localization of relationships in German, issue 2130, contributed by

Stefan Siegel <gpl@sdas.de>


svn: r10668
This commit is contained in:
Benny Malengier 2008-05-05 07:42:15 +00:00
parent fa4cd00530
commit 39284ff1c5

View File

@ -3,6 +3,7 @@
# Gramps - a GTK+/GNOME based genealogy program
#
# Copyright (C) 2003-2005 Donald N. Allingham
# Copyright (C) 2008 Stefan Siegel
#
# 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
@ -21,10 +22,20 @@
# $Id$
# Written by Alex Roitman, largely based on Relationship.py by Don Allingham.
# and on valuable input from Dr. Martin Senftleben
# Original version written by Alex Roitman, largely based on Relationship.py
# by Don Allingham and on valuable input from Dr. Martin Senftleben
# Modified by Joachim Breitner to not use „Großcousine“, in accordance with
# http://de.wikipedia.org/wiki/Verwandtschaftsbeziehung
# Rewritten from scratch for GRAMPS 3 by Stefan Siegel,
# loosely based on rel_fr.py
#-------------------------------------------------------------------------
#
# standard python modules
#
#-------------------------------------------------------------------------
import re
#-------------------------------------------------------------------------
#
@ -34,358 +45,258 @@
import gen.lib
import Relationship
import types
from PluginUtils import register_relcalc
#-------------------------------------------------------------------------
#
# German-specific definitions of relationships
#
#
#-------------------------------------------------------------------------
_removed_level = [ "",
"", # " ersten Grades", but is usually omitted
" zweiten Grades",
" dritten Grades",
" vierten Grades",
" fünften Grades",
" sechsten Grades",
" siebten Grades",
" achten Grades",
" neunten Grades",
" zehnten Grades",
" elften Grades",
" zwölften Grades",
" dreizehnten Grades",
" vierzehnten Grades",
" fünfzehnten Grades",
" sechzehnten Grades",
" siebzehnten Grades",
" achtzehnten Grades",
" neunzehnten Grades",
" zwanzigsten Grades",
]
_father_level = [ "", "Vater (Ebene 1)", "Großvater (Ebene 2)", "Urgroßvater (Ebene 3)",
"Altvater (Ebene 4)", "Altgroßvater (Ebene 5)", "Alturgroßvater (Ebene 6)",
"Obervater (Ebene 7)", "Obergroßvater (Ebene 8)", "Oberurgroßvater (Ebene 9)",
"Stammvater (Ebene 10)", "Stammgroßvater (Ebene 11)", "Stammurgroßvater (Ebene 12)",
"Ahnenvater (Ebene 13)", "Ahnengroßvater (Ebene 14)", "Ahnenurgroßvater (Ebene 15)",
"Urahnenvater (Ebene 16)", "Urahnengroßvater (Ebene 17)", "Urahnenurgroßvater (Ebene 18)",
"Erzvater (Ebene 19)", "Erzgroßvater (Ebene 20)", "Erzurgroßvater (Ebene 21)",
"Erzahnenvater (Ebene 22)", "Erzahnengroßvater (Ebene 23)", "Erzahnenurgroßvater (Ebene 24)" ]
_mother_level = [ "", "Mutter (Ebene 1)", "Großmutter (Ebene 2)", "Urgroßmutter (Ebene 3)",
"Altmutter (Ebene 4)", "Altgroßmutter (Ebene 5)", "Alturgroßmutter (Ebene 6)",
"Obermutter (Ebene 7)", "Obergroßmutter (Ebene 8)", "Oberurgroßmutter (Ebene 9)",
"Stammmutter (Ebene 10)", "Stammgroßmutter (Ebene 11)", "Stammurgroßmutter (Ebene 12)",
"Ahnenmutter (Ebene 13)", "Ahnengroßmutter (Ebene 14)", "Ahnenurgroßmutter (Ebene 15)",
"Urahnenmutter (Ebene 16)", "Urahnengroßmutter (Ebene 17)", "Urahnenurgroßmutter (Ebene 18)",
"Erzmutter (Ebene 19)", "Erzgroßmutter (Ebene 20)", "Erzurgroßmutter (Ebene 21)",
"Erzahnenmutter (Ebene 22)", "Erzahnengroßmutter (Ebene 23)",
"Erzahnenurgroßmutter (Ebene 24)" ]
_son_level = [ "", "Sohn",
"Enkel",
"Urenkel",
"Ururenkel",
"Urururenkel",
"Ururururenkel",
"Urururururenkel",
"Ururururururenkel",
"Urururururururenkel",
"Ururururururururenkel",
"Urururururururururenkel",
"Ururururururururururenkel",
"Urururururururururururenkel",
"Ururururururururururururenkel",
