# # Gramps - a GTK+/GNOME based genealogy program # # Copyright (C) 2000-2007 Donald N. Allingham # Copyright (C) 2007-2009 Brian G. Matherly # # 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 # # $Id$ """Reports/Text Reports/Ahnentafel Report""" #------------------------------------------------------------------------ # # python modules # #------------------------------------------------------------------------ import math from gettext import gettext as _ #------------------------------------------------------------------------ # # gramps modules # #------------------------------------------------------------------------ from BasicUtils import name_displayer from Errors import ReportError from gen.lib import ChildRefType from gen.plug.menu import BooleanOption, NumberOption, PersonOption, \ EnumeratedListOption from gen.plug.docgen import (IndexMark, FontStyle, ParagraphStyle, FONT_SANS_SERIF, INDEX_TYPE_TOC, PARA_ALIGN_CENTER) from ReportBase import Report, ReportUtils, MenuReportOptions import TransUtils from libnarrate import Narrator from libtranslate import Translator, get_language_string #------------------------------------------------------------------------ # # log2val # #------------------------------------------------------------------------ def log2(val): """ Calculate the log base 2 of a number """ return int(math.log10(val)/math.log10(2)) #------------------------------------------------------------------------ # # AncestorReport # #------------------------------------------------------------------------ class AncestorReport(Report): """ Ancestor Report class """ def __init__(self, database, options_class): """ Create the AncestorReport object that produces the Ahnentafel report. The arguments are: database - the GRAMPS database instance person - currently selected person options_class - instance of the Options class for this report This report needs the following parameters (class variables) that come in the options class. gen - Maximum number of generations to include. pagebbg - Whether to include page breaks between generations. """ Report.__init__(self, database, options_class) self.map = {} menu = options_class.menu self.max_generations = menu.get_option_by_name('maxgen').get_value() self.pgbrk = menu.get_option_by_name('pagebbg').get_value() self.opt_namebrk = menu.get_option_by_name('namebrk').get_value() pid = menu.get_option_by_name('pid').get_value() self.center_person = database.get_person_from_gramps_id(pid) if (self.center_person == None) : raise ReportError(_("Person %s is not in the Database") % pid ) language = menu.get_option_by_name('trans').get_value() translator = Translator(language) self._ = translator.get_text self.__narrator = Narrator(self.database, translator=translator) def apply_filter(self, person_handle, index, generation=1): """ Recursive function to walk back all parents of the current person. When max_generations are hit, we stop the traversal. """ # check for end of the current recursion level. This happens # if the person handle is None, or if the max_generations is hit if not person_handle or generation > self.max_generations: return # store the person in the map based off their index number # which is passed to the routine. self.map[index] = person_handle # retrieve the Person instance from the database from the # passed person_handle and find the parents from the list. # Since this report is for natural parents (birth parents), # we have to handle that parents may not person = self.database.get_person_from_handle(person_handle) father_handle = None mother_handle = None for family_handle in person.get_parent_family_handle_list(): family = self.database.get_family_from_handle(family_handle) # filter the child_ref_list to find the reference that matches # the passed person. There should be exactly one, but there is # nothing that prevents the same child in the list multiple times. ref = [ c for c in family.get_child_ref_list() if c.get_reference_handle() == person_handle] if ref: # If the father_handle is not defined and the relationship is # BIRTH, then we have found the birth father. Same applies to # the birth mother. If for some reason, the we have multiple # people defined as the birth parents, we will select based on # priority in the list if not father_handle and \ ref[0].get_father_relation() == ChildRefType.BIRTH: father_handle = family.get_father_handle() if not mother_handle and \ ref[0].get_mother_relation() == ChildRefType.BIRTH: mother_handle = family.get_mother_handle() # Recursively call the function. It is okay if the handle is None, # since routine handles a handle of None self.apply_filter(father_handle, index*2, generation+1) self.apply_filter(mother_handle, (index*2)+1, generation+1) def write_report(self): """ The routine the actually creates the report. At this point, the document is opened and ready for writing. """ # Call apply_filter to build the self.map array of people in the # database that match the