gramps/gramps2/src/GenericFilter.py

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#
# Gramps - a GTK+/GNOME based genealogy program
#
# Copyright (C) 2002-2004 Donald N. Allingham
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#
# 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
#
# $Id$
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"""Generic Filtering Routines"""
__author__ = "Don Allingham"
#-------------------------------------------------------------------------
#
# Try to abstract SAX1 from SAX2
#
#-------------------------------------------------------------------------
from xml.sax import make_parser,handler,SAXParseException
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#-------------------------------------------------------------------------
#
# Standard Python modules
#
#-------------------------------------------------------------------------
import os
import string
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import gtk
#-------------------------------------------------------------------------
#
# GRAMPS modules
#
#-------------------------------------------------------------------------
import const
import RelLib
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import Date
import DateHandler
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import NameDisplay
from TransTable import TransTable
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from gettext import gettext as _
from Utils import for_each_ancestor
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#-------------------------------------------------------------------------
#
# date_cmp
#
#-------------------------------------------------------------------------
def date_cmp(rule,value):
sd = rule.get_start_date()
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s = sd.get_modifier()
value = s.get_start_date()
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if s == Date.MOD_BEFORE:
return rule > value
elif s == Date.MOD_AFTER:
return rule < value
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else:
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return rule == value
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#-------------------------------------------------------------------------
#
# Rule
#
#-------------------------------------------------------------------------
class Rule:
"""Base rule class"""
labels = []
def __init__(self,list):
self.set_list(list)
def set_list(self,list):
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assert type(list) == type([]) or list == None, "Argument is not a list"
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self.list = list
def values(self):
return self.list
def trans_name(self):
return _(self.name())
def name(self):
return 'None'
def category(self):
return _('Miscellaneous filters')
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def description(self):
return _('No description')
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def check(self):
return len(self.list) == len(self.labels)
def apply(self,db,p):
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return 1
def display_values(self):
v = []
for i in range(0,len(self.list)):
if self.list[i]:
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v.append('%s="%s"' % (_(self.labels[i]),_(self.list[i])))
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return string.join(v,'; ')
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#-------------------------------------------------------------------------
#
# Everyone
#
#-------------------------------------------------------------------------
class Everyone(Rule):
"""Matches Everyone"""
labels = []
def name(self):
return 'Everyone'
def category(self):
return _('General filters')
def description(self):
return _('Matches everyone in the database')
def apply(self,db,p_id):
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return 1
#-------------------------------------------------------------------------
#
# Disconnected
#
#-------------------------------------------------------------------------
class Disconnected(Rule):
"""Matches disconnected individuals"""
labels = []
def name(self):
return 'Disconnected individuals'
def category(self):
return _('General filters')
def description(self):
return _('Matches individuals that have no relationships')
def apply(self,db,p_id):
person = db.get_person_from_handle(p_id)
return (not person.get_main_parents_family_handle() and
not len(person.get_family_handle_list()))
#-------------------------------------------------------------------------
#
# RelationshipPathBetween
#
#-------------------------------------------------------------------------
class RelationshipPathBetween(Rule):
"""Rule that checks for a person that is a descendant of a specified person
not more than N generations away"""
labels = [ _('ID:'), _('ID:') ]
def __init__(self,list):
Rule.__init__(self,list)
self.init = 0
self.map = {}
def name(self):
return "Relationship path between two people"
def category(self):
return _('Relationship filters')
def description(self):
return _("Matches the ancestors of two people back to a common ancestor, producing "
"the relationship path between two people.")
def desc_list(self, p_id, map, first):
if not first:
map[p_id] = 1
p = self.db.get_person_from_handle(p_id)
for fam_id in p.get_family_handle_list():
fam = self.db.get_family_from_handle(fam_id)
if fam:
for child_handle in fam.get_child_handle_list():
if child_handle:
self.desc_list(child_handle,map,0)
def apply_filter(self,rank,person,plist,pmap):
if person == None:
return
plist.append(person)
pmap[person.get_handle()] = rank
family = person.get_main_parents_family_handle()
if family != None:
self.apply_filter(rank+1,family.get_father_handle(),plist,pmap)
self.apply_filter(rank+1,family.get_mother_handle(),plist,pmap)
def apply(self,db,p_id):
self.db = db
if not self.init:
self.init = 1
root1 = self.list[0]
root2 = self.list[1]
self.init_list(root1,root2)