"Urururururururururururururenkel",
"Ururururururururururururururenkel",
"Urururururururururururururururenkel",
"Ururururururururururururururururenkel",
"Urururururururururururururururururenkel",
"Ururururururururururururururururururenkel",
"Urururururururururururururururururururenkel",
"Ururururururururururururururururururururenkel",
"Urururururururururururururururururururururenkel",
_ordinal = [ u'nullte',
u'erste', u'zweite', u'dritte', u'vierte', u'fünfte', u'sechste',
u'siebte', u'achte', u'neunte', u'zehnte', u'elfte', u'zwölfte',
]
_daughter_level = [ "", "Tochter",
"Enkelin",
"Urenkelin",
"Ururenkelin",
"Urururenkelin",
"Ururururenkelin",
"Urururururenkelin",
"Ururururururenkelin",
"Urururururururenkelin",
"Ururururururururenkelin",
"Urururururururururenkelin",
"Ururururururururururenkelin",
"Urururururururururururenkelin",
"Ururururururururururururenkelin",
"Urururururururururururururenkelin",
"Ururururururururururururururenkelin",
"Urururururururururururururururenkelin",
"Ururururururururururururururururenkelin",
"Urururururururururururururururururenkelin",
"Ururururururururururururururururururenkelin",
"Urururururururururururururururururururenkelin",
"Ururururururururururururururururururururenkelin",
"Urururururururururururururururururururururenkelin",
_removed = [ u'',
u'', u'Groß', u'Urgroß',
u'Alt', u'Altgroß', u'Alturgroß',
u'Ober', u'Obergroß', u'Oberurgroß',
u'Stamm', u'Stammgroß', u'Stammurgroß',
u'Ahnen', u'Ahnengroß', u'Ahnenurgroß',
u'Urahnen', u'Urahnengroß', u'Urahnenurgroß',
u'Erz', u'Erzgroß', u'Erzurgroß',
u'Erzahnen', u'Erzahnengroß', u'Erzahnenurgroß',
]
_aunt_level = [ "", "Tante",
"Großtante",
"Urgroßtante",
"Ururgroßtante",
"Urururgroßtante",
"Ururururgroßtante",
"Urururururgroßtante",
"Ururururururgroßtante",
"Urururururururgroßtante",
"Ururururururururgroßtante",
"Urururururururururgroßtante",
"Ururururururururururgroßtante",
"Urururururururururururgroßtante",
"Ururururururururururururgroßtante",
"Urururururururururururururgroßtante",
"Ururururururururururururururgroßtante",
"Urururururururururururururururgroßtante",
"Ururururururururururururururururgroßtante",
"Urururururururururururururururururgroßtante",
"Ururururururururururururururururururgroßtante",
"Urururururururururururururururururururgroßtante",
"Ururururururururururururururururururururgroßtante",
]
_lineal_up = {
'many': u'%(p)sEltern%(s)s',
'unknown': u'%(p)sElter%(s)s', # "Elter" sounds strange but is correct
'male': u'%(p)sVater%(s)s',
'female': u'%(p)sMutter%(s)s',
}
_lineal_down = {
'many': u'%(p)sKinder%(s)s',
'unknown': u'%(p)sKind%(s)s',
'male': u'%(p)sSohn%(s)s',
'female': u'%(p)sTochter%(s)s',
}
_collateral_up = {
'many': u'%(p)sOnkel und %(p)sTanten%(s)s',
'unknown': u'%(p)sOnkel oder %(p)sTante%(s)s',
'male': u'%(p)sOnkel%(s)s',
'female': u'%(p)sTante%(s)s',
}
_collateral_down = {
'many': u'%(p)sNeffen und %(p)sNichten%(s)s',
'unknown': u'%(p)sNeffe oder %(p)sNichte%(s)s',
'male': u'%(p)sNeffe%(s)s',
'female': u'%(p)sNichte%(s)s',
}
_collateral_same = {
'many': u'%(p)sCousins und %(p)sCousinen%(s)s',
'unknown': u'%(p)sCousin oder %(p)sCousine%(s)s',
'male': u'%(p)sCousin%(s)s',
'female': u'%(p)sCousine%(s)s',
}
_collateral_sib = {
'many': u'%(p)sGeschwister%(s)s',
'unknown': u'%(p)sGeschwisterkind%(s)s',
'male': u'%(p)sBruder%(s)s',
'female': u'%(p)sSchwester%(s)s',
}
_uncle_level = [ "", "Onkel",
"Großonkel",
"Urgroßonkel",
"Ururgroßonkel",
"Urururgroßonkel",
"Ururururgroßonkel",
"Urururururgroßonkel",
"Ururururururgroßonkel",
"Urururururururgroßonkel",
"Ururururururururgroßonkel",
"Urururururururururgroßonkel",
"Ururururururururururgroßonkel",
"Urururururururururururgroßonkel",
"Ururururururururururururgroßonkel",
