) else: if secondRel > firstRel: text = get_cousin(firstName,secondName,firstRel-1,secondRel-firstRel) else: text = get_cousin(firstName,secondName,secondRel-1,firstRel-secondRel) text1 = self.glade.get_widget("text1").get_buffer() if firstRel == 0 or secondRel == 0: text1.set_text(text) else: text1.set_text(text + commontext) #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- from Plugins import register_tool register_tool( runTool, _("Relationship calculator"), category=_("Utilities"), description=_("Calculates the relationship between two people") )