return self.map.has_key(p_id)
def init_list(self,p1_id,p2_id):
firstMap = {}
firstList = []
secondMap = {}
secondList = []
common = []
rank = 9999999
self.apply_filter(0,p1_id,firstList,firstMap)
self.apply_filter(0,p2_id,secondList,secondMap)
for person_handle in firstList:
if person_handle in secondList:
new_rank = firstMap[person_handle]
if new_rank < rank:
rank = new_rank
common = [ person_handle ]
elif new_rank == rank:
common.append(person_handle)
path1 = { p1_id : 1}
path2 = { p2_id : 1}
for person_handle in common:
new_map = {}
self.desc_list(person_handle,new_map,1)
self.get_intersection(path1,firstMap,new_map)
self.get_intersection(path2,secondMap,new_map)
for e in path1:
self.map[e] = 1
for e in path2:
self.map[e] = 1
for e in common:
self.map[e] = 1
def get_intersection(self,target, map1, map2):
for e in map1.keys():
if map2.has_key(e):
target[e] = map2[e]
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#-------------------------------------------------------------------------
#
# HasIdOf
#
#-------------------------------------------------------------------------
class HasIdOf(Rule):
"""Rule that checks for a person with a specific GRAMPS ID"""
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labels = [ _('ID:') ]
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def name(self):
return 'Has the Id'
def description(self):
return _("Matches the person with a specified GRAMPS ID")
def category(self):
return _('General filters')
def apply(self,db,p_id):
return p_id == self.list[0]
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#-------------------------------------------------------------------------
#
# HasCompleteRecord
#
#-------------------------------------------------------------------------
class HasCompleteRecord(Rule):
"""Rule that checks for a person whose record is complete"""
labels = []
def name(self):
return 'Has complete record'
def category(self):
return _('General filters')
def description(self):
return _('Matches all people whose records are complete')
def apply(self,db,p_id):
return db.get_person_from_handle(p_id).get_complete_flag() == 1
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#-------------------------------------------------------------------------
#
# IsFemale
#
#-------------------------------------------------------------------------
class IsFemale(Rule):
"""Rule that checks for a person that is a female"""
labels = []
def name(self):
return 'Is a female'
def category(self):
return _('General filters')
def description(self):
return _('Matches all females')
def apply(self,db,p_id):
return db.get_person_from_handle(p_id).get_gender() == RelLib.Person.female
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#-------------------------------------------------------------------------
#
# IsDescendantOf
#
#-------------------------------------------------------------------------
class IsDescendantOf(Rule):
"""Rule that checks for a person that is a descendant
of a specified person"""
labels = [ _('ID:'), _('Inclusive:') ]
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def __init__(self,list):
Rule.__init__(self,list)
self.init = 0
self.map = {}
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def name(self):
return 'Is a descendant of'
def category(self):
return _('Descendant filters')
def description(self):
return _('Matches all descendants for the specified person')
def apply(self,db,p_id):
self.orig_id = p_id
self.db = db
try:
if int(self.list[1]):
first = 0
else:
first = 1
except IndexError:
first = 1
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if not self.init:
self.init = 1
root_id = self.list[0]
self.init_list(root_id,first)
return self.map.has_key(p_id)
def init_list(self,p_id,first):
if not first:
self.map[p_id] = 1
p = self.db.get_person_from_handle(p_id)
for fam_id in p.get_family_handle_list():
fam = self.db.get_family_from_handle(fam_id)
if fam:
for child_handle in fam.get_child_handle_list():
self.init_list(child_handle,0)
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#-------------------------------------------------------------------------
#
# IsDescendantOfFilterMatch
#
#-------------------------------------------------------------------------
class IsDescendantOfFilterMatch(IsDescendantOf):
"""Rule that checks for a person that is a descendant
of someone matched by a filter"""
labels = [ _('Filter name:'), _('Inclusive:') ]
def __init__(self,list):
IsDescendantOf.__init__(self,list)
def name(self):
return 'Is a descendant of filter match'
def category(self):
return _('Descendant filters')
def description(self):
return _("Matches people that are descendants of someone matched by a filter")
def apply(self,db,p_id):
self.orig_id = p_id
self.db = db
try:
if int(self.list[1]):
first = 0
else:
first = 1
except IndexError:
first = 1
if not self.init:
self.init = 1
filt = MatchesFilter(self.list)
for person_handle in db.get_person_handles(sort_handles=False):
if filt.apply (db, person_handle):
self.init_list (person_handle, first)
return self.map.has_key(p_id)
#-------------------------------------------------------------------------
#
# IsLessThanNthGenerationDescendantOf
#
#-------------------------------------------------------------------------
class IsLessThanNthGenerationDescendantOf(Rule):
"""Rule that checks for a person that is a descendant of a specified person
not more than N generations away"""
labels = [ _('ID:'), _('Number of generations:') ]
def __init__(self,list):
Rule.__init__(self,list)
self.init = 0
self.map = {}
def name(self):
return 'Is a descendant of person not more than N generations away'
def category(self):
return _('Descendant filters')
def description(self):
return _("Matches people that are descendants of a specified person "
"not more than N generations away")
def apply(self,db,p_id):
self.orig_id = p_id
self.db = db
if not self.init:
self.init = 1
root_id = self.list[0]
self.init_list(root_id,0)
return self.map.has_key(p_id)