"Urururururururururururururgroßonkel",
"Ururururururururururururururgroßonkel",
"Urururururururururururururururgroßonkel",
"Ururururururururururururururururgroßonkel",
"Urururururururururururururururururgroßonkel",
"Ururururururururururururururururururgroßonkel",
"Urururururururururururururururururururgroßonkel",
"Ururururururururururururururururururururgroßonkel",
]
_nephew_level = [ "", "Neffe",
"Großneffe",
"Urgroßneffe",
"Ururgroßneffe",
"Urururgroßneffe",
"Ururururgroßneffe",
"Urururururgroßneffe",
"Ururururururgroßneffe",
"Urururururururgroßneffe",
"Ururururururururgroßneffe",
"Urururururururururgroßneffe",
"Ururururururururururgroßneffe",
"Urururururururururururgroßneffe",
"Ururururururururururururgroßneffe",
"Urururururururururururururgroßneffe",
"Ururururururururururururururgroßneffe",
"Urururururururururururururururgroßneffe",
"Ururururururururururururururururgroßneffe",
"Urururururururururururururururururgroßneffe",
"Ururururururururururururururururururgroßneffe",
"Urururururururururururururururururururgroßneffe",
"Ururururururururururururururururururururgroßneffe",
]
_niece_level = [ "", "Nichte",
"Großnichte",
"Urgroßnichte",
"Ururgroßnichte",
"Urururgroßnichte",
"Ururururgroßnichte",
"Urururururgroßnichte",
"Ururururururgroßnichte",
"Urururururururgroßnichte",
"Ururururururururgroßnichte",
"Urururururururururgroßnichte",
"Ururururururururururgroßnichte",
"Urururururururururururgroßnichte",
"Ururururururururururururgroßnichte",
"Urururururururururururururgroßnichte",
"Ururururururururururururururgroßnichte",
"Urururururururururururururururgroßnichte",
"Ururururururururururururururururgroßnichte",
"Urururururururururururururururururgroßnichte",
"Ururururururururururururururururururgroßnichte",
"Urururururururururururururururururururgroßnichte",
]
_parents_level = [ "", "Eltern", "Großeltern", "Urgroßeltern",
"Alteltern", "Altgroßeltern", "Alturgroßeltern", "Obereltern",
"Obergroßeltern", "Oberurgroßeltern", "Stammeltern", "Stammgroßeltern",
"Stammurgroßeltern", "Ahneneltern", "Ahnengroßeltern", "Ahnenurgroßeltern",
"Urahneneltern", "Urahnengroßeltern", "Urahnenurgroßeltern",
"Erzeltern", "Erzgroßeltern", "Erzurgroßeltern", "Erzahneneltern",
"Erzahnengroßeltern", "Erzahnenurgroßeltern",
]
_schwager = {
'many': u'%(p)sSchwager%(s)s',
'unknown': u'%(p)sSchwager%(s)s',
'male': u'%(p)sSchwager%(s)s',
'female': u'%(p)sSchwägerin%(s)s',
}
_schwippschwager = {
'many': u'%(p)sSchwippschwager%(s)s',
'unknown': u'%(p)sSchwippschwager%(s)s',
'male': u'%(p)sSchwippschwager%(s)s',
'female': u'%(p)sSchwippschwägerin%(s)s',
}
#-------------------------------------------------------------------------
#
#
#
#-------------------------------------------------------------------------
class RelationshipCalculator(Relationship.RelationshipCalculator):
def __init__(self):
Relationship.RelationshipCalculator.__init__(self)
def get_parents(self,level):
if level>len(_parents_level)-1:
return "remote ancestors"
def _make_roman(self, num):
roman = ''
for v, r in [(1000, u'M'), (900, u'CM'), (500, u'D'), (400, u'CD'),
( 100, u'C'), ( 90, u'XC'), ( 50, u'L'), ( 40, u'XL'),
( 10, u'X'), ( 9, u'IX'), ( 5, u'V'), ( 4, u'IV'),
( 1, u'I')]:
while num > v:
num -= v
roman += r
return roman
def _fix_caps(self, string):
return re.sub(r'(?<=[^\s(/A-Z])[A-Z]', lambda m: m.group().lower(), string)
def _removed_text(self, degree, removed):
if (degree, removed) == (0, -2):
return u'Enkel'
elif (degree, removed) == (0, -3):
return u'Urenkel'
removed = abs(removed)
if removed < len(_removed):
return _removed[removed]
else:
return _parents_level[level]
return u'(%s)' % self._make_roman(removed-2)
def get_father(self,level):
if level>len(_father_level)-1:
