# # Gramps - a GTK+/GNOME based genealogy program # # Copyright (C) 2000-2006 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 # # $Id$ """ A collection of utilities to aid in the generation of reports. """ #------------------------------------------------------------------------- # # Standard Python modules # #------------------------------------------------------------------------- import time import os from gettext import gettext as _ import cStringIO #------------------------------------------------------------------------ # # GRAMPS modules # #------------------------------------------------------------------------ import DateHandler import RelLib from BasicUtils.NameDisplay import displayer as _nd from QuestionDialog import WarningDialog import BaseDoc #------------------------------------------------------------------------ # # Born strings # #------------------------------------------------------------------------ born_full_date_with_place = [ { RelLib.Person.UNKNOWN : _("This person was born on %(birth_date)s in %(birth_place)s."), RelLib.Person.MALE : _("He was born on %(birth_date)s in %(birth_place)s."), RelLib.Person.FEMALE : _("She was born on %(birth_date)s in %(birth_place)s."), }, { RelLib.Person.UNKNOWN : _("%(unknown_gender_name)s was born on %(birth_date)s in %(birth_place)s."), RelLib.Person.MALE : _("%(male_name)s was born on %(birth_date)s in %(birth_place)s."), RelLib.Person.FEMALE : _("%(female_name)s was born on %(birth_date)s in %(birth_place)s."), }, ] born_modified_date_with_place = [ { RelLib.Person.UNKNOWN : _("This person was born %(modified_date)s in %(birth_place)s."), RelLib.Person.MALE : _("He was born %(modified_date)s in %(birth_place)s."), RelLib.Person.FEMALE : _("She was born %(modified_date)s in %(birth_place)s."), }, { RelLib.Person.UNKNOWN : _("%(unknown_gender_name)s was born %(modified_date)s in %(birth_place)s."), RelLib.Person.MALE : _("%(male_name)s was born %(modified_date)s in %(birth_place)s."), RelLib.Person.FEMALE : _("%(female_name)s was born %(modified_date)s in %(birth_place)s."), }, ] born_full_date_no_place = [ { RelLib.Person.UNKNOWN : _("This person was born on %(birth_date)s."), RelLib.Person.MALE : _("He was born on %(birth_date)s."), RelLib.Person.FEMALE : _("She was born on %(birth_date)s."), }, { RelLib.Person.UNKNOWN : _("%(unknown_gender_name)s was born on %(birth_date)s."), RelLib.Person.MALE : _("%(male_name)s was born on %(birth_date)s."), RelLib.Person.FEMALE : _("%(female_name)s was born on %(birth_date)s."), }, ] born_modified_date_no_place = [ { RelLib.Person.UNKNOWN : _("This person was born %(modified_date)s."), RelLib.Person.MALE : _("He was born %(modified_date)s."), RelLib.Person.FEMALE : _("She was born %(modified_date)s."), }, { RelLib.Person.UNKNOWN : _("%(unknown_gender_name)s was born %(modified_date)s."), RelLib.Person.MALE : _("%(male_name)s was born %(modified_date)s."), RelLib.Person.FEMALE : _("%(female_name)s was born %(modified_date)s."), }, ] born_partial_date_with_place = [ { RelLib.Person.UNKNOWN : _("This person was born in %(month_year)s in %(birth_place)s."), RelLib.Person.MALE : _("He was born in %(month_year)s in %(birth_place)s."), RelLib.Person.FEMALE : _("She was born in %(month_year)s in %(birth_place)s."), }, { RelLib.Person.UNKNOWN : _("%(unknown_gender_name)s was born in %(month_year)s in %(birth_place)s."), RelLib.Person.MALE : _("%(male_name)s was born in %(month_year)s in %(birth_place)s."), RelLib.Person.FEMALE : _("%(female_name)s was born in %(month_year)s in %(birth_place)s."), }, ] born_partial_date_no_place = [ { RelLib.Person.UNKNOWN : _("This person was born in %(month_year)s."), RelLib.Person.MALE : _("He was born in %(month_year)s."), RelLib.Person.FEMALE : _("She was born in %(month_year)s."), }, { RelLib.Person.UNKNOWN : _("%(unknown_gender_name)s was born in %(month_year)s."), RelLib.Person.MALE : _("%(male_name)s was born in %(month_year)s."), RelLib.Person.FEMALE : _("%(female_name)s was born in %(month_year)s."), } ] born_no_date_with_place = [ { RelLib.Person.UNKNOWN : _("This person was born in %(birth_place)s."), RelLib.Person.MALE : _("He was born in %(birth_place)s."), RelLib.Person.FEMALE : _("She was born in %(birth_place)s."), }, { RelLib.Person.UNKNOWN : _("%(unknown_gender_name)s was born in %(birth_place)s."), RelLib.Person.MALE : _("%(male_name)s was born in %(birth_place)s."), RelLib.Person.FEMALE : _("%(female_name)s was born in %(birth_place)s."), } ] #------------------------------------------------------------------------ # # Died strings # #------------------------------------------------------------------------ died_full_date_with_place = [ { RelLib.Person.UNKNOWN : [ _("This person died on %(death_date)s in %(death_place)s."), _("This person died on %(death_date)s in %(death_place)s at the age of %(age)d years."), _("This person died on %(death_date)s in %(death_place)s at the age of %(age)d months."), _("This person died on %(death_date)s in %(death_place)s at the age of %(age)d days."), ], RelLib.Person.MALE : [ _("He died on %(death_date)s in %(death_place)s."), _("He died on %(death_date)s in %(death_place)s at the age of %(age)d years."), _("He died on %(death_date)s in %(death_place)s at the age of %(age)d months."), _("He died on %(death_date)s in %(death_place)s at the age of %(age)d days."), ], RelLib.Person.FEMALE : [ _("She died on %(death_date)s in %(death_place)s."), _("She died on %(death_date)s in %(death_place)s at the age of %(age)d years."), _("She died on %(death_date)s in %(death_place)s at the age of %(age)d months."), _("She died on %(death_date)s in %(death_place)s at the age of %(age)d days."), ], }, { RelLib.Person.UNKNOWN : [ _("%(unknown_gender_name)s died on %(death_date)s in %(death_place)s."), _("%(unknown_gender_name)s died on %(death_date)s in %(death_place)s at the age of %(age)d years."), _("%(unknown_gender_name)s died on %(death_date)s in %(death_place)s at the age of %(age)d months."), _("%(unknown_gender_name)s died on %(death_date)s in %(death_place)s at the age of %(age)d days."), ], RelLib.Person.MALE : [ _("%(male_name)s died on %(death_date)s in %(death_place)s."), _("%(male_name)s died on %(death_date)s in %(death_place)s at the age of %(age)d years."), _("%(male_name)s died on %(death_date)s in %(death_place)s at the age of %(age)d months."), _("%(male_name)s died on %(death_date)s in %(death_place)s at the age of %(age)d days."), ], RelLib.Person.FEMALE : [ _("%(female_name)s died on %(death_date)s in %(death_place)s."), _("%(female_name)s died on %(death_date)s in %(death_place)s at the age of %(age)d years."), _("%(female_name)s died on %(death_date)s in %(death_place)s at the age of %(age)d months."), _("%(female_name)s died on %(death_date)s in %(death_place)s at the age of %(age)d days."), ], }, ] died_modified_date_with_place = [ { RelLib.Person.UNKNOWN : [ _("This person died %(death_date)s in %(death_place)s."), _("This person died %(death_date)s in %(death_place)s at the age of %(age)d years."), _("This person died %(death_date)s in %(death_place)s at the age of %(age)d months."), _("This person died %(death_date)s in %(death_place)s at the age of %(age)d days."), ], RelLib.Person.MALE : [ _("He died %(death_date)s in %(death_place)s."), _("He died %(death_date)s in %(death_place)s at the age of %(age)d years."), _("He died %(death_date)s in %(death_place)s at the age of %(age)d months."), _("He died %(death_date)s in %(death_place)s at the age of %(age)d days."), ], RelLib.Person.FEMALE : [ _("She died %(death_date)s in %(death_place)s."), _("She died %(death_date)s in %(death_place)s at the age of %(age)d years."), _("She died %(death_date)s in %(death_place)s at the age of %(age)d months."), _("She died %(death_date)s in %(death_place)s at the age of %(age)d days."), ], }, { RelLib.Person.UNKNOWN : [ _("%(unknown_gender_name)s died %(death_date)s in %(death_place)s."), _("%(unknown_gender_name)s died %(death_date)s in %(death_place)s at the age of %(age)d years."), _("%(unknown_gender_name)s died %(death_date)s in %(death_place)s at the age of %(age)d months."), _("%(unknown_gender_name)s died %(death_date)s in %(death_place)s at the age of %(age)d days."), ], RelLib.Person.MALE : [ _("%(male_name)s died %(death_date)s in %(death_place)s."), _("%(male_name)s died %(death_date)s in %(death_place)s at the age of %(age)d years."), _("%(male_name)s died %(death_date)s in %(death_place)s at the age of %(age)d months."), _("%(male_name)s died %(death_date)s in %(death_place)s at the age of %(age)d days."), ], RelLib.Person.FEMALE : [ _("%(female_name)s died %(death_date)s in %(death_place)s."), _("%(female_name)s died %(death_date)s in %(death_place)s at the age of %(age)d years."), _("%(female_name)s died %(death_date)s in %(death_place)s at the age of %(age)d months."), _("%(female_name)s died %(death_date)s in %(death_place)s at the age of %(age)d days."), ], }, ] died_full_date_no_place = [ { RelLib.Person.UNKNOWN : [ _("This person died on %(death_date)s."), _("This person died on %(death_date)s at the age of %(age)d years."), _("This person died on %(death_date)s at the age of %(age)d months."), _("This person died on %(death_date)s at the age of %(age)d days."), ], RelLib.Person.MALE : [ _("He died on %(death_date)s."), _("He died on %(death_date)s at the age of %(age)d years."), _("He died on %(death_date)s at the age of %(age)d months."), _("He died on %(death_date)s at the age of %(age)d days."), ], RelLib.Person.FEMALE : [ _("She died on %(death_date)s."), _("She died on %(death_date)s at the age of %(age)d years."), _("She died on %(death_date)s at the age of %(age)d months."), _("She died on %(death_date)s at the age of %(age)d days."), ], }, { RelLib.Person.UNKNOWN : [ _("%(unknown_gender_name)s died on %(death_date)s."), _("%(unknown_gender_name)s died on %(death_date)s at the age of %(age)d years."), _("%(unknown_gender_name)s died on %(death_date)s at the age of %(age)d months."), _("%(unknown_gender_name)s died on %(death_date)s at the age of %(age)d days."), ], RelLib.Person.MALE : [ _("%(male_name)s died on %(death_date)s."), _("%(male_name)s died on %(death_date)s at the age of %(age)d years."), _("%(male_name)s died on %(death_date)s at the age of %(age)d months."), _("%(male_name)s died on %(death_date)s at the age of %(age)d days."), ], RelLib.Person.FEMALE : [ _("%(female_name)s died on %(death_date)s."), _("%(female_name)s died on %(death_date)s at the age of %(age)d years."), _("%(female_name)s died on %(death_date)s at the age of %(age)d months."), _("%(female_name)s died on %(death_date)s at the age of %(age)d days."), ], }, ] died_modified_date_no_place = [ { RelLib.Person.UNKNOWN : [ _("This person died %(death_date)s."), _("This person died %(death_date)s at the age of %(age)d years."), _("This person died %(death_date)s at the age of %(age)d months."), _("This person died %(death_date)s at the age of %(age)d days."), ], RelLib.Person.MALE : [ _("He died %(death_date)s."), _("He died %(death_date)s at the age of %(age)d years."), _("He died %(death_date)s at the age of %(age)d months."), _("He died %(death_date)s at the age of %(age)d days."), ], RelLib.Person.FEMALE : [ _("She died %(death_date)s."), _("She died %(death_date)s at the age of %(age)d years."), _("She died %(death_date)s at the age of %(age)d months."), _("She died %(death_date)s at the age of %(age)d days."), ], }, { RelLib.Person.UNKNOWN : [ _("%(unknown_gender_name)s died %(death_date)s."), _("%(unknown_gender_name)s died %(death_date)s at the age of %(age)d years."), _("%(unknown_gender_name)s died %(death_date)s at the age of %(age)d months."), _("%(unknown_gender_name)s died %(death_date)s at the age of %(age)d days."), ], RelLib.Person.MALE : [ _("%(male_name)s died %(death_date)s."), _("%(male_name)s died %(death_date)s at the age of %(age)d years."), _("%(male_name)s died %(death_date)s at the age of %(age)d months."), _("%(male_name)s died %(death_date)s at the age of %(age)d days."), ], RelLib.Person.FEMALE : [ _("%(female_name)s died %(death_date)s."), _("%(female_name)s died %(death_date)s at the age of %(age)d years."), _("%(female_name)s died %(death_date)s at the age of %(age)d months."), _("%(female_name)s died %(death_date)s at the age of %(age)d days."), ], }, ] died_partial_date_with_place = [ { RelLib.Person.UNKNOWN : [ _("This person died in %(month_year)s in %(death_place)s."), _("This person died in %(month_year)s in %(death_place)s at the age of %(age)d years."), _("This person died in %(month_year)s in %(death_place)s at the age of %(age)d months."), _("This person died in %(month_year)s in %(death_place)s at the age of %(age)d days."), ], RelLib.Person.MALE : [ _("He died in %(month_year)s in %(death_place)s."), _("He died in %(month_year)s in %(death_place)s at the age of %(age)d years."), _("He died in %(month_year)s in %(death_place)s at the age of %(age)d months."), _("He died in %(month_year)s in %(death_place)s at the age of %(age)d days."), ], RelLib.Person.FEMALE : [ _("She died in %(month_year)s in %(death_place)s."), _("She died in %(month_year)s in %(death_place)s at the age of %(age)d years."), _("She died in %(month_year)s in %(death_place)s at the age of %(age)d months."), _("She died in %(month_year)s in %(death_place)s at the age of %(age)d days."), ] }, { RelLib.Person.UNKNOWN : [ _("%(unknown_gender_name)s died in %(month_year)s in %(death_place)s."), _("%(unknown_gender_name)s died in %(month_year)s in %(death_place)s at the age of %(age)d years."), _("%(unknown_gender_name)s died in %(month_year)s in %(death_place)s at the age of %(age)d months."), _("%(unknown_gender_name)s died in %(month_year)s in %(death_place)s at the age of %(age)d days."), ], RelLib.Person.MALE : [ _("%(male_name)s died in %(month_year)s in %(death_place)s."), _("%(male_name)s died in %(month_year)s in %(death_place)s at the age of %(age)d years."), _("%(male_name)s died in %(month_year)s in %(death_place)s at the age of %(age)d months."), _("%(male_name)s died in %(month_year)s in %(death_place)s at the age of %(age)d days."), ], RelLib.Person.FEMALE : [ _("%(female_name)s died in %(month_year)s in %(death_place)s."), _("%(female_name)s died in %(month_year)s in %(death_place)s at the age of %(age)d years."), _("%(female_name)s died in %(month_year)s in %(death_place)s at the age of %(age)d months."), _("%(female_name)s died in %(month_year)s in %(death_place)s at the age of %(age)d days."), ], }, ] died_partial_date_no_place = [ { RelLib.Person.UNKNOWN : [ _("This person died in %(month_year)s."), _("This person died in %(month_year)s at the age of %(age)d years."), _("This person died in %(month_year)s at the age of %(age)d months."), _("This person died in %(month_year)s at the age of %(age)d days."), ], RelLib.Person.MALE : [ _("He died in %(month_year)s."), _("He died in %(month_year)s at the age of %(age)d years."), _("He died in %(month_year)s at the age of %(age)d months."), _("He died in %(month_year)s at the age of %(age)d days."), ], RelLib.Person.FEMALE : [ _("She died in %(month_year)s."), _("She died in %(month_year)s at the age of %(age)d years."), _("She died in %(month_year)s at the age of %(age)d months."), _("She died in %(month_year)s at the age of %(age)d days."), ], }, { RelLib.Person.UNKNOWN : [ _("%(unknown_gender_name)s died in %(month_year)s."), _("%(unknown_gender_name)s died in %(month_year)s at the age of %(age)d years."), _("%(unknown_gender_name)s died in %(month_year)s at the age of %(age)d months."), _("%(unknown_gender_name)s died in %(month_year)s at the age of %(age)d days."), ], RelLib.Person.MALE : [ _("%(male_name)s died in %(month_year)s."), _("%(male_name)s died in %(month_year)s at the age of %(age)d years."), _("%(male_name)s died in %(month_year)s at the age of %(age)d months."), _("%(male_name)s died in %(month_year)s at the age of %(age)d days."), ], RelLib.Person.FEMALE : [ _("%(female_name)s died in %(month_year)s."), _("%(female_name)s died in %(month_year)s at the age of %(age)d years."), _("%(female_name)s died in %(month_year)s at the age of %(age)d months."), _("%(female_name)s died in %(month_year)s at the age of %(age)d days."), ], } ] died_no_date_with_place = [ { RelLib.Person.UNKNOWN : [ _("This person died in %(death_place)s."), _("This person died in %(death_place)s at the age of %(age)d years."), _("This person died in %(death_place)s at the age of %(age)d months."), _("This person died in %(death_place)s at the age of %(age)d days."), ], RelLib.Person.MALE : [ _("He died in %(death_place)s."), _("He died in %(death_place)s at the age of %(age)d years."), _("He died in %(death_place)s at the age of %(age)d months."), _("He died in %(death_place)s at the age of %(age)d days."), ], RelLib.Person.FEMALE : [ _("She died in %(death_place)s."), _("She died in %(death_place)s at the age of %(age)d years."), _("She died in %(death_place)s at the age of %(age)d months."), _("She died in %(death_place)s at the age of %(age)d days."), ], }, { RelLib.Person.UNKNOWN : [ _("%(unknown_gender_name)s died in %(death_place)s."), _("%(unknown_gender_name)s died in %(death_place)s at the age of %(age)d years."), _("%(unknown_gender_name)s died in %(death_place)s at the age of %(age)d months."), _("%(unknown_gender_name)s died in %(death_place)s at the age of %(age)d days."), ], RelLib.Person.MALE : [ _("%(male_name)s died in %(death_place)s."), _("%(male_name)s died in %(death_place)s at the age of %(age)d years."), _("%(male_name)s died in %(death_place)s at the age of %(age)d months."), _("%(male_name)s died in %(death_place)s at the age of %(age)d days."), ], RelLib.Person.FEMALE : [ _("%(female_name)s died in %(death_place)s."), _("%(female_name)s died in %(death_place)s at the age of %(age)d years."), _("%(female_name)s died in %(death_place)s at the age of %(age)d months."), _("%(female_name)s died in %(death_place)s at the age of %(age)d days."), ], } ] died_no_date_no_place = [ { RelLib.Person.UNKNOWN : [ "", _("This person died at the age of %(age)d years."), _("This person died at the age of %(age)d months."), _("This person died at the age of %(age)d days."), ], RelLib.Person.MALE : [ "", _("He died at the age of %(age)d years."), _("He died at the age of %(age)d months."), _("He died at the age of %(age)d days."), ], RelLib.Person.FEMALE : [ "", _("She died at the age of %(age)d years."), _("She died at the age of %(age)d months."), _("She died at the age of %(age)d days."), ], }, { RelLib.Person.UNKNOWN : [ "", _("%(unknown_gender_name)s died at the age of %(age)d years."), _("%(unknown_gender_name)s died at the age of %(age)d months."), _("%(unknown_gender_name)s died at the age of %(age)d days."), ], RelLib.Person.MALE : [ "", _("%(male_name)s died at the age of %(age)d years."), _("%(male_name)s died at the age of %(age)d months."), _("%(male_name)s died at the age of %(age)d days."), ], RelLib.Person.FEMALE : [ "", _("%(female_name)s died at the age of %(age)d years."), _("%(female_name)s died at the age of %(age)d months."), _("%(female_name)s died at the age of %(age)d days."), ], }, ] #------------------------------------------------------------------------ # # Buried strings # #------------------------------------------------------------------------ buried_full_date_place = { RelLib.Person.MALE: [ _("%(male_name)s was buried on %(burial_date)s in %(burial_place)s."), _("He was buried on %(burial_date)s in %(burial_place)s."), ], RelLib.Person.FEMALE: [ _("%(female_name)s was buried on %(burial_date)s in %(burial_place)s."), _("She was buried on %(burial_date)s in %(burial_place)s."), ], RelLib.Person.UNKNOWN: [ _("%(unknown_gender_name)s was buried on %(burial_date)s in %(burial_place)s."), _("This person was buried on %(burial_date)s in %(burial_place)s."), ], } buried_full_date_no_place = { RelLib.Person.MALE: [ _("%(male_name)s was buried on %(burial_date)s."), _("He was buried on %(burial_date)s."), ], RelLib.Person.FEMALE: [ _("%(female_name)s was buried on %(burial_date)s."), _("She was buried on %(burial_date)s."), ], RelLib.Person.UNKNOWN: [ _("%(unknown_gender_name)s was buried on %(burial_date)s."), _("This person was buried on %(burial_date)s."), ], } buried_partial_date_place = { RelLib.Person.MALE: [ _("%(male_name)s was buried in %(month_year)s in %(burial_place)s."), _("He was buried in %(month_year)s in %(burial_place)s."), ], RelLib.Person.FEMALE: [ _("%(female_name)s was buried in %(month_year)s in %(burial_place)s."), _("She was buried in %(month_year)s in %(burial_place)s."), ], RelLib.Person.UNKNOWN: [ _("%(unknown_gender_name)s was buried in %(month_year)s in %(burial_place)s."), _("This person was buried in %(month_year)s in %(burial_place)s."), ], } buried_partial_date_no_place = { RelLib.Person.MALE: [ _("%(male_name)s was buried in %(month_year)s."), _("He was buried in %(month_year)s."), ], RelLib.Person.FEMALE: [ _("%(female_name)s was buried in %(month_year)s."), _("She was buried in %(month_year)s."), ], RelLib.Person.UNKNOWN: [ _("%(unknown_gender_name)s was buried in %(month_year)s."), _("This person was buried in %(month_year)s."), ], } buried_modified_date_place = { RelLib.Person.MALE: [ _("%(male_name)s was buried %(modified_date)s in %(burial_place)s."), _("He was buried %(modified_date)s in %(burial_place)s."), ], RelLib.Person.FEMALE: [ _("%(female_name)s was buried %(modified_date)s in %(burial_place)s."), _("She was buried %(modified_date)s in %(burial_place)s."), ], RelLib.Person.UNKNOWN: [ _("%(unknown_gender_name)s was buried %(modified_date)s in %(burial_place)s."), _("This person was buried %(modified_date)s in %(burial_place)s."), ], } buried_modified_date_no_place = { RelLib.Person.MALE: [ _("%(male_name)s was buried %(modified_date)s."), _("He was buried %(modified_date)s."), ], RelLib.Person.FEMALE: [ _("%(female_name)s was buried %(modified_date)s."), _("She was buried %(modified_date)s."), ], RelLib.Person.UNKNOWN: [ _("%(unknown_gender_name)s was buried %(modified_date)s."), _("This person was buried %(modified_date)s."), ], } buried_no_date_place = { RelLib.Person.MALE : [ _("%(male_name)s was buried in %(burial_place)s."), _("He was buried in %(burial_place)s."), ], RelLib.Person.FEMALE : [ _("%(female_name)s was buried in %(burial_place)s."), _("She was buried in %(burial_place)s."), ], RelLib.Person.UNKNOWN : [ _("%(unknown_gender_name)s was buried in %(burial_place)s."), _("This person was buried in %(burial_place)s."), ], } buried_no_date_no_place = { RelLib.Person.MALE : [ _("%(male_name)s was buried."), _("He was buried."), ], RelLib.Person.FEMALE : [ _("%(female_name)s was buried."), _("She was buried."), ], RelLib.Person.UNKNOWN : [ _("%(unknown_gender_name)s was buried."), _("This person was buried."), ] } #------------------------------------------------------------------------ # # Marriage strings # #------------------------------------------------------------------------ marriage_first_date_place = { RelLib.Person.UNKNOWN : [ _('This person married %(spouse)s in %(partial_date)s in %(place)s%(endnotes)s.'), _('This person married %(spouse)s on %(full_date)s in %(place)s%(endnotes)s.'), _('This person married %(spouse)s %(modified_date)s in %(place)s%(endnotes)s.'), ], RelLib.Person.MALE : [ _('He married %(spouse)s in %(partial_date)s in %(place)s%(endnotes)s.'), _('He married %(spouse)s on %(full_date)s in %(place)s%(endnotes)s.'), _('He married %(spouse)s %(modified_date)s in %(place)s%(endnotes)s.'), ], RelLib.Person.FEMALE : [ _('She married %(spouse)s in %(partial_date)s in %(place)s%(endnotes)s.'), _('She married %(spouse)s on %(full_date)s in %(place)s%(endnotes)s.'), _('She married %(spouse)s %(modified_date)s in %(place)s%(endnotes)s.'), ], } marriage_also_date_place = { RelLib.Person.UNKNOWN : [ _('This person also married %(spouse)s in %(partial_date)s in %(place)s%(endnotes)s.'), _('This person also married %(spouse)s on %(full_date)s in %(place)s%(endnotes)s.'), _('This person also married %(spouse)s %(modified_date)s in %(place)s%(endnotes)s.'), ], RelLib.Person.MALE : [ _('He also married %(spouse)s in %(partial_date)s in %(place)s%(endnotes)s.'), _('He also married %(spouse)s on %(full_date)s in %(place)s%(endnotes)s.'), _('He also married %(spouse)s %(modified_date)s in %(place)s%(endnotes)s.'), ], RelLib.Person.FEMALE : [ _('She also married %(spouse)s in %(partial_date)s in %(place)s%(endnotes)s.'), _('She also married %(spouse)s on %(full_date)s in %(place)s%(endnotes)s.'), _('She also married %(spouse)s %(modified_date)s in %(place)s%(endnotes)s.'), ], } marriage_first_date = { RelLib.Person.UNKNOWN : [ _('This person married %(spouse)s in %(partial_date)s%(endnotes)s.'), _('This person married %(spouse)s on %(full_date)s%(endnotes)s.'), _('This person married %(spouse)s %(modified_date)s%(endnotes)s.'), ], RelLib.Person.MALE : [ _('He married %(spouse)s in %(partial_date)s%(endnotes)s.'), _('He married %(spouse)s on %(full_date)s%(endnotes)s.'), _('He married %(spouse)s %(modified_date)s%(endnotes)s.'), ], RelLib.Person.FEMALE : [ _('She married %(spouse)s in %(partial_date)s%(endnotes)s.'), _('She married %(spouse)s on %(full_date)s%(endnotes)s.'), _('She married %(spouse)s %(modified_date)s%(endnotes)s.'), ], } marriage_also_date = { RelLib.Person.UNKNOWN : [ _('This person also married %(spouse)s in %(partial_date)s%(endnotes)s.'), _('This person also married %(spouse)s on %(full_date)s%(endnotes)s.'), _('This person also married %(spouse)s %(modified_date)s%(endnotes)s.'), ], RelLib.Person.MALE : [ _('He also married %(spouse)s in %(partial_date)s%(endnotes)s.'), _('He also married %(spouse)s on %(full_date)s%(endnotes)s.'), _('He also married %(spouse)s %(modified_date)s%(endnotes)s.'), ], RelLib.Person.FEMALE : [ _('She also married %(spouse)s in %(partial_date)s%(endnotes)s.'), _('She also married %(spouse)s on %(full_date)s%(endnotes)s.'), _('She also married %(spouse)s %(modified_date)s%(endnotes)s.'), ], } marriage_first_place = { RelLib.Person.UNKNOWN : _('This person married %(spouse)s in %(place)s%(endnotes)s.'), RelLib.Person.MALE : _('He married %(spouse)s in %(place)s%(endnotes)s.'), RelLib.Person.FEMALE : _('She married %(spouse)s in %(place)s%(endnotes)s.'), } marriage_also_place = { RelLib.Person.UNKNOWN : _('This person also married %(spouse)s in %(place)s%(endnotes)s.'), RelLib.Person.MALE : _('He also married %(spouse)s in %(place)s%(endnotes)s.'), RelLib.Person.FEMALE : _('She also married %(spouse)s in %(place)s%(endnotes)s.'), } marriage_first_only = { RelLib.Person.UNKNOWN : _('This person married %(spouse)s%(endnotes)s.'), RelLib.Person.MALE : _('He married %(spouse)s%(endnotes)s.'), RelLib.Person.FEMALE : _('She married %(spouse)s%(endnotes)s.'), } marriage_also_only = { RelLib.Person.UNKNOWN : _('This person also married %(spouse)s%(endnotes)s.'), RelLib.Person.MALE : _('He also married %(spouse)s%(endnotes)s.'), RelLib.Person.FEMALE : _('She also married %(spouse)s%(endnotes)s.'), } #------------------------------------------------------------------------- # # child to parent relationships # #------------------------------------------------------------------------- child_father_mother = { RelLib.Person.UNKNOWN: [ [ _("This person is the child of %(father)s and %(mother)s."), _("This person was the child of %(father)s and %(mother)s."), ], [ _("%(male_name)s is the child of %(father)s and %(mother)s."), _("%(male_name)s was the child of %(father)s and %(mother)s."), ], ], RelLib.Person.MALE : [ [ _("He is the son of %(father)s and %(mother)s."), _("He was the son of %(father)s and %(mother)s."), ], [ _("%(male_name)s is the son of %(father)s and %(mother)s."), _("%(male_name)s was the son of %(father)s and %(mother)s."), ] ], RelLib.Person.FEMALE : [ [ _("She is the daughter of %(father)s and %(mother)s."), _("She was the daughter of %(father)s and %(mother)s."), ], [ _("%(female_name)s is the daughter of %(father)s and %(mother)s."), _("%(female_name)s was the daughter of %(father)s and %(mother)s."), ], ] } child_father = { RelLib.Person.UNKNOWN : [ [ _("This person is the child of %(father)s."), _("This person was the child of %(father)s."), ], [ _("%(male_name)s is the child of %(father)s."), _("%(male_name)s was the child of %(father)s."), ], ], RelLib.Person.MALE : [ [ _("He is the son of %(father)s."), _("He was the son of %(father)s."), ], [ _("%(male_name)s is the son of %(father)s."), _("%(male_name)s was the son of %(father)s."), ], ], RelLib.Person.FEMALE : [ [ _("She is the daughter of %(father)s."), _("She was the daughter of %(father)s."), ], [ _("%(female_name)s is the daughter of %(father)s."), _("%(female_name)s was the daughter of %(father)s."), ], ], } child_mother = { RelLib.Person.UNKNOWN : [ [ _("This person is the child of %(mother)s."), _("This person was the child of %(mother)s."), ], [ _("%(male_name)s is the child of %(mother)s."), _("%(male_name)s was the child of %(mother)s."), ], ], RelLib.Person.MALE : [ [ _("He is the son of %(mother)s."), _("He was the son of %(mother)s."), ], [ _("%(male_name)s is the son of %(mother)s."), _("%(male_name)s was the son of %(mother)s."), ], ], RelLib.Person.FEMALE : [ [ _("She is the daughter of %(mother)s."), _("She was the daughter of %(mother)s."), ], [ _("%(female_name)s is the daughter of %(mother)s."), _("%(female_name)s was the daughter of %(mother)s."), ], ], } #------------------------------------------------------------------------- # # relationship types # #------------------------------------------------------------------------- _rtype = { RelLib.FamilyRelType.UNMARRIED : _("unmarried"), RelLib.FamilyRelType.CIVIL_UNION : _("civil union"), RelLib.FamilyRelType.UNKNOWN : _("Unknown"), RelLib.FamilyRelType.CUSTOM : _("Other"), } #------------------------------------------------------------------------- # # Convert points to cm and back # #------------------------------------------------------------------------- def pt2cm(pt): """ Converts points to centimeters. Fonts are typically specified in points, but the BaseDoc classes use centimeters. @param pt: points @type pt: float or int @returns: equivalent units in centimeters @rtype: float """ return pt/28.3465 def cm2pt(cm): """ Converts centimeters to points. Fonts are typically specified in points, but the BaseDoc classes use centimeters. @param cm: centimeters @type cm: float or int @returns: equivalent units in points @rtype: float """ return cm*28.3465 def rgb_color(color): """ Converts color value from 0-255 integer range into 0-1 float range. @param color: list or tuple of integer values for red, green, and blue @type color: int @returns: (r,g,b) tuple of floating point color values @rtype: 3-tuple """ r = float(color[0])/255.0 g = float(color[1])/255.0 b = float(color[2])/255.0 return (r,g,b) def draw_wedge(doc, style, centerx, centery, radius, start_angle, end_angle, short_radius=0): from math import pi, cos, sin while end_angle < start_angle: end_angle += 360 p = [] degreestoradians = pi / 180.0 radiansdelta = degreestoradians / 2 sangle = start_angle * degreestoradians eangle = end_angle * degreestoradians while eangle < sangle: eangle = eangle + 2 * pi angle = sangle if short_radius == 0: if (end_angle - start_angle) != 360: p.append((centerx, centery)) else: origx = (centerx + cos(angle) * short_radius) origy = (centery + sin(angle) * short_radius) p.append((origx, origy)) while angle < eangle: x = centerx + cos(angle) * radius y = centery + sin(angle) * radius p.append((x, y)) angle = angle + radiansdelta x = centerx + cos(eangle) * radius y = centery + sin(eangle) * radius p.append((x, y)) if short_radius: x = centerx + cos(eangle) * short_radius y = centery + sin(eangle) * short_radius p.append((x, y)) angle = eangle while angle >= sangle: x = centerx + cos(angle) * short_radius y = centery + sin(angle) * short_radius p.append((x, y)) angle = angle - radiansdelta doc.draw_path(style, p) delta = (eangle - sangle) / 2.0 rad = short_radius + (radius - short_radius) / 2.0 return ( (centerx + cos(sangle + delta) * rad), (centery + sin(sangle + delta) * rad)) def draw_pie_chart(doc, center_x, center_y, radius, data, start=0): """ Draws a pie chart in the specified document. The data passed is plotted as a pie chart. The data should consist of the actual data. Percentages of each slice are determined by the routine. @param doc: Document to which the pie chart should be added @type doc: BaseDoc derived class @param center_x: x coordinate in centimeters where the center of the pie chart should be. 0 is the left hand edge of the document. @type center_x: float @param center_y: y coordinate in centimeters where the center of the pie chart should be. 0 is the top edge of the document @type center_y: float @param radius: radius of the pie chart. The pie charts width and height will be twice this value. @type radius: float @param data: List of tuples containing the data to be plotted. The values are (graphics_format, value), where graphics_format is a BaseDoc GraphicsStyle, and value is a floating point number. Any other items in the tuple are ignored. This allows you to share the same data list with the L{draw_legend} function. @type data: list @param start: starting point in degrees, where the default of 0 indicates a start point extending from the center to right in a horizontal line. @type start: float """ total = 0.0 for item in data: total += item[1] for item in data: incr = 360.0*(item[1]/total) draw_wedge(doc,item[0], center_x, center_y, radius, start, start + incr) start += incr def draw_legend(doc, start_x, start_y, data, title, label_style): """ Draws a legend for a graph in the specified document. The data passed is used to define the legend. First item style is used for the optional Legend title. @param doc: Document to which the legend chart should be added @type doc: BaseDoc derived class @param start_x: x coordinate in centimeters where the left hand corner of the legend is placed. 0 is the left hand edge of the document. @type start_x: float @param start_y: y coordinate in centimeters where the top of the legend should be. 0 is the top edge of the document @type start_y: float @param data: List of tuples containing the data to be used to create the legend. In order to be compatible with the graph plots, the first and third values of the tuple used. The format is (graphics_format, value, legend_description). @type data: list """ if title: gstyle = doc.get_draw_style(label_style) pstyle = gstyle.get_paragraph_style() size = pt2cm(doc.get_style(pstyle).get_font().get_size()) doc.draw_text(label_style, title, start_x + (3*size), start_y - (size*0.25)) start_y += size * 1.3 for (format, size, legend) in data: gstyle = doc.get_draw_style(format) pstyle = gstyle.get_paragraph_style() size = pt2cm(doc.get_style(pstyle).get_font().get_size()) doc.draw_box(format, "", start_x, start_y, (2*size), size) doc.draw_text(label_style, legend, start_x + (3*size), start_y - (size*0.25)) start_y += size * 1.3 def draw_vertical_bar_graph(doc, format, start_x, start_y, height, width, data): """ Draws a vertical bar chart in the specified document. The data passed should consist of the actual data. The bars are scaled appropriately by the routine. @param doc: Document to which the bar chart should be added @type doc: BaseDoc derived class @param start_x: x coordinate in centimeters where the left hand side of the chart should be. 0 is the left hand edge of the document. @type start_x: float @param start_y: y coordinate in centimeters where the top of the chart should be. 0 is the top edge of the document @type start_y: float @param height: height of the graph in centimeters @type height: float @param width: width of the graph in centimeters @type width: float @param data: List of tuples containing the data to be plotted. The values are (graphics_format, value), where graphics_format is a BaseDoc GraphicsStyle, and value is a floating point number. Any other items in the tuple are ignored. This allows you to share the same data list with the L{draw_legend} function. @type data: list """ doc.draw_line(format,start_x,start_y+height,start_x,start_y) doc.draw_line(format,start_x,start_y+height,start_x+width,start_y+height) largest = 0.0 for item in data: largest = max(item[1],largest) scale = float(height)/float(largest) units = len(data) box_width = (float(width) / (units*3.0+1.0))*2 box_height = float(height) bottom = float(start_y)+float(height) start = 0.5*box_width + start_x for index in range(units): size = float(data[index][1]) * scale doc.draw_box(data[index][0],"",start,bottom-size,box_width,box_height) start += box_width * 1.5 _t = time.localtime(time.time()) _TODAY = DateHandler.parser.parse("%04d-%02d-%02d" % (_t[0],_t[1],_t[2])) def estimate_age(db, person, end_handle=None, start_handle=None, today=_TODAY): """ Estimates the age of a person based off the birth and death dates of the person. A tuple containing the estimated upper and lower bounds of the person's age is returned. If either the birth or death date is missing, a (-1,-1) is returned. @param db: GRAMPS database to which the Person object belongs @type db: GrampsDbBase @param person: Person object to calculate the age of @type person: Person @param end_handle: Determines the event handle that determines the upper limit of the age. If None, the death event is used @type end_handle: str @param start_handle: Determines the event handle that determines the lower limit of the event. If None, the birth event is used @type start_handle: str @returns: tuple containing the lower and upper bounds of the person's age, or (-1,-1) if it could not be determined. @rtype: tuple """ bhandle = None if start_handle: bhandle = start_handle else: bref = person.get_birth_ref() if bref: bhandle = bref.get_reference_handle() dhandle = None if end_handle: dhandle = end_handle else: dref = person.get_death_ref() if dref: dhandle = dref.get_reference_handle() # if either of the events is not defined, return an error message if not bhandle: return (-1,-1) bdata = db.get_event_from_handle(bhandle).get_date_object() if dhandle: ddata = db.get_event_from_handle(dhandle).get_date_object() else: if today != None: ddata = today else: return (-1,-1) # if the date is not valid, return an error message if not bdata.get_valid() or not ddata.get_valid(): return (-1,-1) # if a year is not valid, return an error message if not bdata.get_year_valid() or not ddata.get_year_valid(): return (-1,-1) bstart = bdata.get_start_date() bstop = bdata.get_stop_date() dstart = ddata.get_start_date() dstop = ddata.get_stop_date() def _calc_diff(low,high): if (low[1],low[0]) > (high[1],high[0]): return high[2] - low[2] - 1 else: return high[2] - low[2] if bstop == RelLib.Date.EMPTY and dstop == RelLib.Date.EMPTY: lower = _calc_diff(bstart,dstart) age = (lower, lower) elif bstop == RelLib.Date.EMPTY: lower = _calc_diff(bstart,dstart) upper = _calc_diff(bstart,dstop) age = (lower,upper) elif dstop == RelLib.Date.EMPTY: lower = _calc_diff(bstop,dstart) upper = _calc_diff(bstart,dstart) age = (lower,upper) else: lower = _calc_diff(bstop,dstart) upper = _calc_diff(bstart,dstop) age = (lower,upper) return age def estimate_age_on_date(db, person, ddata=_TODAY): """ This will be replaced with something similar to probably_alive """ bhandle = None bref = person.get_birth_ref() if bref: bhandle = bref.get_reference_handle() if not bhandle: return (-1,-1) bdata = db.get_event_from_handle(bhandle).get_date_object() # if the date is not valid, return an error message if not bdata.get_valid() or not ddata.get_valid(): return (-1,-1) # if a year is not valid, return an error message if not bdata.get_year_valid() or not ddata.get_year_valid(): return (-1,-1) bstart = bdata.get_start_date() bstop = bdata.get_stop_date() dstart = ddata.get_start_date() dstop = ddata.get_stop_date() def _calc_diff(low,high): if (low[1],low[0]) > (high[1],high[0]): return high[2] - low[2] - 1 else: return high[2] - low[2] if bstop == RelLib.Date.EMPTY and dstop == RelLib.Date.EMPTY: lower = _calc_diff(bstart,dstart) age = [lower, lower] elif bstop == RelLib.Date.EMPTY: lower = _calc_diff(bstart,dstart) upper = _calc_diff(bstart,dstop) age = [lower,upper] elif dstop == RelLib.Date.EMPTY: lower = _calc_diff(bstop,dstart) upper = _calc_diff(bstart,dstart) age = [lower,upper] else: lower = _calc_diff(bstop,dstart) upper = _calc_diff(bstart,dstop) age = [lower,upper] if age[0] < 0 and age[1] < 0: age = (-1, -1) elif age[0] > 120 and age[1] > 120: age = (-1, -1) return age def sanitize_list(obj_list,exclude_private): """ Removes private objects from the list. @param obj_list: objects that have a privacy flag @type obj_list: list @param exclude_private: indicates if objects marked private are eliminated from the list @type exclude_private: bool @returns: objects that match the privacy request @rtype: list """ if exclude_private: return [obj for obj in obj_list if not obj.private] else: return obj_list def sanitize_media_ref_list(db, media_ref_list, exclude_private): """ Removes private references and references to private objects from the list. @param db: GRAMPS database to which the references belongs @type db: GrampsDbBase @param ref_list: references to objects that have a privacy flag @type ref_list: list @param exclude_private: indicates if objects marked private are eliminated from the list @type exclude_private: bool @returns: references to objects that match the privacy request @rtype: list """ if exclude_private == True: new_list = [] for media_ref in media_ref_list: if media_ref.get_privacy() == False: handle = media_ref.get_reference_handle() media_object = db.get_object_from_handle(handle) if media_object.get_privacy() == False: new_list.append(media_ref) return new_list else: return media_ref_list def sanitize_person(db,person): """ Creates a new Person instance based off the passed Person instance. The returned instance has all private records removed from it. @param db: GRAMPS database to which the Person object belongs @type db: GrampsDbBase @param person: source Person object that will be copied with privacy records removed @type person: Person @returns: 'cleansed' Person object @rtype: Person """ new_person = RelLib.Person() # copy gender new_person.set_gender(person.get_gender()) new_person.set_gramps_id(person.get_gramps_id()) new_person.set_handle(person.get_handle()) # copy names if not private name = person.get_primary_name() if name.get_privacy() or person.get_privacy(): name = RelLib.Name() name.set_surname(_('Private')) new_person.set_primary_name(name) # copy Family reference list for handle in person.get_family_handle_list(): new_person.add_family_handle(handle) # copy Family reference list for item in person.get_parent_family_handle_list(): new_person.add_parent_family_handle(item) if person.get_privacy(): return new_person for name in person.get_alternate_names(): if not name.get_privacy(): new_person.add_alternate_name(name) # set complete flag new_person.set_marker(person.get_marker()) # copy event list for event_ref in person.get_event_ref_list(): if event_ref and event_ref.get_privacy() == False: event = db.get_event_from_handle(event_ref.ref) if not event.get_privacy(): new_person.add_event_ref(event_ref) # Copy birth and death after event list to maintain the order. # copy birth event event_ref = person.get_birth_ref() if event_ref and event_ref.get_privacy() == False: event = db.get_event_from_handle(event_ref.ref) if not event.get_privacy(): new_person.set_birth_ref(event_ref) # copy death event event_ref = person.get_death_ref() if event_ref and event_ref.get_privacy() == False: event = db.get_event_from_handle(event_ref.ref) if not event.get_privacy(): new_person.set_death_ref(event_ref) # copy address list for address in person.get_address_list(): if not address.get_privacy(): new_person.add_address(RelLib.Address(address)) # copy attribute list for attribute in person.get_attribute_list(): if not attribute.get_privacy(): new_person.add_attribute(RelLib.Attribute(attribute)) # copy source references for ref in person.get_source_references(): if not ref.get_privacy(): handle = ref.get_reference_handle() source = db.get_source_from_handle(handle) if source.get_privacy() == False: new_person.add_source_reference(RelLib.SourceRef(ref)) # copy URL list for url in person.get_url_list(): if not url.get_privacy(): new_person.add_url(url) # copy Media reference list clean_list = sanitize_media_ref_list(db,person.get_media_list(),True) for ref in clean_list: new_person.add_media_reference(RelLib.MediaRef(ref)) # LDS ordinances for lds_ord in person.get_lds_ord_list(): lds_type = lds_ord.get_type() if lds_type == RelLib.LdsOrd.BAPTISM or \ lds_type == RelLib.LdsOrd.ENDOWMENT or \ lds_type == RelLib.LdsOrd.SEAL_TO_PARENTS or \ lds_type == RelLib.LdsOrd.SEAL_TO_SPOUSE : new_person.add_lds_ord( lds_ord ) new_person.set_note_list(person.get_note_list()) return new_person def dont_restrict(db,person): return person def restrict_with_names(db,person): return restrict_person(db,person,False) def restrict_no_names(db,person): return restrict_person(db,person,True) def restrict_person(db,person,no_names=False): """ Creates a new Person instance based off the passed Person instance. The returned instance has all private records removed from it. @param db: GRAMPS database to which the Person object belongs @type db: GrampsDbBase @param person: source Person object that will be copied with privacy records removed @type person: Person @returns: 'cleansed' Person object @rtype: Person """ new_person = RelLib.Person() # copy gender new_person.set_gender(person.get_gender()) new_person.set_gramps_id(person.get_gramps_id()) new_person.set_handle(person.get_handle()) # copy names if not private if no_names: name = RelLib.Name() name.set_surname(_('Private')) else: name = person.get_primary_name() name.set_source_reference_list([]) new_person.set_primary_name(name) # copy Family reference list for handle in person.get_family_handle_list(): new_person.add_family_handle(handle) # copy Family reference list for item in person.get_parent_family_handle_list(): new_person.add_parent_family_handle(item[0],item[1],item[2]) return new_person #------------------------------------------------------------------------- # # Roman numbers # #------------------------------------------------------------------------- def roman(num): """ Integer to Roman numeral converter for 0 < num < 4000 """ if type(num) != int: return "?" if not 0 < num < 4000: return "?" vals = (1000, 900, 500, 400, 100, 90, 50, 40, 10, 9, 5, 4, 1) nums = ( 'M','CM', 'D','CD', 'C','XC', 'L','XL', 'X','IX', 'V','IV', 'I') retval = "" for i in range(len(vals)): amount = int(num / vals[i]) retval += nums[i] * amount num -= vals[i] * amount return retval #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- def place_name(db,place_handle): if place_handle: place = db.get_place_from_handle(place_handle).get_title() else: place = "" return place #------------------------------------------------------------------------- # # Functions commonly used in reports # #------------------------------------------------------------------------- def insert_image(database, doc, photo, w_cm=4.0, h_cm=4.0): """ Insert pictures of a person into the document. """ object_handle = photo.get_reference_handle() media_object = database.get_object_from_handle(object_handle) mime_type = media_object.get_mime_type() if mime_type and mime_type.startswith("image"): filename = media_object.get_path() if os.path.exists(filename): doc.add_media_object(filename,"right",w_cm,h_cm) else: WarningDialog(_("Could not add photo to page"), "%s: %s" % (filename, _('File does not exist'))) #------------------------------------------------------------------------- # # Strings commonly used in reports # #------------------------------------------------------------------------- def empty_notes(whatever): # Empty stab function for when endnotes are not needed return "" def get_birth_death_strings(database,person,empty_date="",empty_place=""): """ Returns strings for dates and places of birth and death. """ bplace = dplace = empty_place bdate = ddate = empty_date bdate_full = ddate_full = False bdate_mod = False ddate_mod = False birth_ref = person.get_birth_ref() if birth_ref and birth_ref.ref: birth = database.get_event_from_handle(birth_ref.ref) if birth: bdate = DateHandler.get_date(birth) bplace_handle = birth.get_place_handle() if bplace_handle: bplace = database.get_place_from_handle(bplace_handle).get_title() bdate_obj = birth.get_date_object() bdate_full = bdate_obj and bdate_obj.get_day_valid() bdate_mod = bdate_obj and bdate_obj.get_modifier() != RelLib.Date.MOD_NONE death_ref = person.get_death_ref() if death_ref and death_ref.ref: death = database.get_event_from_handle(death_ref.ref) if death: ddate = DateHandler.get_date(death) dplace_handle = death.get_place_handle() if dplace_handle: dplace = database.get_place_from_handle(dplace_handle).get_title() ddate_obj = death.get_date_object() ddate_full = ddate_obj and ddate_obj.get_day_valid() ddate_mod = ddate_obj and ddate_obj.get_modifier() != RelLib.Date.MOD_NONE return (bdate,bplace,bdate_full,bdate_mod,ddate,dplace,ddate_full,ddate_mod) def born_died_str(database,person,endnotes=None,name_object=None,person_name=None): """ Composes a string describing birth and death of a person. Missing information will be omitted without loss of readability. Optional references may be added to birth and death events. Optional Name object may be used to override a person's Name instance. Optional string may be used to override the string representation of a name. @param database: GRAMPS database to which the Person object belongs @type database: GrampsDbBase @param person: Person instance for which the string has to be composed @type person: Person @param endnotes: Function to use for reference composition. If None then references will not be added @type endnotes: function @param name_object: Name instance for which the phrase is composed. If None then the regular primary name of the person will be used @type name_object: Name @param person_name: String to override the person's name. If None then the regular primary name string will be used @type person_name: unicode @returns: A composed string @rtype: unicode """ if not endnotes: endnotes = empty_notes if not name_object: name_object = person.get_primary_name() if person_name == None: person_name = _nd.display_name(name_object) elif person_name == 0: if person.get_gender() == RelLib.Person.MALE: person_name = _('He') else: person_name = _('She') bdate,bplace,bdate_full,bdate_mod,ddate,dplace,ddate_full,ddate_mod = \ get_birth_death_strings(database,person) birth = None birth_ref = person.get_birth_ref() if birth_ref: birth = database.get_event_from_handle(birth_ref.ref) death = None death_ref = person.get_death_ref() if death_ref: death = database.get_event_from_handle(death_ref.ref) values = { 'unknown_gender_name' : person_name, 'name' : person_name, 'male_name' : person_name, 'female_name' : person_name, 'endnotes' : endnotes(name_object), 'birth_date' : bdate, 'birth_place' : bplace, 'birth_endnotes' : endnotes(birth), 'death_date' : ddate, 'death_place' : dplace, 'death_endnotes' : endnotes(death), } if person.get_gender() == RelLib.Person.MALE: if bdate: if bplace: if ddate: if dplace: text = _("%(male_name)s%(endnotes)s " "was born %(birth_date)s in %(birth_place)s%(birth_endnotes)s, " "and died %(death_date)s in %(death_place)s%(death_endnotes)s.") % values else: text = _("%(male_name)s%(endnotes)s " "was born %(birth_date)s in %(birth_place)s%(birth_endnotes)s, " "and died %(death_date)s%(death_endnotes)s.") % values else: if dplace: text = _("%(male_name)s%(endnotes)s " "was born %(birth_date)s in %(birth_place)s%(birth_endnotes)s, " "and died in %(death_place)s%(death_endnotes)s.") % values else: text = _("%(male_name)s%(endnotes)s " "was born %(birth_date)s in %(birth_place)s%(birth_endnotes)s.") % values else: if ddate: if dplace: text = _("%(male_name)s%(endnotes)s " "was born %(birth_date)s%(birth_endnotes)s, " "and died %(death_date)s in %(death_place)s%(death_endnotes)s.") % values else: text = _("%(male_name)s%(endnotes)s " "was born %(birth_date)s%(birth_endnotes)s, " "and died %(death_date)s%(death_endnotes)s.") % values else: if dplace: text = _("%(male_name)s%(endnotes)s " "was born %(birth_date)s%(birth_endnotes)s, " "and died in %(death_place)s%(death_endnotes)s.") % values else: text = _("%(male_name)s%(endnotes)s " "was born %(birth_date)s%(birth_endnotes)s.") % values else: if bplace: if ddate: if dplace: text = _("%(male_name)s%(endnotes)s " "was born in %(birth_place)s%(birth_endnotes)s, " "and died %(death_date)s in %(death_place)s%(death_endnotes)s.") % values else: text = _("%(male_name)s%(endnotes)s " "was born in %(birth_place)s%(birth_endnotes)s, " "and died %(death_date)s%(death_endnotes)s.") % values else: if dplace: text = _("%(male_name)s%(endnotes)s " "was born in %(birth_place)s%(birth_endnotes)s, " "and died in %(death_place)s%(death_endnotes)s.") % values else: text = _("%(male_name)s%(endnotes)s " "was born in %(birth_place)s%(birth_endnotes)s.") % values else: if ddate: if dplace: text = _("%(male_name)s%(endnotes)s " "died %(death_date)s in %(death_place)s%(death_endnotes)s.") % values else: text = _("%(male_name)s%(endnotes)s " "died %(death_date)s%(death_endnotes)s.") % values else: if dplace: text = _("%(male_name)s%(endnotes)s " "died in %(death_place)s%(death_endnotes)s.") % values else: text = _("%(male_name)s%(endnotes)s.") % values else: if bdate: if bplace: if ddate: if dplace: text = _("%(female_name)s%(endnotes)s " "was born %(birth_date)s in %(birth_place)s%(birth_endnotes)s, " "and died %(death_date)s in %(death_place)s%(death_endnotes)s.") % values else: text = _("%(female_name)s%(endnotes)s " "was born %(birth_date)s in %(birth_place)s%(birth_endnotes)s, " "and died %(death_date)s%(death_endnotes)s.") % values else: if dplace: text = _("%(female_name)s%(endnotes)s " "was born %(birth_date)s in %(birth_place)s%(birth_endnotes)s, " "and died in %(death_place)s%(death_endnotes)s.") % values else: text = _("%(female_name)s%(endnotes)s " "was born %(birth_date)s in %(birth_place)s%(birth_endnotes)s.") % values else: if ddate: if dplace: text = _("%(female_name)s%(endnotes)s " "was born %(birth_date)s%(birth_endnotes)s, " "and died %(death_date)s in %(death_place)s%(death_endnotes)s.") % values else: text = _("%(female_name)s%(endnotes)s " "was born %(birth_date)s%(birth_endnotes)s, " "and died %(death_date)s%(death_endnotes)s.") % values else: if dplace: text = _("%(female_name)s%(endnotes)s " "was born %(birth_date)s%(birth_endnotes)s, " "and died in %(death_place)s%(death_endnotes)s.") % values else: text = _("%(female_name)s%(endnotes)s " "was born %(birth_date)s%(birth_endnotes)s.") % values else: if bplace: if ddate: if dplace: text = _("%(female_name)s%(endnotes)s " "was born in %(birth_place)s%(birth_endnotes)s, " "and died %(death_date)s in %(death_place)s%(death_endnotes)s.") % values else: text = _("%(female_name)s%(endnotes)s " "was born in %(birth_place)s%(birth_endnotes)s, " "and died %(death_date)s%(death_endnotes)s.") % values else: if dplace: text = _("%(female_name)s%(endnotes)s " "was born in %(birth_place)s%(birth_endnotes)s, " "and died in %(death_place)s%(death_endnotes)s.") % values else: text = _("%(female_name)s%(endnotes)s " "was born in %(birth_place)s%(birth_endnotes)s.") % values else: if ddate: if dplace: text = _("%(female_name)s%(endnotes)s " "died %(death_date)s in %(death_place)s%(death_endnotes)s.") % values else: text = _("%(female_name)s%(endnotes)s " "died %(death_date)s%(death_endnotes)s.") % values else: if dplace: text = _("%(female_name)s%(endnotes)s " "died in %(death_place)s%(death_endnotes)s.") % values else: text = _("%(female_name)s%(endnotes)s.") % values if text: text = text + " " return text #------------------------------------------------------------------------- # # married_str # #------------------------------------------------------------------------- def married_str(database,person,spouse,event,endnotes=None, empty_date="",empty_place="",is_first=True): """ Composes a string describing marriage of a person. Missing information will be omitted without loss of readability. Optional references may be added to birth and death events. @param database: GRAMPS database to which the Person object belongs @type database: GrampsDbBase @param person: Person instance whose marriage is discussed @type person: Person @param spouse: Person instance to use as a spouse @type spouse: Person @param event: Event instance of marriage @type event: Event @param endnotes: Function to use for reference composition. If None then references will not be added @type endnotes: function @returns: A composed string @rtype: unicode """ # not all families have a spouse. if not spouse: return u"" if not endnotes: endnotes = empty_notes date = empty_date place = empty_place spouse_name = _nd.display(spouse) mdate = DateHandler.get_date(event) if mdate: date = mdate place_handle = event.get_place_handle() if place_handle: place = database.get_place_from_handle(place_handle).get_title() values = { 'spouse' : spouse_name, 'endnotes' : endnotes(event), 'full_date' : date, 'modified_date' : date, 'partial_date' : date, 'place' : place, } dobj = event.get_date_object() if dobj.get_modifier() != RelLib.Date.MOD_NONE: date_full = 2 elif dobj and dobj.get_day_valid(): date_full = 1 else: date_full = 0 gender = person.get_gender() if is_first: if date and place: text = marriage_first_date_place[gender][date_full] % values elif date: text = marriage_first_date[gender][date_full] % values elif place: text = marriage_first_place[gender] % values else: text = marriage_first_only[gender] % values else: if date and place: text = marriage_also_date_place[gender][date_full] % values elif date: text = marriage_also_date[gender][date_full] % values elif place: text = marriage_also_place[gender] % values else: text = marriage_also_only[gender] % values if text: text = text + " " return text #------------------------------------------------------------------------- # # relationship types # #------------------------------------------------------------------------- def married_rel_str(database,person,family,is_first=True): """ Composes a string describing marriage of a person. Missing information will be omitted without loss of readability. Optional references may be added to birth and death events. @param database: GRAMPS database to which the Person object belongs @type database: GrampsDbBase @param person: Person instance whose marriage is discussed @type person: Person @param family: Family instance whose marriage is discussed @type family: Family @param is_first: Indicates if this is a first marriage @type is_first: bool @returns: A composed string @rtype: unicode """ spouse_handle = find_spouse(person,family) spouse = database.get_person_from_handle(spouse_handle) # not all families have a spouse. if not spouse_handle or not spouse: return u"" values = { 'spouse' :_nd.display(spouse) } relationship = family.get_relationship() if is_first: if relationship == RelLib.FamilyRelType.MARRIED: if person.get_gender() == RelLib.Person.MALE: text = _('He married %(spouse)s.') % values elif person.get_gender() == RelLib.Person.FEMALE: text = _('She married %(spouse)s.') % values else: text = _('This person married %(spouse)s.') % values elif relationship == RelLib.FamilyRelType.UNMARRIED: if person.get_gender() == RelLib.Person.MALE: text = _('He had an unmarried relationship with %(spouse)s.') % values elif person.get_gender() == RelLib.Person.FEMALE: text = _('This person had an unmarried relationship with %(spouse)s.') % values else: text = _('She had an unmarried relationship with %(spouse)s.') % values else: if person.get_gender() == RelLib.Person.MALE: text = _('He had relationship with %(spouse)s.') % values elif person.get_gender() == RelLib.Person.FEMALE: text = _('She had relationship with %(spouse)s.') % values else: text = _('This person had relationship with %(spouse)s.') % values else: if relationship == RelLib.FamilyRelType.MARRIED: if person.get_gender() == RelLib.Person.MALE: text = _('He also married %(spouse)s.') % values elif person.get_gender() == RelLib.Person.FEMALE: text = _('She also married %(spouse)s.') % values else: text = _('This person also married %(spouse)s.') % values elif relationship == RelLib.FamilyRelType.UNMARRIED: if person.get_gender() == RelLib.Person.MALE: text = _('He had an unmarried relationship with %(spouse)s.') % values elif person.get_gender() == RelLib.Person.FEMALE: text = _('She had an unmarried relationship with %(spouse)s.') % values else: text = _('This person had an unmarried relationship with %(spouse)s.') % values else: if person.get_gender() == RelLib.Person.MALE: text = _('He also had relationship with %(spouse)s.') % values elif person.get_gender() == RelLib.Person.FEMALE: text = _('She also had relationship with %(spouse)s.') % values else: text = _('This person also had relationship with %(spouse)s.') % values if text: text = text + " " return text #------------------------------------------------------------------------- # # child_str # #------------------------------------------------------------------------- def child_str(person, father_name="", mother_name="", dead=0, person_name=0): """ Composes a string describing person being a child. The string is composed in the following form: 'He/She is/was the son/daughter of father_name and mother_name' Missing information will be omitted without loss of readability. @param person_gender: Person.MALE, Person.FEMALE, or Person.UNKNOWN @type person: Person.MALE, Person.FEMALE, or Person.UNKNOWN~ @param father_name: String to use for father's name @type father_name: unicode @param mother_name: String to use for mother's name @type mother_name: unicode @param dead: Whether the person discussed is dead or not @type dead: bool @returns: A composed string @rtype: unicode """ values = { 'father' : father_name, 'mother' : mother_name, 'male_name' : person_name, 'name' : person_name, 'female_name' : person_name, 'unknown_gender_name' : person_name, } if person_name == 0: index = 0 else: index = 1 gender = person.get_gender() text = "" if mother_name and father_name: text = child_father_mother[gender][index][dead] % values elif mother_name: text = child_mother[gender][index][dead] % values elif father_name: text = child_father[gender][index][dead] % values if text: text = text + " " return text #------------------------------------------------------------------------- # # find_spouse # #------------------------------------------------------------------------- def find_spouse(person,family): if person.get_handle() == family.get_father_handle(): spouse_handle = family.get_mother_handle() else: spouse_handle = family.get_father_handle() return spouse_handle #------------------------------------------------------------------------- # # find_marriage # #------------------------------------------------------------------------- def find_marriage(database,family): for event_ref in family.get_event_ref_list(): event = database.get_event_from_handle(event_ref.ref) if event and int(event.get_type()) == RelLib.EventType.MARRIAGE: return event return None #------------------------------------------------------------------------- # # born_str # #------------------------------------------------------------------------- def born_str(database,person,person_name=None,empty_date="",empty_place=""): """ Check birth record. Statement formats name precedes this was born on Date. was born on Date in Place. was born in Month_Year. was born in Month_Year in Place. was born in Place. '' """ name_index = 1 if person_name == None: person_name = _nd.display(person) elif person_name == 0: name_index = 0 text = "" bdate,bplace,bdate_full,bdate_mod,ddate,dplace,ddate_full,ddate_mod = \ get_birth_death_strings(database,person,empty_date,empty_place) value_map = { 'name' : person_name, 'male_name' : person_name, 'unknown_gender_name' : person_name, 'female_name' : person_name, 'birth_date' : bdate, 'birth_place' : bplace, 'month_year' : bdate, 'modified_date' : bdate, } gender = person.get_gender() if bdate: if bdate_mod: if bplace: text = born_modified_date_with_place[name_index][gender] % value_map else: text = born_modified_date_no_place[name_index][gender] % value_map elif bdate_full: if bplace: text = born_full_date_with_place[name_index][gender] % value_map else: text = born_full_date_no_place[name_index][gender] % value_map else: if bplace: text = born_partial_date_with_place[name_index][gender] % value_map else: text = born_partial_date_no_place[name_index][gender] % value_map else: if bplace: text = born_no_date_with_place[name_index][gender] % value_map else: text = "" if text: text = text + " " return text #------------------------------------------------------------------------- # # died_str # #------------------------------------------------------------------------- def died_str(database,person,person_name=None,empty_date="",empty_place="", age=None,age_units=0): """ Write obit sentence. FIRSTNAME died on Date FIRSTNAME died on Date at the age of N Years FIRSTNAME died on Date at the age of N Months FIRSTNAME died on Date at the age of N Days FIRSTNAME died on Date in Place FIRSTNAME died on Date in Place at the age of N Years FIRSTNAME died on Date in Place at the age of N Months FIRSTNAME died on Date in Place at the age of N Days FIRSTNAME died in Month_Year FIRSTNAME died in Month_Year at the age of N Years FIRSTNAME died in Month_Year at the age of N Months FIRSTNAME died in Month_Year at the age of N Days FIRSTNAME died in Month_Year in Place FIRSTNAME died in Month_Year in Place at the age of N Years FIRSTNAME died in Month_Year in Place at the age of N Months FIRSTNAME died in Month_Year in Place at the age of N Days FIRSTNAME died in Place FIRSTNAME died in Place at the age of N Years FIRSTNAME died in Place at the age of N Months FIRSTNAME died in Place at the age of N Days FIRSTNAME died FIRSTNAME died at the age of N Years FIRSTNAME died at the age of N Months FIRSTNAME died at the age of N Days """ name_index = 1 if person_name == None: person_name = _nd.display(person) elif person_name == 0: name_index = 0 text = "" bdate,bplace,bdate_full,bdate_mod,ddate,dplace,ddate_full,ddate_mod = \ get_birth_death_strings(database,person,empty_date,empty_place) value_map = { 'name' : person_name, 'unknown_gender_name' : person_name, 'male_name' : person_name, 'female_name' : person_name, 'death_date' : ddate, 'modified_date' : ddate, 'death_place' : dplace, 'age' : age , 'month_year' : ddate, } gender = person.get_gender() if ddate: if ddate_mod: if dplace: text = died_modified_date_with_place[name_index][gender][age_units] % value_map else: text = died_modified_date_no_place[name_index][gender][age_units] % value_map elif ddate_full: if dplace: text = died_full_date_with_place[name_index][gender][age_units] % value_map else: text = died_full_date_no_place[name_index][gender][age_units] % value_map else: if dplace: text = died_partial_date_with_place[name_index][gender][age_units] % value_map else: text = died_partial_date_no_place[name_index][gender][age_units] % value_map else: if dplace: text = died_no_date_with_place[name_index][gender][age_units] % value_map else: text = died_no_date_no_place[name_index][gender][age_units] % value_map if text: text = text + " " return text #------------------------------------------------------------------------- # # buried_str # #------------------------------------------------------------------------- def buried_str(database,person,person_name=None,empty_date="",empty_place=""): """ Check burial record. Statement formats name precedes this was buried on Date. was buried on Date in Place. was buried in Month_Year. was buried in Month_Year in Place. was buried in Place. '' """ name_index = 0 if person_name == None: person_name = _nd.display(person) elif person_name == 0: name_index = 1 gender = person.get_gender() text = "" bplace = dplace = empty_place bdate = ddate = empty_date bdate_full = False bdate_mod = False burial = None for event_ref in person.get_event_ref_list(): event = database.get_event_from_handle(event_ref.ref) if event and int(event.get_type()) == RelLib.EventType.BURIAL: burial = event break if burial: bdate = DateHandler.get_date(burial) bplace_handle = burial.get_place_handle() if bplace_handle: bplace = database.get_place_from_handle(bplace_handle).get_title() bdate_obj = burial.get_date_object() bdate_full = bdate_obj and bdate_obj.get_day_valid() bdate_mod = bdate_obj and bdate_obj.get_modifier() != RelLib.Date.MOD_NONE else: return text values = { 'unknown_gender_name' : person_name, 'male_name' : person_name, 'name' : person_name, 'female_name' : person_name, 'burial_date' : bdate, 'burial_place' : bplace, 'month_year' : bdate, 'modified_date' : bdate, } if bdate and bdate_mod: if bplace: #male, date, place text = buried_modified_date_place[gender][name_index] % values else: #male, date, no place text = buried_modified_date_no_place[gender][name_index] % values elif bdate and bdate_full: if bplace: #male, date, place text = buried_full_date_place[gender][name_index] % values else: #male, date, no place text = buried_full_date_no_place[gender][name_index] % values elif bdate: if bplace: #male, month_year, place text = buried_partial_date_place[gender][name_index] % values else: #male, month_year, no place text = buried_partial_date_no_place[gender][name_index] % values elif bplace: #male, no date, place text = buried_no_date_place[gender][name_index] % values else: #male, no date, no place text = buried_no_date_no_place[gender][name_index] % values if text: text = text + " " return text #------------------------------------------------------------------------- # # list_person_str # #------------------------------------------------------------------------- def list_person_str(database,person,empty_date="",empty_place=""): """ Briefly list person and birth/death events. """ bdate,bplace,bdate_full,bdate_mod,ddate,dplace,ddate_full,ddate_mod = \ get_birth_death_strings(database,person) text = "" values = { 'birth_date' : bdate, 'birth_place' : bplace, 'death_date' : ddate, 'death_place' : dplace, } if bdate: if bplace: if ddate: if dplace: text = _("Born: %(birth_date)s %(birth_place)s, " "Died: %(death_date)s %(death_place)s.") % values else: text = _("Born: %(birth_date)s %(birth_place)s, " "Died: %(death_date)s.") % values else: if dplace: text = _("Born: %(birth_date)s %(birth_place)s, " "Died: %(death_place)s.") % values else: text = _("Born: %(birth_date)s %(birth_place)s.") % values else: if ddate: if dplace: text = _("Born: %(birth_date)s, " "Died: %(death_date)s %(death_place)s.") % values else: text = _("Born: %(birth_date)s, Died: %(death_date)s.") % values else: if dplace: text = _("Born: %(birth_date)s, Died: %(death_place)s.") % values else: text = _("Born: %(birth_date)s.") % values else: if bplace: if ddate: if dplace: text = _("Born: %(birth_place)s, " "Died: %(death_date)s %(death_place)s.") % values else: text = _("Born: %(birth_place)s, " "Died: %(death_date)s.") % values else: if dplace: text = _("Born: %(birth_place)s, " "Died: %(death_place)s.") % values else: text = _("Born: %(birth_place)s.") % values else: if ddate: if dplace: text = _("Died: %(death_date)s %(death_place)s.") % values else: text = _("Died: %(death_date)s.") % values else: if dplace: text = _("Died: %(death_place)s.") % values else: text = "" return text def get_birth_or_fallback(database,person): birth_ref = person.get_birth_ref() if birth_ref: # regular birth found return database.get_event_from_handle(birth_ref.ref) # now search the event list for fallbacks for event_ref in person.get_primary_event_ref_list(): event = database.get_event_from_handle(event_ref.ref) if event.get_type() in [RelLib.EventType.CHRISTEN, RelLib.EventType.BAPTISM]: return event return None def get_death_or_fallback(database,person): birth_ref = person.get_death_ref() if birth_ref: # regular death found return database.get_event_from_handle(birth_ref.ref) # now search the event list for fallbacks for event_ref in person.get_primary_event_ref_list(): event = database.get_event_from_handle(event_ref.ref) if event.get_type() in [RelLib.EventType.BURIAL, RelLib.EventType.CREMATION]: return event return None def old_calc_age(database,person): """ Calulate age. Returns a tuple (age,units) where units is an integer representing time units: no age info: 0 years: 1 months: 2 days: 3 """ YEARS = 1 MONTHS = 2 DAYS = 3 # FIXME: This is an old and ugly implementation. # It must be changed to use the new age calculator. age = 0 units = 0 birth_ref = person.get_birth_ref() if birth_ref: birth = database.get_event_from_handle(birth_ref.ref).get_date_object() birth_year_valid = birth.get_year_valid() else: birth_year_valid = None death_ref = person.get_death_ref() if death_ref: death = database.get_event_from_handle(death_ref.ref).get_date_object() death_year_valid = death.get_year_valid() else: death_year_valid = None # wihtout at least a year for each event we're clueless if not (birth_year_valid and death_year_valid): return (age,units) # FIXME: The code below uses hard-coded 31 days in a month # and 12 month in a year. This is incorrect for half the Gregorian # months and for other calendars. # FIXME: We need to move to estimate_age !!! # If born and died in the same year, go to the months if death.get_year() == birth.get_year(): if birth.get_month_valid() and death.get_month_valid(): # if born and died in the same month, do the days if birth.get_month() == death.get_month() \ and birth.get_day_valid() and death.get_day_valid(): age = death.get_day() - birth.get_day() units = DAYS # if not the same month, just diff the months else: age = death.get_month() - birth.get_month() units = MONTHS # Born and died in different years else: age = death.get_year() - birth.get_year() units = YEARS if birth.get_month_valid() and death.get_month_valid(): # Subtract one year if less than a last full year if birth.get_month() > death.get_month(): age = age - 1 # If less than a year (but still in different years) # then calculate month diff modulo 12 if age == 0: age = 12 + death.get_month() - birth.get_month() units = MONTHS # This is the case of birth on Dec 30 and death on Jan 2 # or birth on May 30 and death on June 2 if age == 1 and units == MONTHS \ and birth.get_day_valid() and death.get_day_valid() \ and birth.get_day() > death.get_day(): age = death.get_day() + 31 - birth.get_day() unit = DAYS return (age,units) def common_name(person,use_call=False): if use_call and person.get_primary_name().get_call_name(): return person.get_primary_name().get_call_name() else: return person.get_primary_name().get_first_name() #------------------------------------------------------------------------- # # Indexing function # #------------------------------------------------------------------------- def get_person_mark(db,person): """ Returns a IndexMark that can be used to index a person in a report @param db: the GRAMPS database instance @param person: the the key is for """ if not person: return None name = person.get_primary_name().get_name() birth = " " death = " " key = "" birth_ref = person.get_birth_ref() if birth_ref: birthEvt = db.get_event_from_handle(birth_ref.ref) birth = DateHandler.get_date(birthEvt) death_ref = person.get_death_ref() if death_ref: deathEvt = db.get_event_from_handle(death_ref.ref) death = DateHandler.get_date(deathEvt) if birth == " " and death == " ": key = name else: key = "%s (%s - %s)" % (name,birth,death) return BaseDoc.IndexMark( key, BaseDoc.INDEX_TYPE_ALP ) #------------------------------------------------------------------------- # # Address String # #------------------------------------------------------------------------- def get_address_str(addr): """ Returns a string that combines the elements of an addres @param addr: the GRAMPS address instance """ str = "" elems = [ addr.get_street(), addr.get_city(), addr.get_county(), addr.get_state(), addr.get_country(), addr.get_postal_code(), addr.get_phone() ] for info in elems: if info: if str == "": str = info else: str = "%s, %s" % (str,info) return str def get_endnotes(sref_map,obj): if not obj: return "" slist = obj.get_source_references() if not slist: return "" msg = cStringIO.StringIO() first = 1 for ref in slist: if not first: msg.write(',') first = 0 ref_base = ref.get_reference_handle() the_key = 0 for key in sref_map.keys(): if ref_base == sref_map[key].get_reference_handle(): the_key = key break if not the_key: the_key = len(sref_map) + 1 sref_map[the_key] = ref msg.write("%d" % the_key) str = msg.getvalue() msg.close() return str #------------------------------------------------------------------------- # # People Filters # #------------------------------------------------------------------------- def get_person_filters(person,include_single=True): """ Returns a list of filters that are relevant for the given person @param person: the person the filters should apply to. @type person: L{RelLib.Person} @param include_single: include a filter to include the single person @type person: boolean """ from Filters import GenericFilter, Rules, CustomFilters if person: name = person.get_primary_name().get_name() gramps_id = person.get_gramps_id() else: # Do this in case of command line options query (show=filter) name = 'PERSON' gramps_id = '' if include_single == True: filt_id = GenericFilter() filt_id.set_name(name) filt_id.add_rule(Rules.Person.HasIdOf([gramps_id])) all = GenericFilter() all.set_name(_("Entire Database")) all.add_rule(Rules.Person.Everyone([])) des = GenericFilter() des.set_name(_("Descendants of %s") % name) des.add_rule(Rules.Person.IsDescendantOf([gramps_id,1])) df = GenericFilter() df.set_name(_("Descendant Families of %s") % name) df.add_rule(Rules.Person.IsDescendantFamilyOf([gramps_id,1])) ans = GenericFilter() ans.set_name(_("Ancestors of %s") % name) ans.add_rule(Rules.Person.IsAncestorOf([gramps_id,1])) com = GenericFilter() com.set_name(_("People with common ancestor with %s") % name) com.add_rule(Rules.Person.HasCommonAncestorWith([gramps_id])) if include_single == True: the_filters = [filt_id,all,des,df,ans,com] else: the_filters = [all,des,df,ans,com] the_filters.extend(CustomFilters.get_filters('Person')) return the_filters