def init_list(self,p_id,gen):
if gen:
self.map[p_id] = 1
if gen >= int(self.list[1]):
return
p = self.db.get_person_from_handle(p_id)
for fam_id in p.get_family_handle_list():
fam = self.db.get_family_from_handle(fam_id)
for child_handle in fam.get_child_handle_list():
self.init_list(child_handle,gen+1)
#-------------------------------------------------------------------------
#
# IsMoreThanNthGenerationDescendantOf
#
#-------------------------------------------------------------------------
class IsMoreThanNthGenerationDescendantOf(Rule):
"""Rule that checks for a person that is a descendant of a specified person
at least N generations away"""
labels = [ _('ID:'), _('Number of generations:') ]
def __init__(self,list):
Rule.__init__(self,list)
self.init = 0
self.map = {}
def name(self):
return 'Is a descendant of person at least N generations away'
def description(self):
return _("Matches people that are descendants of a specified "
"person at least N generations away")
def category(self):
return _("Descendant filters")
def apply(self,db,p_id):
self.orig_id = p_id
self.db = db
if not self.init:
self.init = 1
root_id = self.list[0]
self.init_list(root_id,0)
return self.map.has_key(p_id)
def init_list(self,p_id,gen):
if gen >= int(self.list[1]):
self.map[p_id] = 1
p = self.db.get_person_from_handle(p_id)
for fam_id in p.get_family_handle_list():
fam = self.db.get_family_from_handle(fam_id)
for child_handle in fam.get_child_handle_list():
self.init_list(child_handle,gen+1)
#-------------------------------------------------------------------------
#
# IsChildOfFilterMatch
#
#-------------------------------------------------------------------------
class IsChildOfFilterMatch(Rule):
"""Rule that checks for a person that is a child
of someone matched by a filter"""
labels = [ _('Filter name:') ]
def __init__(self,list):
Rule.__init__(self,list)
self.init = 0
self.map = {}
def name(self):
return 'Is a child of filter match'
def description(self):
return _("Matches the person that is a child of someone matched by a filter")
def category(self):
return _('Family filters')
def apply(self,db,p_id):
self.orig_id = p_id
self.db = db
if not self.init:
self.init = 1
filt = MatchesFilter(self.list)
for person_handle in db.get_person_handles(sort_handles=False):
if filt.apply (db, person_handle):
self.init_list (person_handle)
return self.map.has_key(p_id)
def init_list(self,p_id):
p = self.db.get_person_from_handle(p_id)
for fam_id in p.get_family_handle_list():
fam = self.db.get_family_from_handle(fam_id)
for child_handle in fam.get_child_handle_list():
self.map[child_handle] = 1
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#-------------------------------------------------------------------------
#
# IsDescendantFamilyOf
#
#-------------------------------------------------------------------------
class IsDescendantFamilyOf(Rule):
"""Rule that checks for a person that is a descendant or the spouse
of a descendant of a specified person"""
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labels = [ _('ID:') ]
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def name(self):
return "Is a descendant family member of"
def category(self):
return _('Descendant filters')
def description(self):
return _("Matches people that are descendants or the spouse "
"of a descendant of a specified person")
def apply(self,db,p_id):
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self.map = {}
self.orig_id = p_id
self.db = db
return self.search(p_id,1)
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def search(self,p_id,val):
if p_id == self.list[0]:
self.map[p_id] = 1
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return 1
p = self.db.get_person_from_handle(p_id)
for (f,r1,r2) in p.get_parent_family_handle_list():
family = self.db.get_family_from_handle(f)
for person_handle in [family.get_mother_handle(),family.get_father_handle()]:
if person_handle:
if self.search(person_handle,0):
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return 1
if val:
for family_handle in p.get_family_handle_list():
family = self.db.get_family_from_handle(family_handle)
if p_id == family.get_father_handle():
spouse_id = family.get_mother_handle()
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else:
spouse_id = family.get_father_handle()
if spouse_id:
if self.search(spouse_id,0):
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return 1
return 0
#-------------------------------------------------------------------------
#
# IsAncestorOf
#
#-------------------------------------------------------------------------
class IsAncestorOf(Rule):
"""Rule that checks for a person that is an ancestor of a specified person"""
labels = [ _('ID:'), _('Inclusive:') ]
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def __init__(self,list):
Rule.__init__(self,list)
self.init = 0
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self.map = {}
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def name(self):
return 'Is an ancestor of'
def description(self):
return _("Matches people that are ancestors of a specified person")
def category(self):
return _("Ancestral filters")
def apply(self,db,p_id):
"""Assume that if 'Inclusive' not defined, assume inclusive"""
self.orig_id = p_id
self.db = db
try:
if int(self.list[1]):
first = 0
else:
first = 1
except IndexError:
first = 1
if not self.init:
self.init = 1
root_id = self.list[0]
self.init_ancestor_list(root_id,first)
return self.map.has_key(p_id)
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def init_ancestor_list(self,p_id,first):
if not first:
self.map[p_id] = 1
p = self.db.get_person_from_handle(p_id)
fam_id = p.get_main_parents_family_handle()
fam = self.db.get_family_from_handle(fam_id)
if fam:
f_id = fam.get_father_handle()
m_id = fam.get_mother_handle()
if f_id:
self.init_ancestor_list(f_id,0)
if m_id:
self.init_ancestor_list(m_id,0)
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#-------------------------------------------------------------------------