return "remote ancestor"
def _degree_text(self, degree, removed):
if removed == 0:
degree -= 1 # a cousin has same degree as his parent (uncle/aunt)
if degree <= 1:
return u''
if degree < len(_ordinal):
return u' %sn Grades' % _ordinal[degree]
else:
return _father_level[level]
return u' %d. Grades' % degree
def get_son(self,level):
if level>len(_son_level)-1:
return "remote descendant"
def _gender_convert(self, gender):
if gender == gen.lib.Person.MALE:
return 'male'
elif gender == gen.lib.Person.FEMALE:
return 'female'
else:
return _son_level[level]
return 'unknown'
def get_mother(self,level):
if level>len(_mother_level)-1:
return "remote ancestor"
else:
return _mother_level[level]
def _get_relationship_string(self, Ga, Gb, gender,
reltocommon_a='', reltocommon_b='',
only_birth=True,
in_law_a=False, in_law_b=False):
common_ancestor_count = 0
if reltocommon_a == '':
reltocommon_a = self.REL_FAM_BIRTH
if reltocommon_b == '':
reltocommon_b = self.REL_FAM_BIRTH
if reltocommon_a[-1] in [self.REL_MOTHER, self.REL_FAM_BIRTH,
self.REL_FAM_BIRTH_MOTH_ONLY] and \
reltocommon_b[-1] in [self.REL_MOTHER, self.REL_FAM_BIRTH,
self.REL_FAM_BIRTH_MOTH_ONLY]:
common_ancestor_count += 1 # same female ancestor
if reltocommon_a[-1] in [self.REL_FATHER, self.REL_FAM_BIRTH,
self.REL_FAM_BIRTH_FATH_ONLY] and \
reltocommon_b[-1] in [self.REL_FATHER, self.REL_FAM_BIRTH,
self.REL_FAM_BIRTH_FATH_ONLY]:
common_ancestor_count += 1 # same male ancestor
def get_daughter(self,level):
if level>len(_daughter_level)-1:
return "remote descendant"
else:
return _daughter_level[level]
degree = min(Ga, Gb)
removed = Ga-Gb
def get_aunt(self,level,removed):
if level>len(_aunt_level)-1 or removed > len(_removed_level)-1:
return "remote ancestor"
else:
return _aunt_level[level] + _removed_level[removed]
if degree == 0 and removed < 0:
# for descendants the "in-law" logic is reversed
(in_law_a, in_law_b) = (in_law_b, in_law_a)
def get_uncle(self,level,removed):
if level>len(_uncle_level)-1 or removed > len(_removed_level)-1:
return "remote ancestor"
else:
return _uncle_level[level] + _removed_level[removed]
rel_str = u''
pre = u''
post = u''
def get_niece(self,level,removed):
if level>len(_niece_level)-1 or removed > len(_removed_level)-1:
return "remote ancestor"
else:
return _niece_level[level] + _removed_level[removed]
if in_law_b and degree == 0:
pre += u'Stief'
elif (not only_birth) or common_ancestor_count == 0:
pre += u'Stief-/Adoptiv'
if in_law_a and (degree, removed) != (1, 0):
# A "Schwiegerbruder" really is a "Schwager" (handled later)
pre += u'Schwieger'
if degree != 0 and common_ancestor_count == 1:
pre += u'Halb'
pre += self._removed_text(degree, removed)
post += self._degree_text(degree, removed)
if in_law_b and degree != 0 and (degree, removed) != (1, 0):
# A "Bruder (angeheiratet)" also is a "Schwager" (handled later)
post += u' (angeheiratet)'
def get_nephew(self,level,removed):
if level>len(_nephew_level)-1 or removed > len(_removed_level)-1:
return "remote ancestor"
else:
return _nephew_level[level] + _removed_level[removed]
def get_male_cousin(self,removed):
if removed>len(_removed_level)-1:
return "remote descendant"
elif removed==0:
return "Bruder"
else:
return "Cousin"+_removed_level[removed]
def get_female_cousin(self,removed):
if removed>len(_removed_level)-1:
return "remote descendant"
elif removed==0:
return "Schwester"
else:
return "Cousine"+_removed_level[removed]
def get_relationship(self,db, orig_person, other_person):
"""
Return a string representing the relationshp between the two people,
along with a list of common ancestors (typically father,mother)
Special cases: relation strings "", "undefined" and "spouse".
