# -*- coding: utf-8 -*- # # Gramps - a GTK+/GNOME based genealogy program # # Copyright (C) 2003-2007 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 # #------------------------------------------------------------------------- # # GRAMPS modules # #------------------------------------------------------------------------- import gen.lib import Relationship import types from gettext import gettext as _ from PluginUtils import register_relcalc #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- # level est utilisé pour trouver/afficher le niveau de la génération : # à la %sème génération _level_name = [ "première", "deuxième", "troisième", "quatrième", "cinquième", "sixième", "septième", "huitième", "neuvième", "dixième", "onzième", "douzième", "treizième", "quatorzième", "quinzième", "seizième", "dix-septième", "dix-huitième", "dix-neuvième", "vingtième", "vingt-et-unième", "vingt-deuxième", "vingt-troisième", "vingt-quatrième", "vingt-cinquième", "vingt-sixième", "vingt-septième", "vingt-huitième", "vingt-neuvième", "trentième", ] # pour le degrè (canon et civil), limitation 20+20 ainsi que pour # LE [premier] cousin _removed_level = [ "premièr", "deuxième", "troisième", "quatrième", "cinquième", "sixième", "septième", "huitième", "neuvième", "dixième", "onzième", "douzième", "treizième", "quatorzième", "quinzième", "seizième", "dix-septième", "dix-huitième", "dix-neuvième", "vingtième", "vingt-et-unième", "vingt-deuxième", "vingt-troisième", "vingt-quatrième", "vingt-cinquième", "vingt-sixième", "vingt-septième", "vingt-huitième", "vingt-neuvième", "trentième", "trente-et-unième", "trente-deuxième", "trente-troisième", "trente-quatrième", "trente-cinquième", "trente-sixième", "trente-septième", "trente-huitième", "trente-neuvième", "quarantième", "quanrante-et-unième", ] # listes volontairement limitées | small lists, use generation level if > [5] _father_level = [ "", "le père%s", "le grand-père%s", "l'arrière-grand-père%s", "le trisaïeul%s", ] _mother_level = [ "", "la mère%s", "la grand-mère%s", "l'arrière-grand-mère%s", "la trisaïeule%s", ] _son_level = [ "", "le fils%s", "le petit-fils%s", "l'arrière-petit-fils%s", ] _daughter_level = [ "", "la fille%s", "la petite-fille%s", "l'arrière-petite-fille%s", ] _sister_level = [ "", "la sœur%s", "la tante%s", "la grand-tante%s", "l'arrière-grand-tante%s", ] _brother_level = [ "", "le frère%s", "l'oncle%s", "le grand-oncle%s", "l'arrière-grand-oncle%s", ] _nephew_level = [ "", "le neveu%s%s", "le petit-neveu%s%s", "l'arrière-petit-neveu%s%s", ] _niece_level = [ "", "la nièce%s%s", "la petite-nièce%s%s", "l'arrière-petite-nièce%s%s", ] # kinship report _parents_level = [ "", "les parents", "les grands-parents", "les arrières-grands-parents", "les trisaïeux", ] _children_level = [ "", "les enfants", "les petits-enfants", "les arrières-petits-enfants", "les arrières-arrières-petits-enfants", ] _siblings_level = [ "", "les frères et les sœurs", "les oncles et les tantes", "les grands-oncles et les grands-tantes", "les arrières-grands-oncles et les arrières-grands-tantes", ] _nephews_nieces_level = [ "", "les neveux et les nièces", "les petits-neveux et les petites-nièces", "les arrière-petits-neveux et les arrières-petites-nièces", ] #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- class RelationshipCalculator(Relationship.RelationshipCalculator): #sibling strings STEP = '' HALF = 'demi-' INLAW = ' (par alliance)' def __init__(self): Relationship.RelationshipCalculator.