#
# IsAncestorOfFilterMatch
#
#-------------------------------------------------------------------------
class IsAncestorOfFilterMatch(IsAncestorOf):
"""Rule that checks for a person that is an ancestor of
someone matched by a filter"""
labels = [ _('Filter name:'), _('Inclusive:') ]
def __init__(self,list):
IsAncestorOf.__init__(self,list)
def name(self):
return 'Is an ancestor of filter match'
def description(self):
return _("Matches people that are ancestors "
"of someone matched by a filter")
def category(self):
return _("Ancestral filters")
def apply(self,db,p_id):
self.orig_id = p_id
try:
if int(self.list[1]):
first = 0
else:
first = 1
except IndexError:
first = 1
if not self.init:
self.init = 1
filt = MatchesFilter(self.list)
for person_handle in db.get_person_handles(sort_handles=False):
if filt.apply (db, person_handle):
self.init_ancestor_list (person_handle,first)
return self.map.has_key(p_id)
#-------------------------------------------------------------------------
#
# IsLessThanNthGenerationAncestorOf
#
#-------------------------------------------------------------------------
class IsLessThanNthGenerationAncestorOf(Rule):
"""Rule that checks for a person that is an ancestor of a specified person
not more than N generations away"""
labels = [ _('ID:'), _('Number of generations:') ]
def __init__(self,list):
Rule.__init__(self,list)
self.init = 0
self.map = {}
def name(self):
return 'Is an ancestor of person not more than N generations away'
def description(self):
return _("Matches people that are ancestors "
"of a specified person not more than N generations away")
def category(self):
return _("Ancestral filters")
def apply(self,db,p_id):
self.orig_id = p_id
self.db = db
if not self.init:
self.init = 1
root_id = self.list[0]
self.init_ancestor_list(root_id,0)
return self.map.has_key(p_id)
def init_ancestor_list(self,p_id,gen):
# if self.map.has_key(p.get_handle()) == 1:
# loop_error(self.orig,p)
if gen:
self.map[p_id] = 1
if gen >= int(self.list[1]):
return
p = self.db.get_person_from_handle(p_id)
fam_id = p.get_main_parents_family_handle()
fam = self.db.get_family_from_handle(fam_id)
if fam:
f_id = fam.get_father_handle()
m_id = fam.get_mother_handle()
if f_id:
self.init_ancestor_list(f_id,gen+1)
if m_id:
self.init_ancestor_list(m_id,gen+1)
#-------------------------------------------------------------------------
#
# IsMoreThanNthGenerationAncestorOf
#
#-------------------------------------------------------------------------
class IsMoreThanNthGenerationAncestorOf(Rule):
"""Rule that checks for a person that is an ancestor of a specified person
at least N generations away"""
labels = [ _('ID:'), _('Number of generations:') ]
def __init__(self,list):
Rule.__init__(self,list)
self.init = 0
self.map = {}
def name(self):
return 'Is an ancestor of person at least N generations away'
def description(self):
return _("Matches people that are ancestors "
"of a specified person at least N generations away")
def category(self):
return _("Ancestral filters")
def apply(self,db,p_id):
self.orig_id = p_id
self.db = db
if not self.init:
self.init = 1
root_id = self.list[0]
self.init_ancestor_list(root_id,0)
return self.map.has_key(p_id)
def init_ancestor_list(self,p_id,gen):
# if self.map.has_key(p.get_handle()) == 1:
# loop_error(self.orig,p)
if gen >= int(self.list[1]):
self.map[p_id] = 1
p = self.db.get_person_from_handle(p_id)
fam_id = p.get_main_parents_family_handle()
fam = self.db.get_family_from_handle(fam_id)
if fam:
f_id = fam.get_father_handle()
m_id = fam.get_mother_handle()
if f_id:
self.init_ancestor_list(f_id,gen+1)
if m_id:
self.init_ancestor_list(m_id,gen+1)
#-------------------------------------------------------------------------
#
# IsParentOfFilterMatch
#
#-------------------------------------------------------------------------
class IsParentOfFilterMatch(Rule):
"""Rule that checks for a person that is a parent
of someone matched by a filter"""
labels = [ _('Filter name:') ]
def __init__(self,list):
Rule.__init__(self,list)
self.init = 0
self.map = {}
def name(self):
return 'Is a parent of filter match'
def description(self):
return _("Matches the person that is a parent of someone matched by a filter")
def category(self):
return _('Family filters')
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def apply(self,db,p_id):
self.orig_id = p_id
self.db = db
if not self.init:
self.init = 1
filt = MatchesFilter(self.list)
for person_handle in db.get_person_handles(sort_handles=False):
if filt.apply (db, person_handle):
self.init_list (person_handle)
return self.map.has_key(p_id)
def init_list(self,p_id):
p = self.db.get_person_from_handle(p_id)
for fam_id in p.get_main_parents_family_handle():
fam = self.db.get_family_from_handle(fam_id)
for parent_id in [fam.get_father_handle (), fam.get_mother_handle ()]:
if parent_id:
self.map[parent_id] = 1
#-------------------------------------------------------------------------
#
# HasCommonAncestorWith
#
#-------------------------------------------------------------------------
class HasCommonAncestorWith(Rule):
"""Rule that checks for a person that has a common ancestor with a specified person"""
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labels = [ _('ID:') ]
def name(self):
return 'Has a common ancestor with'
def description(self):
return _("Matches people that have a common ancestor "
"with a specified person")
def category(self):
return _("Ancestral filters")
def __init__(self,list):
Rule.__init__(self,list)
# Keys in `ancestor_cache' are ancestors of list[0].
# We delay the computation of ancestor_cache until the
# first use, because it's not uncommon to instantiate
# this class and not use it.
self.ancestor_cache = {}
def init_ancestor_cache(self,db):
# list[0] is an Id, but we need to pass a Person to for_each_ancestor.
p_id = self.list[0]
if p_id:
def init(self,pid): self.ancestor_cache[pid] = 1
for_each_ancestor([p_id],init,self)
def apply(self,db,p_id):
# On the first call, we build the ancestor cache for the
# reference person. Then, for each person to test,
# we browse his ancestors until we found one in the cache.
if len(self.ancestor_cache) == 0:
self.init_ancestor_cache(db)
return for_each_ancestor([p_id],
lambda self,p_id: self.ancestor_cache.has_key(p_id),
self);
#-------------------------------------------------------------------------
#
# HasCommonAncestorWithFilterMatch
#
#-------------------------------------------------------------------------
class HasCommonAncestorWithFilterMatch(HasCommonAncestorWith):
"""Rule that checks for a person that has a common ancestor with
someone matching a filter"""
labels = [ _('Filter name:') ]
def name(self):
return 'Has a common ancestor with filter match'
def description(self):
return _("Matches people that have a common ancestor "
"with someone matched by a filter")
def category(self):
return _("Ancestral filters")
def __init__(self,list):
HasCommonAncestorWith.__init__(self,list)
def init_ancestor_cache(self,db):
filt = MatchesFilter(self.list)
def init(self,pid): self.ancestor_cache[pid] = 1
for p_id in db.get_person_handles(sort_handles=False):
if (not self.ancestor_cache.has_key (p_id)
and filt.apply (db, p_id)):
for_each_ancestor([p_id],init,self)
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#-------------------------------------------------------------------------
#
# IsMale
#
#-------------------------------------------------------------------------
class IsMale(Rule):
"""Rule that checks for a person that is a male"""
labels = []
def name(self):
return 'Is a male'
def category(self):
return _('General filters')
def description(self):
return _('Matches all males')
def apply(self,db,p_id):
return db.get_person_from_handle(p_id).get_gender() == RelLib.Person.male
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#-------------------------------------------------------------------------
#
# HasEvent
#
#-------------------------------------------------------------------------
class HasEvent(Rule):
"""Rule that checks for a person with a particular value"""
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labels = [ _('Personal event:'), _('Date:'), _('Place:'), _('Description:') ]
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def __init__(self,list):
Rule.__init__(self,list)
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if self.list and self.list[0]:
self.date = DateHandler.parser.parse(self.list[0])
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else:
self.date = None
def name(self):
return 'Has the personal event'
def description(self):
return _("Matches the person with a personal event of a particular value")
def category(self):
return _('Event filters')
def apply(self,db,p_id):
p = db.get_person_from_handle(p_id)
for event_handle in p.get_event_list():
if not event_handle:
continue
event = db.get_event_from_handle(event_handle)
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val = 1
if self.list[0] and event.get_name() != self.list[0]:
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val = 0
if self.list[3] and string.find(event.get_description().upper(),
self.list[3].upper())==-1:
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val = 0
if self.date:
if date_cmp(self.date,event.get_date_object()):
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val = 0
if self.list[2]:
pl_id = event.get_place_handle()
if pl_id:
pl = db.get_place_from_handle(pl_id)
pn = pl.get_title()
if string.find(pn.upper(),self.list[2].upper()) == -1:
val = 0
if val == 1:
return 1
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return 0
#-------------------------------------------------------------------------
#
# HasFamilyEvent
#
#-------------------------------------------------------------------------
class HasFamilyEvent(Rule):
"""Rule that checks for a person who has a relationship event
with a particular value"""
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labels = [ _('Family event:'), _('Date:'), _('Place:'), _('Description:') ]
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def __init__(self,list):
Rule.__init__(self,list)
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if self.list and self.list[0]:
self.date = DateHandler.parser.parse(self.list[0])
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else:
self.date = None
def name(self):
return 'Has the family event'
def description(self):
return _("Matches the person with a family event of a particular value")
def category(self):
return _('Event filters')
def apply(self,db,p_id):
p = db.get_person_from_handle(p_id)
for f_id in p.get_family_handle_list():
f = db.get_family_from_handle(f_id)
for event_handle in f.get_event_list():
if not event_handle:
continue
event = db.get_event_from_handle(event_handle)
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val = 1
if self.list[0] and event.get_name() != self.list[0]:
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val = 0
v = self.list[3]
if v and string.find(event.get_description().upper(),v.upper())==-1:
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val = 0
if self.date:
if date_cmp(self.date,event.get_date_object()):
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val = 0
pl_id = event.get_place_handle()
if pl_id:
pl = db.get_place_from_handle(pl_id)
pn = pl.get_title()
if self.list[2] and string.find(pn,self.list[2].upper()) == -1:
val = 0
if val == 1:
return 1
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return 0
#-------------------------------------------------------------------------
#
# HasRelationship
#
#-------------------------------------------------------------------------
class HasRelationship(Rule):
"""Rule that checks for a person who has a particular relationship"""
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labels = [ _('Number of relationships:'),
_('Relationship type:'),
_('Number of children:') ]
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def name(self):
return 'Has the relationships'
def description(self):
return _("Matches the person who has a particular relationship")
def category(self):
return _('Family filters')
def apply(self,db,p_id):
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rel_type = 0
cnt = 0
p = db.get_person_from_handle(p_id)
num_rel = len(p.get_family_handle_list())
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# count children and look for a relationship type match
for f_id in p.get_family_handle_list():
f = db.get_family_from_handle(f_id)
cnt = cnt + len(f.get_child_handle_list())
if self.list[1] and f.get_relationship() == self.list[1]:
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rel_type = 1
# if number of relations specified
if self.list[0]:
try:
v = int(self.list[0])
except:
return 0
if v != num_rel:
return 0
# number of childred
if self.list[2]:
try:
v = int(self.list[2])
except:
return 0
if v != cnt:
return 0
# relation
if self.list[1]:
return rel_type == 1
else:
return 1
#-------------------------------------------------------------------------
#
# HasBirth
#
#-------------------------------------------------------------------------
class HasBirth(Rule):
"""Rule that checks for a person with a birth of a particular value"""
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labels = [ _('Date:'), _('Place:'), _('Description:') ]
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def __init__(self,list):
Rule.__init__(self,list)
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if self.list and self.list[0]:
self.date = DateHandler.parser.parse(self.list[0])
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else:
self.date = None
def name(self):
return 'Has the birth'
def description(self):
return _("Matches the person with a birth of a particular value")
def category(self):
return _('Event filters')
def apply(self,db,p_id):
p = db.get_person_from_handle(p_id)
event_handle = p.get_birth_handle()
if not event_handle:
return 0
event = db.get_event_from_handle(event_handle)
ed = event.get_description().upper()
if len(self.list) > 2 and string.find(ed,self.list[2].upper())==-1:
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return 0
if self.date:
if date_cmp(self.date,event.get_date_object()) == 0:
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return 0
pl_id = event.get_place_handle()
if pl_id:
pl = db.get_place_from_handle(pl_id)
pn = pl.get_title()
if len(self.list) > 1 and string.find(pn,self.list[1].upper()) == -1:
return 0
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return 1
#-------------------------------------------------------------------------
#
# HasDeath
#
#-------------------------------------------------------------------------
class HasDeath(Rule):
"""Rule that checks for a person with a death of a particular value"""
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labels = [ _('Date:'), _('Place:'), _('Description:') ]
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def __init__(self,list):
Rule.__init__(self,list)
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if self.list and self.list[0]:
self.date = DateHandler.parser.parse(self.list[0])
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else:
self.date = None
def name(self):
return 'Has the death'
def description(self):
return _("Matches the person with a death of a particular value")
def category(self):
return _('Event filters')
def apply(self,db,p_id):
p = db.get_person_from_handle(p_id)
event_handle = p.get_death_handle()
if not event_handle:
return 0
event = db.get_event_from_handle(event_handle)
ed = event.get_description().upper()
if self.list[2] and string.find(ed,self.list[2].upper())==-1:
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return 0
if self.date:
if date_cmp(self.date,event.get_date_object()) == 0:
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return 0
pl_id = event.get_place_handle()
if pl_id:
pl = db.get_place_from_handle(pl_id)
pn = pl.get_title()
if self.list[1] and string.find(pn,self.list[1].upper()) == -1:
return 0
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return 1
#-------------------------------------------------------------------------
#
# HasAttribute
#
#-------------------------------------------------------------------------
class HasAttribute(Rule):
"""Rule that checks for a person with a particular personal attribute"""
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labels = [ _('Personal attribute:'), _('Value:') ]
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def name(self):
return 'Has the personal attribute'
def apply(self,db,p_id):
p = db.get_person_from_handle(p_id)
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for event in p.getAttributes():
if self.list[0] and event.get_type() != self.list[0]:
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return 0
ev = event.get_value().upper()
if self.list[1] and string.find(ev,self.list[1].upper())==-1:
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return 0
return 1
#-------------------------------------------------------------------------
#
# HasFamilyAttribute
#
#-------------------------------------------------------------------------
class HasFamilyAttribute(Rule):
"""Rule that checks for a person with a particular family attribute"""
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labels = [ _('Family attribute:'), _('Value:') ]
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def name(self):
return 'Has the family attribute'
def apply(self,db,p_id):
p = db.get_person_from_handle(p_id)
for f_id in p.get_family_handle_list():
f = db.get_family_from_handle(f_id)
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for event in f.getAttributes():
val = 1
if self.list[0] and event.get_type() != self.list[0]:
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val = 0
ev = event.get_value().upper()
if self.list[1] and string.find(ev,self.list[1].upper())==-1:
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val = 0
if val == 1:
return 1
return 0
#-------------------------------------------------------------------------
#
# HasNameOf
#
#-------------------------------------------------------------------------
class HasNameOf(Rule):
"""Rule that checks for full or partial name matches"""
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labels = [_('Given name:'),_('Family name:'),_('Suffix:'),_('Title:')]
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def name(self):
return 'Has a name'
def description(self):
return _("Matches the person with a specified (partial) name")
def category(self):
return _('General filters')
def apply(self,db,p_id):
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self.f = self.list[0]
self.l = self.list[1]
self.s = self.list[2]
self.t = self.list[3]
p = db.get_person_from_handle(p_id)
for name in [p.get_primary_name()] + p.get_alternate_names():
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val = 1
if self.f and string.find(name.get_first_name().upper(),self.f.upper()) == -1:
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val = 0
if self.l and string.find(name.get_surname().upper(),self.l.upper()) == -1:
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val = 0
if self.s and string.find(name.get_suffix().upper(),self.s.upper()) == -1:
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val = 0
if self.t and string.find(name.get_title().upper(),self.t.upper()) == -1:
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val = 0
if val == 1:
return 1
return 0
#-------------------------------------------------------------------------
#
# HasNameOf
#
#-------------------------------------------------------------------------
class SearchName(Rule):
"""Rule that checks for full or partial name matches"""
labels = [_('Substring:')]
def name(self):
return 'Matches name'
def description(self):
return _("Matches the person with a specified (partial) name")
def category(self):
return _('General filters')
def apply(self,db,p_id):
self.f = self.list[0]
p = db.get_person_from_handle(p_id)
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n = NameDisplay.displayer.display(p)
return self.f and string.find(n.upper(),self.f.upper()) != -1
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2003-03-25 10:56:05 +05:30
#-------------------------------------------------------------------------
#
# MatchesFilter
#
#-------------------------------------------------------------------------
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class MatchesFilter(Rule):
"""Rule that checks against another filter"""
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labels = [_('Filter name:')]
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def name(self):
return 'Matches the filter named'
def apply(self,db,p_id):
for filt in SystemFilters.get_filters():
if filt.get_name() == self.list[0]:
return filt.check(p_id)
for filt in CustomFilters.get_filters():
if filt.get_name() == self.list[0]:
return filt.check(db,p_id)
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return 0
#-------------------------------------------------------------------------
#
# IsSpouseOfFilterMatch
#
#-------------------------------------------------------------------------
class IsSpouseOfFilterMatch(Rule):
"""Rule that checks for a person married to someone matching
a filter"""
labels = [_('Filter name:')]
def name(self):
return 'Is spouse of filter match'
def description(self):
return _("Matches the person married to someone matching a filter")
def category(self):
return _('Family filters')
def apply(self,db,p_id):
filt = MatchesFilter (self.list)
p = db.get_person_from_handle(p_id)
for family_handle in p.get_family_handle_list ():
family = db.get_family_from_handle(family_handle)
for spouse_id in [family.get_father_handle (), family.get_mother_handle ()]:
if not spouse_id:
continue
if spouse_id == p_id:
continue
if filt.apply (db, spouse_id):
return 1
return 0
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#-------------------------------------------------------------------------
#
# GenericFilter
#
#-------------------------------------------------------------------------
class GenericFilter:
"""Filter class that consists of several rules"""
logical_functions = ['or', 'and', 'xor', 'one']
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def __init__(self,source=None):
if source:
self.need_param = source.need_param
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self.flist = source.flist[:]
self.name = source.name
self.comment = source.comment
self.logical_op = source.logical_op
self.invert = source.invert
else:
self.need_param = 0
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self.flist = []
self.name = ''
self.comment = ''
self.logical_op = 'and'
self.invert = 0
def set_logical_op(self,val):
if val in GenericFilter.logical_functions:
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self.logical_op = val
else:
self.logical_op = 'and'
def get_logical_op(self):
return self.logical_op
def set_invert(self, val):
self.invert = not not val
def get_invert(self):
return self.invert
def get_name(self):
return self.name
def set_name(self,name):
self.name = name
def set_comment(self,comment):
self.comment = comment
def get_comment(self):
return self.comment
def add_rule(self,rule):
self.flist.append(rule)
def delete_rule(self,rule):
self.flist.remove(rule)
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def set_rules(self,rules):
self.flist = rules
def get_rules(self):
return self.flist
def check_or(self,db,p_id):
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test = 0
for rule in self.flist:
test = test or rule.apply(db,p_id)
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if test:
break
if self.invert:
return not test
else:
return test
def check_xor(self,db,p_id):
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test = 0
for rule in self.flist:
temp = rule.apply(db,p_id)
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test = ((not test) and temp) or (test and (not temp))
if self.invert:
return not test
else:
return test
def check_one(self,db,p_id):
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count = 0
for rule in self.flist:
if rule.apply(db,p_id):
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count = count + 1
if count > 1:
break
if self.invert:
return count != 1
else:
return count == 1
def check_and(self,db,p_id):
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test = 1
for rule in self.flist:
test = test and rule.apply(db,p_id)
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if not test:
break
if self.invert:
return not test
else:
return test
def get_check_func(self):
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try:
m = getattr(self, 'check_' + self.logical_op)
except AttributeError:
m = self.check_and
return m
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def check(self,db,p_id):
return self.get_check_func()(db,p_id)
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def apply(self,db,id_list):
m = self.get_check_func()
res = []
for p_id in id_list:
if m(db,p_id):
res.append(p_id)
return res
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#-------------------------------------------------------------------------
#
# Name to class mappings
#
#-------------------------------------------------------------------------
tasks = {
unicode(_("Everyone")) : Everyone,
unicode(_("Has the Id")) : HasIdOf,
unicode(_("Has a name")) : HasNameOf,
unicode(_("Has the relationships")) : HasRelationship,
unicode(_("Has the death")) : HasDeath,
unicode(_("Has the birth")) : HasBirth,
unicode(_("Is a descendant of")) : IsDescendantOf,
unicode(_("Is a descendant family member of")) : IsDescendantFamilyOf,
unicode(_("Is a descendant of filter match")) : IsDescendantOfFilterMatch,
unicode(_("Is a descendant of person not more than N generations away"))
: IsLessThanNthGenerationDescendantOf,
unicode(_("Is a descendant of person at least N generations away"))
: IsMoreThanNthGenerationDescendantOf,
unicode(_("Is a child of filter match")) : IsChildOfFilterMatch,
unicode(_("Is an ancestor of")) : IsAncestorOf,
unicode(_("Is an ancestor of filter match")) : IsAncestorOfFilterMatch,
unicode(_("Is an ancestor of person not more than N generations away"))
: IsLessThanNthGenerationAncestorOf,
unicode(_("Is an ancestor of person at least N generations away"))
: IsMoreThanNthGenerationAncestorOf,
unicode(_("Is a parent of filter match")) : IsParentOfFilterMatch,
unicode(_("Has a common ancestor with")) : HasCommonAncestorWith,
unicode(_("Has a common ancestor with filter match"))
: HasCommonAncestorWithFilterMatch,
unicode(_("Is a female")) : IsFemale,
unicode(_("Is a male")) : IsMale,
unicode(_("Has complete record")) : HasCompleteRecord,
unicode(_("Has the personal event")) : HasEvent,
unicode(_("Has the family event")) : HasFamilyEvent,
unicode(_("Has the personal attribute")) : HasAttribute,
unicode(_("Has the family attribute")) : HasFamilyAttribute,
unicode(_("Matches the filter named")) : MatchesFilter,
unicode(_("Is spouse of filter match")) : IsSpouseOfFilterMatch,
unicode(_("Relationship path between two people")) : RelationshipPathBetween,
2002-10-20 19:55:16 +05:30
}
#-------------------------------------------------------------------------
#
# GenericFilterList
#
#-------------------------------------------------------------------------
class GenericFilterList:
"""Container class for the generic filters. Stores, saves, and
loads the filters."""