"""
if orig_person == None:
return ("undefined",[])
if orig_person.get_handle() == other_person.get_handle():
return ('', [])
is_spouse = self.is_spouse(db, orig_person, other_person)
if is_spouse:
return (is_spouse,[])
#get_relationship_distance changed, first data is relation to
#orig person, apperently secondRel in this function
(secondRel,firstRel,common) = \
self.get_relationship_distance(db, orig_person, other_person)
if type(common) == types.StringType or \
type(common) == types.UnicodeType:
return (common,[])
elif common:
person_handle = common[0]
else:
return ("",[])
firstRel = len(firstRel)
secondRel = len(secondRel)
if firstRel == 0:
if secondRel == 0:
return ('',common)
elif other_person.get_gender() == gen.lib.Person.MALE:
return (self.get_father(secondRel),common)
if degree == 0:
# lineal relationship
if removed > 0:
rel_str = _lineal_up[gender]
elif removed < 0:
rel_str = _lineal_down[gender]
else:
return (self.get_mother(secondRel),common)
elif secondRel == 0:
if other_person.get_gender() == gen.lib.Person.MALE:
return (self.get_son(firstRel),common)
rel_str = u'Proband'
else:
# collateral relationship
if removed > 0:
rel_str = _collateral_up[gender]
elif removed < 0:
rel_str = _collateral_down[gender]
elif degree == 1:
if in_law_a or in_law_b:
if in_law_a and in_law_b:
rel_str = _schwippschwager[gender]
else:
rel_str = _schwager[gender]
else:
rel_str = _collateral_sib[gender]
else:
return (self.get_daughter(firstRel),common)
elif secondRel > firstRel:
if other_person.get_gender() == gen.lib.Person.MALE:
return (self.get_uncle(secondRel-firstRel,firstRel),common)
else:
return (self.get_aunt(secondRel-firstRel,firstRel),common)
elif secondRel < firstRel:
if other_person.get_gender() == gen.lib.Person.MALE:
return (self.get_nephew(firstRel-secondRel,secondRel),common)
else:
return (self.get_niece(firstRel-secondRel,secondRel),common)
else: # obviously secondRel == firstRel
if other_person.get_gender() == gen.lib.Person.MALE:
return (self.get_male_cousin(firstRel-1),common)
else:
return (self.get_female_cousin(firstRel-1),common)
rel_str = _collateral_same[gender]
return self._fix_caps(rel_str % {'p': pre, 's': post})
def get_plural_relationship_string(self, Ga, Gb):
return self._get_relationship_string(Ga, Gb, 'many')
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):
return self._get_relationship_string(Ga, Gb,
self._gender_convert(gender_b),
reltocommon_a, reltocommon_b,
only_birth, in_law_a, in_law_b)
def get_sibling_relationship_string(self, sib_type, gender_a, gender_b,
in_law_a=False, in_law_b=False):
if sib_type in [self.NORM_SIB, self.UNKNOWN_SIB]:
# the NORM_SIB translation is generic and suitable for UNKNOWN_SIB
rel = self.REL_FAM_BIRTH
only_birth = True
elif sib_type == self.HALF_SIB_FATHER:
rel = self.REL_FAM_BIRTH_FATH_ONLY
only_birth = True
elif sib_type == self.HALF_SIB_MOTHER:
rel = self.REL_FAM_BIRTH_MOTH_ONLY
only_birth = True
elif sib_type == self.STEP_SIB:
rel = self.REL_FAM_NONBIRTH
only_birth = False
return self._get_relationship_string(1, 1,
self._gender_convert(gender_b),
rel, rel,
only_birth, in_law_a, in_law_b)
#-------------------------------------------------------------------------
#
# Register this class with the Plugins system
#
#-------------------------------------------------------------------------
register_relcalc(RelationshipCalculator,
["de","DE","de_DE","deutsch","Deutsch","de_DE.UTF8","de_DE@euro","de_DE.UTF8@euro",
"german","German", "de_DE.UTF-8", "de_DE.utf-8", "de_DE.utf8"])
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
# (Above not needed here)
"""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)