__init__(self) # de la personne active à l'ascendant commun Ga=[level] pour # le calculateur de relations def get_cousin(self, level, removed, dir = '', step='', inlaw=''): if removed == 0 and level < len(_level_name): return "le %s cousin%s%s" % (_removed_level[level-1], step, inlaw) elif (level) < (removed): rel_str = self.get_uncle(Ga, inlaw) else: # limitation gen = 29 return "le cousin éloigné, relié à la %s génération" % ( _level_name[removed]) def get_cousine(self, level, removed, dir = '', step='', inlaw=''): if removed == 0 and level < len(_level_name): return "la %s cousine%s%s" % (_level_name[level-1], step, inlaw) elif (level) < (removed): rel_str = self.get_aunt(Ga, inlaw) else: return "la cousine éloignée, reliée à la %s génération" % ( _level_name[removed]) def get_parents(self, level): if level > len(_parents_level)-1: return "les ascendants éloignés, à la %s génération" % ( _level_name[level]) else: return _parents_level[level] def get_father(self, level, inlaw=''): if level > len(_father_level)-1: return "l'ascendant éloigné, à la %s génération" % ( _level_name[level]) else: return _father_level[level] % inlaw def get_mother(self, level, inlaw=''): if level > len(_mother_level)-1: return "l'ascendante éloignée, à la %s génération" % ( _level_name[level]) else: return _mother_level[level] % inlaw def get_parent_unknown(self, level, inlaw=''): if level > len(_level_name)-1: return "l'ascendant éloigné, à la %s génération" % ( _level_name[level]) else: return "un parent éloigné%s" % (inlaw) def get_son(self, level, step='', inlaw=''): if level > len(_son_level)-1: return "le descendant éloigné, à la %s génération" % ( _level_name[level+1]) else: return _son_level[level] % (inlaw) def get_daughter(self, level, step='', inlaw=''): if level > len(_daughter_level)-1: return "la descendante éloignée, à la %s génération" % ( _level_name[level+1]) else: return _daughter_level[level] % (inlaw) def get_child_unknown(self, level, step='', inlaw=''): if level > len(_level_name)-1: return "le descendant éloigné, à la %s génération" % ( _level_name[level+1]) else: return "un descendant éloigné%s" % (inlaw) def get_sibling_unknown(self, level, inlaw=''): return "un parent éloigné%s" % (inlaw) def get_uncle(self, level, step='', inlaw=''): if level > len(_brother_level)-1: return "l'oncle éloigné, relié à la %s génération" % ( _level_name[level]) else: return _brother_level[level] % (inlaw) def get_aunt(self, level, step='', inlaw=''): if level > len(_sister_level)-1: return "la tante éloignée, reliée à la %s génération" % ( _level_name[level]) else: return _sister_level[level] % (inlaw) def get_nephew(self, level, step='', inlaw=''): if level > len(_nephew_level)-1: return "le neveu éloigné, à la %s génération" % ( _level_name[level]) else: return _nephew_level[level] % (step, inlaw) def get_niece(self, level, step='', inlaw=''): if level > len(_niece_level)-1: return "la nièce éloignée, à la %s génération" % ( _level_name[level]) else: return _niece_level[level] % (step, inlaw) # kinship report def get_plural_relationship_string(self, Ga, Gb): """ voir Relationship.py """ rel_str = "des parents éloignés" gen = " à la %sème génération" bygen = " par la %sème génération" cmt = " (frères ou sœurs d'un ascendant" + gen % ( Ga) + ")" if Ga == 0: # These are descendants if Gb < len(_children_level): rel_str = _children_level[Gb] else: rel_str = "les descendants" + gen % ( Gb+1) elif Gb == 0: # These are parents/grand parents if Ga < len(_parents_level): rel_str = _parents_level[Ga] else: rel_str = "les ascendants" + gen % ( Ga+1) elif Gb == 1: # These are siblings/aunts/uncles if Ga < len(_siblings_level): rel_str = _siblings_level[Ga] else: rel_str = "Les enfants d'un ascendant" + gen % ( Ga+1) + cmt elif Ga == 1: # These are nieces/nephews if Gb < len(_nephews_nieces_level): rel_str = _nephews_nieces_level[Gb-1] else: rel_str = "les neveux et les nièces" + gen % ( Gb) elif Ga > 1 and Ga == Gb: # These are cousins in the same generation # use custom level for latin words if Ga == 2: rel_str = "les cousins germains et cousines germaines" elif Ga <= len(_level_name): rel_str = "les %ss cousins et cousines" % _level_name[Ga-2] # security else: rel_str = "les cousins et cousines" elif Ga > 1 and Ga > Gb: # These are cousins in different generations with the second person # being in a higher generation from the common ancestor than the # first person. # use custom level for latin words and specific relation if Ga == 3 and Gb == 2: desc = " (cousins germains d'un parent)" rel_str = "les oncles et tantes à la mode de Bretagne" + desc elif Gb <= len(_level_name) and (Ga-Gb) < len(_removed_level) and (Ga+Gb+1) < len(_removed_level): can = " du %s au %s degré (canon)" % ( _removed_level[Gb], _removed_level[Ga] ) civ = " et au %s degré (civil)" % ( _removed_level[Ga+Gb+1] ) rel_str = "les oncles et tantes" + can + civ elif Ga < len(_level_name): rel_str = "les grands-oncles et grands-tantes" + bygen % ( Ga+1) else: return rel_str elif Gb > 1 and Gb > Ga: # These are cousins in different generations with the second person # being in a lower generation from the common ancestor than the # first person. # use custom level for latin words and specific relation if Ga == 2 and Gb == 3: info = " (cousins issus d'un germain)" rel_str = "les neveux et nièces à la mode de Bretagne" + info elif Ga <= len(_level_name) and (Gb-Ga) < len(_removed_level) and (Ga+Gb+1) < len(_removed_level): can = " du %s au %s degré (canon)" % ( _removed_level[Gb], _removed_level[Ga] ) civ = " et au %s degré (civil)" % ( _removed_level[Ga+Gb+1] ) rel_str = "les neveux et nièces" + can + civ elif Ga < len(_level_name): rel_str = "les neveux et nièces" + bygen % ( Gb) else: return rel_str return rel_str # quick report /RelCalc tool def get_single_relationship_string(self, Ga, Gb, gender_a, gender_b, reltocommon_a, reltocommon_b, only_birth=True, in_law_a=False, in_law_b=False): """ voir Relationship.py """ ## print 'Ga, Gb :', Ga, Gb if only_birth: step = '' #if birthfather == None and birthmother != None: #step = ' utérin' #elif birthmother == None and birthfather != None: #step = ' consanguin' else: step = self.STEP if in_law_a or in_law_b : inlaw = self.INLAW else: inlaw = '' half = self.HALF rel_str = "un parent%s éloigné%s" % (step, inlaw) bygen = " par la %sème génération" if Ga == 0: # b is descendant of a if Gb == 0 : rel_str = 'le même individu' elif gender_b == gen.lib.Person.MALE and Gb < len(_son_level): rel_str = self.get_son(Gb, step) elif gender_b == gen.lib.Person.FEMALE and Gb < len(_daughter_level): rel_str = self.get_daughter(Gb, step) elif Gb < len(_level_name) and gender_b == gen.lib.Person.MALE: rel_str = "le descendant éloigné%s (%dème génération)" % ( step, Gb+1) elif Gb < len(_level_name) and gender_b == gen.lib.Person.FEMALE: rel_str = "la descendante éloignée%s (%dème génération)" % ( step, Gb+1) else: return self.get_child_unknown(Gb, step) elif Gb == 0: # b is parents/grand parent of a if gender_b == gen.lib.Person.MALE and Ga < len(_father_level): rel_str = self.get_father(Ga, inlaw) elif gender_b == gen.lib.Person.FEMALE and Ga < len(_mother_level): rel_str = self.get_mother(Ga, inlaw) elif Ga < len(_level_name) and gender_b == gen.lib.Person.MALE: rel_str = "l'ascendant éloigné%s (%dème génération)" % ( inlaw, Ga+1) elif Ga < len(_level_name) and gender_b == gen.lib.Person.FEMALE: rel_str = "l'ascendante éloignée%s (%dème génération)" % ( inlaw, Ga+1) else: return self.get_parent_unknown(Ga, inlaw) elif Gb == 1: # b is sibling/aunt/uncle of a if gender_b == gen.lib.Person.MALE and Ga < len(_brother_level): rel_str = self.get_uncle(Ga, step, inlaw) elif gender_b == gen.lib.Person.FEMALE and Ga < len(_sister_level): rel_str = self.get_aunt(Ga, step, inlaw) else: if gender_b == gen.lib.Person.MALE: rel_str = "l'oncle éloigné" + bygen % ( Ga+1) elif gender_b == gen.lib.Person.FEMALE: rel_str = "la tante éloignée" + bygen % ( Ga+1) elif gender_b == gen.lib.Person.UNKNOWN: rel_str = self.get_sibling_unknown(Ga, inlaw) else: return rel_str elif Ga == 1: # b is niece/nephew of a if gender_b == gen.lib.Person.MALE and Gb < len(_nephew_level): rel_str = self.get_nephew(Gb-1, inlaw) elif gender_b == gen.lib.Person.FEMALE and Gb < len(_niece_level): rel_str = self.get_niece(Gb-1, inlaw) else: if gender_b == gen.lib.Person.MALE: rel_str = "le neveu éloigné%s (%dème génération)" % ( inlaw, Gb) elif gender_b == gen.lib.Person.FEMALE: rel_str = "la nièce éloignée%s (%dème génération)" % ( inlaw, Gb) elif gender_b == gen.lib.Person.UNKNOWN: rel_str = self.get_sibling_unknown(Ga, inlaw) else: return rel_str elif Ga == Gb: # a and b cousins in the same generation if gender_b == gen.lib.Person.MALE: rel_str = self.get_cousin(Ga-1, 0, dir = '', step=step, inlaw=inlaw) elif gender_b == gen.lib.Person.FEMALE: rel_str = self.get_cousine(Ga-1, 0, dir = '', step=step, inlaw=inlaw) elif gender_b == gen.lib.Person.UNKNOWN: rel_str = self.get_sibling_unknown(Ga-1, inlaw) else: return rel_str elif Ga > 1 and Ga > Gb: # These are cousins in different generations with the second person # being in a higher generation from the common ancestor than the # first person. if Ga == 3 and Gb == 2: if gender_b == gen.lib.Person.MALE: desc = " (cousin germain d'un parent)" rel_str = "l'oncle à la mode de Bretagne" + desc elif gender_b == gen.lib.Person.FEMALE: desc = " (cousine germaine d'un parent)" rel_str = "la tante à la mode de Bretagne" + desc elif gender_b == gen.lib.Person.UNKNOWN: return self.get_sibling_unknown(Ga, inlaw) else: return rel_str elif Gb <= len(_level_name) and (Ga-Gb) < len(_removed_level) and (Ga+Gb+1) < len(_removed_level): can = " du %s au %s degré (canon)" % ( _removed_level[Gb], _removed_level[Ga] ) civ = " et au %s degré (civil)" % ( _removed_level[Ga+Gb+1] ) if gender_b == gen.lib.Person.MALE: rel_str = "l'oncle" + can + civ elif gender_b == gen.lib.Person.FEMALE: rel_str = "la tante" + can + civ elif gender_b == gen.lib.Person.UNKNOWN: rel_str = self.get_sibling_unknown(Ga, inlaw) else: return rel_str else: if gender_b == gen.lib.Person.MALE: rel_str = self.get_uncle(Ga, step, inlaw) elif gender_b == gen.lib.Person.FEMALE: rel_str = self.get_aunt(Ga, step, inlaw) elif gender_b == gen.lib.Person.UNKNOWN: rel_str = self.get_sibling_unknown(Ga, inlaw) else: return rel_str elif Gb > 1 and Gb > Ga: # These are cousins in different generations with the second person # being in a lower generation from the common ancestor than the # first person. if Ga == 2 and Gb == 3: info = " (cousins issus d'un germain)" if gender_b == gen.lib.Person.MALE: rel_str = "le neveu à la mode de Bretagne" + info elif gender_b == gen.lib.Person.FEMALE: rel_str = "la nièce à la mode de Bretagne" + info elif gender_b == gen.lib.Person.UNKNOWN: rel_str = self.get_sibling_unknown(Ga, inlaw) else: return rel_str elif Ga <= len(_level_name) and (Gb-Ga) < len(_removed_level) and (Ga+Gb+1) < len(_removed_level): can = " du %s au %s degré (canon)" % ( _removed_level[Gb], _removed_level[Ga] ) civ = " et au %s degré (civil)" % ( _removed_level[Ga+Gb+1] ) if gender_b == gen.lib.Person.MALE: rel_str = "le neveu" + can + civ if gender_b == gen.lib.Person.FEMALE: rel_str = "la nièce" + can + civ elif gender_b == gen.lib.Person.UNKNOWN: rel_str = self.get_sibling_unknown(Ga, inlaw) else: return rel_str elif Ga > len(_level_name): return rel_str else: if gender_b == gen.lib.Person.MALE: rel_str = self.get_nephew(Ga, step, inlaw) elif gender_b ==gen.lib.Person.FEMALE: rel_str = self.get_niece(Ga, step, inlaw) elif gender_b == gen.lib.Person.UNKNOWN: rel_str = self.get_sibling_unknown(Ga, inlaw) else: return rel_str return rel_str #------------------------------------------------------------------------- # # Register this class with the Plugins system # #------------------------------------------------------------------------- register_relcalc(RelationshipCalculator, ["fr", "FR", "fr_FR", "fr_CA", "francais", "Francais", "fr_FR.UTF8", "fr_FR@euro", "fr_FR.UTF8@euro", "french","French", "fr_FR.UTF-8", "fr_FR.utf-8", "fr_FR.utf8", "fr_CA.UTF-8"]) if __name__ == "__main__": # Test function. Call it as follows from the command line (so as to find # imported modules): # export PYTHONPATH=/path/to/gramps/src # python src/plugins/rel_fr.py """TRANSLATORS, copy this if statement at the bottom of your rel_xx.py module, and test your work with: python src/plugins/rel_xx.py """ from Relationship import test rc = RelationshipCalculator() test(rc, True)