def __init__(self,file):
self.filter_list = []
self.file = os.path.expanduser(file)
def get_filters(self):
return self.filter_list
def add(self,filt):
self.filter_list.append(filt)
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def load(self):
try:
parser = make_parser()
parser.setContentHandler(FilterParser(self))
if self.file[0:7] != "file://":
parser.parse("file://" + self.file)
else:
parser.parse(self.file)
except (IOError,OSError):
pass
except SAXParseException:
print "Parser error"
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def fix(self,line):
l = line.strip()
l = l.replace('&','&amp;')
l = l.replace('>','&gt;')
l = l.replace('<','&lt;')
return l.replace('"','&quot;')
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def save(self):
f = open(self.file.encode('utf-8'),'w')
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2003-01-29 10:13:12 +05:30
f.write("<?xml version=\"1.0\" encoding=\"utf-8\"?>\n")
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f.write('<filters>\n')
for i in self.filter_list:
f.write(' <filter name="%s"' % self.fix(i.get_name()))
if i.get_invert():
f.write(' invert="1"')
f.write(' function="%s"' % i.get_logical_op())
comment = i.get_comment()
if comment:
f.write(' comment="%s"' % self.fix(comment))
f.write('>\n')
for rule in i.get_rules():
f.write(' <rule class="%s">\n' % self.fix(rule.name()))
for v in rule.values():
f.write(' <arg value="%s"/>\n' % self.fix(v))
f.write(' </rule>\n')
f.write(' </filter>\n')
f.write('</filters>\n')
f.close()
#-------------------------------------------------------------------------
#
# FilterParser
#
#-------------------------------------------------------------------------
class FilterParser(handler.ContentHandler):
"""Parses the XML file and builds the list of filters"""
def __init__(self,gfilter_list):
handler.ContentHandler.__init__(self)
self.gfilter_list = gfilter_list
self.f = None
self.r = None
self.a = []
self.cname = None
def setDocumentLocator(self,locator):
self.locator = locator
def startElement(self,tag,attrs):
if tag == "filter":
self.f = GenericFilter()
self.f.set_name(attrs['name'])
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if attrs.has_key('function'):
try:
if int(attrs['function']):
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op = 'or'
else:
op = 'and'
except ValueError:
op = attrs['function']
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self.f.set_logical_op(op)
if attrs.has_key('comment'):
self.f.set_comment(attrs['comment'])
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if attrs.has_key('invert'):
try:
self.f.set_invert(int(attrs['invert']))
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except ValueError:
pass
self.gfilter_list.add(self.f)
elif tag == "rule":
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cname = attrs['class']
name = unicode(_(cname))
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self.a = []
self.cname = tasks[name]
elif tag == "arg":
self.a.append(attrs['value'])
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def endElement(self,tag):
if tag == "rule":
rule = self.cname(self.a)
self.f.add_rule(rule)
def characters(self, data):
pass
class ParamFilter(GenericFilter):
def __init__(self,source=None):
GenericFilter.__init__(self,source)
self.need_param = 1
self.param_list = []
def set_parameter(self,param):
self.param_list = [param]
def apply(self,db,id_list):
for rule in self.flist:
rule.set_list(self.param_list)
return GenericFilter.apply(self,db,id_list)
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#-------------------------------------------------------------------------
#
#
#
#-------------------------------------------------------------------------
SystemFilters = None
CustomFilters = None
def reload_system_filters():
global SystemFilters
SystemFilters = GenericFilterList(const.system_filters)
SystemFilters.load()
def reload_custom_filters():
global CustomFilters
CustomFilters = GenericFilterList(const.custom_filters)
CustomFilters.load()
if not SystemFilters:
reload_system_filters()
if not CustomFilters:
reload_custom_filters()
class GrampsFilterComboBox(gtk.ComboBox):
def set(self,local_filters,default=""):
self.store = gtk.ListStore(str)
self.set_model(self.store)
cell = gtk.CellRendererText()
self.pack_start(cell,True)
self.add_attribute(cell,'text',0)
self.map = {}
active = 0
cnt = 0
for filt in local_filters:
self.store.append(row=[filt.get_name()])
self.map[filt.get_name()] = filt
if default != "" and default == filt.get_name():
active = cnt
cnt += 1
for filt in SystemFilters.get_filters():
self.store.append(row=[_(filt.get_name())])
self.map[filt.get_name()] = filt
if default != "" and default == filt.get_name():
active = cnt
cnt += 1
for filt in CustomFilters.get_filters():
self.store.append(row=[_(filt.get_name())])
self.map[filt.get_name()] = filt
if default != "" and default == filt.get_name():
active = cnt
cnt += 1
if active:
self.set_active(active)
elif len(local_filters):
self.set_active(2)
elif len(SystemFilters.get_filters()):
self.set_active(4 + len(local_filters))
elif len(CustomFilters.get_filters()):
self.set_active(6 + len(local_filters) + len(SystemFilters.get_filters()))
else:
self.set_active(0)
def get_value(self):
active = self.get_active()
if active < 0:
return None
key = self.store[active][0]
return self.map[key]
def build_filter_menu(local_filters = [], default=""):
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menu = gtk.Menu()
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active = 0
cnt = 0
for filt in local_filters:
menuitem = gtk.MenuItem(filt.get_name())
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menuitem.show()
menu.append(menuitem)
menuitem.set_data("filter", filt)
if default != "" and default == filt.get_name():
active = cnt
cnt += 1
for filt in SystemFilters.get_filters():
menuitem = gtk.MenuItem(_(filt.get_name()))
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menuitem.show()
menu.append(menuitem)
menuitem.set_data("filter", filt)
if default != "" and default == filt.get_name():
active = cnt
cnt += 1
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for filt in CustomFilters.get_filters():
menuitem = gtk.MenuItem(_(filt.get_name()))
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menuitem.show()
menu.append(menuitem)
menuitem.set_data("filter", filt)
if default != "" and default == filt.get_name():
active = cnt
cnt += 1
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if active:
menu.set_active(active)
elif len(local_filters):
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menu.set_active(2)
elif len(SystemFilters.get_filters()):
menu.set_active(4 + len(local_filters))
elif len(CustomFilters.get_filters()):
menu.set_active(6 + len(local_filters) + len(SystemFilters.get_filters()))
else:
menu.set_active(0)
return menu