ancestry. self.apply_filter(self.center_person.get_handle(), 1) # Write the title line. Set in INDEX marker so that this section will be # identified as a major category if this is included in a Book report. name = name_displayer.display_formal(self.center_person) title = self._("Ahnentafel Report for %s") % name mark = IndexMark(title, INDEX_TYPE_TOC, 1) self.doc.start_paragraph("AHN-Title") self.doc.write_text(title, mark) self.doc.end_paragraph() # get the entries out of the map, and sort them. generation = 0 for key in sorted(self.map): # check the index number to see if we need to start a new generation if generation == log2(key): # generate a page break if requested if self.pgbrk and generation > 0: self.doc.page_break() generation += 1 # Create the Generation title, set an index marker mark = IndexMark(title, INDEX_TYPE_TOC, 2) self.doc.start_paragraph("AHN-Generation") self.doc.write_text(self._("Generation %d") % generation, mark) self.doc.end_paragraph() # Build the entry self.doc.start_paragraph("AHN-Entry","%d." % key) person = self.database.get_person_from_handle(self.map[key]) name = name_displayer.display(person) mark = ReportUtils.get_person_mark(self.database, person) # write the name in bold self.doc.start_bold() self.doc.write_text(name.strip(), mark) self.doc.end_bold() # terminate with a period if it is not already terminated. # This can happen if the person's name ends with something 'Jr.' if name[-1:] == '.': self.doc.write_text(" ") else: self.doc.write_text(". ") # Add a line break if requested (not implemented yet) if self.opt_namebrk: self.doc.write_text('\n') self.__narrator.set_subject(person) self.doc.write_text(self.__narrator.get_born_string()) self.doc.write_text(self.__narrator.get_baptized_string()) self.doc.write_text(self.__narrator.get_died_string()) self.doc.write_text(self.__narrator.get_buried_string()) self.doc.end_paragraph() #------------------------------------------------------------------------ # # AncestorOptions # #------------------------------------------------------------------------ class AncestorOptions(MenuReportOptions): """ Defines options and provides handling interface. """ def __init__(self, name, dbase): MenuReportOptions.__init__(self, name, dbase) def add_menu_options(self, menu): """ Add options to the menu for the ancestor report. """ category_name = _("Report Options") pid = PersonOption(_("Center Person")) pid.set_help(_("The center person for the report")) menu.add_option(category_name, "pid", pid) maxgen = NumberOption(_("Generations"), 10, 1, 15) maxgen.set_help(_("The number of generations to include in the report")) menu.add_option(category_name, "maxgen", maxgen) pagebbg = BooleanOption(_("Page break between generations"), False) pagebbg.set_help( _("Whether to start a new page after each generation.")) menu.add_option(category_name, "pagebbg", pagebbg) namebrk = BooleanOption(_("Add linebreak after each name"), False) namebrk.set_help(_("Indicates if a line break should follow the name.")) menu.add_option(category_name, "namebrk", namebrk) trans = EnumeratedListOption(_("Translation"), Translator.DEFAULT_TRANSLATION_STR) trans.add_item(Translator.DEFAULT_TRANSLATION_STR, _("default")) for language in TransUtils.get_available_translations(): trans.add_item(language, get_language_string(language)) trans.set_help(_("The translation to be used for the report.")) menu.add_option(category_name, "trans", trans) def make_default_style(self, default_style): """ Make the default output style for the Ahnentafel report. There are 3 paragraph styles for this report. AHN_Title - The title for the report. The options are: Font : Sans Serif Bold 16pt Paragraph : First level header 0.25cm top and bottom margin Centered AHN-Generation - Used for the generation header Font : Sans Serif Italic 14pt Paragraph : Second level header 0.125cm top and bottom margins AHN - Normal text display for each entry Font : default Paragraph : 1cm margin, with first indent of -1cm 0.125cm top and bottom margins """ # # AHN-Title # font = FontStyle() font.set(face=FONT_SANS_SERIF, size=16, bold=1) para = ParagraphStyle() para.set_font(font) para.set_header_level(1) para.set_top_margin(0.25) para.set_bottom_margin(0.25) para.set_alignment(PARA_ALIGN_CENTER) para.set_description(_('The style used for the title of the page.')) default_style.add_paragraph_style("AHN-Title", para) # # AHN-Generation # font = FontStyle() font.set(face=FONT_SANS_SERIF, size=14, italic=1) para = ParagraphStyle() para.set_font(font) para.set_header_level(2) para.set_top_margin(0.125) para.set_bottom_margin(0.125) para.set_description(_('The style used for the generation header.')) default_style.add_paragraph_style("AHN-Generation", para) # # AHN-Entry # para = ParagraphStyle() para.set(first_indent=-1.0, lmargin=1.0) para.set_top_margin(0.125) para.set_bottom_margin(0.125) para.set_description(_('The basic style used for the text display.')) default_style.add_paragraph_style("AHN-Entry", para)