* src/plugins/rel_it.py: Convert to class.

svn: r3063
This commit is contained in:
Alex Roitman 2004-03-28 07:32:26 +00:00
parent bbc7cc696e
commit feef42099d
2 changed files with 141 additions and 141 deletions

View File

@ -1,3 +1,6 @@
2004-03-27 Alex Roitman <shura@alex.neuro.umn.edu>
* src/plugins/rel_it.py: Convert to class.
2004-01-26 Alex Roitman <shura@alex.neuro.umn.edu>
* src/plugins/FtmStyleDescendants.py (_make_default_style,
print_children): Add new style for numbering children.

View File

@ -2,7 +2,7 @@
#
# Gramps - a GTK+/GNOME based genealogy program
#
# Copyright (C) 2003 Donald N. Allingham
# Copyright (C) 2003-2004 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
@ -19,6 +19,8 @@
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
# $Id$
#
# Written by Lorenzo Cappelletti <lorenzo.cappelletti@email.it>, 2003
#
@ -30,9 +32,9 @@
#-------------------------------------------------------------------------
import RelLib
from Relationship import apply_filter, is_spouse
from Plugins import register_relcalc
import Relationship
import types
from gettext import gettext as _
#-------------------------------------------------------------------------
@ -50,151 +52,145 @@ _level =\
#-------------------------------------------------------------------------
#
# 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.
#
#-------------------------------------------------------------------------
class RelationshipCalculator(Relationship.RelationshipCalculator):
def get_parents (level):
return "%si genitori" % _level[level]
def __init__(self,db):
Relationship.RelationshipCalculator.__init__(self,db)
def get_father (level, gender="o"):
if level == 0: return ""
elif level == 1: return "padre"
elif level == 2: return "nonn%s" % gender
elif level == 3: return "bisnonn%s" % gender
else : return "%s%s nonn%s" % (_level[level], gender, gender)
def get_mother (level):
if level == 1: return "madre"
else : return get_father(level, "a")
def get_son (level, gender="o"):
if level == 0: return ""
elif level == 1: return "figli%s" % gender
elif level == 2: return "nipote"
elif level == 3: return "pronipote"
else : return "%s%s nipote" % (_level[level], gender)
def get_daughter (level):
return get_son(level, "a")
def get_uncle (level, gender="o"):
if level == 0: return ""
elif level == 1: return "fratello"
elif level == 2: return "zi%s" % gender
elif level == 3: return "prozi%s" % gender
else : return "%s%s zi%s" % (_level[level], gender, gender)
def get_aunt (level):
if level == 1: return "sorella"
else : return get_uncle(level, "a")
def get_nephew (level, gender="o"):
if level == 0: return ""
elif level == 1: return "nipote"
elif level == 2: return "pronipote"
else : return "%s%s nipote" % (_level[level], gender)
def get_niece(level):
return get_nephew(level, "a")
def get_male_cousin (levelA, levelB, gender="o"):
return "cugin%s di %so grado (%i-%i)" \
% (gender, _level[levelA+levelB-1], levelA, levelB)
def get_female_cousin (levelA, levelB):
return get_male_cousin(levelA, levelB, "a")
#-------------------------------------------------------------------------
#
# 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 ("non definito",[])
if orig_person == other_person:
return ('', [])
if is_spouse(orig_person,other_person):
return ("coniuge",[])
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.get_id()]
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.get_id()]
firstRel = secondMap[person.get_id()]
elif length == 2:
p1 = common[0]
secondRel = firstMap[p1.get_id()]
firstRel = secondMap[p1.get_id()]
elif length > 2:
person = common[0]
secondRel = firstMap[person.get_id()]
firstRel = secondMap[person.get_id()]
if firstRel == -1:
return ("",[])
elif firstRel == 0:
if secondRel == 0:
return ('',common)
elif other_person.get_gender() == RelLib.Person.male:
return (get_father(secondRel),common)
#-------------------------------------------------------------------------
#
# 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 (self,level):
if level>len(_level)-1:
return _("remote ancestors")
else:
return (get_mother(secondRel),common)
elif secondRel == 0:
if other_person.get_gender() == RelLib.Person.male:
return (get_son(firstRel),common)
return "%si genitori" % _level[level]
def get_father (self,level, gender="o"):
if level>len(_level)-1:
