# -*- coding: utf-8 -*- # # Gramps - a GTK+/GNOME based genealogy program # # Copyright (C) 2003 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 # # # Written by Egyeki Gergely , 2004 # #------------------------------------------------------------------------- # # GRAMPS modules # #------------------------------------------------------------------------- import RelLib import Date from Relationship import apply_filter, is_spouse from Plugins import register_relcalc #------------------------------------------------------------------------- # # Shared constants # #------------------------------------------------------------------------- _level =\ ["", "", "másod", "harmad", "negyed", "ötöd", "hatod", "heted", "nyolcad", "kilenced", "tized", "tizenegyed", "tizenketted", "tizenharmad", "tizennegyed", "tizenötöd", "tizenhatod", "tizenheted", "tizennyolcad", "tizenkilenced", "huszad","huszonegyed"] #------------------------------------------------------------------------- # # Specific relationship functions # # To be honest, I doubt that this relationship naming method is widely # spread... If you know of a rigorous, italian naming convention, # please, drop me an email. # #------------------------------------------------------------------------- def get_parents (level): return "%s szülei" % _level[level] def get_father (level): if level == 0: return "" elif level == 1: return "apja" elif level == 2: return "nagyapja" elif level == 3: return "dédapja" elif level == 4: return "ükapja" else : return "%s ükapja" % (_level[level]) def get_mother (level): if level == 0: return "" elif level == 1: return "anyja" elif level == 2: return "nagyanyja" elif level == 3: return "dédanyja" elif level == 4: return "ükanyja" else : return "%s ükanyja" % (_level[level]) def get_son (level): if level == 0: return "" elif level == 1: return "fia" elif level == 2: return "unokája" else : return "%s unokája" % (_level[level]) def get_daughter (level): if level == 0: return "" elif level == 1: return "lánya" else : return get_son(level) def get_uncle (level): if level == 0: return "" elif level == 1: return "testvére" elif level == 2: return "nagybátyja" else : return "%s nagybátyja" % (_level[level]) def get_aunt (level): if level == 0: return "" elif level == 1: return "testvére" elif level == 2: return "nagynénje" else : return "%s nagynénje" % (_level[level]) def get_nephew (level): if level == 0: return "" elif level == 1: return "unokája" else : return "%s unokája" % (_level[level]) def get_niece(level): return get_nephew(level) def get_male_cousin (level): if level == 0: return "" elif level == 1: return "unokatestvére" else : return "%s unokatestvére" % (_level[level]) def get_female_cousin (level): return get_male_cousin(level) # brother and sister age differences def get_age_comp(orig_person,other_person): # 0=nothing, -1=other is younger 1=other is older orig_birth_event = orig_person.getBirth() orig_birth_date = orig_birth_event.getDateObj() other_birth_event = other_person.getBirth() other_birth_date = other_birth_event.getDateObj() if (orig_birth_date == "")or(other_birth_date == "") :return 0 else :return Date.compare_dates(orig_birth_date,other_birth_date) def get_age_brother (level): if level == 0 : return "testvére" elif level == 1 : return "öccse" else : return "bátyja" def get_age_sister (level): if level == 0 : return "testvére" elif level == 1 : return "húga" else : return "nővére" #------------------------------------------------------------------------- # # get_relationship # #------------------------------------------------------------------------- def get_relationship(orig_person,other_person): """ returns a string representing the relationshp between the two people, along with a list of common ancestors (typically father,mother) """ firstMap = {} firstList = [] secondMap = {} secondList = [] common = [] rank = 9999999 if orig_person == None: return ("nem meghatározható",[]) if orig_person == other_person: return ('', []) if is_spouse(orig_person,other_person): return ("házastársa",[]) apply_filter(orig_person,0,firstList,firstMap) apply_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 length = len(common) if length == 1: person = common[0] secondRel = firstMap[person.getId()] firstRel = secondMap[person.getId()] elif length == 2: p1 = common[0] secondRel = firstMap[p1.getId()] firstRel = secondMap[p1.getId()] elif length > 2: person = common[0] secondRel = firstMap[person.getId()] firstRel = secondMap[person.getId()] if firstRel == -1: return ("",[]) elif firstRel == 0: if secondRel == 0: return ('',common) elif other_person.getGender() == RelLib.Person.male: return (get_father(secondRel),common) else: return (get_mother(secondRel),common) elif secondRel == 0: if other_person.getGender() == RelLib.Person.male: return (get_son(firstRel),common) else: return (get_daughter(firstRel),common) elif firstRel == 1: if other_person.getGender() == RelLib.Person.male: if secondRel == 1: return (get_age_brother(get_age_comp(orig_person,other_person)),common) else :return (get_uncle(secondRel),common) else: if secondRel == 1: return (get_age_sister(get_age_comp(orig_person,other_person)),common) else :return (get_aunt(secondRel),common) elif secondRel == 1: if other_person.getGender() == RelLib.Person.male: return (get_nephew(firstRel-1),common) else: return (get_niece(firstRel-1),common) else: if other_person.getGender() == RelLib.Person.male: return (get_male_cousin(firstRel-1), common) else: return (get_female_cousin(firstRel-1), common) #------------------------------------------------------------------------- # # Function registration # #------------------------------------------------------------------------- register_relcalc(get_relationship, ["hu", "HU", "hu_HU", "hu_HU.utf8", "hu_HU.UTF8"]) # Local variables: # buffer-file-coding-system: utf-8 # End: