# # Gramps - a GTK+/GNOME based genealogy program # # Copyright (C) 2000 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 # "Analysis and Exploration/Compare individual events" #------------------------------------------------------------------------ # # Module imports # #------------------------------------------------------------------------ import os import sort import Utils import string import const import GenericFilter import ListModel from TextDoc import * from OpenSpreadSheet import * from intl import gettext as _ import gnome.ui import gtk import gtk.glade #------------------------------------------------------------------------ # # # #------------------------------------------------------------------------ class TableReport: def __init__(self,filename,doc): self.filename = filename self.doc = doc def initialize(self,cols): t = TableStyle() t.set_columns(cols) for index in range(0,cols): t.set_column_width(index,4) self.doc.add_table_style("mytbl",t) f = FontStyle() f.set_type_face(FONT_SANS_SERIF) f.set_size(12) f.set_bold(1) p = ParagraphStyle() p.set_font(f) p.set_background_color((0xcc,0xff,0xff)) p.set_padding(0.1) self.doc.add_style("head",p) f = FontStyle() f.set_type_face(FONT_SANS_SERIF) f.set_size(10) p = ParagraphStyle() p.set_font(f) self.doc.add_style("data",p) self.doc.open(self.filename) self.doc.start_page("Page 1","mytbl") def finalize(self): self.doc.end_page() self.doc.close() def write_table_data(self,data): self.doc.start_row() for item in data: self.doc.start_cell("data") self.doc.write_text(item) self.doc.end_cell() self.doc.end_row() def set_row(self,val): self.row = val + 2 def write_table_head(self,data): self.prev = 3 self.doc.start_row() for item in data: self.doc.start_cell("head") self.doc.write_text(item) self.doc.end_cell() self.doc.end_row() #------------------------------------------------------------------------ # # # #------------------------------------------------------------------------ class EventComparison: def __init__(self,database): self.db = database base = os.path.dirname(__file__) self.glade_file = base + os.sep + "eventcmp.glade" self.qual = 0 self.filterDialog = gtk.glade.XML(self.glade_file,"filters") self.filterDialog.signal_autoconnect({ "on_apply_clicked" : self.on_apply_clicked, "destroy_passed_object" : Utils.destroy_passed_object }) top =self.filterDialog.get_widget("filters") filters = self.filterDialog.get_widget("filter_list") all = GenericFilter.GenericFilter() all.set_name(_("Entire Database")) all.add_rule(GenericFilter.Everyone([])) self.filter_menu = GenericFilter.build_filter_menu([all]) filters.set_menu(self.filter_menu) top.show() def on_apply_clicked(self,obj): cfilter = self.filter_menu.get_active().get_data("filter") plist = cfilter.apply(self.db.getPersonMap().values()) if len(plist) == 0: gnome.ui.GnomeWarningDialog(_("No matches were found")) else: DisplayChart(plist) #------------------------------------------------------------------------ # # # #------------------------------------------------------------------------ def runTool(database,person,callback): EventComparison(database) #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- def by_value(first,second): return cmp(second[0],first[0]) #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- def fix(line): l = line.strip().replace('&','&').replace(l,'>','>') return l.replace(l,'<','<').replace(l,'"','"') #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- class DisplayChart: def __init__(self,people_list): self.my_list = people_list self.row_data = [] base = os.path.dirname(__file__) self.glade_file = base + os.sep + "eventcmp.glade" self.topDialog = gtk.glade.XML(self.glade_file,"view") self.topDialog.signal_autoconnect({ "on_write_table" : self.on_write_table, "destroy_passed_object" : Utils.destroy_passed_object }) self.top = self.topDialog.get_widget("view") self.eventlist = self.topDialog.get_widget('treeview') self.my_list.sort(sort.by_last_name) self.event_titles = self.make_event_titles() self.build_row_data() self.draw_clist_display() self.top.show() def draw_clist_display(self): titles = [] index = 0 for v in self.event_titles: titles.append((v,index,150)) index = index + 1 self.list = ListModel.ListModel(self.eventlist,titles) for data in self.row_data: self.list.add(data) # for index in range(0,len(self.event_titles)): # width = min(150,eventlist.optimal_column_width(index)) # self.eventlist.set_column_width(index,width) def build_row_data(self): for individual in self.my_list: name = individual.getPrimaryName().getName() birth = individual.getBirth() death = individual.getDeath() map = {} elist = individual.getEventList()[:] for ievent in elist: event_name = ievent.getName() if map.has_key(event_name): map[event_name].append(ievent) else: map[event_name] = [ievent] first = 1 done = 0 while done == 0: added = 0 if first: tlist = [name,"%s\n%s" % (birth.getDate(),birth.getPlaceName()), "%s\n%s" % (death.getDate(),death.getPlaceName())] else: tlist = ["","",""] for ename in self.event_titles[3:]: if map.has_key(ename) and len(map[ename]) > 0: event = map[ename][0] del map[ename][0] tlist.append("%s\n%s" % (event.getDate(), event.getPlaceName())) added = 1 else: tlist.append("") if first: first = 0 self.row_data.append(tlist) elif added == 0: done = 1 else: self.row_data.append(tlist) def make_event_titles(self): """Creates the list of unique event types, along with the person's name, birth, and death. This should be the column titles of the report""" map = {} for individual in self.my_list: elist = individual.getEventList() for event in elist: name = event.getName() if not name: break if map.has_key(name): map[name] = map[name] + 1 else: map[name] = 1 unsort_list = [] for item in map.keys(): unsort_list.append((map[item],item)) unsort_list.sort(by_value) sort_list = [] for item in unsort_list: sort_list.append(item[1]) return [_("Person"),_("Birth"),_("Death")] + sort_list def on_write_table(self,obj): self.form = gtk.glade.XML(self.glade_file,"dialog1") self.form.signal_autoconnect({ "on_save_clicked" : self.on_save_clicked, "on_html_toggled" : self.on_html_toggled, "destroy_passed_object" : Utils.destroy_passed_object }) self.save_form = self.form.get_widget("dialog1") self.save_form.show() def on_html_toggled(self,obj): active = self.form.get_widget("html").get_active() self.form.get_widget("htmltemplate").set_sensitive(active) def on_save_clicked(self,obj): name = self.form.get_widget("filename").get_text() doc = OpenSpreadSheet(PaperStyle("junk",10,10),PAPER_PORTRAIT) spreadsheet = TableReport(name,doc) spreadsheet.initialize(len(self.event_titles)) spreadsheet.write_table_head(self.event_titles) index = 0 for (top,bottom) in self.row_data: spreadsheet.set_row(index%2) index = index + 1 spreadsheet.write_table_data(top) spreadsheet.write_table_data(bottom) spreadsheet.finalize() Utils.destroy_passed_object(obj) #------------------------------------------------------------------------- # # # #------------------------------------------------------------------------- from Plugins import register_tool register_tool( runTool, _("Compare individual events"), category=_("Analysis and Exploration"), description=_("Aids in the analysis of data by allowing the " "development of custom filters that can be applied " "to the database to find similar events") )