return _("remote ancestor")
elif level == 0: return ""
elif level == 1: return "padre"
elif level == 2: return "nonn%s" % gender
elif level == 3: return "bisnonn%s" % gender
else : return "%s%s nonn%s" % (_level[level], gender, gender)
def get_mother (self,level):
if level == 1: return "madre"
else : return self.get_father(level, "a")
def get_son (self, level, gender="o"):
if level>len(_level)-1:
return _("remote descendant")
elif level == 0: return ""
elif level == 1: return "figli%s" % gender
elif level == 2: return "nipote"
elif level == 3: return "pronipote"
else : return "%s%s nipote" % (_level[level], gender)
def get_daughter (self, level):
return self.get_son(level, "a")
def get_uncle (self, level, gender="o"):
if level>len(_level)-1:
return _("remote ancestor")
elif level == 0: return ""
elif level == 1: return "fratello"
elif level == 2: return "zi%s" % gender
elif level == 3: return "prozi%s" % gender
else : return "%s%s zi%s" % (_level[level], gender, gender)
def get_aunt (self,level):
if level == 1: return "sorella"
else : return self.get_uncle(level, "a")
def get_nephew (self,level, gender="o"):
if level>len(_level)-1:
return _("remote descendant")
elif level == 0: return ""
elif level == 1: return "nipote"
elif level == 2: return "pronipote"
else : return "%s%s nipote" % (_level[level], gender)
def get_niece(self,level):
return self.get_nephew(level, "a")
def get_male_cousin (self,levelA, levelB, gender="o"):
if levelA+levelB>len(_level):
return _("remote relative")
else:
return (get_daughter(firstRel),common)
elif firstRel == 1:
if other_person.get_gender() == RelLib.Person.male:
return (get_uncle(secondRel),common)
return "cugin%s di %so grado (%i-%i)" \
% (gender, _level[levelA+levelB-1], levelA, levelB)
def get_female_cousin (self,levelA, levelB):
return self.get_male_cousin(levelA, levelB, "a")
#-------------------------------------------------------------------------
#
# get_relationship
#
#-------------------------------------------------------------------------
def get_relationship(self,orig_person,other_person):
"""
returns a string representing the relationshp between the two people,
along with a list of common ancestors (typically father,mother)
"""
if orig_person == None:
return ("non definito",[])
if orig_person == other_person:
return ('', [])
if self.is_spouse(orig_person,other_person):
return ("coniuge",[])
(firstRel,secondRel,common) = self.get_relationship_distance(orig_person,other_person)
if type(common) == types.StringType or type(common) == types.UnicodeType:
return (common,[])
elif common:
person_id = common[0]
else:
return (get_aunt(secondRel),common)
elif secondRel == 1:
if other_person.get_gender() == RelLib.Person.male:
return (get_nephew(firstRel-1),common)
return ("",[])
if firstRel == 0:
if secondRel == 0:
return ('',common)
elif other_person.get_gender() == RelLib.Person.male:
return (self.get_father(secondRel),common)
else:
return (self.get_mother(secondRel),common)
elif secondRel == 0:
if other_person.get_gender() == RelLib.Person.male:
return (self.get_son(firstRel),common)
else:
return (self.get_daughter(firstRel),common)
elif firstRel == 1:
if other_person.get_gender() == RelLib.Person.male:
return (self.get_uncle(secondRel),common)
else:
return (self.get_aunt(secondRel),common)
elif secondRel == 1:
if other_person.get_gender() == RelLib.Person.male:
return (self.get_nephew(firstRel-1),common)
else:
return (self.get_niece(firstRel-1),common)
else:
return (get_niece(firstRel-1),common)
else:
if other_person.get_gender() == RelLib.Person.male:
return (get_male_cousin(firstRel-1, secondRel-1), common)
else:
return (get_female_cousin(firstRel-1, secondRel-1), common)
if other_person.get_gender() == RelLib.Person.male:
return (self.get_male_cousin(firstRel-1, secondRel-1), common)
else:
return (self.get_female_cousin(firstRel-1, secondRel-1), common)
#-------------------------------------------------------------------------
@ -202,8 +198,9 @@ def get_relationship(orig_person,other_person):
# Function registration
#
#-------------------------------------------------------------------------
from Plugins import register_relcalc
register_relcalc(get_relationship,
register_relcalc(RelationshipCalculator,
["it", "IT", "it_IT", "it_IT@euro", "it_IT.utf8"])
# Local variables: