def __build_window(self):
"""Build the window from Glade.
"""
from gramps.gui.glade import Glade
glade_xml = Glade()
self._window = glade_xml.toplevel
self._window.set_transient_for(self._parent)
# remember active widgets for future use
self._swin = glade_xml.get_object('swin')
self._drawing_area = glade_xml.get_object('drawingarea')
self._first_button = glade_xml.get_object('first')
self._prev_button = glade_xml.get_object('prev')
self._next_button = glade_xml.get_object('next')
self._last_button = glade_xml.get_object('last')
self._pages_entry = glade_xml.get_object('entry')
self._pages_label = glade_xml.get_object('label')
self._zoom_fit_width_button = glade_xml.get_object('zoom_fit_width')
self._zoom_fit_width_button.set_stock_id('gramps-zoom-fit-width')
self._zoom_best_fit_button = glade_xml.get_object('zoom_best_fit')
self._zoom_best_fit_button.set_stock_id('gramps-zoom-best-fit')
self._zoom_in_button = glade_xml.get_object('zoom_in')
self._zoom_in_button.set_stock_id('gramps-zoom-in')
self._zoom_out_button = glade_xml.get_object('zoom_out')
self._zoom_out_button.set_stock_id('gramps-zoom-out')
# connect the signals
glade_xml.connect_signals(self)
self._drawing_area.connect("draw", self.on_drawingarea_draw_event)
def __build_window(self):
"""Build the window from Glade.
"""
from gramps.gui.glade import Glade
glade_xml = Glade()
self._window = glade_xml.toplevel
self._window.set_transient_for(self._parent)
# remember active widgets for future use
self._swin = glade_xml.get_object('swin')
self._drawing_area = glade_xml.get_object('drawingarea')
self._first_button = glade_xml.get_object('first')
self._prev_button = glade_xml.get_object('prev')
self._next_button = glade_xml.get_object('next')
self._last_button = glade_xml.get_object('last')
self._pages_entry = glade_xml.get_object('entry')
self._pages_label = glade_xml.get_object('label')
self._zoom_fit_width_button = glade_xml.get_object('zoom_fit_width')
self._zoom_fit_width_button.set_stock_id('gramps-zoom-fit-width')
self._zoom_best_fit_button = glade_xml.get_object('zoom_best_fit')
self._zoom_best_fit_button.set_stock_id('gramps-zoom-best-fit')
self._zoom_in_button = glade_xml.get_object('zoom_in')
self._zoom_in_button.set_stock_id('gramps-zoom-in')
self._zoom_out_button = glade_xml.get_object('zoom_out')
self._zoom_out_button.set_stock_id('gramps-zoom-out')
# connect the signals
glade_xml.connect_signals(self)
self._drawing_area.connect("draw", self.on_drawingarea_draw_event)
def create_gui(self):
self.filternames = []
category = self.uistate.viewmanager.active_page.get_category()
if category == "People": category = "Person"
if category.endswith("ies"): category = category[0:-3] + "y"
if category.endswith("s"): category = category[0:-1]
self.current_category = category
glade = Glade(toplevel='dialog1')
self.dialog = glade.toplevel
combo_categories = glade.get_child_object("combo_categories")
self.combo_filters = glade.get_child_object("combo_filters")
self.add_button = glade.get_child_object("add_button")
self.edit_button = glade.get_child_object("edit_button")
self.delete_button = glade.get_child_object("delete_button")
self.execute_button = glade.get_child_object("execute_button")
self.update_button = glade.get_child_object("update_button")
self.close_button = glade.get_child_object("close_button")
self.box = glade.get_child_object("box")
if 0: glade.connect_signals(
{
'on_filter_changed': self.on_filter_changed,
'add_new_filter': self.add_new_filter,
'edit_filter': self.edit_filter,
'delete_filter': self.delete_filter,
'execute_clicked': self.execute_clicked,
'update_clicked': self.update_clicked,
'close_clicked': self.close_clicked,
'on_category_changed': self.on_category_changed,
}
)
if 1:
self.combo_filters.connect("changed", self.on_filter_changed)
self.add_button.connect("clicked", self.add_new_filter)
self.edit_button.connect("clicked", self.edit_filter)
self.delete_button.connect("clicked", self.delete_filter)
self.execute_button.connect("clicked", self.execute_clicked)
self.update_button.connect("clicked", self.update_clicked)
self.close_button.connect("clicked", self.close_clicked)
for cat in self.categories_translated:
combo_categories.append_text(cat)
combo_categories.connect("changed", self.on_category_changed)
if self.current_category not in self.categories:
self.current_category = "Person"
i = self.categories.index(self.current_category)
combo_categories.set_active(i)
self.dialog.connect("delete-event", lambda x, y: self.close_clicked(self.dialog))
self.dialog.show_all()
return self.dialog
def display(self):
# get the main window from glade
topDialog = Glade()
# set gramps style title for the window
window = topDialog.toplevel
self.set_window(window,
topDialog.get_object("title"),
_("Database Owner Editor"))
self.setup_configs('interface.ownereditor', 500, 400)
# move help button to the left side
action_area = topDialog.get_object("action_area")
help_button = topDialog.get_object("help_button")
action_area.set_child_secondary(help_button, True)
# connect signals
topDialog.connect_signals({
"on_ok_button_clicked": self.on_ok_button_clicked,
"on_cancel_button_clicked": self.close,
"on_help_button_clicked": self.on_help_button_clicked,
"on_eventbox_button_press_event": self.on_button_press_event,
"on_menu_activate": self.on_menu_activate})
# fetch the popup menu
self.menu = topDialog.get_object("popup_menu")
self.track_ref_for_deletion("menu")
#topDialog.connect_signals({"on_menu_activate": self.on_menu_activate})
# get current db owner and attach it to the entries of the window
self.owner = self.db.get_researcher()
self.entries = []
entry = [
("name", self.owner.set_name, self.owner.get_name),
("address", self.owner.set_address, self.owner.get_address),
("locality", self.owner.set_locality, self.owner.get_locality),
("city", self.owner.set_city, self.owner.get_city),
("state", self.owner.set_state, self.owner.get_state),
("country", self.owner.set_country, self.owner.get_country),
("zip", self.owner.set_postal_code, self.owner.get_postal_code),
("phone", self.owner.set_phone, self.owner.get_phone),
("email", self.owner.set_email, self.owner.get_email),
]
for (name,set_fn,get_fn) in entry:
self.entries.append(MonitoredEntry(topDialog.get_object(name),
set_fn,
get_fn,
self.db.readonly))
# ok, let's see what we've done
self.show()
def __init__(self, dbstate, user, options_class, name, callback=None):
uistate = user.uistate
tool.Tool.__init__(self, dbstate, options_class, name)
ManagedWindow.__init__(self, uistate, [],
self.__class__)
self.dbstate = dbstate
self.uistate = uistate
self.map = {}
self.list = []
self.index = 0
self.merger = None
self.mergee = None
self.removed = {}
self.update = callback
self.use_soundex = 1
top = Glade(toplevel="finddupes", also_load=["liststore1"])
# retrieve options
threshold = self.options.handler.options_dict['threshold']
use_soundex = self.options.handler.options_dict['soundex']
my_menu = Gtk.ListStore(str, object)
for val in sorted(_val2label):
my_menu.append([_val2label[val], val])
self.soundex_obj = top.get_object("soundex")
self.soundex_obj.set_active(use_soundex)
self.soundex_obj.show()
self.menu = top.get_object("menu")
self.menu.set_model(my_menu)
self.menu.set_active(0)
window = top.toplevel
self.set_window(window, top.get_object('title'),
_('Find Possible Duplicate People'))
self.setup_configs('interface.duplicatepeopletool', 350, 220)
top.connect_signals({
"on_do_merge_clicked" : self.__dummy,
"on_help_show_clicked" : self.__dummy,
"on_delete_show_event" : self.__dummy,
"on_merge_ok_clicked" : self.on_merge_ok_clicked,
"destroy_passed_object" : self.close,
"on_help_clicked" : self.on_help_clicked,
"on_delete_merge_event" : self.close,
"on_delete_event" : self.close,
})
self.show()
def display(self):
# get the main window from glade
topDialog = Glade()
# set gramps style title for the window
window = topDialog.toplevel
self.set_window(window, topDialog.get_object("title"),
_("Database Owner Editor"))
self.setup_configs('interface.ownereditor', 500, 400)
# move help button to the left side
action_area = topDialog.get_object("action_area")
help_button = topDialog.get_object("help_button")
action_area.set_child_secondary(help_button, True)
# connect signals
topDialog.connect_signals({
"on_ok_button_clicked": self.on_ok_button_clicked,
"on_cancel_button_clicked": self.close,
"on_help_button_clicked": self.on_help_button_clicked,
"on_eventbox_button_press_event": self.on_button_press_event,
"on_menu_activate": self.on_menu_activate
})
# fetch the popup menu
self.menu = topDialog.get_object("popup_menu")
self.track_ref_for_deletion("menu")
#topDialog.connect_signals({"on_menu_activate": self.on_menu_activate})
# get current db owner and attach it to the entries of the window
self.owner = self.db.get_researcher()
self.entries = []
entry = [
("name", self.owner.set_name, self.owner.get_name),
("address", self.owner.set_address, self.owner.get_address),
("locality", self.owner.set_locality, self.owner.get_locality),
("city", self.owner.set_city, self.owner.get_city),
("state", self.owner.set_state, self.owner.get_state),
("country", self.owner.set_country, self.owner.get_country),
("zip", self.owner.set_postal_code, self.owner.get_postal_code),
("phone", self.owner.set_phone, self.owner.get_phone),
("email", self.owner.set_email, self.owner.get_email),
]
for (name, set_fn, get_fn) in entry:
self.entries.append(
MonitoredEntry(topDialog.get_object(name), set_fn, get_fn,
self.db.readonly))
# ok, let's see what we've done
self.show()
def __init__(self, dbstate, user, options_class, name, callback=None):
uistate = user.uistate
tool.Tool.__init__(self, dbstate, options_class, name)
ManagedWindow.__init__(self, uistate, [],
self.__class__)
self.dbstate = dbstate
self.uistate = uistate
self.map = {}
self.list = []
self.index = 0
self.merger = None
self.mergee = None
self.removed = {}
self.update = callback
self.use_soundex = 1
top = Glade()
# retrieve options
threshold = self.options.handler.options_dict['threshold']
use_soundex = self.options.handler.options_dict['soundex']
my_menu = Gtk.ListStore(str, object)
for val in sorted(_val2label):
my_menu.append([_val2label[val], val])
self.soundex_obj = top.get_object("soundex")
self.soundex_obj.set_active(use_soundex)
self.soundex_obj.show()
self.menu = top.get_object("menu")
self.menu.set_model(my_menu)
self.menu.set_active(0)
window = top.toplevel
self.set_window(window, top.get_object('title'),
_('Find Possible Duplicate People'))
self.setup_configs('interface.duplicatepeopletool', 350, 220)
top.connect_signals({
"on_do_merge_clicked" : self.__dummy,
"on_help_show_clicked" : self.__dummy,
"on_delete_show_event" : self.__dummy,
"on_merge_ok_clicked" : self.on_merge_ok_clicked,
"destroy_passed_object" : self.close,
"on_help_clicked" : self.on_help_clicked,
"on_delete_merge_event" : self.close,
"on_delete_event" : self.close,
})
self.show()
def display(self):
top_dialog = Glade()
top_dialog.connect_signals({
"destroy_passed_object" : self.close,
"on_ok_clicked" : self.on_ok_clicked,
"on_help_clicked" : self.on_help_clicked,
"on_delete_event" : self.close,
})
window = top_dialog.toplevel
self.set_window(window, top_dialog.get_object('title'), self.label)
self.setup_configs('interface.changenames', 500, 450)
self.clear_button = top_dialog.get_object('checkbutton1')
self.copy_button = top_dialog.get_object('checkbutton2')
self.tag_button = top_dialog.get_object('checkbutton3')
self.treeview = top_dialog.get_object("list")
self.r = Gtk.CellRendererToggle()
self.r.set_property('activatable', True)
self.r.set_property('radio', True)
self.r.connect('toggled', self.toggled)
c = Gtk.TreeViewColumn(_('Select'), self.r, active=1)
self.treeview.append_column(c)
c = Gtk.TreeViewColumn(_('Database'),
Gtk.CellRendererText(),text=2)
self.treeview.append_column(c)
c = Gtk.TreeViewColumn(_('Display'),
Gtk.CellRendererText(),text=3)
self.treeview.append_column(c)
self.selection = self.treeview.get_selection()
self.model = Gtk.ListStore(str, bool, str, str)
self.treeview.set_model(self.model)
self.progress.set_pass(_('Building display'), len(self.name_list))
for handle, title, descr in self.name_list:
self.model.append([handle, title == descr, title, descr])
self.progress.step()
self.progress.close()
self.show()
def display(self):
top_dialog = Glade()
top_dialog.connect_signals({
"destroy_passed_object" : self.close,
"on_ok_clicked" : self.on_ok_clicked,
"on_help_clicked" : self.on_help_clicked,
"on_delete_event" : self.close,
})
window = top_dialog.toplevel
self.set_window(window, top_dialog.get_object('title'), self.label)
self.setup_configs('interface.changenames', 500, 450)
self.clear_button = top_dialog.get_object('checkbutton1')
self.copy_button = top_dialog.get_object('checkbutton2')
self.tag_button = top_dialog.get_object('checkbutton3')
self.treeview = top_dialog.get_object("list")
self.r = Gtk.CellRendererToggle()
self.r.set_property('activatable', True)
self.r.set_property('radio', True)
self.r.connect('toggled', self.toggled)
c = Gtk.TreeViewColumn(_('Select'), self.r, active=1)
self.treeview.append_column(c)
c = Gtk.TreeViewColumn(_('Database'),
Gtk.CellRendererText(),text=2)
self.treeview.append_column(c)
c = Gtk.TreeViewColumn(_('Display'),
Gtk.CellRendererText(),text=3)
self.treeview.append_column(c)
self.selection = self.treeview.get_selection()
self.model = Gtk.ListStore(str, bool, str, str)
self.treeview.set_model(self.model)
self.progress.set_pass(_('Building display'), len(self.name_list))
for handle, title, descr in self.name_list:
self.model.append([handle, title == descr, title, descr])
self.progress.step()
self.progress.close()
self.show()
def __init__(self, dbstate, uistate, track, the_list, the_map, callback):
ManagedWindow.__init__(self,uistate,track,self.__class__)
self.dellist = set()
self.list = the_list
self.map = the_map
self.length = len(self.list)
self.update = callback
self.db = dbstate.db
self.dbstate = dbstate
self.uistate = uistate
top = Glade(toplevel="mergelist")
window = top.toplevel
self.set_window(window, top.get_object('title'),
_('Potential Merges'))
self.setup_configs('interface.duplicatepeopletoolmatches', 500, 350)
self.mlist = top.get_object("mlist")
top.connect_signals({
"destroy_passed_object" : self.close,
"on_do_merge_clicked" : self.on_do_merge_clicked,
"on_help_show_clicked" : self.on_help_clicked,
"on_delete_show_event" : self.close,
"on_merge_ok_clicked" : self.__dummy,
"on_help_clicked" : self.__dummy,
"on_delete_merge_event" : self.__dummy,
"on_delete_event" : self.__dummy,
})
self.db.connect("person-delete", self.person_delete)
mtitles = [
(_('Rating'),3,75),
(_('First Person'),1,200),
(_('Second Person'),2,200),
('',-1,0)
]
self.list = ListModel(self.mlist,mtitles,
event_func=self.on_do_merge_clicked)
self.redraw()
self.show()
def run(self):
top = Glade(toplevel="mergecitations", also_load=["liststore1"])
# retrieve options
fields = self.options.handler.options_dict['fields']
dont_merge_notes = self.options.handler.options_dict[
'dont_merge_notes']
my_menu = Gtk.ListStore(str, object)
for val in sorted(_val2label):
my_menu.append([_val2label[val], val])
self.notes_obj = top.get_object("notes")
self.notes_obj.set_active(dont_merge_notes)
self.notes_obj.show()
self.menu = top.get_object("menu")
self.menu.set_model(my_menu)
self.menu.set_active(fields)
window = top.toplevel
window.set_transient_for(self.user.uistate.window)
window.show()
# self.set_window(window, top.get_object('title'),
# _('Merge citations'))
self.set_window(
window, top.get_object('title2'),
_("Notes, media objects and data-items of matching "
"citations will be combined."))
self.setup_configs('interface.mergecitations', 700, 230)
top.connect_signals({
"on_merge_ok_clicked": self.on_merge_ok_clicked,
"destroy_passed_object": self.cancel,
"on_help_clicked": self.on_help_clicked,
"on_delete_merge_event": self.close,
"on_delete_event": self.close,
})
self.show()
def __init__(self, dbstate, uistate, track, the_list, the_map, callback):
ManagedWindow.__init__(self,uistate,track,self.__class__)
self.dellist = {}
self.list = the_list
self.map = the_map
self.length = len(self.list)
self.update = callback
self.db = dbstate.db
self.dbstate = dbstate
self.uistate = uistate
top = Glade(toplevel="mergelist")
window = top.toplevel
self.set_window(window, top.get_object('title'),
_('Potential Merges'))
self.setup_configs('interface.duplicatepeopletoolmatches', 500, 350)
self.mlist = top.get_object("mlist")
top.connect_signals({
"destroy_passed_object" : self.close,
"on_do_merge_clicked" : self.on_do_merge_clicked,
"on_help_show_clicked" : self.on_help_clicked,
"on_delete_show_event" : self.close,
"on_merge_ok_clicked" : self.__dummy,
"on_help_clicked" : self.__dummy,
"on_delete_merge_event" : self.__dummy,
"on_delete_event" : self.__dummy,
})
mtitles = [
(_('Rating'),3,75),
(_('First Person'),1,200),
(_('Second Person'),2,200),
('',-1,0)
]
self.list = ListModel(self.mlist,mtitles,
event_func=self.on_do_merge_clicked)
self.redraw()
self.show()
def run(self):
top = Glade(toplevel="mergecitations")
# retrieve options
fields = self.options.handler.options_dict['fields']
dont_merge_notes = self.options.handler.options_dict['dont_merge_notes']
my_menu = Gtk.ListStore(str, object)
for val in sorted(_val2label):
my_menu.append([_val2label[val], val])
self.notes_obj = top.get_object("notes")
self.notes_obj.set_active(dont_merge_notes)
self.notes_obj.show()
self.menu = top.get_object("menu")
self.menu.set_model(my_menu)
self.menu.set_active(fields)
window = top.toplevel
window.set_transient_for(self.user.uistate.window)
window.show()
# self.set_window(window, top.get_object('title'),
# _('Merge citations'))
self.set_window(window, top.get_object('title2'),
_("Notes, media objects and data-items of matching "
"citations will be combined."))
self.setup_configs('interface.mergecitations', 700, 230)
top.connect_signals({
"on_merge_ok_clicked" : self.on_merge_ok_clicked,
"destroy_passed_object" : self.cancel,
"on_help_clicked" : self.on_help_clicked,
"on_delete_merge_event" : self.close,
"on_delete_event" : self.close,
})
self.show()
def __init__(self, dbstate, user, options_class, name, callback=None):
uistate = user.uistate
dummy_opt = options_class
dummy_nme = name
dummy_cb = callback
self.title = _('Clean input data')
ManagedWindow.__init__(self, uistate, [], self.__class__)
self.dbstate = dbstate
self.uistate = uistate
self.db = dbstate.db
self.tooltip = ""
self.f_lat = False
self.f_lon = False
top_dialog = Glade()
top_dialog.connect_signals({
"destroy_passed_object": self.close,
"on_help_clicked": self.on_help_clicked,
"on_delete_event": self.close,
})
window = top_dialog.toplevel
title = top_dialog.get_object("title")
self.set_window(window, title, self.title)
tip = _('Search leading and/or trailing spaces for persons'
' and places. Search comma or bad sign in coordinates'
' fields.\n'
'Double click on a row to edit its content.')
title.set_tooltip_text(tip)
# start the progress indicator
self.progress = ProgressMeter(self.title,
_('Starting'),
parent=uistate.window)
steps = self.db.get_number_of_people() + self.db.get_number_of_places()
self.progress.set_pass(
_('Looking for possible fields with leading or'
' trailing spaces'), steps)
self.model_1 = Gtk.ListStore(
GObject.TYPE_STRING, # 0==handle
GObject.TYPE_STRING, # 1==firstname
GObject.TYPE_STRING, # 2==surname
GObject.TYPE_STRING, # 3==alternate name
GObject.TYPE_STRING, # 4==group_as
)
self.model_1.set_sort_column_id(
Gtk.TREE_SORTABLE_UNSORTED_SORT_COLUMN_ID, 1)
self.label_1 = top_dialog.get_object("label_1")
self.label_1.set_text(_('Person'))
self.treeview_1 = top_dialog.get_object("treeview_1")
self.treeview_1.set_model(self.model_1)
col1 = Gtk.TreeViewColumn(_('handle'), Gtk.CellRendererText(), text=0)
renderer1 = Gtk.CellRendererText()
renderer1.set_property('underline-set', True)
renderer1.set_property('underline', 2) # 2=double underline
col2 = Gtk.TreeViewColumn(_('firstname'), renderer1, text=1)
renderer2 = Gtk.CellRendererText()
renderer2.set_property('underline-set', True)
renderer2.set_property('underline', 2) # 2=double underline
col3 = Gtk.TreeViewColumn(_('surname'), renderer2, text=2)
renderer3 = Gtk.CellRendererText()
renderer3.set_property('underline-set', True)
renderer3.set_property('underline', 2) # 2=double underline
col4 = Gtk.TreeViewColumn(_('alternate name'), renderer3, text=3)
renderer4 = Gtk.CellRendererText()
renderer4.set_property('underline-set', True)
renderer4.set_property('underline', 2) # 2=double underline
col5 = Gtk.TreeViewColumn(_('group as'), renderer4, text=4)
col1.set_resizable(True)
col1.set_visible(False)
col2.set_resizable(True)
col3.set_resizable(True)
col4.set_resizable(True)
col5.set_resizable(True)
col1.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col2.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col3.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col4.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col5.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
self.treeview_1.append_column(col1)
self.treeview_1.append_column(col2)
self.treeview_1.append_column(col3)
self.treeview_1.append_column(col4)
self.treeview_1.append_column(col5)
self.treeselection = self.treeview_1.get_selection()
self.treeview_1.connect('row-activated', self.rowactivated_cb1)
self.model_2 = Gtk.ListStore(
GObject.TYPE_STRING, # 0==handle
GObject.TYPE_STRING, # 1==name
GObject.TYPE_STRING, # 2==latitude
GObject.TYPE_STRING, # 3==longitude
GObject.TYPE_STRING) # 4==tooltip
self.model_2.set_sort_column_id(
Gtk.TREE_SORTABLE_UNSORTED_SORT_COLUMN_ID, 1)
self.label_2 = top_dialog.get_object("label_2")
self.label_2.set_text(_('Place'))
self.treeview_2 = top_dialog.get_object("treeview_2")
self.treeview_2.set_model(self.model_2)
col1 = Gtk.TreeViewColumn(_('handle'), Gtk.CellRendererText(), text=0)
renderer5 = Gtk.CellRendererText()
renderer5.set_property('underline-set', True)
renderer5.set_property('underline', 2) # 2=double underline
col2 = Gtk.TreeViewColumn(_('name'), renderer5, text=1)
renderer6 = Gtk.CellRendererText()
renderer6.set_property('underline-set', True)
renderer6.set_property('underline', 2) # 2=double underline
col3 = Gtk.TreeViewColumn(_('latitude'), renderer6, text=2)
renderer7 = Gtk.CellRendererText()
renderer7.set_property('underline-set', True)
renderer7.set_property('underline', 2) # 2=double underline
col4 = Gtk.TreeViewColumn(_('longitude'), renderer7, text=3)
col5 = Gtk.TreeViewColumn(_('tooltip'), Gtk.CellRendererText(), text=4)
col1.set_resizable(True)
col1.set_visible(False)
col2.set_resizable(True)
col3.set_resizable(True)
col4.set_resizable(True)
col5.set_visible(False)
col1.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col2.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col3.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col4.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col5.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
self.treeview_2.append_column(col1)
self.treeview_2.append_column(col2)
self.treeview_2.append_column(col3)
self.treeview_2.append_column(col4)
self.treeview_2.append_column(col5)
self.treeview_2.set_tooltip_column(4)
self.treeselection = self.treeview_2.get_selection()
self.treeview_2.connect('row-activated', self.rowactivated_cb2)
self.places()
self.people()
# close the progress bar
self.progress.close()
self.show()
class PatchNames(tool.BatchTool, ManagedWindow):
titleid = 1
nickid = 2
pref1id = 3
compid = 4
def __init__(self, dbstate, user, options_class, name, callback=None):
uistate = user.uistate
self.label = _('Name and title extraction tool')
ManagedWindow.__init__(self, uistate, [], self.__class__)
self.set_window(Gtk.Window(), Gtk.Label(), '')
tool.BatchTool.__init__(self, dbstate, user, options_class, name)
if self.fail:
return
winprefix = Gtk.Dialog(
_("Default prefix and connector settings"), self.uistate.window,
Gtk.DialogFlags.MODAL | Gtk.DialogFlags.DESTROY_WITH_PARENT,
(_('_OK'), Gtk.ResponseType.ACCEPT))
winprefix.vbox.set_spacing(5)
hboxpref = Gtk.Box()
label = Gtk.Label(label=_('Prefixes to search for:'))
hboxpref.pack_start(label, False, False, 5)
self.prefixbox = Gtk.Entry()
self.prefixbox.set_text(', '.join(PREFIX_LIST))
hboxpref.pack_start(self.prefixbox, True, True, 0)
winprefix.vbox.pack_start(hboxpref, True, True, 0)
hboxcon = Gtk.Box()
label = Gtk.Label(label=_('Connectors splitting surnames:'))
hboxcon.pack_start(label, False, False, 5)
self.conbox = Gtk.Entry()
self.conbox.set_text(', '.join(CONNECTOR_LIST))
hboxcon.pack_start(self.conbox, True, True, 0)
winprefix.vbox.pack_start(hboxcon, True, True, 0)
hboxconns = Gtk.Box()
label = Gtk.Label(label=_('Connectors not splitting surnames:'))
hboxconns.pack_start(label, False, False, 5)
self.connsbox = Gtk.Entry()
self.connsbox.set_text(', '.join(CONNECTOR_LIST_NONSPLIT))
hboxconns.pack_start(self.connsbox, True, True, 0)
winprefix.vbox.pack_start(hboxconns, True, True, 0)
winprefix.show_all()
winprefix.resize(700, 100)
response = winprefix.run()
self.prefix_list = self.prefixbox.get_text().split(',')
self.prefix_list = list(map(strip, self.prefix_list))
self.prefixbox = None
self.connector_list = self.conbox.get_text().split(',')
self.connector_list = list(map(strip, self.connector_list))
self.conbox = None
self.connector_list_nonsplit = self.connsbox.get_text().split(',')
self.connector_list_nonsplit = list(
map(strip, self.connector_list_nonsplit))
self.connsbox = None
# Find a prefix in the first_name
self._fn_prefix_re = re.compile(
"(\S+)\s+(%s)\s*$" % '|'.join(self.prefix_list), re.IGNORECASE)
# Find a prefix in the surname
self._sn_prefix_re = re.compile(
"^\s*(%s)\s+(.+)" % '|'.join(self.prefix_list), re.IGNORECASE)
# Find a connector in the surname
self._sn_con_re = re.compile(
"^\s*(.+)\s+(%s)\s+(.+)" % '|'.join(self.connector_list),
re.IGNORECASE)
winprefix.destroy()
self.cb = callback
self.handle_to_action = {}
self.progress = ProgressMeter( # parent-OK
_('Extracting Information from Names'),
'',
parent=self.uistate.window)
self.progress.set_pass(_('Analyzing names'),
self.db.get_number_of_people())
for person in self.db.iter_people():
key = person.handle
name = person.get_primary_name()
first = name.get_first_name()
sname = name.get_surname()
old_prefix = []
old_surn = []
old_con = []
old_prim = []
old_orig = []
for surn in name.get_surname_list():
old_prefix.append(surn.get_prefix())
old_surn.append(surn.get_surname())
old_con.append(surn.get_connector())
old_prim.append(surn.get_primary())
old_orig.append(surn.get_origintype())
if name.get_title():
old_title = [name.get_title()]
else:
old_title = []
new_title = []
match = _title_re.match(first)
while match:
groups = match.groups()
first = groups[1]
new_title.append(groups[0])
match = _title_re.match(first)
matchnick = _nick_re.match(first)
if new_title:
titleval = (" ".join(old_title + new_title), first)
if key in self.handle_to_action:
self.handle_to_action[key][self.titleid] = titleval
else:
self.handle_to_action[key] = {self.titleid: titleval}
elif matchnick:
# we check for nick, which changes given name like title
groups = matchnick.groups()
nickval = (groups[0], groups[1])
if key in self.handle_to_action:
self.handle_to_action[key][self.nickid] = nickval
else:
self.handle_to_action[key] = {self.nickid: nickval}
else:
# Try to find the name prefix in the given name, also this
# changes given name
match = self._fn_prefix_re.match(first)
if match:
groups = match.groups()
if old_prefix[0]:
# Put the found prefix before the old prefix
new_prefix = " ".join([groups[1], old_prefix[0]])
else:
new_prefix = groups[1]
pref1val = (groups[0], new_prefix, groups[1])
if key in self.handle_to_action:
self.handle_to_action[key][self.pref1id] = pref1val
else:
self.handle_to_action[key] = {self.pref1id: pref1val}
#check for Gedcom import of compound surnames
if len(old_surn) == 1 and old_con[0] == '':
prefixes = old_prefix[0].split(',')
surnames = old_surn[0].split(',')
if len(prefixes) > 1 and len(prefixes) == len(surnames):
#assume a list of prefix and a list of surnames
prefixes = list(map(strip, prefixes))
surnames = list(map(strip, surnames))
primaries = [False] * len(prefixes)
primaries[0] = True
origs = []
for ind in range(len(prefixes)):
origs.append(NameOriginType())
origs[0] = old_orig[0]
compoundval = (surnames, prefixes, [''] * len(prefixes),
primaries, origs)
if key in self.handle_to_action:
self.handle_to_action[key][self.compid] = compoundval
else:
self.handle_to_action[key] = {self.compid: compoundval}
#we cannot check compound surnames, so continue the loop
continue
# Next, try to split surname in compounds: prefix surname connector
found = False
new_prefix_list = []
new_surname_list = []
new_connector_list = []
new_prim_list = []
new_orig_list = []
ind = 0
cont = True
for pref, surn, con, prim, orig in zip(old_prefix, old_surn,
old_con, old_prim,
old_orig):
surnval = surn.split()
if surnval == []:
new_prefix_list.append(pref)
new_surname_list.append('')
new_connector_list.append(con)
new_prim_list.append(prim)
new_orig_list.append(orig)
cont = False
continue
val = surnval.pop(0)
while cont:
new_prefix_list.append(pref)
new_surname_list.append('')
new_connector_list.append(con)
new_prim_list.append(prim)
new_orig_list.append(orig)
while cont and (val.lower() in self.prefix_list):
found = True
if new_prefix_list[-1]:
new_prefix_list[-1] += ' ' + val
else:
new_prefix_list[-1] = val
try:
val = surnval.pop(0)
except IndexError:
val = ''
cont = False
#after prefix we have a surname
if cont:
new_surname_list[-1] = val
try:
val = surnval.pop(0)
except IndexError:
val = ''
cont = False
#if value after surname indicates continue, then continue
while cont and (val.lower()
in self.connector_list_nonsplit):
#add this val to the current surname
new_surname_list[-1] += ' ' + val
try:
val = surnval.pop(0)
except IndexError:
val = ''
cont = False
# if previous is non-splitting connector, then add new val to
# current surname
if cont and (new_surname_list[-1].split()[-1].lower()
in self.connector_list_nonsplit):
new_surname_list[-1] += ' ' + val
try:
val = surnval.pop(0)
except IndexError:
val = ''
cont = False
#if next is a connector, add it to the surname
if cont and val.lower() in self.connector_list:
found = True
if new_connector_list[-1]:
new_connector_list[-1] = ' ' + val
else:
new_connector_list[-1] = val
try:
val = surnval.pop(0)
except IndexError:
val = ''
cont = False
#initialize for a next surname in case there are still
#val
if cont:
found = True # we split surname
pref = ''
con = ''
prim = False
orig = NameOriginType()
ind += 1
if found:
compoundval = (new_surname_list, new_prefix_list,
new_connector_list, new_prim_list,
new_orig_list)
if key in self.handle_to_action:
self.handle_to_action[key][self.compid] = compoundval
else:
self.handle_to_action[key] = {self.compid: compoundval}
self.progress.step()
if self.handle_to_action:
self.display()
else:
self.progress.close()
self.close()
OkDialog(
_('No modifications made'), # parent-OK
_("No titles, nicknames or prefixes were found"),
parent=self.uistate.window)
def build_menu_names(self, obj):
return (self.label, None)
def toggled(self, cell, path_string):
path = tuple(map(int, path_string.split(':')))
row = self.model[path]
row[0] = not row[0]
self.model.row_changed(path, row.iter)
def display(self):
self.top = Glade()
window = self.top.toplevel
self.top.connect_signals({
"destroy_passed_object": self.close,
"on_ok_clicked": self.on_ok_clicked,
"on_help_clicked": self.on_help_clicked,
"on_delete_event": self.close,
})
self.list = self.top.get_object("list")
self.set_window(window, self.top.get_object('title'), self.label)
self.model = Gtk.ListStore(GObject.TYPE_BOOLEAN, GObject.TYPE_STRING,
GObject.TYPE_STRING, GObject.TYPE_STRING,
GObject.TYPE_STRING)
r = Gtk.CellRendererToggle()
r.connect('toggled', self.toggled)
c = Gtk.TreeViewColumn(_('Select'), r, active=0)
self.list.append_column(c)
c = Gtk.TreeViewColumn(_('ID'), Gtk.CellRendererText(), text=1)
self.list.append_column(c)
c = Gtk.TreeViewColumn(_('Type'), Gtk.CellRendererText(), text=2)
self.list.append_column(c)
c = Gtk.TreeViewColumn(_('Value'), Gtk.CellRendererText(), text=3)
self.list.append_column(c)
c = Gtk.TreeViewColumn(_('Current Name'),
Gtk.CellRendererText(),
text=4)
self.list.append_column(c)
self.list.set_model(self.model)
self.nick_hash = {}
self.title_hash = {}
self.prefix1_hash = {}
self.compound_hash = {}
self.progress.set_pass(_('Building display'),
len(list(self.handle_to_action.keys())))
for key, data in self.handle_to_action.items():
p = self.db.get_person_from_handle(key)
gid = p.get_gramps_id()
if self.nickid in data:
given, nick = data[self.nickid]
handle = self.model.append()
self.model.set_value(handle, 0, 1)
self.model.set_value(handle, 1, gid)
self.model.set_value(handle, 2, _('Nickname'))
self.model.set_value(handle, 3, nick)
self.model.set_value(handle, 4,
p.get_primary_name().get_name())
self.nick_hash[key] = handle
if self.titleid in data:
title, given = data[self.titleid]
handle = self.model.append()
self.model.set_value(handle, 0, 1)
self.model.set_value(handle, 1, gid)
self.model.set_value(handle, 2, _('Person|Title'))
self.model.set_value(handle, 3, title)
self.model.set_value(handle, 4,
p.get_primary_name().get_name())
self.title_hash[key] = handle
if self.pref1id in data:
given, prefixtotal, new_prefix = data[self.pref1id]
handle = self.model.append()
self.model.set_value(handle, 0, 1)
self.model.set_value(handle, 1, gid)
self.model.set_value(handle, 2, _('Prefix in given name'))
self.model.set_value(handle, 3, prefixtotal)
self.model.set_value(handle, 4,
p.get_primary_name().get_name())
self.prefix1_hash[key] = handle
if self.compid in data:
surn_list, pref_list, con_list, prims, origs = data[
self.compid]
handle = self.model.append()
self.model.set_value(handle, 0, 1)
self.model.set_value(handle, 1, gid)
self.model.set_value(handle, 2, _('Compound surname'))
newval = ''
for sur, pre, con in zip(surn_list, pref_list, con_list):
if newval:
newval += '-['
else:
newval = '['
newval += pre + ',' + sur
if con:
newval += ',' + con + ']'
else:
newval += ']'
self.model.set_value(handle, 3, newval)
self.model.set_value(handle, 4,
p.get_primary_name().get_name())
self.compound_hash[key] = handle
self.progress.step()
self.progress.close()
self.show()
def on_help_clicked(self, obj):
"""Display the relevant portion of GRAMPS manual"""
display_help(webpage=WIKI_HELP_PAGE, section=WIKI_HELP_SEC)
def on_ok_clicked(self, obj):
with DbTxn(_("Extract information from names"), self.db,
batch=True) as trans:
self.db.disable_signals()
for key, data in self.handle_to_action.items():
p = self.db.get_person_from_handle(key)
if self.nickid in data:
modelhandle = self.nick_hash[key]
val = self.model.get_value(modelhandle, 0)
if val:
given, nick = data[self.nickid]
name = p.get_primary_name()
name.set_first_name(given.strip())
name.set_nick_name(nick.strip())
if self.titleid in data:
modelhandle = self.title_hash[key]
val = self.model.get_value(modelhandle, 0)
if val:
title, given = data[self.titleid]
name = p.get_primary_name()
name.set_first_name(given.strip())
name.set_title(title.strip())
if self.pref1id in data:
modelhandle = self.prefix1_hash[key]
val = self.model.get_value(modelhandle, 0)
if val:
given, prefixtotal, prefix = data[self.pref1id]
name = p.get_primary_name()
name.set_first_name(given.strip())
oldpref = name.get_surname_list()[0].get_prefix(
).strip()
if oldpref == '' or oldpref == prefix.strip():
name.get_surname_list()[0].set_prefix(prefix)
else:
name.get_surname_list()[0].set_prefix(
'%s %s' % (prefix, oldpref))
if self.compid in data:
modelhandle = self.compound_hash[key]
val = self.model.get_value(modelhandle, 0)
if val:
surns, prefs, cons, prims, origs = data[self.compid]
name = p.get_primary_name()
new_surn_list = []
for surn, pref, con, prim, orig in zip(
surns, prefs, cons, prims, origs):
new_surn_list.append(Surname())
new_surn_list[-1].set_surname(surn.strip())
new_surn_list[-1].set_prefix(pref.strip())
new_surn_list[-1].set_connector(con.strip())
new_surn_list[-1].set_primary(prim)
new_surn_list[-1].set_origintype(orig)
name.set_surname_list(new_surn_list)
self.db.commit_person(p, trans)
self.db.enable_signals()
self.db.request_rebuild()
self.close()
self.cb()
class ReorderIds(tool.BatchTool, ManagedWindow, UpdateCallback):
""" Class for Reodering Gramps ID Tool """
xobjects = (('person', 'people'), ('family', 'families'),
('event', 'events'), ('place', 'places'),
('source', 'sources'), ('citation', 'citations'),
('repository', 'repositories'), ('media', 'media'), ('note',
'notes'))
def build_menu_names_(self, widget=None):
""" The menu name """
return (_('Main window'), _("Reorder Gramps IDs"))
def __init__(self, dbstate, user, options_class, name, callback=None):
self.uistate = user.uistate
self.dbstate = dbstate.db
if self.uistate:
tool.BatchTool.__init__(self, dbstate, user, options_class, name)
if self.fail:
return # user denied to modify Gramps IDs
ManagedWindow.__init__(self, self.uistate, [], self.__class__)
if not self.uistate:
UpdateCallback.__init__(self, user.callback)
self.object_status = True
self.change_status = False
self.start_zero = True
self.step_cnt, self.step_list = 0, ['1', '2', '5', '10']
self.keep_status = True
self.obj_values = {} # enable access to all internal values
self.active_entries, self.format_entries = {}, {}
self.change_entries = {}
self.start_entries, self.step_entries = {}, {}
self.keep_entries = {}
self.prim_methods, self.obj_methods = {}, {}
for prim_obj, prim_objs in self.xobjects:
class_type = prim_obj.title()
iter_handles = "self.dbstate.iter_%s_handles" % prim_obj
get_number_obj = "self.dbstate.get_number_of_%s" % prim_objs
prefix_fmt = "self.dbstate.%s_prefix" % prim_obj
get_from_id = "self.dbstate.get_%s_from_gramps_id" % prim_obj
get_from_handle = "self.dbstate.get_%s_from_handle" % prim_obj
next_from_id = "self.dbstate.find_next_%s_gramps_id" % prim_obj
commit = "self.dbstate.commit_%s" % prim_obj
self.prim_methods[prim_obj] = (eval(prefix_fmt),
eval(get_number_obj)(),
eval(next_from_id)())
self.obj_methods[prim_obj] = (eval(class_type), eval(iter_handles),
eval(commit), eval(get_from_id),
eval(get_from_handle),
eval(next_from_id))
object_fmt, quant_id, next_id = self.prim_methods[prim_obj]
obj_value = ReorderEntry(object_fmt, quant_id, next_id)
self.obj_values[prim_obj] = obj_value
if self.uistate:
self._display()
else:
self._execute()
def __on_object_button_clicked(self, widget=None):
""" compute all primary objects and toggle the 'Active' attribute """
self.object_status = not self.object_status
for prim_obj, tmp in self.xobjects:
obj = self.top.get_object('%s_active' % prim_obj)
obj.set_active(self.object_status)
def __on_object_button_toggled(self, widget):
""" compute the primary object and toggle the 'Sensitive' attribute """
obj_state = widget.get_active()
obj_name = Gtk.Buildable.get_name(widget).split('_', 1)[0]
self.active_entries[obj_name].set_val(obj_state)
for obj_entry in ['actual', 'quant', 'format', 'change']:
obj = self.top.get_object('%s_%s' % (obj_name, obj_entry))
obj.set_sensitive(obj_state)
for obj_entry in ['start', 'step', 'keep']:
obj = self.top.get_object('%s_change' % obj_name)
if obj.get_active():
obj = self.top.get_object('%s_%s' % (obj_name, obj_entry))
obj.set_sensitive(obj_state)
def __on_format_button_clicked(self, widget=None):
""" compute all sensitive primary objects and sets the
'Format' scheme of identifiers """
for prim_obj, tmp in self.xobjects:
obj_format = self.top.get_object('%s_format' % prim_obj)
if not obj_format.get_sensitive():
continue
obj_fmt = self.obj_values[prim_obj].res_fmt()
self.format_entries[prim_obj].force_value(obj_fmt)
if self.start_zero:
obj_id = self.obj_values[prim_obj].zero_id()
else:
obj_id = self.obj_values[prim_obj].last_id()
self.start_entries[prim_obj].force_value(obj_id)
def __on_change_button_clicked(self, widget=None):
""" compute all primary objects and toggle the 'Change' attribute """
self.change_status = not self.change_status
for prim_obj, tmp in self.xobjects:
obj_change = self.top.get_object('%s_change' % prim_obj)
if not obj_change.get_sensitive():
continue
self.change_entries[prim_obj].set_val(self.change_status)
obj_change.set_active(self.change_status)
def __on_change_button_toggled(self, widget):
""" compute the primary object and toggle the 'Sensitive' attribute """
obj_state = widget.get_active()
obj_name = Gtk.Buildable.get_name(widget).split('_', 1)[0]
for obj_entry in ['start', 'step', 'keep']:
obj = self.top.get_object('%s_%s' % (obj_name, obj_entry))
if obj_entry == 'keep':
if self.obj_values[obj_name].stored_prefix != \
self.obj_values[obj_name].object_prefix:
self.keep_entries[obj_name].set_val(False)
else:
obj.set_active(obj_state)
self.keep_entries[obj_name].set_val(obj_state)
obj.set_sensitive(obj_state)
def __on_start_button_clicked(self, widget=None):
""" compute all sensitive primary objects and sets the
'Start' values of identifiers """
self.start_zero = not self.start_zero
for prim_obj, tmp in self.xobjects:
obj = self.top.get_object('%s_start' % prim_obj)
if not obj.get_sensitive():
continue
if self.start_zero:
obj_id = self.obj_values[prim_obj].zero_id()
else:
obj_id = self.obj_values[prim_obj].next_id()
self.start_entries[prim_obj].force_value(obj_id)
def __on_step_button_clicked(self, widget=None):
""" compute all sensitive primary objects and sets the
'Step' width of identifiers """
self.step_cnt = self.step_cnt + 1 if self.step_cnt < 3 else 0
for prim_obj, tmp in self.xobjects:
obj = self.top.get_object('%s_step' % prim_obj)
if not obj.get_sensitive():
continue
step_val = self.step_list[self.step_cnt]
self.step_entries[prim_obj].force_value(step_val)
def __on_keep_button_clicked(self, widget=None):
""" compute the primary object and toggle the 'Active' attribute """
self.keep_status = not self.keep_status
for prim_obj, tmp in self.xobjects:
obj = self.top.get_object('%s_change' % prim_obj)
if not obj.get_active():
continue
obj = self.top.get_object('%s_keep' % prim_obj)
obj.set_active(self.keep_status)
self.keep_entries[prim_obj].set_val(self.keep_status)
def __on_format_entry_keyrelease(self, widget, event, data=None):
""" activated on all return's of an entry """
if event.keyval in [Gdk.KEY_Return]:
obj_name = Gtk.Buildable.get_name(widget).split('_', 1)[0]
obj_fmt = self.format_entries[obj_name].get_val()
self.format_entries[obj_name].force_value(obj_fmt)
self.start_entries[obj_name].update()
obj_change = self.top.get_object('%s_change' % obj_name)
obj_change.grab_focus()
return False
def __on_format_entry_focusout(self, widget, event, data=None):
""" activated on all focus out of an entry """
obj_name = Gtk.Buildable.get_name(widget).split('_', 1)[0]
obj_fmt = self.format_entries[obj_name].get_val()
self.format_entries[obj_name].set_val(obj_fmt)
self.start_entries[obj_name].update()
return False
def __on_start_entry_focusout(self, widget, event, data=None):
""" activated on all focus out of an entry """
obj_name = Gtk.Buildable.get_name(widget).split('_', 1)[0]
self.start_entries[obj_name].update()
return False
def __on_ok_button_clicked(self, widget=None):
""" execute the reodering and close """
self._execute()
self._update()
self.close()
def __on_cancel_button_clicked(self, widget=None):
""" cancel the reodering and close """
self.close()
def __on_help_button_clicked(self, widget=None):
""" display the relevant portion of Gramps manual """
display_help(webpage=WIKI_HELP_PAGE, section=WIKI_HELP_SEC)
def _display(self):
""" organize Glade 'Reorder IDs' window """
# get the main window from glade
self.top = Glade(toplevel="reorder-ids")
window = self.top.toplevel
# set gramps style title for the window
self.set_window(window, self.top.get_object("title"), \
_("Reorder Gramps IDs"))
# connect signals
self.top.connect_signals({
"on_object_button_clicked":
self.__on_object_button_clicked,
"on_object_button_toggled":
self.__on_object_button_toggled,
"on_format_button_clicked":
self.__on_format_button_clicked,
"on_start_button_clicked":
self.__on_start_button_clicked,
"on_step_button_clicked":
self.__on_step_button_clicked,
"on_keep_button_clicked":
self.__on_keep_button_clicked,
"on_change_button_clicked":
self.__on_change_button_clicked,
"on_change_button_toggled":
self.__on_change_button_toggled,
"on_format_entry_keyrelease":
self.__on_format_entry_keyrelease,
"on_format_entry_focusout":
self.__on_format_entry_focusout,
"on_start_entry_focusout":
self.__on_start_entry_focusout,
"on_help_button_clicked":
self.__on_help_button_clicked,
"on_cancel_button_clicked":
self.__on_cancel_button_clicked,
"on_ok_button_clicked":
self.__on_ok_button_clicked
})
# Calculate all entries and update Glade window
for prim_obj, tmp in self.xobjects:
# populate Object, Actual & Quantity fields with values
obj_active = self.top.get_object('%s_active' % prim_obj)
self.active_entries[prim_obj] = MonitoredCheckbox(
obj_active, obj_active, self.obj_values[prim_obj].set_active,
self.obj_values[prim_obj].get_active)
obj_actual = self.top.get_object('%s_actual' % prim_obj)
obj_actual.set_text('%s' % self.obj_values[prim_obj].last_id())
obj_quant = self.top.get_object('%s_quant' % prim_obj)
obj_quant.set_text('%s' % str(self.obj_values[prim_obj].quant_id))
# connect/populate Format, Start, Step, Keep & Change fields with GTK/values
obj_format = self.top.get_object('%s_format' % prim_obj)
self.format_entries[prim_obj] = MonitoredEntry(
obj_format, self.obj_values[prim_obj].set_fmt,
self.obj_values[prim_obj].get_fmt)
obj_change = self.top.get_object('%s_change' % prim_obj)
self.change_entries[prim_obj] = MonitoredCheckbox(
obj_change, obj_change, self.obj_values[prim_obj].set_change,
self.obj_values[prim_obj].get_change)
obj_start = self.top.get_object('%s_start' % prim_obj)
self.start_entries[prim_obj] = MonitoredEntry(
obj_start, self.obj_values[prim_obj].set_id,
self.obj_values[prim_obj].get_id)
obj_step = self.top.get_object('%s_step' % prim_obj)
self.step_entries[prim_obj] = MonitoredEntry(
obj_step,
self.obj_values[prim_obj].set_step,
self.obj_values[prim_obj].get_step,
changed=self.obj_values[prim_obj].change_step)
obj_keep = self.top.get_object('%s_keep' % prim_obj)
self.keep_entries[prim_obj] = MonitoredCheckbox(
obj_keep,
obj_keep,
self.obj_values[prim_obj].set_keep,
self.obj_values[prim_obj].get_keep,
readonly=True)
# fetch the popup menu
self.menu = self.top.get_object("popup_menu")
# ok, let's see what we've done
self.show()
def _update(self):
""" store changed objects formats in DB """
update = False
for prim_obj, tmp in self.xobjects:
obj_value = self.obj_values[prim_obj]
if obj_value.object_fmt != obj_value.stored_fmt:
prefix = obj_value.object_prefix.lower()
constant = 'preferences.%sprefix' % prefix
config.set(constant, obj_value.object_fmt)
update = True
if update:
config.save()
self.dbstate.set_prefixes(config.get('preferences.iprefix'),
config.get('preferences.oprefix'),
config.get('preferences.fprefix'),
config.get('preferences.sprefix'),
config.get('preferences.cprefix'),
config.get('preferences.pprefix'),
config.get('preferences.eprefix'),
config.get('preferences.rprefix'),
config.get('preferences.nprefix'))
def _execute(self):
""" execute all primary objects and reorder if neccessary """
# Update progress calculation
if self.uistate:
self.progress = ProgressMeter(_('Reorder Gramps IDs'), '')
else:
total_objs = 0
for prim_obj, tmp in self.xobjects:
if self.obj_values[prim_obj].active_obj:
total_objs += self.obj_values[prim_obj].quant_id
self.set_total(total_objs)
# Update database
self.dbstate.disable_signals()
for prim_obj, prim_objs in self.xobjects:
with DbTxn(_('Reorder %s IDs ...') % prim_obj, self.dbstate, batch=True) \
as self.trans:
if self.obj_values[prim_obj].active_obj:
if self.uistate:
self.progress.set_pass(_('Reorder %s IDs ...') % \
_(prim_objs.title()), \
self.obj_values[prim_obj].quant_id)
# Process reordering
self._reorder(prim_obj)
self.dbstate.enable_signals()
self.dbstate.request_rebuild()
# Update progress calculation
if self.uistate:
self.progress.close()
else:
print('\nDone.')
# finds integer portion in a GrampsID
_findint = re.compile('^[^\d]*(\d+)[^\d]*')
def _reorder(self, prim_obj):
""" reorders all selected objects with a (new) style, start & step """
dup_ids = [] # list of duplicate identifiers
new_ids = {} # list of new identifiers
class_type, iter_handles, commit, get_from_id, get_from_handle, next_from_id = \
self.obj_methods[prim_obj]
prefix_fmt = self.obj_values[prim_obj].get_fmt()
prefix = prefix_fmt.split('%', 1)[0]
new_id = self.obj_values[prim_obj].get_id()
keep_fmt = self.obj_values[prim_obj].get_keep()
change = self.obj_values[prim_obj].get_change()
formatmatch = _parseformat.match(prefix_fmt)
index_max = int("9" * int(formatmatch.groups()[0]))
for handle in iter_handles():
# Update progress
if self.uistate:
self.progress.step()
else:
self.update()
# extract basic data out of the database
obj = get_from_handle(handle)
act_id = obj.get_gramps_id()
if change:
# update the defined ID numbers into objects under consideration
# of keeping ID if format not matches prefix
# (implication logical boolean operator below)
if act_id.startswith(prefix) or not keep_fmt:
obj.set_gramps_id(new_id)
commit(obj, self.trans)
new_id = self.obj_values[prim_obj].succ_id()
else:
# attempt to extract integer - if we can't, treat it as a duplicate
try:
match = _findint.match(act_id)
if match:
# get the integer, build the new handle. Make sure it
# hasn't already been chosen. If it has, put this
# in the duplicate handle list
index = int(match.groups()[0])
if formatmatch:
if index > index_max:
new_id = next_from_id()
else:
new_id = prefix_fmt % index
else:
# prefix_fmt does not contain a number after %, eg I%d
new_id = prefix_fmt % index
if new_id == act_id:
if new_id in new_ids:
dup_ids.append(obj.get_handle())
else:
new_ids[new_id] = act_id
elif get_from_id(new_id) is not None:
dup_ids.append(obj.get_handle())
else:
obj.set_id(new_id)
commit(obj, self.trans)
new_ids[new_id] = act_id
else:
dup_ids.append(handle)
except:
dup_ids.append(handle)
# go through the duplicates, looking for the first available
# handle that matches the new scheme.
if dup_ids:
if self.uistate:
self.progress.set_pass(_('Finding and assigning unused IDs.'),
len(dup_ids))
for handle in dup_ids:
obj = get_from_handle(handle)
obj.set_gramps_id(next_from_id())
commit(obj, self.trans)
class DisplayChart(ManagedWindow):
def __init__(self, dbstate, uistate, people_list, track):
self.dbstate = dbstate
self.uistate = uistate
ManagedWindow.__init__(self, uistate, track, self)
self.db = dbstate.db
self.my_list = people_list
self.row_data = []
self.save_form = None
self.topDialog = Glade()
self.topDialog.connect_signals(
{
"on_write_table": self.on_write_table,
"destroy_passed_object": self.close,
"on_help_clicked": self.on_help_clicked,
"on_apply_clicked": self.__dummy,
"on_editor_clicked": self.__dummy,
}
)
window = self.topDialog.toplevel
self.set_window(window, self.topDialog.get_object("title"), _("Event Comparison Results"))
self.eventlist = self.topDialog.get_object("treeview")
self.sort = Sort(self.db)
self.my_list.sort(key=self.sort.by_last_name_key)
self.event_titles = self.make_event_titles()
self.table_titles = [_("Person"), _("ID")]
for event_name in self.event_titles:
self.table_titles.append(_("%(event_name)s Date") % {"event_name": event_name})
self.table_titles.append("sort") # This won't be shown in a tree
self.table_titles.append(_("%(event_name)s Place") % {"event_name": event_name})
self.build_row_data()
self.draw_display()
self.show()
def __dummy(self, obj):
"""dummy callback, needed because widget is in same glade file
as another widget, so callbacks must be defined to avoid warnings.
"""
pass
def on_help_clicked(self, obj):
"""Display the relevant portion of GRAMPS manual"""
display_help(webpage=WIKI_HELP_PAGE, section=WIKI_HELP_SEC)
def build_menu_names(self, obj):
return (_("Event Comparison Results"), None)
def draw_display(self):
model_index = 0
tree_index = 0
mylist = []
renderer = Gtk.CellRendererText()
for title in self.table_titles:
mylist.append(str)
if title == "sort":
# This will override the previously defined column
self.eventlist.get_column(tree_index - 1).set_sort_column_id(model_index)
else:
column = Gtk.TreeViewColumn(title, renderer, text=model_index)
column.set_sort_column_id(model_index)
self.eventlist.append_column(column)
# This one numbers the tree columns: increment on new column
tree_index += 1
# This one numbers the model columns: always increment
model_index += 1
model = Gtk.ListStore(*mylist)
self.eventlist.set_model(model)
self.progress_bar.set_pass(_("Building display"), len(self.row_data))
for data in self.row_data:
model.append(row=list(data))
self.progress_bar.step()
self.progress_bar.close()
def build_row_data(self):
self.progress_bar = ProgressMeter(_("Comparing Events"), "", parent=self.window)
self.progress_bar.set_pass(_("Building data"), len(self.my_list))
for individual_id in self.my_list:
individual = self.db.get_person_from_handle(individual_id)
name = individual.get_primary_name().get_name()
gid = individual.get_gramps_id()
the_map = defaultdict(list)
for ievent_ref in individual.get_event_ref_list():
ievent = self.db.get_event_from_handle(ievent_ref.ref)
event_name = str(ievent.get_type())
the_map[event_name].append(ievent_ref.ref)
first = True
done = False
while not done:
added = False
tlist = [name, gid] if first else ["", ""]
for ename in self.event_titles:
if ename in the_map and len(the_map[ename]) > 0:
event_handle = the_map[ename][0]
del the_map[ename][0]
date = place = ""
if event_handle:
event = self.db.get_event_from_handle(event_handle)
date = get_date(event)
sortdate = "%09d" % (event.get_date_object().get_sort_value())
place_handle = event.get_place_handle()
if place_handle:
place = self.db.get_place_from_handle(place_handle).get_title()
tlist += [date, sortdate, place]
added = True
else:
tlist += [""] * 3
if first:
first = False
self.row_data.append(tlist)
elif not added:
done = True
else:
self.row_data.append(tlist)
self.progress_bar.step()
def make_event_titles(self):
"""
Create the list of unique event types, along with the person's
name, birth, and death.
This should be the column titles of the report.
"""
the_map = defaultdict(int)
for individual_id in self.my_list:
individual = self.db.get_person_from_handle(individual_id)
for event_ref in individual.get_event_ref_list():
event = self.db.get_event_from_handle(event_ref.ref)
name = str(event.get_type())
if not name:
break
the_map[name] += 1
unsort_list = sorted([(d, k) for k, d in the_map.items()], key=lambda x: x[0], reverse=True)
sort_list = [item[1] for item in unsort_list]
## Presently there's no Birth and Death. Instead there's Birth Date and
## Birth Place, as well as Death Date and Death Place.
## # Move birth and death to the begining of the list
## if _("Death") in the_map:
## sort_list.remove(_("Death"))
## sort_list = [_("Death")] + sort_list
## if _("Birth") in the_map:
## sort_list.remove(_("Birth"))
## sort_list = [_("Birth")] + sort_list
return sort_list
def on_write_table(self, obj):
f = Gtk.FileChooserDialog(
_("Select filename"),
parent=self.window,
action=Gtk.FileChooserAction.SAVE,
buttons=(_("_Cancel"), Gtk.ResponseType.CANCEL, _("_Save"), Gtk.ResponseType.OK),
)
f.set_current_folder(get_curr_dir())
status = f.run()
f.hide()
if status == Gtk.ResponseType.OK:
name = conv_to_unicode(f.get_filename())
doc = ODSTab(len(self.row_data))
doc.creator(self.db.get_researcher().get_name())
spreadsheet = TableReport(name, doc)
new_titles = []
skip_columns = []
index = 0
for title in self.table_titles:
if title == "sort":
skip_columns.append(index)
else:
new_titles.append(title)
index += 1
spreadsheet.initialize(len(new_titles))
spreadsheet.write_table_head(new_titles)
index = 0
for top in self.row_data:
spreadsheet.set_row(index % 2)
index += 1
spreadsheet.write_table_data(top, skip_columns)
spreadsheet.finalize()
f.destroy()
class EventComparisonResults(ManagedWindow):
def __init__(self, dbstate, uistate, people_list, track):
self.dbstate = dbstate
self.uistate = uistate
ManagedWindow.__init__(self, uistate, track, self)
self.db = dbstate.db
self.my_list = people_list
self.row_data = []
self.save_form = None
self.topDialog = Glade(toplevel="eventcmp")
self.topDialog.connect_signals({
"on_write_table": self.on_write_table,
"destroy_passed_object": self.close,
"on_help_clicked": self.on_help_clicked,
"on_apply_clicked": self.__dummy,
"on_editor_clicked": self.__dummy,
})
window = self.topDialog.toplevel
self.set_window(window, self.topDialog.get_object('title'),
_('Event Comparison Results'))
self.setup_configs('interface.eventcomparisonresults', 750, 400)
self.eventlist = self.topDialog.get_object('treeview')
self.sort = Sort(self.db)
self.my_list.sort(key=self.sort.by_last_name_key)
self.event_titles = self.make_event_titles()
self.table_titles = [_("Person"), _("ID")]
for event_name in self.event_titles:
self.table_titles.append(
_("%(event_name)s Date") % {'event_name': event_name})
self.table_titles.append('sort') # This won't be shown in a tree
self.table_titles.append(
_("%(event_name)s Place") % {'event_name': event_name})
self.build_row_data()
self.draw_display()
self.show()
def __dummy(self, obj):
"""dummy callback, needed because widget is in same glade file
as another widget, so callbacks must be defined to avoid warnings.
"""
pass
def on_help_clicked(self, obj):
"""Display the relevant portion of Gramps manual"""
display_help(webpage=WIKI_HELP_PAGE, section=WIKI_HELP_SEC)
def build_menu_names(self, obj):
return (_("Event Comparison Results"), None)
def draw_display(self):
model_index = 0
tree_index = 0
mylist = []
renderer = Gtk.CellRendererText()
for title in self.table_titles:
mylist.append(str)
if title == 'sort':
# This will override the previously defined column
self.eventlist.get_column(tree_index -
1).set_sort_column_id(model_index)
else:
column = Gtk.TreeViewColumn(title, renderer, text=model_index)
column.set_sort_column_id(model_index)
self.eventlist.append_column(column)
# This one numbers the tree columns: increment on new column
tree_index += 1
# This one numbers the model columns: always increment
model_index += 1
model = Gtk.ListStore(*mylist)
self.eventlist.set_model(model)
self.progress_bar.set_pass(_('Building display'), len(self.row_data))
for data in self.row_data:
model.append(row=list(data))
self.progress_bar.step()
self.progress_bar.close()
def build_row_data(self):
self.progress_bar = ProgressMeter(_('Comparing Events'),
'',
parent=self.uistate.window)
self.progress_bar.set_pass(_('Building data'), len(self.my_list))
for individual_id in self.my_list:
individual = self.db.get_person_from_handle(individual_id)
name = individual.get_primary_name().get_name()
gid = individual.get_gramps_id()
the_map = defaultdict(list)
for ievent_ref in individual.get_event_ref_list():
ievent = self.db.get_event_from_handle(ievent_ref.ref)
event_name = str(ievent.get_type())
the_map[event_name].append(ievent_ref.ref)
first = True
done = False
while not done:
added = False
tlist = [name, gid] if first else ["", ""]
for ename in self.event_titles:
if ename in the_map and len(the_map[ename]) > 0:
event_handle = the_map[ename][0]
del the_map[ename][0]
date = place = ""
if event_handle:
event = self.db.get_event_from_handle(event_handle)
date = get_date(event)
sortdate = "%09d" % (
event.get_date_object().get_sort_value())
place_handle = event.get_place_handle()
if place_handle:
place = self.db.get_place_from_handle(
place_handle).get_title()
tlist += [date, sortdate, place]
added = True
else:
tlist += [""] * 3
if first:
first = False
self.row_data.append(tlist)
elif not added:
done = True
else:
self.row_data.append(tlist)
self.progress_bar.step()
def make_event_titles(self):
"""
Create the list of unique event types, along with the person's
name, birth, and death.
This should be the column titles of the report.
"""
the_map = defaultdict(int)
for individual_id in self.my_list:
individual = self.db.get_person_from_handle(individual_id)
for event_ref in individual.get_event_ref_list():
event = self.db.get_event_from_handle(event_ref.ref)
name = str(event.get_type())
if not name:
break
the_map[name] += 1
unsort_list = sorted([(d, k) for k, d in the_map.items()],
key=lambda x: x[0],
reverse=True)
sort_list = [item[1] for item in unsort_list]
## Presently there's no Birth and Death. Instead there's Birth Date and
## Birth Place, as well as Death Date and Death Place.
## # Move birth and death to the begining of the list
## if _("Death") in the_map:
## sort_list.remove(_("Death"))
## sort_list = [_("Death")] + sort_list
## if _("Birth") in the_map:
## sort_list.remove(_("Birth"))
## sort_list = [_("Birth")] + sort_list
return sort_list
def on_write_table(self, obj):
f = Gtk.FileChooserDialog(_("Select filename"),
parent=self.window,
action=Gtk.FileChooserAction.SAVE,
buttons=(_('_Cancel'),
Gtk.ResponseType.CANCEL, _('_Save'),
Gtk.ResponseType.OK))
f.set_current_folder(get_curr_dir())
status = f.run()
f.hide()
if status == Gtk.ResponseType.OK:
name = f.get_filename()
doc = ODSTab(len(self.row_data))
doc.creator(self.db.get_researcher().get_name())
spreadsheet = TableReport(name, doc)
new_titles = []
skip_columns = []
index = 0
for title in self.table_titles:
if title == 'sort':
skip_columns.append(index)
else:
new_titles.append(title)
index += 1
spreadsheet.initialize(len(new_titles))
spreadsheet.write_table_head(new_titles)
index = 0
for top in self.row_data:
spreadsheet.set_row(index % 2)
index += 1
spreadsheet.write_table_data(top, skip_columns)
spreadsheet.finalize()
f.destroy()
def __init__(self, dbstate, user, options_class, name, callback=None):
uistate = user.uistate
self.title = _('Find database loop')
ManagedWindow.__init__(self, uistate, [], self.__class__)
self.dbstate = dbstate
self.uistate = uistate
#self.db = CacheProxyDb(dbstate.db)
self.db = dbstate.db
top_dialog = Glade()
top_dialog.connect_signals({
"destroy_passed_object" : self.close,
"on_help_clicked" : self.on_help_clicked,
"on_delete_event" : self.close,
})
window = top_dialog.toplevel
title = top_dialog.get_object("title")
self.set_window(window, title, self.title)
# start the progress indicator
self.progress = ProgressMeter(self.title, _('Starting'),
parent=uistate.window)
self.progress.set_pass(_('Looking for possible loop for each person'),
self.db.get_number_of_people())
self.model = Gtk.ListStore(
GObject.TYPE_STRING, # 0==father id
GObject.TYPE_STRING, # 1==father
GObject.TYPE_STRING, # 2==son id
GObject.TYPE_STRING, # 3==son
GObject.TYPE_STRING, # 4==family gid
GObject.TYPE_STRING) # 5==loop number
self.model.set_sort_column_id(
Gtk.TREE_SORTABLE_UNSORTED_SORT_COLUMN_ID, 0)
self.treeview = top_dialog.get_object("treeview")
self.treeview.set_model(self.model)
col0 = Gtk.TreeViewColumn('',
Gtk.CellRendererText(), text=5)
col1 = Gtk.TreeViewColumn(_('Gramps ID'),
Gtk.CellRendererText(), text=0)
col2 = Gtk.TreeViewColumn(_('Parent'),
Gtk.CellRendererText(), text=1)
col3 = Gtk.TreeViewColumn(_('Gramps ID'),
Gtk.CellRendererText(), text=2)
col4 = Gtk.TreeViewColumn(_('Child'),
Gtk.CellRendererText(), text=3)
col5 = Gtk.TreeViewColumn(_('Family ID'),
Gtk.CellRendererText(), text=4)
col1.set_resizable(True)
col2.set_resizable(True)
col3.set_resizable(True)
col4.set_resizable(True)
col5.set_resizable(True)
col1.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col2.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col3.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col4.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col5.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
self.treeview.append_column(col0)
self.treeview.append_column(col1)
self.treeview.append_column(col2)
self.treeview.append_column(col3)
self.treeview.append_column(col4)
self.treeview.append_column(col5)
self.treeselection = self.treeview.get_selection()
self.treeview.connect('row-activated', self.rowactivated_cb)
self.curr_fam = None
people = self.db.get_person_handles()
self.total = len(people) # total number of people to process.
self.count = 0 # current number of people completely processed
self.loop = 0 # Number of loops found for GUI
pset = OrderedDict()
# pset is the handle list of persons from the current start of
# exploration path to the current limit. The use of OrderedDict
# allows us to use it as a LIFO during recursion, as well as makes for
# quick lookup. If we find a loop, pset provides a nice way to get
# the loop path.
self.done = set()
# self.done is the handle set of people that have been fully explored
# and do NOT have loops in the decendent tree. We use this to avoid
# repeating work when we encounter one of these during the search.
for person_handle in people:
person = self.db.get_person_from_handle(person_handle)
self.current = person
self.parent = None
self.descendants(person_handle, pset)
# close the progress bar
self.progress.close()
self.show()
class ChangeGivenNames(tool.BatchTool, ManagedWindow):
def __init__(self, dbstate, user, options_class, name, callback=None):
uistate = user.uistate
self.label = _('Capitalization changes')
self.dbstate = dbstate
self.uistate = uistate
self.cb = callback
ManagedWindow.__init__(self,uistate,[],self.__class__)
self.set_window(Gtk.Window(),Gtk.Label(),'')
tool.BatchTool.__init__(self, dbstate, user, options_class, name)
if self.fail:
return
given_name_dict = self.get_given_name_dict()
self.progress = ProgressMeter(_('Checking Given Names'),'',
parent=uistate.window)
self.progress.set_pass(_('Searching given names'),
len(given_name_dict.keys()))
self.name_list = []
for name in given_name_dict.keys():
if name != capitalize(name):
self.name_list.append((name, given_name_dict[name]))
if uistate:
self.progress.step()
if self.name_list:
self.display()
else:
self.progress.close()
self.close()
OkDialog(_('No modifications made'),
_("No capitalization changes were detected."),
parent=uistate.window)
def get_given_name_dict(self):
givennames = {}
self.name_map = {}
for person in self.db.iter_people():
allnames = [person.get_primary_name()] + person.get_alternate_names()
allnames = set(name.get_first_name().strip() for name in allnames)
for givenname in allnames:
givennames[givenname] = givennames.get(givenname, 0) + 1
self.name_map[givenname] = self.name_map.get(givenname, set([]))
self.name_map[givenname].add(person.handle)
return givennames
def display(self):
if lin():
import locale, os
locale.setlocale(locale.LC_ALL, '')
# This is needed to make gtk.Builder work by specifying the
# translations directory
base = os.path.dirname(__file__)
locale.bindtextdomain("addon", base + "/locale")
self.glade = Gtk.Builder()
self.glade.set_translation_domain("addon")
path = base + "/changenames.glade"
self.glade.add_from_file(path)
#from gi.repository import GObject
GObject.GObject.__init__(self.glade)
self.top = self.glade.get_object('changenames')
self.glade.connect_signals({
"destroy_passed_object" : self.close,
"on_ok_clicked" : self.on_ok_clicked,
"on_help_clicked" : self.on_help_clicked,
"on_edit_clicked" : self.on_edit_clicked,
"on_delete_event" : self.close,
})
self.list = self.glade.get_object("list")
self.set_window(self.top, self.glade.get_object('title'), self.label)
else:
self.top = Glade("changenames.glade")
window = self.top.toplevel
self.top.connect_signals({
"destroy_passed_object" : self.close,
"on_ok_clicked" : self.on_ok_clicked,
"on_help_clicked" : self.on_help_clicked,
"on_edit_clicked" : self.on_edit_clicked,
"on_delete_event" : self.close,
})
self.list = self.top.get_object("list")
self.set_window(window,self.top.get_object('title'),self.label)
# selected, original name, changed, count
self.model = Gtk.ListStore(GObject.TYPE_BOOLEAN, GObject.TYPE_STRING,
GObject.TYPE_STRING, GObject.TYPE_INT)
self.handles = {}
r = Gtk.CellRendererToggle()
r.connect('toggled',self.toggled)
c = Gtk.TreeViewColumn(_('Select'),r,active=0)
self.list.append_column(c)
c = Gtk.TreeViewColumn(_('Original Name'),
Gtk.CellRendererText(),text=1)
self.list.append_column(c)
c = Gtk.TreeViewColumn(_('Capitalization Change'),
Gtk.CellRendererText(),text=2)
self.list.append_column(c)
c = Gtk.TreeViewColumn(_('Affected Names'),
Gtk.CellRendererText(),text=3)
self.list.append_column(c)
self.list.set_model(self.model)
self.iter_list = []
self.progress.set_pass(_('Building display'),len(self.name_list))
for name, count in self.name_list:
handle = self.model.append()
self.model.set_value(handle,0, False)
self.model.set_value(handle,1, name)
namecap = capitalize(name)
self.model.set_value(handle,2, namecap)
self.model.set_value(handle,3, count)
self.iter_list.append(handle)
self.progress.step()
self.progress.close()
self.show()
def toggled(self,cell,path_string):
path = tuple(map(int, path_string.split(':')))
row = self.model[path]
row[0] = not row[0]
def build_menu_names(self, obj):
return (self.label,None)
def on_help_clicked(self, obj):
"""Display the relevant portion of GRAMPS manual"""
display_help(WIKI_HELP_PAGE , WIKI_HELP_SEC)
def on_edit_clicked(self, button):
"""Edit the selected person"""
from gramps.gui.editors import EditPerson
selection = self.list.get_selection()
store, paths = selection.get_selected_rows()
tpath = paths[0] if len(paths) > 0 else None
node = store.get_iter(tpath) if tpath else None
if node:
name = store.get_value(node, 1)
for handle in self.name_map[name]:
person = self.dbstate.db.get_person_from_handle(handle)
EditPerson(self.dbstate, self.uistate, [], person)
def on_ok_clicked(self, obj):
with DbTxn(_("Capitalization changes"), self.db, batch=True
) as self.trans:
self.db.disable_signals()
changelist = set(self.model.get_value(node,1)
for node in self.iter_list
if self.model.get_value(node,0))
for handle in self.db.get_person_handles(False):
person = self.db.get_person_from_handle(handle)
change = False
for name in [person.get_primary_name()] + person.get_alternate_names():
if name.first_name in changelist:
change = True
fname = capitalize(name.first_name)
name.set_first_name(fname)
if change:
self.db.commit_person(person, self.trans)
self.db.enable_signals()
self.db.request_rebuild()
self.close()
self.cb()
class ChangeGivenNames(tool.BatchTool, ManagedWindow):
def __init__(self, dbstate, user, options_class, name, callback=None):
uistate = user.uistate
self.label = _('Capitalization changes')
self.dbstate = dbstate
self.uistate = uistate
self.cb = callback
ManagedWindow.__init__(self, uistate, [], self.__class__)
self.set_window(Gtk.Window(), Gtk.Label(), '')
tool.BatchTool.__init__(self, dbstate, user, options_class, name)
if self.fail:
return
given_name_dict = self.get_given_name_dict()
self.progress = ProgressMeter(_('Checking Given Names'),
'',
parent=uistate.window)
self.progress.set_pass(_('Searching given names'),
len(given_name_dict.keys()))
self.name_list = []
for name in given_name_dict.keys():
if name != capitalize(name):
self.name_list.append((name, given_name_dict[name]))
if uistate:
self.progress.step()
if self.name_list:
self.display()
else:
self.progress.close()
self.close()
OkDialog(_('No modifications made'),
_("No capitalization changes were detected."),
parent=uistate.window)
def get_given_name_dict(self):
givennames = {}
self.name_map = {}
for person in self.db.iter_people():
allnames = [person.get_primary_name()
] + person.get_alternate_names()
allnames = set(name.get_first_name().strip() for name in allnames)
for givenname in allnames:
givennames[givenname] = givennames.get(givenname, 0) + 1
self.name_map[givenname] = self.name_map.get(
givenname, set([]))
self.name_map[givenname].add(person.handle)
return givennames
def display(self):
if lin():
import locale, os
locale.setlocale(locale.LC_ALL, '')
# This is needed to make gtk.Builder work by specifying the
# translations directory
base = os.path.dirname(__file__)
locale.bindtextdomain("addon", base + "/locale")
self.glade = Gtk.Builder()
self.glade.set_translation_domain("addon")
path = base + "/changenames.glade"
self.glade.add_from_file(path)
#from gi.repository import GObject
GObject.GObject.__init__(self.glade)
self.top = self.glade.get_object('changenames')
self.glade.connect_signals({
"destroy_passed_object": self.close,
"on_ok_clicked": self.on_ok_clicked,
"on_help_clicked": self.on_help_clicked,
"on_edit_clicked": self.on_edit_clicked,
"on_delete_event": self.close,
})
self.list = self.glade.get_object("list")
self.set_window(self.top, self.glade.get_object('title'),
self.label)
else:
self.top = Glade("changenames.glade")
window = self.top.toplevel
self.top.connect_signals({
"destroy_passed_object": self.close,
"on_ok_clicked": self.on_ok_clicked,
"on_help_clicked": self.on_help_clicked,
"on_edit_clicked": self.on_edit_clicked,
"on_delete_event": self.close,
})
self.list = self.top.get_object("list")
self.set_window(window, self.top.get_object('title'), self.label)
# selected, original name, changed, count
self.model = Gtk.ListStore(GObject.TYPE_BOOLEAN, GObject.TYPE_STRING,
GObject.TYPE_STRING, GObject.TYPE_INT)
self.handles = {}
r = Gtk.CellRendererToggle()
r.connect('toggled', self.toggled)
c = Gtk.TreeViewColumn(_('Select'), r, active=0)
self.list.append_column(c)
c = Gtk.TreeViewColumn(_('Original Name'),
Gtk.CellRendererText(),
text=1)
self.list.append_column(c)
c = Gtk.TreeViewColumn(_('Capitalization Change'),
Gtk.CellRendererText(),
text=2)
self.list.append_column(c)
c = Gtk.TreeViewColumn(_('Affected Names'),
Gtk.CellRendererText(),
text=3)
self.list.append_column(c)
self.list.set_model(self.model)
self.iter_list = []
self.progress.set_pass(_('Building display'), len(self.name_list))
for name, count in self.name_list:
handle = self.model.append()
self.model.set_value(handle, 0, False)
self.model.set_value(handle, 1, name)
namecap = capitalize(name)
self.model.set_value(handle, 2, namecap)
self.model.set_value(handle, 3, count)
self.iter_list.append(handle)
self.progress.step()
self.progress.close()
self.show()
def toggled(self, cell, path_string):
path = tuple(map(int, path_string.split(':')))
row = self.model[path]
row[0] = not row[0]
def build_menu_names(self, obj):
return (self.label, None)
def on_help_clicked(self, obj):
"""Display the relevant portion of GRAMPS manual"""
display_help(WIKI_HELP_PAGE, WIKI_HELP_SEC)
def on_edit_clicked(self, button):
"""Edit the selected person"""
from gramps.gui.editors import EditPerson
selection = self.list.get_selection()
store, paths = selection.get_selected_rows()
tpath = paths[0] if len(paths) > 0 else None
node = store.get_iter(tpath) if tpath else None
if node:
name = store.get_value(node, 1)
for handle in self.name_map[name]:
person = self.dbstate.db.get_person_from_handle(handle)
EditPerson(self.dbstate, self.uistate, [], person)
def on_ok_clicked(self, obj):
with DbTxn(_("Capitalization changes"), self.db,
batch=True) as self.trans:
self.db.disable_signals()
changelist = set(
self.model.get_value(node, 1) for node in self.iter_list
if self.model.get_value(node, 0))
for handle in self.db.get_person_handles(False):
person = self.db.get_person_from_handle(handle)
change = False
for name in [person.get_primary_name()
] + person.get_alternate_names():
if name.first_name in changelist:
change = True
fname = capitalize(name.first_name)
name.set_first_name(fname)
if change:
self.db.commit_person(person, self.trans)
self.db.enable_signals()
self.db.request_rebuild()
self.close()
self.cb()
class ExtractCity(tool.BatchTool, ManagedWindow):
"""
Extracts city, state, and zip code information from an place description
if the title is empty and the description falls into the category of:
New York, NY 10000
Sorry for those not in the US or Canada. I doubt this will work for any
other locales.
Works for Sweden if the decriptions is like
Stockholm (A)
where the letter A is the abbreviation letter for laen.
Works for France if the description is like
Paris, IDF 75000, FRA
or Paris, ILE DE FRANCE 75000, FRA
"""
def __init__(self, dbstate, user, options_class, name, callback=None):
uistate = user.uistate
self.label = _('Extract Place data')
ManagedWindow.__init__(self, uistate, [], self.__class__)
self.set_window(Gtk.Window(), Gtk.Label(), '')
tool.BatchTool.__init__(self, dbstate, user, options_class, name)
if not self.fail:
uistate.set_busy_cursor(True)
self.run(dbstate.db)
uistate.set_busy_cursor(False)
def run(self, db):
"""
Performs the actual extraction of information
"""
self.progress = ProgressMeter(_('Checking Place Titles'), '')
self.progress.set_pass(_('Looking for place fields'),
self.db.get_number_of_places())
self.name_list = []
self.place_import = PlaceImport(db)
for place in db.iter_places():
descr = place_displayer.display(db, place)
self.progress.step()
loc = get_main_location(db, place)
location = ((loc.get(PlaceType.STREET, '')),
(loc.get(PlaceType.LOCALITY, '')),
(loc.get(PlaceType.PARISH, '')),
(loc.get(PlaceType.CITY, '')),
(loc.get(PlaceType.COUNTY, '')),
(loc.get(PlaceType.STATE, '')),
(loc.get(PlaceType.COUNTRY, '')))
self.place_import.store_location(location, place.handle)
if len(place.get_placeref_list()) == 0:
match = CITY_STATE_ZIP.match(descr.strip())
if match:
data = match.groups()
city = data[0]
state = data[2]
postal = data[5]
val = " ".join(state.strip().split()).upper()
if state:
new_state = STATE_MAP.get(val.upper())
if new_state:
self.name_list.append(
(place.handle, (city, new_state[0], postal,
COUNTRY[new_state[1]])))
continue
# Check if there is a left parant. in the string, might be Swedish laen.
match = CITY_LAEN.match(descr.strip().replace(","," "))
if match:
data = match.groups()
city = data[0]
state = '(' + data[1] + ')'
postal = None
val = " ".join(state.strip().split()).upper()
if state:
new_state = STATE_MAP.get(val.upper())
if new_state:
self.name_list.append(
(place.handle, (city, new_state[0], postal,
COUNTRY[new_state[1]])))
continue
match = CITY_STATE.match(descr.strip())
if match:
data = match.groups()
city = data[0]
state = data[1]
postal = None
if state:
m0 = STATE_ZIP.match(state)
if m0:
(state, postal) = m0.groups()
val = " ".join(state.strip().split()).upper()
if state:
new_state = STATE_MAP.get(val.upper())
if new_state:
self.name_list.append(
(place.handle, (city, new_state[0], postal,
COUNTRY[new_state[1]])))
continue
val = " ".join(descr.strip().split()).upper()
new_state = STATE_MAP.get(val)
if new_state:
self.name_list.append(
(place.handle, (None, new_state[0], None,
COUNTRY[new_state[1]])))
self.progress.close()
if self.name_list:
self.display()
else:
self.close()
from gramps.gui.dialog import OkDialog
OkDialog(_('No modifications made'),
_("No place information could be extracted."))
def display(self):
self.top = Glade("changenames.glade")
window = self.top.toplevel
self.top.connect_signals({
"destroy_passed_object" : self.close,
"on_ok_clicked" : self.on_ok_clicked,
"on_help_clicked" : self.on_help_clicked,
"on_delete_event" : self.close,
})
self.list = self.top.get_object("list")
self.set_window(window, self.top.get_object('title'), self.label)
lbl = self.top.get_object('info')
lbl.set_line_wrap(True)
lbl.set_text(
_('Below is a list of Places with the possible data that can '
'be extracted from the place title. Select the places you '
'wish Gramps to convert.'))
self.model = Gtk.ListStore(GObject.TYPE_BOOLEAN, GObject.TYPE_STRING,
GObject.TYPE_STRING, GObject.TYPE_STRING,
GObject.TYPE_STRING, GObject.TYPE_STRING,
GObject.TYPE_STRING)
r = Gtk.CellRendererToggle()
r.connect('toggled', self.toggled)
c = Gtk.TreeViewColumn(_('Select'), r, active=0)
self.list.append_column(c)
for (title, col) in COLS:
render = Gtk.CellRendererText()
if col > 1:
render.set_property('editable', True)
render.connect('edited', self.__change_name, col)
self.list.append_column(
Gtk.TreeViewColumn(title, render, text=col))
self.list.set_model(self.model)
self.iter_list = []
self.progress.set_pass(_('Building display'), len(self.name_list))
for (id, data) in self.name_list:
place = self.db.get_place_from_handle(id)
descr = place_displayer.display(self.db, place)
handle = self.model.append()
self.model.set_value(handle, 0, True)
self.model.set_value(handle, 1, descr)
if data[0]:
self.model.set_value(handle, 2, data[0])
if data[1]:
self.model.set_value(handle, 3, data[1])
if data[2]:
self.model.set_value(handle, 4, data[2])
if data[3]:
self.model.set_value(handle, 5, data[3])
self.model.set_value(handle, 6, id)
self.iter_list.append(handle)
self.progress.step()
self.progress.close()
self.show()
def __change_name(self, text, path, new_text, col):
self.model[path][col] = new_text
return
def toggled(self, cell, path_string):
path = tuple(map(int, path_string.split(':')))
row = self.model[path]
row[0] = not row[0]
def build_menu_names(self, obj):
return (self.label, None)
def on_help_clicked(self, obj):
"""Display the relevant portion of GRAMPS manual"""
display_help()
def on_ok_clicked(self, obj):
with DbTxn(_("Extract Place data"), self.db, batch=True) as self.trans:
self.db.disable_signals()
changelist = [node for node in self.iter_list
if self.model.get_value(node, 0)]
for change in changelist:
row = self.model[change]
place = self.db.get_place_from_handle(row[6])
location = ('', '', '', row[2], '', row[3], row[5])
self.place_import.store_location(location, place.handle)
if row[2]:
place.set_name(PlaceName(value=row[2]))
place.set_type(PlaceType.CITY)
if row[4]:
place.set_code(row[4])
self.db.commit_place(place, self.trans)
self.place_import.generate_hierarchy(self.trans)
self.db.enable_signals()
self.db.request_rebuild()
self.close()
def __init__(self, dbstate, user, options_class, name, callback=None):
uistate = user.uistate
self.title = _('Find database loop')
ManagedWindow.__init__(self, uistate, [], self.__class__)
self.dbstate = dbstate
self.uistate = uistate
#self.db = CacheProxyDb(dbstate.db)
self.db = dbstate.db
top_dialog = Glade()
top_dialog.connect_signals({
"destroy_passed_object": self.close,
"on_help_clicked": self.on_help_clicked,
"on_delete_event": self.close,
})
window = top_dialog.toplevel
title = top_dialog.get_object("title")
self.set_window(window, title, self.title)
# start the progress indicator
self.progress = ProgressMeter(self.title,
_('Starting'),
parent=uistate.window)
self.progress.set_pass(_('Looking for possible loop for each person'),
self.db.get_number_of_people())
self.model = Gtk.ListStore(
GObject.TYPE_STRING, # 0==father id
GObject.TYPE_STRING, # 1==father
GObject.TYPE_STRING, # 2==son id
GObject.TYPE_STRING, # 3==son
GObject.TYPE_STRING, # 4==family gid
GObject.TYPE_STRING) # 5==loop number
self.model.set_sort_column_id(
Gtk.TREE_SORTABLE_UNSORTED_SORT_COLUMN_ID, 0)
self.treeview = top_dialog.get_object("treeview")
self.treeview.set_model(self.model)
col0 = Gtk.TreeViewColumn('', Gtk.CellRendererText(), text=5)
col1 = Gtk.TreeViewColumn(_('Gramps ID'),
Gtk.CellRendererText(),
text=0)
col2 = Gtk.TreeViewColumn(_('Parent'), Gtk.CellRendererText(), text=1)
col3 = Gtk.TreeViewColumn(_('Gramps ID'),
Gtk.CellRendererText(),
text=2)
col4 = Gtk.TreeViewColumn(_('Child'), Gtk.CellRendererText(), text=3)
col5 = Gtk.TreeViewColumn(_('Family ID'),
Gtk.CellRendererText(),
text=4)
col1.set_resizable(True)
col2.set_resizable(True)
col3.set_resizable(True)
col4.set_resizable(True)
col5.set_resizable(True)
col1.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col2.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col3.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col4.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col5.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
self.treeview.append_column(col0)
self.treeview.append_column(col1)
self.treeview.append_column(col2)
self.treeview.append_column(col3)
self.treeview.append_column(col4)
self.treeview.append_column(col5)
self.treeselection = self.treeview.get_selection()
self.treeview.connect('row-activated', self.rowactivated_cb)
self.curr_fam = None
people = self.db.get_person_handles()
self.total = len(people) # total number of people to process.
self.count = 0 # current number of people completely processed
self.loop = 0 # Number of loops found for GUI
pset = OrderedDict()
# pset is the handle list of persons from the current start of
# exploration path to the current limit. The use of OrderedDict
# allows us to use it as a LIFO during recursion, as well as makes for
# quick lookup. If we find a loop, pset provides a nice way to get
# the loop path.
self.done = set()
# self.done is the handle set of people that have been fully explored
# and do NOT have loops in the decendent tree. We use this to avoid
# repeating work when we encounter one of these during the search.
for person_handle in people:
person = self.db.get_person_from_handle(person_handle)
self.current = person
self.parent = None
self.descendants(person_handle, pset)
# close the progress bar
self.progress.close()
self.show()
class ChangeTypes(tool.BatchTool, ManagedWindow):
def __init__(self, dbstate, user, options_class, name, callback=None):
uistate = user.uistate
self.user = user
self.dbstate = dbstate
tool.BatchTool.__init__(self, dbstate, user, options_class, name)
if self.fail:
return
if uistate:
self.title = _('Change Event Types')
ManagedWindow.__init__(self, uistate, [], self.__class__)
self.init_gui()
else:
self.run_tool()
def init_gui(self):
# Draw dialog and make it handle everything
self.glade = Glade()
self.auto1 = self.glade.get_object("original")
self.auto2 = self.glade.get_object("new")
# Need to display localized event names
etype = EventType()
custom_events = self.dbstate.db.get_event_types()
event_names = sorted(etype.get_standard_names() + custom_events,
key=glocale.sort_key)
self.fill_combo(self.auto1, event_names)
self.fill_combo(self.auto2, event_names)
etype.set_from_xml_str(self.options.handler.options_dict['fromtype'])
self.auto1.get_child().set_text(str(etype))
etype.set_from_xml_str(self.options.handler.options_dict['totype'])
self.auto2.get_child().set_text(str(etype))
window = self.glade.toplevel
self.set_window(window, self.glade.get_object('title'), self.title)
self.setup_configs('interface.changetypes', 640, 260)
self.glade.connect_signals({
"on_close_clicked": self.close,
"on_apply_clicked": self.on_apply_clicked,
"on_delete_event": self.close,
})
self.show()
def build_menu_names(self, obj):
return (self.title, None)
def run_tool(self, parent_window=None):
# Run tool and return results
# These are English names, no conversion needed
fromtype = self.options.handler.options_dict['fromtype']
totype = self.options.handler.options_dict['totype']
modified = 0
with DbTxn(_('Change types'), self.db, batch=True) as self.trans:
self.db.disable_signals()
with self.user.progress(_('Analyzing Events'), '',
self.db.get_number_of_events()) as step:
for event_handle in self.db.get_event_handles():
event = self.db.get_event_from_handle(event_handle)
if event.get_type().xml_str() == fromtype:
event.type.set_from_xml_str(totype)
modified += 1
self.db.commit_event(event, self.trans)
step()
self.db.enable_signals()
self.db.request_rebuild()
if modified == 0:
msg = _("No event record was modified.")
else:
# Translators: leave all/any {...} untranslated
msg = ngettext("{number_of} event record was modified.",
"{number_of} event records were modified.",
modified).format(number_of=modified)
self.user.info(_('Change types'), msg, parent=parent_window)
return (bool(modified), msg)
def on_apply_clicked(self, obj):
# Need to store English names for later comparison
the_type = EventType()
the_type.set(self.auto1.get_child().get_text())
self.options.handler.options_dict['fromtype'] = the_type.xml_str()
the_type.set(self.auto2.get_child().get_text())
self.options.handler.options_dict['totype'] = the_type.xml_str()
self.run_tool(self.parent_window)
# Save options
self.options.handler.save_options()
self.close()
def fill_combo(self, combo, data_list):
"""
Fill a combo box with completion data
"""
store = Gtk.ListStore(GObject.TYPE_STRING)
for data in data_list:
if data:
store.append(row=[data])
combo.set_popup_fixed_width(False)
combo.set_wrap_width(4)
combo.set_model(store)
combo.set_entry_text_column(0)
completion = Gtk.EntryCompletion()
completion.set_model(store)
completion.set_minimum_key_length(1)
completion.set_text_column(0)
combo.get_child().set_completion(completion)
class ReorderIds(tool.BatchTool, ManagedWindow, UpdateCallback):
""" Class for Reodering Gramps ID Tool """
xobjects = (('person', 'people'), ('family', 'families'),
('event', 'events'), ('place', 'places'),
('source', 'sources'), ('citation', 'citations'),
('repository', 'repositories'),
('media', 'media'), ('note', 'notes'))
def build_menu_names_(self, widget=None):
""" The menu name """
return (_('Main window'), _("Reorder Gramps IDs"))
def __init__(self, dbstate, user, options_class, name, callback=None):
self.uistate = user.uistate
self.dbstate = dbstate.db
if self.uistate:
tool.BatchTool.__init__(self, dbstate, user, options_class, name)
if self.fail:
return # user denied to modify Gramps IDs
ManagedWindow.__init__(self, self.uistate, [], self.__class__)
if not self.uistate:
UpdateCallback.__init__(self, user.callback)
self.object_status = True
self.change_status = False
self.start_zero = True
self.step_cnt, self.step_list = 0, ['1', '2', '5', '10']
self.keep_status = True
self.obj_values = {} # enable access to all internal values
self.active_entries, self.format_entries = {}, {}
self.change_entries = {}
self.start_entries, self.step_entries = {}, {}
self.keep_entries = {}
self.prim_methods, self.obj_methods = {}, {}
for prim_obj, prim_objs in self.xobjects:
class_type = prim_obj.title()
table = "self.dbstate.%s_map" % prim_obj
get_number_obj = "self.dbstate.get_number_of_%s" % prim_objs
prefix_fmt = "self.dbstate.%s_prefix" % prim_obj
get_from_id = "self.dbstate.get_%s_from_gramps_id" % prim_obj
get_from_handle = "self.dbstate.get_%s_from_handle" % prim_obj
next_from_id = "self.dbstate.find_next_%s_gramps_id" % prim_obj
commit = "self.dbstate.commit_%s" % prim_obj
self.prim_methods[prim_obj] = (eval(prefix_fmt), eval(get_number_obj)(),
eval(next_from_id)())
self.obj_methods[prim_obj] = (eval(class_type), eval(table), eval(commit),
eval(get_from_id), eval(get_from_handle),
eval(next_from_id))
object_fmt, quant_id, next_id = self.prim_methods[prim_obj]
obj_value = ReorderEntry(object_fmt, quant_id, next_id)
self.obj_values[prim_obj] = obj_value
if self.uistate:
self._display()
else:
self._execute()
def __on_object_button_clicked(self, widget=None):
""" compute all primary objects and toggle the 'Active' attribute """
self.object_status = not self.object_status
for prim_obj, tmp in self.xobjects:
obj = self.top.get_object('%s_active' % prim_obj)
obj.set_active(self.object_status)
def __on_object_button_toggled(self, widget):
""" compute the primary object and toggle the 'Sensitive' attribute """
obj_state = widget.get_active()
obj_name = Gtk.Buildable.get_name(widget).split('_', 1)[0]
self.active_entries[obj_name].set_val(obj_state)
for obj_entry in ['actual', 'quant', 'format', 'change']:
obj = self.top.get_object('%s_%s' % (obj_name, obj_entry))
obj.set_sensitive(obj_state)
for obj_entry in ['start', 'step', 'keep']:
obj = self.top.get_object('%s_change' % obj_name)
if obj.get_active():
obj = self.top.get_object('%s_%s' % (obj_name, obj_entry))
obj.set_sensitive(obj_state)
def __on_format_button_clicked(self, widget=None):
""" compute all sensitive primary objects and sets the
'Format' scheme of identifiers """
for prim_obj, tmp in self.xobjects:
obj_format = self.top.get_object('%s_format' % prim_obj)
if not obj_format.get_sensitive():
continue
obj_fmt = self.obj_values[prim_obj].res_fmt()
self.format_entries[prim_obj].force_value(obj_fmt)
if self.start_zero:
obj_id = self.obj_values[prim_obj].zero_id()
else:
obj_id = self.obj_values[prim_obj].last_id()
self.start_entries[prim_obj].force_value(obj_id)
def __on_change_button_clicked(self, widget=None):
""" compute all primary objects and toggle the 'Change' attribute """
self.change_status = not self.change_status
for prim_obj, tmp in self.xobjects:
obj_change = self.top.get_object('%s_change' % prim_obj)
if not obj_change.get_sensitive():
continue
self.change_entries[prim_obj].set_val(self.change_status)
obj_change.set_active(self.change_status)
def __on_change_button_toggled(self, widget):
""" compute the primary object and toggle the 'Sensitive' attribute """
obj_state = widget.get_active()
obj_name = Gtk.Buildable.get_name(widget).split('_', 1)[0]
for obj_entry in ['start', 'step', 'keep']:
obj = self.top.get_object('%s_%s' % (obj_name, obj_entry))
if obj_entry == 'keep':
if self.obj_values[obj_name].stored_prefix != \
self.obj_values[obj_name].object_prefix:
self.keep_entries[obj_name].set_val(False)
else:
obj.set_active(obj_state)
self.keep_entries[obj_name].set_val(obj_state)
obj.set_sensitive(obj_state)
def __on_start_button_clicked(self, widget=None):
""" compute all sensitive primary objects and sets the
'Start' values of identifiers """
self.start_zero = not self.start_zero
for prim_obj, tmp in self.xobjects:
obj = self.top.get_object('%s_start' % prim_obj)
if not obj.get_sensitive():
continue
if self.start_zero:
obj_id = self.obj_values[prim_obj].zero_id()
else:
obj_id = self.obj_values[prim_obj].next_id()
self.start_entries[prim_obj].force_value(obj_id)
def __on_step_button_clicked(self, widget=None):
""" compute all sensitive primary objects and sets the
'Step' width of identifiers """
self.step_cnt = self.step_cnt +1 if self.step_cnt < 3 else 0
for prim_obj, tmp in self.xobjects:
obj = self.top.get_object('%s_step' % prim_obj)
if not obj.get_sensitive():
continue
step_val = self.step_list[self.step_cnt]
self.step_entries[prim_obj].force_value(step_val)
def __on_keep_button_clicked(self, widget=None):
""" compute the primary object and toggle the 'Active' attribute """
self.keep_status = not self.keep_status
for prim_obj, tmp in self.xobjects:
obj = self.top.get_object('%s_change' % prim_obj)
if not obj.get_active():
continue
obj = self.top.get_object('%s_keep' % prim_obj)
obj.set_active(self.keep_status)
self.keep_entries[prim_obj].set_val(self.keep_status)
def __on_format_entry_keyrelease(self, widget, event, data=None):
""" activated on all return's of an entry """
if event.keyval in [Gdk.KEY_Return]:
obj_name = Gtk.Buildable.get_name(widget).split('_', 1)[0]
obj_fmt = self.format_entries[obj_name].get_val()
self.format_entries[obj_name].force_value(obj_fmt)
self.start_entries[obj_name].update()
obj_change = self.top.get_object('%s_change' % obj_name)
obj_change.grab_focus()
return False
def __on_format_entry_focusout(self, widget, event, data=None):
""" activated on all focus out of an entry """
obj_name = Gtk.Buildable.get_name(widget).split('_', 1)[0]
obj_fmt = self.format_entries[obj_name].get_val()
self.format_entries[obj_name].set_val(obj_fmt)
self.start_entries[obj_name].update()
return False
def __on_start_entry_focusout(self, widget, event, data=None):
""" activated on all focus out of an entry """
obj_name = Gtk.Buildable.get_name(widget).split('_', 1)[0]
self.start_entries[obj_name].update()
return False
def __on_ok_button_clicked(self, widget=None):
""" execute the reodering and close """
self._execute()
self._update()
self.close()
def __on_cancel_button_clicked(self, widget=None):
""" cancel the reodering and close """
self.close()
def __on_help_button_clicked(self, widget=None):
""" display the relevant portion of Gramps manual """
display_help(webpage=WIKI_HELP_PAGE, section=WIKI_HELP_SEC)
def _display(self):
""" organize Glade 'Reorder IDs' window """
# get the main window from glade
self.top = Glade(toplevel="reorder-ids")
window = self.top.toplevel
# set gramps style title for the window
self.set_window(window, self.top.get_object("title"), \
_("Reorder Gramps IDs"))
# connect signals
self.top.connect_signals({
"on_object_button_clicked" : self.__on_object_button_clicked,
"on_object_button_toggled" : self.__on_object_button_toggled,
"on_format_button_clicked" : self.__on_format_button_clicked,
"on_start_button_clicked" : self.__on_start_button_clicked,
"on_step_button_clicked" : self.__on_step_button_clicked,
"on_keep_button_clicked" : self.__on_keep_button_clicked,
"on_change_button_clicked" : self.__on_change_button_clicked,
"on_change_button_toggled" : self.__on_change_button_toggled,
"on_format_entry_keyrelease" : self.__on_format_entry_keyrelease,
"on_format_entry_focusout" : self.__on_format_entry_focusout,
"on_start_entry_focusout" : self.__on_start_entry_focusout,
"on_help_button_clicked" : self.__on_help_button_clicked,
"on_cancel_button_clicked" : self.__on_cancel_button_clicked,
"on_ok_button_clicked" : self.__on_ok_button_clicked
})
# Calculate all entries and update Glade window
for prim_obj, tmp in self.xobjects:
# populate Object, Actual & Quantity fields with values
obj_active = self.top.get_object('%s_active' % prim_obj)
self.active_entries[prim_obj] = MonitoredCheckbox(obj_active, obj_active,
self.obj_values[prim_obj].set_active,
self.obj_values[prim_obj].get_active)
obj_actual = self.top.get_object('%s_actual' % prim_obj)
obj_actual.set_text('%s' % self.obj_values[prim_obj].last_id())
obj_quant = self.top.get_object('%s_quant' % prim_obj)
obj_quant.set_text('%s' % str(self.obj_values[prim_obj].quant_id))
# connect/populate Format, Start, Step, Keep & Change fields with GTK/values
obj_format = self.top.get_object('%s_format' % prim_obj)
self.format_entries[prim_obj] = MonitoredEntry(obj_format,
self.obj_values[prim_obj].set_fmt,
self.obj_values[prim_obj].get_fmt)
obj_change = self.top.get_object('%s_change' % prim_obj)
self.change_entries[prim_obj] = MonitoredCheckbox(obj_change, obj_change,
self.obj_values[prim_obj].set_change,
self.obj_values[prim_obj].get_change)
obj_start = self.top.get_object('%s_start' % prim_obj)
self.start_entries[prim_obj] = MonitoredEntry(obj_start,
self.obj_values[prim_obj].set_id,
self.obj_values[prim_obj].get_id)
obj_step = self.top.get_object('%s_step' % prim_obj)
self.step_entries[prim_obj] = MonitoredEntry(obj_step,
self.obj_values[prim_obj].set_step,
self.obj_values[prim_obj].get_step,
changed=self.obj_values[prim_obj].change_step)
obj_keep = self.top.get_object('%s_keep' % prim_obj)
self.keep_entries[prim_obj] = MonitoredCheckbox(obj_keep, obj_keep,
self.obj_values[prim_obj].set_keep,
self.obj_values[prim_obj].get_keep,
readonly=True)
# fetch the popup menu
self.menu = self.top.get_object("popup_menu")
# ok, let's see what we've done
self.show()
def _update(self):
""" store changed objects formats in DB """
update = False
for prim_obj, tmp in self.xobjects:
obj_value = self.obj_values[prim_obj]
if obj_value.object_fmt != obj_value.stored_fmt:
prefix = obj_value.object_prefix.lower()
constant = 'preferences.%sprefix' % prefix
config.set(constant, obj_value.object_fmt)
update = True
if update:
config.save()
self.dbstate.set_prefixes(
config.get('preferences.iprefix'),
config.get('preferences.oprefix'),
config.get('preferences.fprefix'),
config.get('preferences.sprefix'),
config.get('preferences.cprefix'),
config.get('preferences.pprefix'),
config.get('preferences.eprefix'),
config.get('preferences.rprefix'),
config.get('preferences.nprefix'))
def _execute(self):
""" execute all primary objects and reorder if neccessary """
# Update progress calculation
if self.uistate:
self.progress = ProgressMeter(_('Reorder Gramps IDs'), '')
else:
total_objs = 0
for prim_obj, tmp in self.xobjects:
if self.obj_values[prim_obj].active_obj:
total_objs += self.obj_values[prim_obj].quant_id
self.set_total(total_objs)
# Update database
self.dbstate.disable_signals()
for prim_obj, prim_objs in self.xobjects:
with DbTxn(_('Reorder %s IDs ...') % prim_obj, self.dbstate, batch=True) \
as self.trans:
if self.obj_values[prim_obj].active_obj:
if self.uistate:
self.progress.set_pass(_('Reorder %s IDs ...') % \
_(prim_objs.title()), \
self.obj_values[prim_obj].quant_id)
# Process reordering
self._reorder(prim_obj)
self.dbstate.enable_signals()
self.dbstate.request_rebuild()
# Update progress calculation
if self.uistate:
self.progress.close()
else:
print('\nDone.')
# finds integer portion in a GrampsID
_findint = re.compile('^[^\d]*(\d+)[^\d]*')
def _reorder(self, prim_obj):
""" reorders all selected objects with a (new) style, start & step """
dup_ids = [] # list of duplicate identifiers
new_ids = {} # list of new identifiers
class_type, table, commit, get_from_id, get_from_handle, next_from_id = \
self.obj_methods[prim_obj]
prefix_fmt = self.obj_values[prim_obj].get_fmt()
prefix = prefix_fmt.split('%', 1)[0]
new_id = self.obj_values[prim_obj].get_id()
keep_fmt = self.obj_values[prim_obj].get_keep()
change = self.obj_values[prim_obj].get_change()
formatmatch = _parseformat.match(prefix_fmt)
index_max = int("9" * int(formatmatch.groups()[0]))
for handle in list(table.keys()):
# Update progress
if self.uistate:
self.progress.step()
else:
self.update()
# extract basic data out of the database
table_data = table[handle]
obj = class_type()
obj.unserialize(table_data)
act_id = obj.get_gramps_id()
if change:
# update the defined ID numbers into objects under consideration
# of keeping ID if format not matches prefix
# (implication logical boolean operator below)
if act_id.startswith(prefix) or not keep_fmt:
obj.set_gramps_id(new_id)
commit(obj, self.trans)
new_id = self.obj_values[prim_obj].succ_id()
else:
# attempt to extract integer - if we can't, treat it as a duplicate
try:
match = _findint.match(act_id)
if match:
# get the integer, build the new handle. Make sure it
# hasn't already been chosen. If it has, put this
# in the duplicate handle list
index = int(match.groups()[0])
if formatmatch:
if index > index_max:
new_id = next_from_id()
else:
new_id = prefix_fmt % index
else:
# prefix_fmt does not contain a number after %, eg I%d
new_id = prefix_fmt % index
if new_id == act_id:
if new_id in new_ids:
dup_ids.append(obj.get_handle())
else:
new_ids[new_id] = act_id
elif get_from_id(new_id) is not None:
dup_ids.append(obj.get_handle())
else:
obj.set_id(new_id)
commit(obj, self.trans)
new_ids[new_id] = act_id
else:
dup_ids.append(handle)
except:
dup_ids.append(handle)
# go through the duplicates, looking for the first available
# handle that matches the new scheme.
if dup_ids:
if self.uistate:
self.progress.set_pass(_('Finding and assigning unused IDs.'), len(dup_ids))
for handle in dup_ids:
obj = get_from_handle(handle)
obj.set_gramps_id(next_from_id())
commit(obj, self.trans)
def __init__(self, dbstate, user, options_class, name, callback=None):
uistate = user.uistate
tool.ActivePersonTool.__init__(self, dbstate, uistate, options_class,
name)
if self.fail: # bug #2709 -- fail if we have no active person
return
person_handle = uistate.get_active('Person')
person = dbstate.db.get_person_from_handle(person_handle)
self.name = person.get_primary_name().get_regular_name()
self.title = _('Not related to "%s"') % self.name
ManagedWindow.__init__(self, uistate, [], self.__class__)
self.dbstate = dbstate
self.uistate = uistate
self.db = dbstate.db
topDialog = Glade()
topDialog.connect_signals({
"destroy_passed_object" : self.close,
"on_help_clicked" : self.on_help_clicked,
"on_delete_event" : self.close,
})
window = topDialog.toplevel
title = topDialog.get_object("title")
self.set_window(window, title, self.title)
self.tagcombo = topDialog.get_object("tagcombo")
tagmodel = Gtk.ListStore(str)
self.tagcombo.set_model(tagmodel)
self.tagcombo.set_entry_text_column(0)
tagmodel.append((_('ToDo'),))
tagmodel.append((_('NotRelated'),))
self.tagcombo.set_sensitive(False)
self.tagapply = topDialog.get_object("tagapply")
self.tagapply.set_sensitive(False)
self.tagapply.connect('clicked', self.applyTagClicked)
# start the progress indicator
self.progress = ProgressMeter(self.title,_('Starting'),
parent=self.window)
# setup the columns
self.model = Gtk.TreeStore(
GObject.TYPE_STRING, # 0==name
GObject.TYPE_STRING, # 1==person gid
GObject.TYPE_STRING, # 2==parents
GObject.TYPE_STRING, # 3==tags
GObject.TYPE_STRING) # 4==family gid (not shown to user)
# note -- don't assign the model to the tree until it has been populated,
# otherwise the screen updates are terribly slow while names are appended
self.treeView = topDialog.get_object("treeview")
col1 = Gtk.TreeViewColumn(_('Name'), Gtk.CellRendererText(), text=0)
col2 = Gtk.TreeViewColumn(_('ID'), Gtk.CellRendererText(), text=1)
col3 = Gtk.TreeViewColumn(_('Parents'), Gtk.CellRendererText(), text=2)
col4 = Gtk.TreeViewColumn(_('Tags'), Gtk.CellRendererText(), text=3)
col1.set_resizable(True)
col2.set_resizable(True)
col3.set_resizable(True)
col4.set_resizable(True)
col1.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col2.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col3.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col4.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col1.set_sort_column_id(0)
# col2.set_sort_column_id(1)
# col3.set_sort_column_id(2)
col4.set_sort_column_id(3)
self.treeView.append_column(col1)
self.treeView.append_column(col2)
self.treeView.append_column(col3)
self.treeView.append_column(col4)
self.treeSelection = self.treeView.get_selection()
self.treeSelection.set_mode(Gtk.SelectionMode.MULTIPLE)
self.treeSelection.set_select_function(self.selectIsAllowed, None)
self.treeSelection.connect('changed', self.rowSelectionChanged)
self.treeView.connect('row-activated', self.rowActivated)
# initialize a few variables we're going to need
self.numberOfPeopleInDatabase = self.db.get_number_of_people()
self.numberOfRelatedPeople = 0
self.numberOfUnrelatedPeople = 0
# create the sets used to track related and unrelated people
self.handlesOfPeopleToBeProcessed = set()
self.handlesOfPeopleAlreadyProcessed = set()
self.handlesOfPeopleNotRelated = set()
# build a set of all people related to the selected person
self.handlesOfPeopleToBeProcessed.add(person.get_handle())
self.findRelatedPeople()
# now that we have our list of related people, find everyone
# in the database who isn't on our list
self.findUnrelatedPeople()
# populate the treeview model with the names of unrelated people
if self.numberOfUnrelatedPeople == 0:
# feature request 2356: avoid genitive form
title.set_text(_('Everyone in the database is related to %s') % self.name)
else:
self.populateModel()
self.model.set_sort_column_id(0, Gtk.SortType.ASCENDING)
self.treeView.set_model(self.model)
# self.treeView.set_row_separator_func(self.iterIsSeparator, None)
self.treeView.expand_all()
# done searching through the database, so close the progress bar
self.progress.close()
self.show()
class ChangeTypes(tool.BatchTool, ManagedWindow):
def __init__(self, dbstate, user, options_class, name, callback=None):
uistate = user.uistate
self.user = user
tool.BatchTool.__init__(self, dbstate, user, options_class, name)
if self.fail:
return
if uistate:
self.title = _('Change Event Types')
ManagedWindow.__init__(self, uistate, [], self.__class__)
self.init_gui()
else:
self.run_tool()
def init_gui(self):
# Draw dialog and make it handle everything
self.glade = Glade()
self.auto1 = self.glade.get_object("original")
self.auto2 = self.glade.get_object("new")
# Need to display localized event names
etype = EventType()
event_names = sorted(etype.get_standard_names(), key=glocale.sort_key)
fill_combo(self.auto1, event_names)
fill_combo(self.auto2, event_names)
etype.set_from_xml_str(self.options.handler.options_dict['fromtype'])
self.auto1.get_child().set_text(str(etype))
etype.set_from_xml_str(self.options.handler.options_dict['totype'])
self.auto2.get_child().set_text(str(etype))
window = self.glade.toplevel
self.set_window(window, self.glade.get_object('title'), self.title)
self.glade.connect_signals({
"on_close_clicked": self.close,
"on_apply_clicked": self.on_apply_clicked,
"on_delete_event": self.close,
})
self.show()
def build_menu_names(self, obj):
return (self.title, None)
def run_tool(self, parent_window=None):
# Run tool and return results
# These are English names, no conversion needed
fromtype = self.options.handler.options_dict['fromtype']
totype = self.options.handler.options_dict['totype']
modified = 0
with DbTxn(_('Change types'), self.db, batch=True) as self.trans:
self.db.disable_signals()
with self.user.progress(_('Analyzing Events'), '',
self.db.get_number_of_events()) as step:
for event_handle in self.db.get_event_handles():
event = self.db.get_event_from_handle(event_handle)
if event.get_type().xml_str() == fromtype:
event.type.set_from_xml_str(totype)
modified += 1
self.db.commit_event(event, self.trans)
step()
self.db.enable_signals()
self.db.request_rebuild()
if modified == 0:
msg = _("No event record was modified.")
else:
# translators: leave all/any {...} untranslated
msg = ngettext("{number_of} event record was modified.",
"{number_of} event records were modified.",
modified).format(number_of=modified)
self.user.info(_('Change types'), msg, parent_window)
return (bool(modified), msg)
def on_apply_clicked(self, obj):
# Need to store English names for later comparison
the_type = EventType()
the_type.set(self.auto1.get_child().get_text())
self.options.handler.options_dict['fromtype'] = the_type.xml_str()
the_type.set(self.auto2.get_child().get_text())
self.options.handler.options_dict['totype'] = the_type.xml_str()
self.run_tool(self.window)
# Save options
self.options.handler.save_options()
self.close()
class ReorderIds(tool.BatchTool, ManagedWindow, UpdateCallback):
""" Class for Reodering Gramps ID Tool """
xobjects = (('person', 'people'), ('family', 'families'),
('event', 'events'), ('place', 'places'),
('source', 'sources'), ('citation', 'citations'),
('repository', 'repositories'), ('media', 'media'), ('note',
'notes'))
def build_menu_names_(self, widget=None):
""" The menu name """
return (_('Main window'), _("Reorder Gramps IDs"))
def __init__(self, dbstate, user, options_class, name, callback=None):
self.uistate = user.uistate
self.db = dbstate.db
if self.uistate:
tool.BatchTool.__init__(self, dbstate, user, options_class, name)
if self.fail:
return # user denied to modify Gramps IDs
ManagedWindow.__init__(self, self.uistate, [], self.__class__)
if not self.uistate:
UpdateCallback.__init__(self, user.callback)
self.object_status = True
self.change_status = False
self.start_zero = True
self.step_cnt, self.step_list = 0, ['1', '2', '5', '10']
self.keep_status = True
self.obj_values = {} # enable access to all internal values
self.active_entries, self.format_entries = {}, {}
self.change_entries = {}
self.start_entries, self.step_entries = {}, {}
self.keep_entries = {}
self.prim_methods, self.obj_methods = {}, {}
for prim_obj, prim_objs in self.xobjects:
get_handles = "get_%s_handles" % prim_obj
get_number_obj = "get_number_of_%s" % prim_objs
prefix_fmt = "%s_prefix" % prim_obj
get_from_id = "get_%s_from_gramps_id" % prim_obj
get_from_handle = "get_%s_from_handle" % prim_obj
next_from_id = "find_next_%s_gramps_id" % prim_obj
commit = "commit_%s" % prim_obj
self.prim_methods[prim_obj] = (getattr(self.db, prefix_fmt),
getattr(self.db, get_number_obj)(),
getattr(self.db, next_from_id)())
self.obj_methods[prim_obj] = (getattr(self.db, get_handles),
getattr(self.db, commit),
getattr(self.db, get_from_id),
getattr(self.db, get_from_handle),
getattr(self.db, next_from_id))
object_fmt, quant_id, next_id = self.prim_methods[prim_obj]
obj_value = ReorderEntry(object_fmt, quant_id, next_id, prim_obj)
self.obj_values[prim_obj] = obj_value
if self.uistate:
self._display()
else:
self._execute()
def __on_object_button_clicked(self, widget=None):
""" compute all primary objects and toggle the 'Active' attribute """
self.object_status = not self.object_status
for prim_obj, dummy in self.xobjects:
obj = self.top.get_object('%s_active' % prim_obj)
obj.set_active(self.object_status)
def __on_object_button_toggled(self, widget):
""" compute the primary object and toggle the 'Sensitive' attribute """
obj_state = widget.get_active()
obj_name = Gtk.Buildable.get_name(widget).split('_', 1)[0]
self.active_entries[obj_name].set_val(obj_state)
for obj_entry in ['actual', 'quant', 'format', 'change']:
obj = self.top.get_object('%s_%s' % (obj_name, obj_entry))
obj.set_sensitive(obj_state)
for obj_entry in ['start', 'step', 'keep']:
obj = self.top.get_object('%s_change' % obj_name)
if obj.get_active():
obj = self.top.get_object('%s_%s' % (obj_name, obj_entry))
obj.set_sensitive(obj_state)
def __on_format_button_clicked(self, widget=None):
""" compute all sensitive primary objects and sets the
'Format' scheme of identifiers """
for prim_obj, dummy in self.xobjects:
obj_format = self.top.get_object('%s_format' % prim_obj)
if not obj_format.get_sensitive():
continue
obj_fmt = self.obj_values[prim_obj].res_fmt()
self.format_entries[prim_obj].force_value(obj_fmt)
if self.start_zero:
obj_id = self.obj_values[prim_obj].zero_id()
else:
obj_id = self.obj_values[prim_obj].last_id()
self.start_entries[prim_obj].force_value(obj_id)
def __on_change_button_clicked(self, widget=None):
""" compute all primary objects and toggle the 'Change' attribute """
self.change_status = not self.change_status
for prim_obj, dummy in self.xobjects:
obj_change = self.top.get_object('%s_change' % prim_obj)
if not obj_change.get_sensitive():
continue
self.change_entries[prim_obj].set_val(self.change_status)
obj_change.set_active(self.change_status)
def __on_change_button_toggled(self, widget):
""" compute the primary object and toggle the 'Sensitive' attribute """
obj_state = widget.get_active()
obj_name = Gtk.Buildable.get_name(widget).split('_', 1)[0]
for obj_entry in ['start', 'step', 'keep']:
obj = self.top.get_object('%s_%s' % (obj_name, obj_entry))
if obj_entry == 'keep':
if (self.obj_values[obj_name].stored_prefix !=
self.obj_values[obj_name].object_prefix
and self.obj_values[obj_name].stored_suffix !=
self.obj_values[obj_name].object_suffix):
self.keep_entries[obj_name].set_val(False)
else:
obj.set_active(obj_state)
self.keep_entries[obj_name].set_val(obj_state)
obj.set_sensitive(obj_state)
def __on_start_button_clicked(self, widget=None):
""" compute all sensitive primary objects and sets the
'Start' values of identifiers """
self.start_zero = not self.start_zero
for prim_obj, dummy in self.xobjects:
obj = self.top.get_object('%s_start' % prim_obj)
if not obj.get_sensitive():
continue
if self.start_zero:
obj_id = self.obj_values[prim_obj].zero_id()
else:
obj_id = self.obj_values[prim_obj].next_id()
self.start_entries[prim_obj].force_value(obj_id)
def __on_step_button_clicked(self, widget=None):
""" compute all sensitive primary objects and sets the
'Step' width of identifiers """
self.step_cnt = self.step_cnt + 1 if self.step_cnt < 3 else 0
for prim_obj, dummy in self.xobjects:
obj = self.top.get_object('%s_step' % prim_obj)
if not obj.get_sensitive():
continue
step_val = self.step_list[self.step_cnt]
self.step_entries[prim_obj].force_value(step_val)
def __on_keep_button_clicked(self, widget=None):
""" compute the primary object and toggle the 'Active' attribute """
self.keep_status = not self.keep_status
for prim_obj, dummy in self.xobjects:
obj = self.top.get_object('%s_change' % prim_obj)
if not obj.get_active():
continue
obj = self.top.get_object('%s_keep' % prim_obj)
obj.set_active(self.keep_status)
self.keep_entries[prim_obj].set_val(self.keep_status)
def __on_format_entry_keyrelease(self, widget, event, data=None):
""" activated on all return's of an entry """
if event.keyval in [Gdk.KEY_Return]:
obj_name = Gtk.Buildable.get_name(widget).split('_', 1)[0]
obj_fmt = self.format_entries[obj_name].get_val()
self.format_entries[obj_name].force_value(obj_fmt)
self.start_entries[obj_name].update()
obj_change = self.top.get_object('%s_change' % obj_name)
obj_change.grab_focus()
return False
def __on_format_entry_focusout(self, widget, event, data=None):
""" activated on all focus out of an entry """
obj_name = Gtk.Buildable.get_name(widget).split('_', 1)[0]
obj_fmt = self.format_entries[obj_name].get_val()
self.format_entries[obj_name].set_text(obj_fmt)
self.start_entries[obj_name].update()
return False
def __on_start_entry_focusout(self, widget, event, data=None):
""" activated on all focus out of an entry """
obj_name = Gtk.Buildable.get_name(widget).split('_', 1)[0]
self.start_entries[obj_name].update()
return False
def __on_ok_button_clicked(self, widget=None):
""" execute the reodering and close """
self._execute()
self._update()
self.close()
def __on_cancel_button_clicked(self, widget=None):
""" cancel the reodering and close """
self.close()
def __on_help_button_clicked(self, widget=None):
""" display the relevant portion of Gramps manual """
display_help(webpage=WIKI_HELP_PAGE, section=WIKI_HELP_SEC)
def _display(self):
""" organize Glade 'Reorder IDs' window """
# get the main window from glade
self.top = Glade(toplevel="reorder-ids")
window = self.top.toplevel
# set gramps style title for the window
self.set_window(window, self.top.get_object("title"),
_("Reorder Gramps IDs"))
# connect signals
self.top.connect_signals({
"on_object_button_clicked":
self.__on_object_button_clicked,
"on_object_button_toggled":
self.__on_object_button_toggled,
"on_format_button_clicked":
self.__on_format_button_clicked,
"on_start_button_clicked":
self.__on_start_button_clicked,
"on_step_button_clicked":
self.__on_step_button_clicked,
"on_keep_button_clicked":
self.__on_keep_button_clicked,
"on_change_button_clicked":
self.__on_change_button_clicked,
"on_change_button_toggled":
self.__on_change_button_toggled,
"on_format_entry_keyrelease":
self.__on_format_entry_keyrelease,
"on_format_entry_focusout":
self.__on_format_entry_focusout,
"on_start_entry_focusout":
self.__on_start_entry_focusout,
"on_help_button_clicked":
self.__on_help_button_clicked,
"on_cancel_button_clicked":
self.__on_cancel_button_clicked,
"on_ok_button_clicked":
self.__on_ok_button_clicked
})
# Calculate all entries and update Glade window
for prim_obj, dummy in self.xobjects:
# populate Object, Actual & Quantity fields with values
obj_active = self.top.get_object('%s_active' % prim_obj)
self.active_entries[prim_obj] = MonitoredCheckbox(
obj_active, obj_active, self.obj_values[prim_obj].set_active,
self.obj_values[prim_obj].get_active)
obj_actual = self.top.get_object('%s_actual' % prim_obj)
obj_actual.set_text('%s' % self.obj_values[prim_obj].last_id())
obj_quant = self.top.get_object('%s_quant' % prim_obj)
obj_quant.set_text('%s' % str(self.obj_values[prim_obj].quant_id))
# connect/populate Format, Start, Step, Keep & Change fields
# with GTK/values
obj_format = self.top.get_object('%s_format' % prim_obj)
self.format_entries[prim_obj] = MonitoredEntry(
obj_format, self.obj_values[prim_obj].set_fmt,
self.obj_values[prim_obj].get_fmt)
obj_change = self.top.get_object('%s_change' % prim_obj)
self.change_entries[prim_obj] = MonitoredCheckbox(
obj_change, obj_change, self.obj_values[prim_obj].set_change,
self.obj_values[prim_obj].get_change)
obj_start = self.top.get_object('%s_start' % prim_obj)
self.start_entries[prim_obj] = MonitoredEntry(
obj_start, self.obj_values[prim_obj].set_id,
self.obj_values[prim_obj].get_id)
obj_step = self.top.get_object('%s_step' % prim_obj)
self.step_entries[prim_obj] = MonitoredEntry(
obj_step,
self.obj_values[prim_obj].set_step,
self.obj_values[prim_obj].get_step,
changed=self.obj_values[prim_obj].change_step)
obj_keep = self.top.get_object('%s_keep' % prim_obj)
self.keep_entries[prim_obj] = MonitoredCheckbox(
obj_keep,
obj_keep,
self.obj_values[prim_obj].set_keep,
self.obj_values[prim_obj].get_keep,
readonly=True)
# fetch the popup menu
self.menu = self.top.get_object("popup_menu")
# ok, let's see what we've done
self.window.resize(700, 410)
self.show()
def _update(self):
""" store changed objects formats in DB """
update = False
for prim_obj, dummy in self.xobjects:
obj_value = self.obj_values[prim_obj]
if obj_value.object_fmt != obj_value.stored_fmt:
constant = 'preferences.%sprefix' % PREFIXES[prim_obj]
config.set(constant, obj_value.object_fmt)
update = True
if update:
config.save()
self.db.set_prefixes(config.get('preferences.iprefix'),
config.get('preferences.oprefix'),
config.get('preferences.fprefix'),
config.get('preferences.sprefix'),
config.get('preferences.cprefix'),
config.get('preferences.pprefix'),
config.get('preferences.eprefix'),
config.get('preferences.rprefix'),
config.get('preferences.nprefix'))
def _execute(self):
""" execute all primary objects and reorder if neccessary """
# Update progress calculation
if self.uistate:
self.progress = ProgressMeter(_('Reorder Gramps IDs'), '')
else:
total_objs = 0
for prim_obj, dummy in self.xobjects:
if self.obj_values[prim_obj].active_obj:
total_objs += self.obj_values[prim_obj].quant_id
self.set_total(total_objs)
# Update database
self.db.disable_signals()
for prim_obj, prim_objs in self.xobjects:
with DbTxn(_('Reorder %s IDs ...') % prim_obj, self.db,
batch=True) as self.trans:
if self.obj_values[prim_obj].active_obj:
if self.uistate:
self.progress.set_pass(
_('Reorder %s IDs ...') % _(prim_objs.title()),
self.obj_values[prim_obj].quant_id)
# reset the db next_id index to zero so we restart new IDs
# at lowest possible position
setattr(self.db, DB_INDXES[prim_obj] + 'map_index', 0)
# Process reordering
self._reorder(prim_obj)
self.db.enable_signals()
self.db.request_rebuild()
# Update progress calculation
if self.uistate:
self.progress.close()
else:
print('\nDone.')
# finds integer portion in a GrampsID
_findint = re.compile(r'^[^\d]*(\d+)[^\d]*$')
# finds prefix, number, suffix of a Gramps ID ignoring a leading or
# trailing space. The number must be at least three digits.
_prob_id = re.compile(r'^ *([^\d]*)(\d{3,9})([^\d]*) *$')
def _reorder(self, prim_obj):
""" reorders all selected objects with a (new) style, start & step """
dup_ids = [] # list of duplicate identifiers
new_ids = {} # list of new identifiers
get_handles, commit, get_from_id, get_from_handle, next_from_id = \
self.obj_methods[prim_obj]
prefix_fmt = self.obj_values[prim_obj].get_fmt()
prefix = self.obj_values[prim_obj].object_prefix
suffix = self.obj_values[prim_obj].object_suffix
old_pref = self.obj_values[prim_obj].stored_prefix
old_suff = self.obj_values[prim_obj].stored_suffix
new_id = self.obj_values[prim_obj].get_id()
keep_fmt = self.obj_values[prim_obj].get_keep()
change = self.obj_values[prim_obj].get_change()
index_max = int("9" * self.obj_values[prim_obj].width_fmt)
do_same = False
# Process in handle order, which is in order handles were created.
# This makes renumberd IDs more consistant.
handles = get_handles()
handles.sort()
for handle in handles:
# Update progress
if self.uistate:
self.progress.step()
else:
self.update()
# extract basic data out of the database
obj = get_from_handle(handle)
act_id = obj.get_gramps_id()
# here we see if the ID looks like a new or previous or default
# Gramps ID.
# If not we ask user if he really wants to replace it.
# This should allow user to protect a GetGov ID or similar
match = self._prob_id.match(act_id)
if not (match and
(prefix == match.groups()[0] and suffix
== match.groups()[2] or old_pref == match.groups()[0] and
old_suff == match.groups()[2] or len(match.groups()[0])
== 1 and len(match.groups()[2]) == 0)) and not do_same:
xml = Glade(toplevel='dialog')
top = xml.toplevel
# self.top.set_icon(ICON)
top.set_title("%s - Gramps" % _("Reorder Gramps IDs"))
apply_to_rest = xml.get_object('apply_to_rest')
label1 = xml.get_object('toplabel')
label1.set_text('<span weight="bold" size="larger">%s</span>' %
_("Reorder Gramps IDs"))
label1.set_use_markup(True)
label2 = xml.get_object('mainlabel')
label2.set_text(_("Do you want to replace %s?" % act_id))
top.set_transient_for(self.progress._ProgressMeter__dialog)
self.progress._ProgressMeter__dialog.set_modal(False)
top.show()
response = top.run()
do_same = apply_to_rest.get_active()
top.destroy()
self.progress._ProgressMeter__dialog.set_modal(True)
if response != Gtk.ResponseType.YES:
continue
elif not match and do_same and response != Gtk.ResponseType.YES:
continue
if change:
# update the defined ID numbers into objects under
# consideration of keeping ID if format not matches prefix
# (implication logical boolean operator below)
if act_id.startswith(prefix) and act_id.endswith(suffix) or \
not keep_fmt:
obj.set_gramps_id(new_id)
commit(obj, self.trans)
new_id = self.obj_values[prim_obj].succ_id()
else:
# attempt to extract integer - if we can't, treat it as a
# duplicate
try:
match = self._findint.match(act_id)
if match:
# get the integer, build the new handle. Make sure it
# hasn't already been chosen. If it has, put this
# in the duplicate handle list
index = int(match.groups()[0])
if index > index_max:
new_id = next_from_id()
else:
new_id = prefix_fmt % index
if new_id == act_id:
if new_id in new_ids:
dup_ids.append(obj.get_handle())
else:
new_ids[new_id] = act_id
elif get_from_id(new_id) is not None:
dup_ids.append(obj.get_handle())
else:
obj.set_gramps_id(new_id)
commit(obj, self.trans)
new_ids[new_id] = act_id
else:
dup_ids.append(handle)
except:
dup_ids.append(handle)
# go through the duplicates, looking for the first available
# handle that matches the new scheme.
if dup_ids:
if self.uistate:
self.progress.set_pass(_('Finding and assigning unused IDs.'),
len(dup_ids))
for handle in dup_ids:
obj = get_from_handle(handle)
obj.set_gramps_id(next_from_id())
commit(obj, self.trans)
class RemoveUnused(tool.Tool, ManagedWindow, UpdateCallback):
MARK_COL = 0
OBJ_ID_COL = 1
OBJ_NAME_COL = 2
OBJ_TYPE_COL = 3
OBJ_HANDLE_COL = 4
def __init__(self, dbstate, user, options_class, name, callback=None):
uistate = user.uistate
self.title = _('Unused Objects')
tool.Tool.__init__(self, dbstate, options_class, name)
if self.db.readonly:
return
ManagedWindow.__init__(self, uistate,[], self.__class__)
UpdateCallback.__init__(self, self.uistate.pulse_progressbar)
self.dbstate = dbstate
self.uistate = uistate
self.tables = {
'events' : {'get_func': self.db.get_event_from_handle,
'remove' : self.db.remove_event,
'get_text': self.get_event_text,
'editor' : 'EditEvent',
'icon' : 'gramps-event',
'name_ix' : 4},
'sources' : {'get_func': self.db.get_source_from_handle,
'remove' : self.db.remove_source,
'get_text': None,
'editor' : 'EditSource',
'icon' : 'gramps-source',
'name_ix' : 2},
'places' : {'get_func': self.db.get_place_from_handle,
'remove' : self.db.remove_place,
'get_text': None,
'editor' : 'EditPlace',
'icon' : 'gramps-place',
'name_ix' : 2},
'media' : {'get_func': self.db.get_object_from_handle,
'remove' : self.db.remove_object,
'get_text': None,
'editor' : 'EditMedia',
'icon' : 'gramps-media',
'name_ix' : 4},
'repos' : {'get_func': self.db.get_repository_from_handle,
'remove' : self.db.remove_repository,
'get_text': None,
'editor' : 'EditRepository',
'icon' : 'gramps-repository',
'name_ix' : 3},
'notes' : {'get_func': self.db.get_note_from_handle,
'remove' : self.db.remove_note,
'get_text': self.get_note_text,
'editor' : 'EditNote',
'icon' : 'gramps-notes',
'name_ix' : 2},
}
self.init_gui()
def init_gui(self):
self.top = Glade()
window = self.top.toplevel
self.set_window(window, self.top.get_object('title'), self.title)
self.events_box = self.top.get_object('events_box')
self.sources_box = self.top.get_object('sources_box')
self.places_box = self.top.get_object('places_box')
self.media_box = self.top.get_object('media_box')
self.repos_box = self.top.get_object('repos_box')
self.notes_box = self.top.get_object('notes_box')
self.find_button = self.top.get_object('find_button')
self.remove_button = self.top.get_object('remove_button')
self.events_box.set_active(self.options.handler.options_dict['events'])
self.sources_box.set_active(
self.options.handler.options_dict['sources'])
self.places_box.set_active(
self.options.handler.options_dict['places'])
self.media_box.set_active(self.options.handler.options_dict['media'])
self.repos_box.set_active(self.options.handler.options_dict['repos'])
self.notes_box.set_active(self.options.handler.options_dict['notes'])
self.warn_tree = self.top.get_object('warn_tree')
self.warn_tree.connect('button_press_event', self.double_click)
self.selection = self.warn_tree.get_selection()
self.mark_button = self.top.get_object('mark_button')
self.mark_button.connect('clicked', self.mark_clicked)
self.unmark_button = self.top.get_object('unmark_button')
self.unmark_button.connect('clicked', self.unmark_clicked)
self.invert_button = self.top.get_object('invert_button')
self.invert_button.connect('clicked', self.invert_clicked)
self.real_model = Gtk.ListStore(GObject.TYPE_BOOLEAN,
GObject.TYPE_STRING,
GObject.TYPE_STRING,
GObject.TYPE_STRING,
GObject.TYPE_STRING)
self.sort_model = self.real_model.sort_new_with_model()
self.warn_tree.set_model(self.sort_model)
self.renderer = Gtk.CellRendererText()
self.img_renderer = Gtk.CellRendererPixbuf()
self.bool_renderer = Gtk.CellRendererToggle()
self.bool_renderer.connect('toggled', self.selection_toggled)
# Add mark column
mark_column = Gtk.TreeViewColumn(_('Mark'), self.bool_renderer,
active=RemoveUnused.MARK_COL)
mark_column.set_sort_column_id(RemoveUnused.MARK_COL)
self.warn_tree.append_column(mark_column)
# Add image column
img_column = Gtk.TreeViewColumn(None, self.img_renderer )
img_column.set_cell_data_func(self.img_renderer, self.get_image)
self.warn_tree.append_column(img_column)
# Add column with object gramps_id
id_column = Gtk.TreeViewColumn(_('ID'), self.renderer,
text=RemoveUnused.OBJ_ID_COL)
id_column.set_sort_column_id(RemoveUnused.OBJ_ID_COL)
self.warn_tree.append_column(id_column)
# Add column with object name
name_column = Gtk.TreeViewColumn(_('Name'), self.renderer,
text=RemoveUnused.OBJ_NAME_COL)
name_column.set_sort_column_id(RemoveUnused.OBJ_NAME_COL)
self.warn_tree.append_column(name_column)
self.top.connect_signals({
"destroy_passed_object" : self.close,
"on_remove_button_clicked": self.do_remove,
"on_find_button_clicked" : self.find,
"on_delete_event" : self.close,
})
self.dc_label = self.top.get_object('dc_label')
self.sensitive_list = [self.warn_tree, self.mark_button,
self.unmark_button, self.invert_button,
self.dc_label, self.remove_button]
for item in self.sensitive_list:
item.set_sensitive(False)
self.show()
def build_menu_names(self, obj):
return (self.title, None)
def find(self, obj):
self.options.handler.options_dict.update(
events = self.events_box.get_active(),
sources = self.sources_box.get_active(),
places = self.places_box.get_active(),
media = self.media_box.get_active(),
repos = self.repos_box.get_active(),
notes = self.notes_box.get_active(),
)
for item in self.sensitive_list:
item.set_sensitive(True)
self.uistate.set_busy_cursor(True)
self.uistate.progress.show()
self.window.get_window().set_cursor(Gdk.Cursor.new(Gdk.CursorType.WATCH))
self.real_model.clear()
self.collect_unused()
self.uistate.progress.hide()
self.uistate.set_busy_cursor(False)
self.window.get_window().set_cursor(None)
self.reset()
# Save options
self.options.handler.save_options()
def collect_unused(self):
# Run through all requested tables and check all objects
# for being referenced some place. If not, add_results on them.
db = self.db
tables = (
('events', db.get_event_cursor, db.get_number_of_events),
('sources', db.get_source_cursor, db.get_number_of_sources),
('places', db.get_place_cursor, db.get_number_of_places),
('media', db.get_media_cursor, db.get_number_of_media_objects),
('repos', db.get_repository_cursor, db.get_number_of_repositories),
('notes', db.get_note_cursor, db.get_number_of_notes),
)
for (the_type, cursor_func, total_func) in tables:
if not self.options.handler.options_dict[the_type]:
# This table was not requested. Skip it.
continue
with cursor_func() as cursor:
self.set_total(total_func())
fbh = db.find_backlink_handles
for handle, data in cursor:
if not any(h for h in fbh(handle)):
self.add_results((the_type, handle.decode('utf-8'),
data))
self.update()
self.reset()
def do_remove(self, obj):
with DbTxn(_("Remove unused objects"), self.db, batch=False) as trans:
self.db.disable_signals()
for row_num in range(len(self.real_model)-1, -1, -1):
path = (row_num,)
row = self.real_model[path]
if not row[RemoveUnused.MARK_COL]:
continue
the_type = row[RemoveUnused.OBJ_TYPE_COL]
handle = row[RemoveUnused.OBJ_HANDLE_COL]
remove_func = self.tables[the_type]['remove']
remove_func(handle, trans)
self.real_model.remove(row.iter)
self.db.enable_signals()
self.db.request_rebuild()
def selection_toggled(self, cell, path_string):
sort_path = tuple(map(int, path_string.split(':')))
real_path = self.sort_model.convert_path_to_child_path(Gtk.TreePath(sort_path))
row = self.real_model[real_path]
row[RemoveUnused.MARK_COL] = not row[RemoveUnused.MARK_COL]
self.real_model.row_changed(real_path, row.iter)
def mark_clicked(self, mark_button):
for row_num in range(len(self.real_model)):
path = (row_num,)
row = self.real_model[path]
row[RemoveUnused.MARK_COL] = True
def unmark_clicked(self, unmark_button):
for row_num in range(len(self.real_model)):
path = (row_num,)
row = self.real_model[path]
row[RemoveUnused.MARK_COL] = False
def invert_clicked(self, invert_button):
for row_num in range(len(self.real_model)):
path = (row_num,)
row = self.real_model[path]
row[RemoveUnused.MARK_COL] = not row[RemoveUnused.MARK_COL]
def double_click(self, obj, event):
if event.type == Gdk.EventType._2BUTTON_PRESS and event.button == 1:
(model, node) = self.selection.get_selected()
if not node:
return
sort_path = self.sort_model.get_path(node)
real_path = self.sort_model.convert_path_to_child_path(sort_path)
row = self.real_model[real_path]
the_type = row[RemoveUnused.OBJ_TYPE_COL]
handle = row[RemoveUnused.OBJ_HANDLE_COL]
self.call_editor(the_type, handle)
def call_editor(self, the_type, handle):
try:
obj = self.tables[the_type]['get_func'](handle)
editor_str = 'from gramps.gui.editors import %s as editor' % (
self.tables[the_type]['editor']
)
exec(editor_str, globals())
editor(self.dbstate, self.uistate, [], obj)
except WindowActiveError:
pass
def get_image(self, column, cell, model, iter, user_data=None):
the_type = model.get_value(iter, RemoveUnused.OBJ_TYPE_COL)
the_icon = self.tables[the_type]['icon']
cell.set_property('icon-name', the_icon)
def add_results(self, results):
(the_type, handle, data) = results
gramps_id = data[1]
# if we have a function that will return to us some type
# of text summary, then we should use it; otherwise we'll
# use the generic field index provided in the tables above
if self.tables[the_type]['get_text']:
text = self.tables[the_type]['get_text'](the_type, handle, data)
else:
# grab the text field index we know about, and hope
# it represents something useful to the user
name_ix = self.tables[the_type]['name_ix']
text = data[name_ix]
# insert a new row into the table
self.real_model.append(row=[False, gramps_id, text, the_type, handle])
def get_event_text(self, the_type, handle, data):
"""
Come up with a short line of text that we can use as
a summary to represent this event.
"""
# get the event:
event = self.tables[the_type]['get_func'](handle)
# first check to see if the event has a descriptive name
text = event.get_description() # (this is rarely set for events)
# if we don't have a description...
if text == '':
# ... then we merge together several fields
# get the event type (marriage, birth, death, etc.)
text = str(event.get_type())
# see if there is a date
date = _dd.display(event.get_date_object())
if date != '':
text += '; %s' % date
# see if there is a place
if event.get_place_handle():
text += '; %s' % _pd.display_event(self.db, event)
return text
def get_note_text(self, the_type, handle, data):
"""
We need just the first few words of a note as a summary.
"""
# get the note object
note = self.tables[the_type]['get_func'](handle)
# get the note text; this ignores (discards) formatting
text = note.get()
# convert whitespace to a single space
text = " ".join(text.split())
# if the note is too long, truncate it
if len(text) > 80:
text = text[:80] + "..."
return text
class EventComparison(tool.Tool, ManagedWindow):
def __init__(self, dbstate, user, options_class, name, callback=None):
uistate = user.uistate
self.dbstate = dbstate
self.uistate = uistate
tool.Tool.__init__(self, dbstate, options_class, name)
ManagedWindow.__init__(self, uistate, [], self)
self.qual = 0
self.filterDialog = Glade(toplevel="filters", also_load=["liststore1"])
self.filterDialog.connect_signals({
"on_apply_clicked": self.on_apply_clicked,
"on_editor_clicked": self.filter_editor_clicked,
"on_help_clicked": self.on_help_clicked,
"destroy_passed_object": self.close,
"on_write_table": self.__dummy,
})
window = self.filterDialog.toplevel
self.filters = self.filterDialog.get_object("filter_list")
self.label = _('Event comparison filter selection')
self.set_window(window, self.filterDialog.get_object('title'),
self.label)
self.setup_configs('interface.eventcomparison', 640, 220)
self.on_filters_changed('Person')
uistate.connect('filters-changed', self.on_filters_changed)
self.show()
def __dummy(self, obj):
"""dummy callback, needed because widget is in same glade file
as another widget, so callbacks must be defined to avoid warnings.
"""
pass
def on_filters_changed(self, name_space):
if name_space == 'Person':
all_filter = GenericFilter()
all_filter.set_name(_("Entire Database"))
all_filter.add_rule(rules.person.Everyone([]))
self.filter_model = build_filter_model('Person', [all_filter])
self.filters.set_model(self.filter_model)
self.filters.set_active(0)
def on_help_clicked(self, obj):
"""Display the relevant portion of Gramps manual"""
display_help(webpage=WIKI_HELP_PAGE, section=WIKI_HELP_SEC)
def build_menu_names(self, obj):
return (_("Filter selection"), _("Event Comparison tool"))
def filter_editor_clicked(self, obj):
try:
FilterEditor('Person', CUSTOM_FILTERS, self.dbstate, self.uistate)
except WindowActiveError:
pass
def on_apply_clicked(self, obj):
cfilter = self.filter_model[self.filters.get_active()][1]
progress_bar = ProgressMeter(_('Comparing events'),
'',
parent=self.window)
progress_bar.set_pass(_('Selecting people'), 1)
plist = cfilter.apply(self.db, self.db.iter_person_handles())
progress_bar.step()
progress_bar.close()
self.options.handler.options_dict['filter'] = self.filters.get_active()
# Save options
self.options.handler.save_options()
if len(plist) == 0:
WarningDialog(_("No matches were found"), parent=self.window)
else:
EventComparisonResults(self.dbstate, self.uistate, plist,
self.track)
class ChangeTypes(tool.BatchTool, ManagedWindow):
def __init__(self, dbstate, user, options_class, name, callback=None):
uistate = user.uistate
self.user = user
tool.BatchTool.__init__(self, dbstate, user, options_class, name)
if self.fail:
return
if uistate:
self.title = _('Change Event Types')
ManagedWindow.__init__(self,uistate,[],
self.__class__)
self.init_gui()
else:
self.run_tool()
def init_gui(self):
# Draw dialog and make it handle everything
self.glade = Glade()
self.auto1 = self.glade.get_object("original")
self.auto2 = self.glade.get_object("new")
# Need to display localized event names
etype = EventType()
event_names = sorted(etype.get_standard_names(), key=glocale.sort_key)
fill_combo(self.auto1,event_names)
fill_combo(self.auto2,event_names)
etype.set_from_xml_str(self.options.handler.options_dict['fromtype'])
self.auto1.get_child().set_text(str(etype))
etype.set_from_xml_str(self.options.handler.options_dict['totype'])
self.auto2.get_child().set_text(str(etype))
window = self.glade.toplevel
self.set_window(window,self.glade.get_object('title'),self.title)
self.glade.connect_signals({
"on_close_clicked" : self.close,
"on_apply_clicked" : self.on_apply_clicked,
"on_delete_event" : self.close,
})
self.show()
def build_menu_names(self, obj):
return (self.title,None)
def run_tool(self, parent_window = None):
# Run tool and return results
# These are English names, no conversion needed
fromtype = self.options.handler.options_dict['fromtype']
totype = self.options.handler.options_dict['totype']
modified = 0
with DbTxn(_('Change types'), self.db, batch=True) as self.trans:
self.db.disable_signals()
with self.user.progress(
_('Analyzing Events'), '',
self.db.get_number_of_events()) as step:
for event_handle in self.db.get_event_handles():
event = self.db.get_event_from_handle(event_handle)
if event.get_type().xml_str() == fromtype:
event.type.set_from_xml_str(totype)
modified += 1
self.db.commit_event(event,self.trans)
step()
self.db.enable_signals()
self.db.request_rebuild()
if modified == 0:
msg = _("No event record was modified.")
else:
# translators: leave all/any {...} untranslated
msg = ngettext("{number_of} event record was modified.",
"{number_of} event records were modified.", modified
).format(number_of=modified)
self.user.info(_('Change types'), msg, parent_window)
return (bool(modified),msg)
def on_apply_clicked(self, obj):
# Need to store English names for later comparison
the_type = EventType()
the_type.set(self.auto1.get_child().get_text())
self.options.handler.options_dict['fromtype'] = the_type.xml_str()
the_type.set(self.auto2.get_child().get_text())
self.options.handler.options_dict['totype'] = the_type.xml_str()
self.run_tool(self.window)
# Save options
self.options.handler.save_options()
self.close()
class EventComparison(tool.Tool, ManagedWindow):
def __init__(self, dbstate, user, options_class, name, callback=None):
uistate = user.uistate
self.dbstate = dbstate
self.uistate = uistate
tool.Tool.__init__(self, dbstate, options_class, name)
ManagedWindow.__init__(self, uistate, [], self)
self.qual = 0
self.filterDialog = Glade(toplevel="filters")
self.filterDialog.connect_signals(
{
"on_apply_clicked": self.on_apply_clicked,
"on_editor_clicked": self.filter_editor_clicked,
"on_help_clicked": self.on_help_clicked,
"destroy_passed_object": self.close,
"on_write_table": self.__dummy,
}
)
window = self.filterDialog.toplevel
self.filters = self.filterDialog.get_object("filter_list")
self.label = _("Event comparison filter selection")
self.set_window(window, self.filterDialog.get_object("title"), self.label)
self.on_filters_changed("Person")
uistate.connect("filters-changed", self.on_filters_changed)
self.show()
def __dummy(self, obj):
"""dummy callback, needed because widget is in same glade file
as another widget, so callbacks must be defined to avoid warnings.
"""
pass
def on_filters_changed(self, name_space):
if name_space == "Person":
all_filter = GenericFilter()
all_filter.set_name(_("Entire Database"))
all_filter.add_rule(rules.person.Everyone([]))
self.filter_model = build_filter_model("Person", [all_filter])
self.filters.set_model(self.filter_model)
self.filters.set_active(0)
def on_help_clicked(self, obj):
"""Display the relevant portion of GRAMPS manual"""
display_help(webpage=WIKI_HELP_PAGE, section=WIKI_HELP_SEC)
def build_menu_names(self, obj):
return (_("Filter selection"), _("Event Comparison tool"))
def filter_editor_clicked(self, obj):
try:
FilterEditor("Person", CUSTOM_FILTERS, self.dbstate, self.uistate)
except WindowActiveError:
pass
def on_apply_clicked(self, obj):
cfilter = self.filter_model[self.filters.get_active()][1]
progress_bar = ProgressMeter(_("Comparing events"), "", parent=self.window)
progress_bar.set_pass(_("Selecting people"), 1)
plist = cfilter.apply(self.db, self.db.iter_person_handles())
progress_bar.step()
progress_bar.close()
self.options.handler.options_dict["filter"] = self.filters.get_active()
# Save options
self.options.handler.save_options()
if len(plist) == 0:
WarningDialog(_("No matches were found"), parent=self.window)
else:
DisplayChart(self.dbstate, self.uistate, plist, self.track)
class ReorderIds(tool.BatchTool, ManagedWindow, UpdateCallback):
""" Class for Reodering Gramps ID Tool """
xobjects = (('person', 'people'), ('family', 'families'),
('event', 'events'), ('place', 'places'),
('source', 'sources'), ('citation', 'citations'),
('repository', 'repositories'),
('media', 'media'), ('note', 'notes'))
def build_menu_names_(self, widget=None):
""" The menu name """
return (_('Main window'), _("Reorder Gramps IDs"))
def __init__(self, dbstate, user, options_class, name, callback=None):
self.uistate = user.uistate
self.db = dbstate.db
if self.uistate:
tool.BatchTool.__init__(self, dbstate, user, options_class, name)
if self.fail:
return # user denied to modify Gramps IDs
ManagedWindow.__init__(self, self.uistate, [], self.__class__)
if not self.uistate:
UpdateCallback.__init__(self, user.callback)
self.object_status = True
self.change_status = False
self.start_zero = True
self.step_cnt, self.step_list = 0, ['1', '2', '5', '10']
self.keep_status = True
self.obj_values = {} # enable access to all internal values
self.active_entries, self.format_entries = {}, {}
self.change_entries = {}
self.start_entries, self.step_entries = {}, {}
self.keep_entries = {}
self.prim_methods, self.obj_methods = {}, {}
for prim_obj, prim_objs in self.xobjects:
iter_handles = "iter_%s_handles" % prim_obj
get_number_obj = "get_number_of_%s" % prim_objs
prefix_fmt = "%s_prefix" % prim_obj
get_from_id = "get_%s_from_gramps_id" % prim_obj
get_from_handle = "get_%s_from_handle" % prim_obj
next_from_id = "find_next_%s_gramps_id" % prim_obj
commit = "commit_%s" % prim_obj
self.prim_methods[prim_obj] = (getattr(self.db, prefix_fmt),
getattr(self.db, get_number_obj)(),
getattr(self.db, next_from_id)())
self.obj_methods[prim_obj] = (getattr(self.db, iter_handles),
getattr(self.db, commit),
getattr(self.db, get_from_id),
getattr(self.db, get_from_handle),
getattr(self.db, next_from_id))
object_fmt, quant_id, next_id = self.prim_methods[prim_obj]
obj_value = ReorderEntry(object_fmt, quant_id, next_id, prim_obj)
self.obj_values[prim_obj] = obj_value
if self.uistate:
self._display()
else:
self._execute()
def __on_object_button_clicked(self, widget=None):
""" compute all primary objects and toggle the 'Active' attribute """
self.object_status = not self.object_status
for prim_obj, dummy in self.xobjects:
obj = self.top.get_object('%s_active' % prim_obj)
obj.set_active(self.object_status)
def __on_object_button_toggled(self, widget):
""" compute the primary object and toggle the 'Sensitive' attribute """
obj_state = widget.get_active()
obj_name = Gtk.Buildable.get_name(widget).split('_', 1)[0]
self.active_entries[obj_name].set_val(obj_state)
for obj_entry in ['actual', 'quant', 'format', 'change']:
obj = self.top.get_object('%s_%s' % (obj_name, obj_entry))
obj.set_sensitive(obj_state)
for obj_entry in ['start', 'step', 'keep']:
obj = self.top.get_object('%s_change' % obj_name)
if obj.get_active():
obj = self.top.get_object('%s_%s' % (obj_name, obj_entry))
obj.set_sensitive(obj_state)
def __on_format_button_clicked(self, widget=None):
""" compute all sensitive primary objects and sets the
'Format' scheme of identifiers """
for prim_obj, dummy in self.xobjects:
obj_format = self.top.get_object('%s_format' % prim_obj)
if not obj_format.get_sensitive():
continue
obj_fmt = self.obj_values[prim_obj].res_fmt()
self.format_entries[prim_obj].force_value(obj_fmt)
if self.start_zero:
obj_id = self.obj_values[prim_obj].zero_id()
else:
obj_id = self.obj_values[prim_obj].last_id()
self.start_entries[prim_obj].force_value(obj_id)
def __on_change_button_clicked(self, widget=None):
""" compute all primary objects and toggle the 'Change' attribute """
self.change_status = not self.change_status
for prim_obj, dummy in self.xobjects:
obj_change = self.top.get_object('%s_change' % prim_obj)
if not obj_change.get_sensitive():
continue
self.change_entries[prim_obj].set_val(self.change_status)
obj_change.set_active(self.change_status)
def __on_change_button_toggled(self, widget):
""" compute the primary object and toggle the 'Sensitive' attribute """
obj_state = widget.get_active()
obj_name = Gtk.Buildable.get_name(widget).split('_', 1)[0]
for obj_entry in ['start', 'step', 'keep']:
obj = self.top.get_object('%s_%s' % (obj_name, obj_entry))
if obj_entry == 'keep':
if (self.obj_values[obj_name].stored_prefix !=
self.obj_values[obj_name].object_prefix and
self.obj_values[obj_name].stored_suffix !=
self.obj_values[obj_name].object_suffix):
self.keep_entries[obj_name].set_val(False)
else:
obj.set_active(obj_state)
self.keep_entries[obj_name].set_val(obj_state)
obj.set_sensitive(obj_state)
def __on_start_button_clicked(self, widget=None):
""" compute all sensitive primary objects and sets the
'Start' values of identifiers """
self.start_zero = not self.start_zero
for prim_obj, dummy in self.xobjects:
obj = self.top.get_object('%s_start' % prim_obj)
if not obj.get_sensitive():
continue
if self.start_zero:
obj_id = self.obj_values[prim_obj].zero_id()
else:
obj_id = self.obj_values[prim_obj].next_id()
self.start_entries[prim_obj].force_value(obj_id)
def __on_step_button_clicked(self, widget=None):
""" compute all sensitive primary objects and sets the
'Step' width of identifiers """
self.step_cnt = self.step_cnt + 1 if self.step_cnt < 3 else 0
for prim_obj, dummy in self.xobjects:
obj = self.top.get_object('%s_step' % prim_obj)
if not obj.get_sensitive():
continue
step_val = self.step_list[self.step_cnt]
self.step_entries[prim_obj].force_value(step_val)
def __on_keep_button_clicked(self, widget=None):
""" compute the primary object and toggle the 'Active' attribute """
self.keep_status = not self.keep_status
for prim_obj, dummy in self.xobjects:
obj = self.top.get_object('%s_change' % prim_obj)
if not obj.get_active():
continue
obj = self.top.get_object('%s_keep' % prim_obj)
obj.set_active(self.keep_status)
self.keep_entries[prim_obj].set_val(self.keep_status)
def __on_format_entry_keyrelease(self, widget, event, data=None):
""" activated on all return's of an entry """
if event.keyval in [Gdk.KEY_Return]:
obj_name = Gtk.Buildable.get_name(widget).split('_', 1)[0]
obj_fmt = self.format_entries[obj_name].get_val()
self.format_entries[obj_name].force_value(obj_fmt)
self.start_entries[obj_name].update()
obj_change = self.top.get_object('%s_change' % obj_name)
obj_change.grab_focus()
return False
def __on_format_entry_focusout(self, widget, event, data=None):
""" activated on all focus out of an entry """
obj_name = Gtk.Buildable.get_name(widget).split('_', 1)[0]
obj_fmt = self.format_entries[obj_name].get_val()
self.format_entries[obj_name].set_text(obj_fmt)
self.start_entries[obj_name].update()
return False
def __on_start_entry_focusout(self, widget, event, data=None):
""" activated on all focus out of an entry """
obj_name = Gtk.Buildable.get_name(widget).split('_', 1)[0]
self.start_entries[obj_name].update()
return False
def __on_ok_button_clicked(self, widget=None):
""" execute the reodering and close """
self._execute()
self._update()
self.close()
def __on_cancel_button_clicked(self, widget=None):
""" cancel the reodering and close """
self.close()
def __on_help_button_clicked(self, widget=None):
""" display the relevant portion of Gramps manual """
display_help(webpage=WIKI_HELP_PAGE, section=WIKI_HELP_SEC)
def _display(self):
""" organize Glade 'Reorder IDs' window """
# get the main window from glade
self.top = Glade(toplevel="reorder-ids")
window = self.top.toplevel
# set gramps style title for the window
self.set_window(window, self.top.get_object("title"),
_("Reorder Gramps IDs"))
# connect signals
self.top.connect_signals({
"on_object_button_clicked" : self.__on_object_button_clicked,
"on_object_button_toggled" : self.__on_object_button_toggled,
"on_format_button_clicked" : self.__on_format_button_clicked,
"on_start_button_clicked" : self.__on_start_button_clicked,
"on_step_button_clicked" : self.__on_step_button_clicked,
"on_keep_button_clicked" : self.__on_keep_button_clicked,
"on_change_button_clicked" : self.__on_change_button_clicked,
"on_change_button_toggled" : self.__on_change_button_toggled,
"on_format_entry_keyrelease" : self.__on_format_entry_keyrelease,
"on_format_entry_focusout" : self.__on_format_entry_focusout,
"on_start_entry_focusout" : self.__on_start_entry_focusout,
"on_help_button_clicked" : self.__on_help_button_clicked,
"on_cancel_button_clicked" : self.__on_cancel_button_clicked,
"on_ok_button_clicked" : self.__on_ok_button_clicked
})
# Calculate all entries and update Glade window
for prim_obj, dummy in self.xobjects:
# populate Object, Actual & Quantity fields with values
obj_active = self.top.get_object('%s_active' % prim_obj)
self.active_entries[prim_obj] = MonitoredCheckbox(
obj_active, obj_active, self.obj_values[prim_obj].set_active,
self.obj_values[prim_obj].get_active)
obj_actual = self.top.get_object('%s_actual' % prim_obj)
obj_actual.set_text('%s' % self.obj_values[prim_obj].last_id())
obj_quant = self.top.get_object('%s_quant' % prim_obj)
obj_quant.set_text('%s' % str(self.obj_values[prim_obj].quant_id))
# connect/populate Format, Start, Step, Keep & Change fields
# with GTK/values
obj_format = self.top.get_object('%s_format' % prim_obj)
self.format_entries[prim_obj] = MonitoredEntry(
obj_format, self.obj_values[prim_obj].set_fmt,
self.obj_values[prim_obj].get_fmt)
obj_change = self.top.get_object('%s_change' % prim_obj)
self.change_entries[prim_obj] = MonitoredCheckbox(
obj_change, obj_change, self.obj_values[prim_obj].set_change,
self.obj_values[prim_obj].get_change)
obj_start = self.top.get_object('%s_start' % prim_obj)
self.start_entries[prim_obj] = MonitoredEntry(
obj_start, self.obj_values[prim_obj].set_id,
self.obj_values[prim_obj].get_id)
obj_step = self.top.get_object('%s_step' % prim_obj)
self.step_entries[prim_obj] = MonitoredEntry(
obj_step, self.obj_values[prim_obj].set_step,
self.obj_values[prim_obj].get_step,
changed=self.obj_values[prim_obj].change_step)
obj_keep = self.top.get_object('%s_keep' % prim_obj)
self.keep_entries[prim_obj] = MonitoredCheckbox(
obj_keep, obj_keep, self.obj_values[prim_obj].set_keep,
self.obj_values[prim_obj].get_keep, readonly=True)
# fetch the popup menu
self.menu = self.top.get_object("popup_menu")
# ok, let's see what we've done
self.window.resize(700, 410)
self.show()
def _update(self):
""" store changed objects formats in DB """
update = False
for prim_obj, dummy in self.xobjects:
obj_value = self.obj_values[prim_obj]
if obj_value.object_fmt != obj_value.stored_fmt:
constant = 'preferences.%sprefix' % PREFIXES[prim_obj]
config.set(constant, obj_value.object_fmt)
update = True
if update:
config.save()
self.db.set_prefixes(
config.get('preferences.iprefix'),
config.get('preferences.oprefix'),
config.get('preferences.fprefix'),
config.get('preferences.sprefix'),
config.get('preferences.cprefix'),
config.get('preferences.pprefix'),
config.get('preferences.eprefix'),
config.get('preferences.rprefix'),
config.get('preferences.nprefix'))
def _execute(self):
""" execute all primary objects and reorder if neccessary """
# Update progress calculation
if self.uistate:
self.progress = ProgressMeter(_('Reorder Gramps IDs'), '')
else:
total_objs = 0
for prim_obj, dummy in self.xobjects:
if self.obj_values[prim_obj].active_obj:
total_objs += self.obj_values[prim_obj].quant_id
self.set_total(total_objs)
# Update database
self.db.disable_signals()
for prim_obj, prim_objs in self.xobjects:
with DbTxn(_('Reorder %s IDs ...') % prim_obj,
self.db, batch=True) as self.trans:
if self.obj_values[prim_obj].active_obj:
if self.uistate:
self.progress.set_pass(
_('Reorder %s IDs ...') % _(prim_objs.title()),
self.obj_values[prim_obj].quant_id)
# Process reordering
self._reorder(prim_obj)
self.db.enable_signals()
self.db.request_rebuild()
# Update progress calculation
if self.uistate:
self.progress.close()
else:
print('\nDone.')
# finds integer portion in a GrampsID
_findint = re.compile('^[^\d]*(\d+)[^\d]*$')
# finds prefix, number, suffix of a Gramps ID ignoring a leading or
# trailing space. The number must be at least three digits.
_prob_id = re.compile('^ *([^\d]*)(\d{3,9})([^\d]*) *$')
def _reorder(self, prim_obj):
""" reorders all selected objects with a (new) style, start & step """
dup_ids = [] # list of duplicate identifiers
new_ids = {} # list of new identifiers
iter_handles, commit, get_from_id, get_from_handle, next_from_id = \
self.obj_methods[prim_obj]
prefix_fmt = self.obj_values[prim_obj].get_fmt()
prefix = self.obj_values[prim_obj].object_prefix
suffix = self.obj_values[prim_obj].object_suffix
old_pref = self.obj_values[prim_obj].stored_prefix
old_suff = self.obj_values[prim_obj].stored_suffix
new_id = self.obj_values[prim_obj].get_id()
keep_fmt = self.obj_values[prim_obj].get_keep()
change = self.obj_values[prim_obj].get_change()
index_max = int("9" * self.obj_values[prim_obj].width_fmt)
do_same = False
for handle in iter_handles():
# Update progress
if self.uistate:
self.progress.step()
else:
self.update()
# extract basic data out of the database
obj = get_from_handle(handle)
act_id = obj.get_gramps_id()
# here we see if the ID looks like a new or previous or default
# Gramps ID.
# If not we ask user if he really wants to replace it.
# This should allow user to protect a GetGov ID or similar
match = self._prob_id.match(act_id)
if not (match and
(prefix == match.groups()[0] and
suffix == match.groups()[2] or
old_pref == match.groups()[0] and
old_suff == match.groups()[2] or
len(match.groups()[0]) == 1 and
len(match.groups()[2]) == 0)) and not do_same:
xml = Glade(toplevel='dialog')
top = xml.toplevel
# self.top.set_icon(ICON)
top.set_title("%s - Gramps" % _("Reorder Gramps IDs"))
apply_to_rest = xml.get_object('apply_to_rest')
label1 = xml.get_object('toplabel')
label1.set_text('<span weight="bold" size="larger">%s</span>' %
_("Reorder Gramps IDs"))
label1.set_use_markup(True)
label2 = xml.get_object('mainlabel')
label2.set_text(_("Do you want to replace %s?" % act_id))
top.set_transient_for(self.progress._ProgressMeter__dialog)
self.progress._ProgressMeter__dialog.set_modal(False)
top.show()
response = top.run()
do_same = apply_to_rest.get_active()
top.destroy()
self.progress._ProgressMeter__dialog.set_modal(True)
if response != Gtk.ResponseType.YES:
continue
elif not match and do_same and response != Gtk.ResponseType.YES:
continue
if change:
# update the defined ID numbers into objects under
# consideration of keeping ID if format not matches prefix
# (implication logical boolean operator below)
if act_id.startswith(prefix) and act_id.endswith(suffix) or \
not keep_fmt:
obj.set_gramps_id(new_id)
commit(obj, self.trans)
new_id = self.obj_values[prim_obj].succ_id()
else:
# attempt to extract integer - if we can't, treat it as a
# duplicate
try:
match = self._findint.match(act_id)
if match:
# get the integer, build the new handle. Make sure it
# hasn't already been chosen. If it has, put this
# in the duplicate handle list
index = int(match.groups()[0])
if index > index_max:
new_id = next_from_id()
else:
new_id = prefix_fmt % index
if new_id == act_id:
if new_id in new_ids:
dup_ids.append(obj.get_handle())
else:
new_ids[new_id] = act_id
elif get_from_id(new_id) is not None:
dup_ids.append(obj.get_handle())
else:
obj.set_gramps_id(new_id)
commit(obj, self.trans)
new_ids[new_id] = act_id
else:
dup_ids.append(handle)
except:
dup_ids.append(handle)
# go through the duplicates, looking for the first available
# handle that matches the new scheme.
if dup_ids:
if self.uistate:
self.progress.set_pass(_('Finding and assigning unused IDs.'),
len(dup_ids))
for handle in dup_ids:
obj = get_from_handle(handle)
obj.set_gramps_id(next_from_id())
commit(obj, self.trans)
class RemoveUnused(tool.Tool, ManagedWindow, UpdateCallback):
MARK_COL = 0
OBJ_ID_COL = 1
OBJ_NAME_COL = 2
OBJ_TYPE_COL = 3
OBJ_HANDLE_COL = 4
BUSY_CURSOR = Gdk.Cursor.new_for_display(Gdk.Display.get_default(),
Gdk.CursorType.WATCH)
def __init__(self, dbstate, user, options_class, name, callback=None):
uistate = user.uistate
self.title = _('Unused Objects')
tool.Tool.__init__(self, dbstate, options_class, name)
if self.db.readonly:
return
ManagedWindow.__init__(self, uistate, [], self.__class__)
UpdateCallback.__init__(self, self.uistate.pulse_progressbar)
self.dbstate = dbstate
self.uistate = uistate
self.tables = {
'events': {
'get_func': self.db.get_event_from_handle,
'remove': self.db.remove_event,
'get_text': self.get_event_text,
'editor': 'EditEvent',
'icon': 'gramps-event',
'name_ix': 4
},
'sources': {
'get_func': self.db.get_source_from_handle,
'remove': self.db.remove_source,
'get_text': None,
'editor': 'EditSource',
'icon': 'gramps-source',
'name_ix': 2
},
'citations': {
'get_func': self.db.get_citation_from_handle,
'remove': self.db.remove_citation,
'get_text': None,
'editor': 'EditCitation',
'icon': 'gramps-citation',
'name_ix': 3
},
'places': {
'get_func': self.db.get_place_from_handle,
'remove': self.db.remove_place,
'get_text': None,
'editor': 'EditPlace',
'icon': 'gramps-place',
'name_ix': 2
},
'media': {
'get_func': self.db.get_media_from_handle,
'remove': self.db.remove_media,
'get_text': None,
'editor': 'EditMedia',
'icon': 'gramps-media',
'name_ix': 4
},
'repos': {
'get_func': self.db.get_repository_from_handle,
'remove': self.db.remove_repository,
'get_text': None,
'editor': 'EditRepository',
'icon': 'gramps-repository',
'name_ix': 3
},
'notes': {
'get_func': self.db.get_note_from_handle,
'remove': self.db.remove_note,
'get_text': self.get_note_text,
'editor': 'EditNote',
'icon': 'gramps-notes',
'name_ix': 2
},
}
self.init_gui()
def init_gui(self):
self.top = Glade()
window = self.top.toplevel
self.set_window(window, self.top.get_object('title'), self.title)
self.events_box = self.top.get_object('events_box')
self.sources_box = self.top.get_object('sources_box')
self.citations_box = self.top.get_object('citations_box')
self.places_box = self.top.get_object('places_box')
self.media_box = self.top.get_object('media_box')
self.repos_box = self.top.get_object('repos_box')
self.notes_box = self.top.get_object('notes_box')
self.find_button = self.top.get_object('find_button')
self.remove_button = self.top.get_object('remove_button')
self.events_box.set_active(self.options.handler.options_dict['events'])
self.sources_box.set_active(
self.options.handler.options_dict['sources'])
self.citations_box.set_active(
self.options.handler.options_dict['citations'])
self.places_box.set_active(self.options.handler.options_dict['places'])
self.media_box.set_active(self.options.handler.options_dict['media'])
self.repos_box.set_active(self.options.handler.options_dict['repos'])
self.notes_box.set_active(self.options.handler.options_dict['notes'])
self.warn_tree = self.top.get_object('warn_tree')
self.warn_tree.connect('button_press_event', self.double_click)
self.selection = self.warn_tree.get_selection()
self.mark_button = self.top.get_object('mark_button')
self.mark_button.connect('clicked', self.mark_clicked)
self.unmark_button = self.top.get_object('unmark_button')
self.unmark_button.connect('clicked', self.unmark_clicked)
self.invert_button = self.top.get_object('invert_button')
self.invert_button.connect('clicked', self.invert_clicked)
self.real_model = Gtk.ListStore(GObject.TYPE_BOOLEAN,
GObject.TYPE_STRING,
GObject.TYPE_STRING,
GObject.TYPE_STRING,
GObject.TYPE_STRING)
self.sort_model = self.real_model.sort_new_with_model()
self.warn_tree.set_model(self.sort_model)
self.renderer = Gtk.CellRendererText()
self.img_renderer = Gtk.CellRendererPixbuf()
self.bool_renderer = Gtk.CellRendererToggle()
self.bool_renderer.connect('toggled', self.selection_toggled)
# Add mark column
mark_column = Gtk.TreeViewColumn(_('Mark'),
self.bool_renderer,
active=RemoveUnused.MARK_COL)
mark_column.set_sort_column_id(RemoveUnused.MARK_COL)
self.warn_tree.append_column(mark_column)
# Add image column
img_column = Gtk.TreeViewColumn(None, self.img_renderer)
img_column.set_cell_data_func(self.img_renderer, self.get_image)
self.warn_tree.append_column(img_column)
# Add column with object gramps_id
id_column = Gtk.TreeViewColumn(_('ID'),
self.renderer,
text=RemoveUnused.OBJ_ID_COL)
id_column.set_sort_column_id(RemoveUnused.OBJ_ID_COL)
self.warn_tree.append_column(id_column)
# Add column with object name
name_column = Gtk.TreeViewColumn(_('Name'),
self.renderer,
text=RemoveUnused.OBJ_NAME_COL)
name_column.set_sort_column_id(RemoveUnused.OBJ_NAME_COL)
self.warn_tree.append_column(name_column)
self.top.connect_signals({
"destroy_passed_object": self.close,
"on_remove_button_clicked": self.do_remove,
"on_find_button_clicked": self.find,
"on_delete_event": self.close,
})
self.dc_label = self.top.get_object('dc_label')
self.sensitive_list = [
self.warn_tree, self.mark_button, self.unmark_button,
self.invert_button, self.dc_label, self.remove_button
]
for item in self.sensitive_list:
item.set_sensitive(False)
self.show()
def build_menu_names(self, obj):
return (self.title, None)
def find(self, obj):
self.options.handler.options_dict.update(
events=self.events_box.get_active(),
sources=self.sources_box.get_active(),
citations=self.citations_box.get_active(),
places=self.places_box.get_active(),
media=self.media_box.get_active(),
repos=self.repos_box.get_active(),
notes=self.notes_box.get_active(),
)
for item in self.sensitive_list:
item.set_sensitive(True)
self.uistate.set_busy_cursor(True)
self.uistate.progress.show()
self.window.get_window().set_cursor(self.BUSY_CURSOR)
self.real_model.clear()
self.collect_unused()
self.uistate.progress.hide()
self.uistate.set_busy_cursor(False)
self.window.get_window().set_cursor(None)
self.reset()
# Save options
self.options.handler.save_options()
def collect_unused(self):
# Run through all requested tables and check all objects
# for being referenced some place. If not, add_results on them.
db = self.db
tables = (
('events', db.get_event_cursor, db.get_number_of_events),
('sources', db.get_source_cursor, db.get_number_of_sources),
('citations', db.get_citation_cursor, db.get_number_of_citations),
('places', db.get_place_cursor, db.get_number_of_places),
('media', db.get_media_cursor, db.get_number_of_media),
('repos', db.get_repository_cursor, db.get_number_of_repositories),
('notes', db.get_note_cursor, db.get_number_of_notes),
)
# bug 7619 : don't select notes from to do list.
# notes associated to the todo list doesn't have references.
# get the todo list (from get_note_list method of the todo gramplet )
all_notes = self.dbstate.db.get_note_handles()
FilterClass = GenericFilterFactory('Note')
filter1 = FilterClass()
filter1.add_rule(rules.note.HasType(["To Do"]))
todo_list = filter1.apply(self.dbstate.db, all_notes)
filter2 = FilterClass()
filter2.add_rule(rules.note.HasType(["Link"]))
link_list = filter2.apply(self.dbstate.db, all_notes)
for (the_type, cursor_func, total_func) in tables:
if not self.options.handler.options_dict[the_type]:
# This table was not requested. Skip it.
continue
with cursor_func() as cursor:
self.set_total(total_func())
fbh = db.find_backlink_handles
for handle, data in cursor:
if not any(h for h in fbh(handle)):
if handle not in todo_list and handle not in link_list:
self.add_results(
(the_type, handle.decode('utf-8'), data))
self.update()
self.reset()
def do_remove(self, obj):
with DbTxn(_("Remove unused objects"), self.db, batch=False) as trans:
self.db.disable_signals()
for row_num in range(len(self.real_model) - 1, -1, -1):
path = (row_num, )
row = self.real_model[path]
if not row[RemoveUnused.MARK_COL]:
continue
the_type = row[RemoveUnused.OBJ_TYPE_COL]
handle = row[RemoveUnused.OBJ_HANDLE_COL]
remove_func = self.tables[the_type]['remove']
remove_func(handle, trans)
self.real_model.remove(row.iter)
self.db.enable_signals()
self.db.request_rebuild()
def selection_toggled(self, cell, path_string):
sort_path = tuple(map(int, path_string.split(':')))
real_path = self.sort_model.convert_path_to_child_path(
Gtk.TreePath(sort_path))
row = self.real_model[real_path]
row[RemoveUnused.MARK_COL] = not row[RemoveUnused.MARK_COL]
self.real_model.row_changed(real_path, row.iter)
def mark_clicked(self, mark_button):
for row_num in range(len(self.real_model)):
path = (row_num, )
row = self.real_model[path]
row[RemoveUnused.MARK_COL] = True
def unmark_clicked(self, unmark_button):
for row_num in range(len(self.real_model)):
path = (row_num, )
row = self.real_model[path]
row[RemoveUnused.MARK_COL] = False
def invert_clicked(self, invert_button):
for row_num in range(len(self.real_model)):
path = (row_num, )
row = self.real_model[path]
row[RemoveUnused.MARK_COL] = not row[RemoveUnused.MARK_COL]
def double_click(self, obj, event):
if event.type == Gdk.EventType._2BUTTON_PRESS and event.button == 1:
(model, node) = self.selection.get_selected()
if not node:
return
sort_path = self.sort_model.get_path(node)
real_path = self.sort_model.convert_path_to_child_path(sort_path)
row = self.real_model[real_path]
the_type = row[RemoveUnused.OBJ_TYPE_COL]
handle = row[RemoveUnused.OBJ_HANDLE_COL]
self.call_editor(the_type, handle)
def call_editor(self, the_type, handle):
try:
obj = self.tables[the_type]['get_func'](handle)
editor_str = 'from gramps.gui.editors import %s as editor' % (
self.tables[the_type]['editor'])
exec(editor_str, globals())
editor(self.dbstate, self.uistate, [], obj)
except WindowActiveError:
pass
def get_image(self, column, cell, model, iter, user_data=None):
the_type = model.get_value(iter, RemoveUnused.OBJ_TYPE_COL)
the_icon = self.tables[the_type]['icon']
cell.set_property('icon-name', the_icon)
def add_results(self, results):
(the_type, handle, data) = results
gramps_id = data[1]
# if we have a function that will return to us some type
# of text summary, then we should use it; otherwise we'll
# use the generic field index provided in the tables above
if self.tables[the_type]['get_text']:
text = self.tables[the_type]['get_text'](the_type, handle, data)
else:
# grab the text field index we know about, and hope
# it represents something useful to the user
name_ix = self.tables[the_type]['name_ix']
text = data[name_ix]
# insert a new row into the table
self.real_model.append(row=[False, gramps_id, text, the_type, handle])
def get_event_text(self, the_type, handle, data):
"""
Come up with a short line of text that we can use as
a summary to represent this event.
"""
# get the event:
event = self.tables[the_type]['get_func'](handle)
# first check to see if the event has a descriptive name
text = event.get_description() # (this is rarely set for events)
# if we don't have a description...
if text == '':
# ... then we merge together several fields
# get the event type (marriage, birth, death, etc.)
text = str(event.get_type())
# see if there is a date
date = _dd.display(event.get_date_object())
if date != '':
text += '; %s' % date
# see if there is a place
if event.get_place_handle():
text += '; %s' % _pd.display_event(self.db, event)
return text
def get_note_text(self, the_type, handle, data):
"""
We need just the first few words of a note as a summary.
"""
# get the note object
note = self.tables[the_type]['get_func'](handle)
# get the note text; this ignores (discards) formatting
text = note.get()
# convert whitespace to a single space
text = " ".join(text.split())
# if the note is too long, truncate it
if len(text) > 80:
text = text[:80] + "..."
return text
def __init__(self, dbstate, user, options_class, name, callback=None):
uistate = user.uistate
self.title = _('Find database loop')
ManagedWindow.__init__(self, uistate, [], self.__class__)
self.dbstate = dbstate
self.uistate = uistate
self.db = dbstate.db
top_dialog = Glade()
top_dialog.connect_signals({
"destroy_passed_object" : self.close,
"on_help_clicked" : self.on_help_clicked,
"on_delete_event" : self.close,
})
window = top_dialog.toplevel
title = top_dialog.get_object("title")
self.set_window(window, title, self.title)
# start the progress indicator
self.progress = ProgressMeter(self.title, _('Starting'), # parent-OK
parent=self.window)
self.progress.set_pass(_('Looking for possible loop for each person'),
self.db.get_number_of_people())
self.model = Gtk.ListStore(
GObject.TYPE_STRING, # 0==father id
GObject.TYPE_STRING, # 1==father
GObject.TYPE_STRING, # 2==son id
GObject.TYPE_STRING, # 3==son
GObject.TYPE_STRING) # 4==family gid
self.treeview = top_dialog.get_object("treeview")
self.treeview.set_model(self.model)
col1 = Gtk.TreeViewColumn(_('Gramps ID'),
Gtk.CellRendererText(), text=0)
col2 = Gtk.TreeViewColumn(_('Ancestor'),
Gtk.CellRendererText(), text=1)
col3 = Gtk.TreeViewColumn(_('Gramps ID'),
Gtk.CellRendererText(), text=2)
col4 = Gtk.TreeViewColumn(_('Descendant'),
Gtk.CellRendererText(), text=3)
col5 = Gtk.TreeViewColumn(_('Family ID'),
Gtk.CellRendererText(), text=4)
col1.set_resizable(True)
col2.set_resizable(True)
col3.set_resizable(True)
col4.set_resizable(True)
col5.set_resizable(True)
col1.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col2.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col3.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col4.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col5.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col1.set_sort_column_id(0)
col2.set_sort_column_id(1)
col3.set_sort_column_id(2)
col4.set_sort_column_id(3)
col5.set_sort_column_id(4)
self.treeview.append_column(col1)
self.treeview.append_column(col2)
self.treeview.append_column(col3)
self.treeview.append_column(col4)
self.treeview.append_column(col5)
self.treeselection = self.treeview.get_selection()
self.treeview.connect('row-activated', self.rowactivated_cb)
self.curr_fam = None
people = self.db.get_person_handles()
count = 0
for person_handle in people:
person = self.db.get_person_from_handle(person_handle)
count += 1
self.current = person
self.parent = None
self.descendants(person_handle, set())
self.progress.set_header("%d/%d" % (count, len(people)))
self.progress.step()
# close the progress bar
self.progress.close()
self.show()
def __init__(self, dbstate, user, options_class, name, callback=None):
uistate = user.uistate
tool.ActivePersonTool.__init__(self, dbstate, uistate, options_class,
name)
if self.fail: # bug #2709 -- fail if we have no active person
return
person_handle = uistate.get_active('Person')
person = dbstate.db.get_person_from_handle(person_handle)
self.name = person.get_primary_name().get_regular_name()
self.title = _('Not related to "%s"') % self.name
ManagedWindow.__init__(self, uistate, [], self.__class__)
self.dbstate = dbstate
self.uistate = uistate
self.db = dbstate.db
topDialog = Glade()
topDialog.connect_signals({
"destroy_passed_object": self.close,
"on_help_clicked": self.on_help_clicked,
"on_delete_event": self.close,
})
window = topDialog.toplevel
title = topDialog.get_object("title")
self.set_window(window, title, self.title)
self.tagcombo = topDialog.get_object("tagcombo")
tagmodel = Gtk.ListStore(str)
self.tagcombo.set_model(tagmodel)
self.tagcombo.set_entry_text_column(0)
tagmodel.append((_('ToDo'), ))
tagmodel.append((_('NotRelated'), ))
self.tagcombo.set_sensitive(False)
self.tagapply = topDialog.get_object("tagapply")
self.tagapply.set_sensitive(False)
self.tagapply.connect('clicked', self.applyTagClicked)
# start the progress indicator
self.progress = ProgressMeter(self.title,
_('Starting'),
parent=self.window)
# setup the columns
self.model = Gtk.TreeStore(
GObject.TYPE_STRING, # 0==name
GObject.TYPE_STRING, # 1==person gid
GObject.TYPE_STRING, # 2==parents
GObject.TYPE_STRING, # 3==tags
GObject.TYPE_STRING) # 4==family gid (not shown to user)
# note -- don't assign the model to the tree until it has been populated,
# otherwise the screen updates are terribly slow while names are appended
self.treeView = topDialog.get_object("treeview")
col1 = Gtk.TreeViewColumn(_('Name'), Gtk.CellRendererText(), text=0)
col2 = Gtk.TreeViewColumn(_('ID'), Gtk.CellRendererText(), text=1)
col3 = Gtk.TreeViewColumn(_('Parents'), Gtk.CellRendererText(), text=2)
col4 = Gtk.TreeViewColumn(_('Tags'), Gtk.CellRendererText(), text=3)
col1.set_resizable(True)
col2.set_resizable(True)
col3.set_resizable(True)
col4.set_resizable(True)
col1.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col2.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col3.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col4.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col1.set_sort_column_id(0)
# col2.set_sort_column_id(1)
# col3.set_sort_column_id(2)
col4.set_sort_column_id(3)
self.treeView.append_column(col1)
self.treeView.append_column(col2)
self.treeView.append_column(col3)
self.treeView.append_column(col4)
self.treeSelection = self.treeView.get_selection()
self.treeSelection.set_mode(Gtk.SelectionMode.MULTIPLE)
self.treeSelection.set_select_function(self.selectIsAllowed, None)
self.treeSelection.connect('changed', self.rowSelectionChanged)
self.treeView.connect('row-activated', self.rowActivated)
# initialize a few variables we're going to need
self.numberOfPeopleInDatabase = self.db.get_number_of_people()
self.numberOfRelatedPeople = 0
self.numberOfUnrelatedPeople = 0
# create the sets used to track related and unrelated people
self.handlesOfPeopleToBeProcessed = set()
self.handlesOfPeopleAlreadyProcessed = set()
self.handlesOfPeopleNotRelated = set()
# build a set of all people related to the selected person
self.handlesOfPeopleToBeProcessed.add(person.get_handle())
self.findRelatedPeople()
# now that we have our list of related people, find everyone
# in the database who isn't on our list
self.findUnrelatedPeople()
# populate the treeview model with the names of unrelated people
if self.numberOfUnrelatedPeople == 0:
# feature request 2356: avoid genitive form
title.set_text(
_('Everyone in the database is related to %s') % self.name)
else:
self.populateModel()
self.model.set_sort_column_id(0, Gtk.SortType.ASCENDING)
self.treeView.set_model(self.model)
# self.treeView.set_row_separator_func(self.iterIsSeparator, None)
self.treeView.expand_all()
# done searching through the database, so close the progress bar
self.progress.close()
self.show()
class ProgenOptions(ManagedWindow):
""" Class for Pro-Gen files import optons"""
def __init__(self, database, filename, user):
""" Useful options for Pro-Gen import """
self.dbase = database
self.fname = filename
self.user = user
self.uistate = user.uistate
self.option = {}
# default: Pro-Gen import failed
self.fail = True
# initial values
text = "Pro-Gen Import"
fname = os.path.basename(filename).split('\\')[-1]
date = time.strftime('%Y-%m-%d', time.localtime())
# add import source title/confidence
# citation page/confidence/privacy/attribute
self.import_methods = {}
dflt = config.get('preferences.default-source')
if config.get('preferences.tag-on-import'):
dflt_text = config.get('preferences.tag-on-import-format')
else:
dflt_text = '%s %s' % (text, date)
self.imp_values = ImportSourceCitation \
(dflt, dflt_text, text, fname, date)
# add default text / filename / current date
self.default_methods = {}
self.default_values = ImportTagTextDefault(text, fname)
# add tagobjects text / filename / date
self.tagobj_status = True
self.tagobj_values, self.tagobj_methods = {}, {}
self.tagtext_methods = {}
self.tagfname_status, self.tagfname_methods = True, {}
self.tagdate_status, self.tagdate_methods = True, {}
for obj in libprogen.TAGOBJECTS:
self.tagobj_values[obj] = ImportTagText(self.default_values)
# add primary object values
self.primobj_values, self.primobj_methods = {}, {}
for obj in libprogen.PRIMOBJECTS:
self.primobj_values[obj] = ImportValue(True)
# add options values
self.option_values, self.option_methods = {}, {}
for obj in libprogen.OPTOBJECTS:
if obj in ['person-ident', 'family-ident', \
'surname-female', 'death-cause']:
self.option_values[obj] = ImportValue(True)
else:
self.option_values[obj] = ImportValue(False)
# prepare option dictionary
self._collect()
# display window if GUI active
if self.uistate:
ManagedWindow.__init__(self,
self.uistate, [],
self.__class__,
modal=True)
self._display()
def __on_source_button_toggled(self, widget):
""" compute the source button and toggle the 'Sensitive' attribute """
obj_source_state = widget.get_active()
for obj in ['priv', 'title', 'attr']:
imp_obj = self.glade.get_object('imp_source_%s' % obj)
imp_obj.set_sensitive(obj_source_state)
# Check if Source enabled and syncronizing Citation
self.glade.get_object('imp_citation_btn').set_active(obj_source_state)
self.glade.get_object('imp_citation_btn').set_sensitive(
obj_source_state)
def __on_citation_button_toggled(self, widget):
""" compute the citation button and toggle the 'Sensitive' attribute """
# Check if Source enabled and syncronizing Citation
obj_source_state = self.glade.get_object('imp_source_btn').get_active()
obj_citation_state = widget.get_active() and obj_source_state
for obj in ['priv', 'conf', 'page', 'attr']:
imp_obj = self.glade.get_object('imp_citation_%s' % obj)
imp_obj.set_sensitive(obj_citation_state)
def __on_import_entry_keyrelease(self, widget, event, data=None):
""" activated on all return's of an entry"""
if event.keyval in [Gdk.KEY_Return]:
obj_name = Gtk.Buildable.get_name(widget).split('_', 1)[1]
if obj_name == 'citation_page':
obj_next = self.glade.get_object('imp_citation_attr')
obj_next.grab_focus()
def __on_object_button_clicked(self, widget=None):
""" compute all primary objects and toggle the 'Active' attribute """
self.tagobj_status = not self.tagobj_status
for obj in libprogen.TAGOBJECTS:
tag_obj = self.glade.get_object('tag_%s_obj' % obj)
tag_obj.set_active(self.tagobj_status)
def __on_object_button_toggled(self, widget):
""" compute the primary object and toggle the 'Sensitive' attribute """
obj_state = widget.get_active()
obj_name = Gtk.Buildable.get_name(widget)
obj_name = obj_name.split('_', 1)[1].split('_', 1)[0]
for obj in ['text', 'fname', 'date']:
tag_obj = self.glade.get_object('tag_%s_%s' % (obj_name, obj))
tag_obj.set_sensitive(obj_state)
def __on_text_button_clicked(self, widget=None):
""" compute all primary objects and flush the 'text' field """
self.__on_tagtext_entry_resume() # Resume tag text
def __on_tagtext_entry_keyrelease(self, widget, event, data=None):
""" activated on all return's of an entry """
if event.keyval in [Gdk.KEY_Return]:
obj_name = Gtk.Buildable.get_name(widget)
obj_name = obj_name.split('_', 1)[1].split('_', 1)[0]
obj_index = libprogen.TAGOBJECTS.index(obj_name)
if obj_index < len(libprogen.TAGOBJECTS) - 1:
obj_index = obj_index + 1
obj_next = self.glade.get_object('tag_%s_text' % \
libprogen.TAGOBJECTS[obj_index])
obj_next.grab_focus()
def __on_tagtext_entry_resume(self):
""" resume new tagtext from old + file & date variables"""
for obj in libprogen.TAGOBJECTS:
tag_obj = self.glade.get_object('tag_%s_text' % obj)
if not tag_obj.get_sensitive():
continue
obj_entry = self.tagobj_values[obj].get_dflttext()
self.tagobj_values[obj].tag_text.set_entry(obj_entry)
self.tagtext_methods[obj].update()
def __on_fname_button_clicked(self, widget=None):
""" compute all primary objects and toggle the 'file' attribute """
self.tagfname_status = not self.tagfname_status
for obj in libprogen.TAGOBJECTS:
tag_obj = self.glade.get_object('tag_%s_fname' % obj)
if not tag_obj.get_sensitive():
continue
self.tagfname_methods[obj].set_val(self.tagfname_status)
tag_obj.set_active(self.tagfname_status)
self.__on_tagtext_entry_resume() # Resume tag text
def __on_fname_button_toggled(self, widget):
""" compute the primary object and toggle the 'Sensitive' attribute """
self.__on_tagtext_entry_resume()
# switch focus forward
obj_name = Gtk.Buildable.get_name(widget)
obj_name = obj_name.split('_', 1)[1].split('_', 1)[0]
obj_index = libprogen.TAGOBJECTS.index(obj_name)
if obj_index < len(libprogen.TAGOBJECTS) - 1:
obj_index = obj_index + 1
obj_next = self.glade.get_object('tag_%s_fname' % \
libprogen.TAGOBJECTS[obj_index])
obj_next.grab_focus()
def __on_date_button_clicked(self, widget=None):
""" compute all primary objects and toggle the 'date' attribute """
self.tagdate_status = not self.tagdate_status
for obj in libprogen.TAGOBJECTS:
tag_obj = self.glade.get_object('tag_%s_date' % obj)
if not tag_obj.get_sensitive():
continue
self.tagdate_methods[obj].set_val(self.tagdate_status)
tag_obj.set_active(self.tagdate_status)
self.__on_tagtext_entry_resume() # Resume tag text
def __on_date_button_toggled(self, widget):
""" compute the primary object and toggle the 'Sensitive' attribute """
self.__on_tagtext_entry_resume()
# switch focus forward
obj_name = Gtk.Buildable.get_name(widget)
obj_name = obj_name.split('_', 1)[1].split('_', 1)[0]
obj_index = libprogen.TAGOBJECTS.index(obj_name)
if obj_index < len(libprogen.TAGOBJECTS) - 1:
obj_index = obj_index + 1
obj_next = self.glade.get_object('tag_%s_date' % \
libprogen.TAGOBJECTS[obj_index])
obj_next.grab_focus()
def __on_primobj_button_toggled(self, widget):
""" compute all primary objects and toggle the 'primobj' attribute """
obj_name = Gtk.Buildable.get_name(widget)
obj_name = obj_name.split('_', 1)[1].split('_', 1)[0]
for i, obj_i in enumerate(libprogen.PRIMOBJECTS):
if obj_name == libprogen.PRIMOBJECTS[i]:
prim_obj = self.glade.get_object('prim_%s_btn' % obj_i)
if not prim_obj.get_active():
# Prim. object deactivated:
# check all in list below and deactivate
for obj_ii in libprogen.PRIMOBJECTS[(i + 1):]:
sec_obj = self.glade.get_object('prim_%s_btn' % obj_ii)
sec_obj.set_active(False)
break
else:
# Prim. object activated: check all in list above
# if one prim. object is deactive:
# deactivate this prim. object too
for obj_ii in libprogen.PRIMOBJECTS[:i]:
sec_obj = self.glade.get_object('prim_%s_btn' % obj_ii)
if not sec_obj.get_active():
prim_obj.set_active(False)
break
def __on_surname_button_toggled(self, widget):
""" compute surname objects and """
obj_name = Gtk.Buildable.get_name(widget)
obj_name = obj_name.split('_', 1)[1].split('_', 1)[0]
obj_status = widget.get_active()
if (obj_name == 'name-surmale') and (obj_status == True):
sec_obj = self.glade.get_object('opt_surname-female_btn')
sec_obj.set_active(False)
if (obj_name == 'name-surfemale') and (obj_status == True):
sec_obj = self.glade.get_object('opt_surname-male_btn')
sec_obj.set_active(False)
def __on_x_button_clicked(self, widget=None):
""" cancel the import and close """
self.fail = True # Pro-Gen import canceled
def __on_ok_button_clicked(self, widget=None):
""" execute the import and close """
self._collect()
self.close()
self.fail = False # Pro-Gen import proceed
def __on_cancel_button_clicked(self, widget=None):
""" cancel the import and close """
self.close()
self.fail = True # Pro-Gen import canceled
def __on_help_button_clicked(self, widget=None):
""" display the relevant portion of Gramps manual """
self.fail = True
display_help(webpage=WIKI_HELP_PAGE, section=WIKI_HELP_SEC)
def build_menu_names_(self, widget=None):
""" The menu name """
return (_('Main window'), _("Import Pro-Gen"))
def _display(self):
""" organize Glade 'Import Pro-Gen' window """
# get the main window from glade
self.glade = Glade('importprogen.glade')
self.set_window(self.glade.toplevel, self.glade.get_object('title'),
_('Import Pro-Gen'))
# calculate all entries and update Glade window
# Text for Source / Citation objects
for obj in ('source_btn', 'citation_btn'):
widget = self.glade.get_object('imp_%s' % obj)
set_import = eval('self.imp_values.%s.set_value' % obj)
get_import = eval('self.imp_values.%s.get_value' % obj)
self.import_methods[obj] = MonitoredCheckbox(\
widget, widget, set_import, get_import, self.dbase.readonly)
for obj in ('source_title', 'source_attr', 'citation_page',
'citation_attr'):
widget = self.glade.get_object('imp_%s' % obj)
set_import = eval('self.imp_values.%s.set_entry' % obj)
get_import = eval('self.imp_values.%s.get_entry' % obj)
self.import_methods[obj] = MonitoredEntry(\
widget, set_import, get_import, self.dbase.readonly)
widget = self.glade.get_object('imp_citation_conf')
self.import_methods['conf'] = MonitoredMenu(
widget, self.imp_values.citation_conf.set_value,
self.imp_values.citation_conf.get_value,
[(_('Very Low'), Citation.CONF_VERY_LOW),
(_('Low'), Citation.CONF_LOW),
(_('Normal'), Citation.CONF_NORMAL),
(_('High'), Citation.CONF_HIGH),
(_('Very High'), Citation.CONF_VERY_HIGH)], self.dbase.readonly)
widget = self.glade.get_object('imp_source_priv')
get_import = eval('self.imp_values.source_priv')
self.import_methods['source_priv'] = PrivacyButton(\
widget, get_import, self.dbase.readonly)
widget = self.glade.get_object('imp_citation_priv')
get_import = eval('self.imp_values.citation_priv')
self.import_methods['citation_priv'] = PrivacyButton(\
widget, get_import, self.dbase.readonly)
# Text (w. Defaults) for Tags
for obj in ('text', 'fname'):
widget = self.glade.get_object('tag_default_%s' % obj)
set_import = eval('self.default_values.%s.set_entry' % obj)
get_import = eval('self.default_values.%s.get_entry' % obj)
self.default_methods[obj] = MonitoredEntry(\
widget, set_import, get_import, self.dbase.readonly)
date = Today()
datebase = DateBase()
datebase.set_date_object(date)
self.default_methods['date'] = MonitoredDate(\
self.glade.get_object('tag_default_date'),
self.glade.get_object('tag_default_date_btn'),
datebase.get_date_object(),
self.uistate, [], self.dbase.readonly)
for obj in libprogen.TAGOBJECTS:
# populate object fields with values
widget = self.glade.get_object('tag_%s_obj' % obj)
self.tagobj_methods[obj] = MonitoredCheckbox(
widget, widget, self.tagobj_values[obj].tag_obj.set_value,
self.tagobj_values[obj].tag_obj.get_value)
widget = self.glade.get_object('tag_%s_text' % obj)
self.tagtext_methods[obj] = MonitoredEntry(
widget, self.tagobj_values[obj].tag_text.set_entry,
self.tagobj_values[obj].tag_text.get_entry)
widget = self.glade.get_object('tag_%s_fname' % obj)
self.tagfname_methods[obj] = MonitoredCheckbox(
widget, widget, self.tagobj_values[obj].tag_fname.set_value,
self.tagobj_values[obj].tag_fname.get_value)
widget = self.glade.get_object('tag_%s_date' % obj)
self.tagdate_methods[obj] = MonitoredCheckbox(
widget, widget, self.tagobj_values[obj].tag_date.set_value,
self.tagobj_values[obj].tag_date.get_value)
# button's for primary objects
for obj in libprogen.PRIMOBJECTS:
# populate pirm. Object buttons with values
widget = self.glade.get_object('prim_%s_btn' % obj)
set_import = eval("self.primobj_values['%s'].set_value" % obj)
get_import = eval("self.primobj_values['%s'].get_value" % obj)
self.primobj_methods[obj] = MonitoredCheckbox(\
widget, widget, set_import, get_import, self.dbase.readonly)
# button's for miscallaneous option's
for obj in libprogen.OPTOBJECTS:
# populate option buttons with values
widget = self.glade.get_object('opt_%s_btn' % obj)
set_import = eval("self.option_values['%s'].set_value" % obj)
get_import = eval("self.option_values['%s'].get_value" % obj)
self.option_methods[obj] = MonitoredCheckbox(\
widget, widget, set_import, get_import, self.dbase.readonly)
# connect signals
self.glade.connect_signals({
"on_source_button_toggled":
self.__on_source_button_toggled,
"on_citation_button_toggled":
self.__on_citation_button_toggled,
"on_import_entry_keyrelease":
self.__on_import_entry_keyrelease,
"on_tagtext_entry_keyrelease":
self.__on_tagtext_entry_keyrelease,
"on_object_button_clicked":
self.__on_object_button_clicked,
"on_object_button_toggled":
self.__on_object_button_toggled,
"on_text_button_clicked":
self.__on_text_button_clicked,
"on_fname_button_clicked":
self.__on_fname_button_clicked,
"on_fname_button_toggled":
self.__on_fname_button_toggled,
"on_date_button_clicked":
self.__on_date_button_clicked,
"on_date_button_toggled":
self.__on_date_button_toggled,
"on_primobj_button_toggled":
self.__on_primobj_button_toggled,
"on_surname_button_toggled":
self.__on_surname_button_toggled,
"on_x_button_clicked":
self.__on_x_button_clicked,
"on_help_button_clicked":
self.__on_help_button_clicked,
"on_cancel_button_clicked":
self.__on_cancel_button_clicked,
"on_ok_button_clicked":
self.__on_ok_button_clicked
})
# state of two objects trigged form configuration
widget = self.glade.get_object('imp_source_btn')
self.__on_source_button_toggled(widget)
widget = self.glade.get_object('imp_citation_btn')
self.__on_citation_button_toggled(widget)
widget = self.glade.get_object('import_ok')
widget.grab_focus()
# creates a modal window and display immediatly!
self.show()
self.glade.toplevel.run()
def _collect(self):
""" collect all options """
self.option['imp_source'] = self.imp_values.source_btn.get_value()
self.option['imp_source_priv'] = self.imp_values.source_priv.get_privacy() \
if self.option['imp_source'] else False
if self.option['imp_source']:
self.option[
'imp_source_title'] = self.imp_values.source_title.get_entry()
sourceattr = self.imp_values.source_attr.get_entry()
# Expand if exists possible strftime directives
if ('%Y' or '%m' or '%d' or '%H' or '%M' or '%S') in sourceattr:
sourceattr = time.strftime(sourceattr)
self.option['imp_source_attr'] = sourceattr
else:
self.option['imp_source_title'] = ''
self.option['imp_source_attr'] = ''
self.option['imp_citation'] = self.imp_values.citation_btn.get_value()
self.option['imp_citation_conf'] = self.imp_values.citation_conf.get_value() \
if self.option['imp_citation'] else Citation.CONF_HIGH
self.option['imp_citation_priv'] = self.imp_values.citation_priv.get_privacy() \
if self.option['imp_citation'] else False
if self.option['imp_citation']:
citationpage = self.imp_values.citation_page.get_entry()
if ('%Y' or '%m' or '%d' or '%H' or '%M' or '%S') in citationpage:
citationpage = time.strftime(citationpage)
self.option['imp_citation_page'] = citationpage
citationattr = self.imp_values.citation_attr.get_entry()
if ('%Y' or '%m' or '%d' or '%H' or '%M' or '%S') in citationattr:
citationattr = time.strftime(citationattr)
self.option['imp_citation_attr'] = citationattr
else:
self.option['imp_citation_page'] = ''
self.option['imp_citation_attr'] = ''
for obj in libprogen.TAGOBJECTS:
if self.tagobj_values[obj].tag_obj.get_value():
tagtext = self.tagobj_values[obj].tag_text.get_entry()
if ('%Y' or '%m' or '%d' or '%H' or '%M' or '%S') in tagtext:
tagtext = time.strftime(tagtext)
self.option['tag_{}'.format(obj)] = tagtext
else:
self.option['tag_{}'.format(obj)] = ''
for obj in libprogen.PRIMOBJECTS:
self.option['prim_{}'.format(obj)] = \
self.primobj_values[obj].get_value()
for obj in libprogen.OPTOBJECTS:
self.option['opt_{}'.format(obj)] = \
self.option_values[obj].get_value()
self.fail = False # Pro-Gen import proceed
def __init__(self, dbstate, user, options_class, name, callback=None):
uistate = user.uistate
self.title = _('Find database loop')
ManagedWindow.__init__(self, uistate, [], self.__class__)
self.dbstate = dbstate
self.uistate = uistate
self.db = dbstate.db
topDialog = Glade()
topDialog.connect_signals({
"destroy_passed_object" : self.close,
"on_help_clicked" : self.on_help_clicked,
"on_delete_event" : self.close,
})
window = topDialog.toplevel
title = topDialog.get_object("title")
self.set_window(window, title, self.title)
# start the progress indicator
self.progress = ProgressMeter(self.title,_('Starting'),
parent=self.window)
self.progress.set_pass(_('Looking for possible loop for each person'),
self.db.get_number_of_people())
self.model = Gtk.ListStore(
GObject.TYPE_STRING, # 0==father id
GObject.TYPE_STRING, # 1==father
GObject.TYPE_STRING, # 2==son id
GObject.TYPE_STRING, # 3==son
GObject.TYPE_STRING) # 4==family gid
self.treeView = topDialog.get_object("treeview")
self.treeView.set_model(self.model)
col1 = Gtk.TreeViewColumn(_('Gramps ID'), Gtk.CellRendererText(), text=0)
col2 = Gtk.TreeViewColumn(_('Ancestor'), Gtk.CellRendererText(), text=1)
col3 = Gtk.TreeViewColumn(_('Gramps ID'), Gtk.CellRendererText(), text=2)
col4 = Gtk.TreeViewColumn(_('Descendant'), Gtk.CellRendererText(), text=3)
col5 = Gtk.TreeViewColumn(_('Family ID'), Gtk.CellRendererText(), text=4)
col1.set_resizable(True)
col2.set_resizable(True)
col3.set_resizable(True)
col4.set_resizable(True)
col5.set_resizable(True)
col1.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col2.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col3.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col4.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col5.set_sizing(Gtk.TreeViewColumnSizing.AUTOSIZE)
col1.set_sort_column_id(0)
col2.set_sort_column_id(1)
col3.set_sort_column_id(2)
col4.set_sort_column_id(3)
col5.set_sort_column_id(4)
self.treeView.append_column(col1)
self.treeView.append_column(col2)
self.treeView.append_column(col3)
self.treeView.append_column(col4)
self.treeView.append_column(col5)
self.treeSelection = self.treeView.get_selection()
self.treeView.connect('row-activated', self.rowactivated)
people = self.db.get_person_handles()
count = 0
for person_handle in people:
person = self.db.get_person_from_handle(person_handle)
count += 1
self.current = person
self.parent = None
self.descendants(person_handle, set())
self.progress.set_header("%d/%d" % (count, len(people)))
self.progress.step()
# close the progress bar
self.progress.close()
self.show()
class PatchNames(tool.BatchTool, ManagedWindow):
titleid = 1
nickid = 2
pref1id = 3
compid = 4
def __init__(self, dbstate, user, options_class, name, callback=None):
uistate = user.uistate
self.label = _('Name and title extraction tool')
ManagedWindow.__init__(self, uistate, [], self.__class__)
self.set_window(Gtk.Window(), Gtk.Label(), '')
tool.BatchTool.__init__(self, dbstate, user, options_class, name)
if self.fail:
return
winprefix = Gtk.Dialog(_("Default prefix and connector settings"),
self.uistate.window,
Gtk.DialogFlags.MODAL|Gtk.DialogFlags.DESTROY_WITH_PARENT,
(_('_OK'), Gtk.ResponseType.ACCEPT))
winprefix.vbox.set_spacing(5)
hboxpref = Gtk.Box()
label = Gtk.Label(label=_('Prefixes to search for:'))
hboxpref.pack_start(label, False, False, 5)
self.prefixbox = Gtk.Entry()
self.prefixbox.set_text(', '.join(PREFIX_LIST))
hboxpref.pack_start(self.prefixbox, True, True, 0)
winprefix.vbox.pack_start(hboxpref, True, True, 0)
hboxcon = Gtk.Box()
label = Gtk.Label(label=_('Connectors splitting surnames:'))
hboxcon.pack_start(label, False, False, 5)
self.conbox = Gtk.Entry()
self.conbox.set_text(', '.join(CONNECTOR_LIST))
hboxcon.pack_start(self.conbox, True, True, 0)
winprefix.vbox.pack_start(hboxcon, True, True, 0)
hboxconns = Gtk.Box()
label = Gtk.Label(label=_('Connectors not splitting surnames:'))
hboxconns.pack_start(label, False, False, 5)
self.connsbox = Gtk.Entry()
self.connsbox.set_text(', '.join(CONNECTOR_LIST_NONSPLIT))
hboxconns.pack_start(self.connsbox, True, True, 0)
winprefix.vbox.pack_start(hboxconns, True, True, 0)
winprefix.show_all()
winprefix.resize(700, 100)
response = winprefix.run()
self.prefix_list = self.prefixbox.get_text().split(',')
self.prefix_list = list(map(strip, self.prefix_list))
self.prefixbox = None
self.connector_list = self.conbox.get_text().split(',')
self.connector_list = list(map(strip, self.connector_list))
self.conbox = None
self.connector_list_nonsplit = self.connsbox.get_text().split(',')
self.connector_list_nonsplit = list(map(strip, self.connector_list_nonsplit))
self.connsbox = None
# Find a prefix in the first_name
self._fn_prefix_re = re.compile("(\S+)\s+(%s)\s*$" % '|'.join(self.prefix_list),
re.IGNORECASE)
# Find a prefix in the surname
self._sn_prefix_re = re.compile("^\s*(%s)\s+(.+)" % '|'.join(self.prefix_list),
re.IGNORECASE)
# Find a connector in the surname
self._sn_con_re = re.compile("^\s*(.+)\s+(%s)\s+(.+)" % '|'.join(self.connector_list),
re.IGNORECASE)
winprefix.destroy()
self.cb = callback
self.handle_to_action = {}
self.progress = ProgressMeter(
_('Extracting Information from Names'), '',
parent=self.uistate.window)
self.progress.set_pass(_('Analyzing names'),
self.db.get_number_of_people())
for person in self.db.iter_people():
key = person.handle
name = person.get_primary_name()
first = name.get_first_name()
sname = name.get_surname()
old_prefix = []
old_surn = []
old_con = []
old_prim = []
old_orig = []
for surn in name.get_surname_list():
old_prefix.append(surn.get_prefix())
old_surn.append(surn.get_surname())
old_con.append(surn.get_connector())
old_prim.append(surn.get_primary())
old_orig.append(surn.get_origintype())
if name.get_title():
old_title = [name.get_title()]
else:
old_title = []
new_title = []
match = _title_re.match(first)
while match:
groups = match.groups()
first = groups[1]
new_title.append(groups[0])
match = _title_re.match(first)
matchnick = _nick_re.match(first)
if new_title:
titleval = (" ".join(old_title+new_title), first)
if key in self.handle_to_action:
self.handle_to_action[key][self.titleid] = titleval
else:
self.handle_to_action[key] = {self.titleid: titleval}
elif matchnick:
# we check for nick, which changes given name like title
groups = matchnick.groups()
nickval = (groups[0], groups[1])
if key in self.handle_to_action:
self.handle_to_action[key][self.nickid] = nickval
else:
self.handle_to_action[key] = {self.nickid: nickval}
else:
# Try to find the name prefix in the given name, also this
# changes given name
match = self._fn_prefix_re.match(first)
if match:
groups = match.groups()
if old_prefix[0]:
# Put the found prefix before the old prefix
new_prefix = " ".join([groups[1], old_prefix[0]])
else:
new_prefix = groups[1]
pref1val = (groups[0], new_prefix, groups[1])
if key in self.handle_to_action:
self.handle_to_action[key][self.pref1id] = pref1val
else:
self.handle_to_action[key] = {self.pref1id: pref1val}
#check for Gedcom import of compound surnames
if len(old_surn) == 1 and old_con[0] == '':
prefixes = old_prefix[0].split(',')
surnames = old_surn[0].split(',')
if len(prefixes) > 1 and len(prefixes) == len(surnames):
#assume a list of prefix and a list of surnames
prefixes = list(map(strip, prefixes))
surnames = list(map(strip, surnames))
primaries = [False] * len(prefixes)
primaries[0] = True
origs = []
for ind in range(len(prefixes)):
origs.append(NameOriginType())
origs[0] = old_orig[0]
compoundval = (surnames, prefixes, ['']*len(prefixes),
primaries, origs)
if key in self.handle_to_action:
self.handle_to_action[key][self.compid] = compoundval
else:
self.handle_to_action[key] = {self.compid: compoundval}
#we cannot check compound surnames, so continue the loop
continue
# Next, try to split surname in compounds: prefix surname connector
found = False
new_prefix_list = []
new_surname_list = []
new_connector_list = []
new_prim_list = []
new_orig_list = []
ind = 0
cont = True
for pref, surn, con, prim, orig in zip(old_prefix, old_surn,
old_con, old_prim, old_orig):
surnval = surn.split()
if surnval == []:
new_prefix_list.append(pref)
new_surname_list.append('')
new_connector_list.append(con)
new_prim_list.append(prim)
new_orig_list.append(orig)
cont = False
continue
val = surnval.pop(0)
while cont:
new_prefix_list.append(pref)
new_surname_list.append('')
new_connector_list.append(con)
new_prim_list.append(prim)
new_orig_list.append(orig)
while cont and (val.lower() in self.prefix_list):
found = True
if new_prefix_list[-1]:
new_prefix_list[-1] += ' ' + val
else:
new_prefix_list[-1] = val
try:
val = surnval.pop(0)
except IndexError:
val = ''
cont = False
#after prefix we have a surname
if cont:
new_surname_list[-1] = val
try:
val = surnval.pop(0)
except IndexError:
val = ''
cont = False
#if value after surname indicates continue, then continue
while cont and (val.lower() in self.connector_list_nonsplit):
#add this val to the current surname
new_surname_list[-1] += ' ' + val
try:
val = surnval.pop(0)
except IndexError:
val = ''
cont = False
# if previous is non-splitting connector, then add new val to
# current surname
if cont and (new_surname_list[-1].split()[-1].lower()
in self.connector_list_nonsplit):
new_surname_list[-1] += ' ' + val
try:
val = surnval.pop(0)
except IndexError:
val = ''
cont = False
#if next is a connector, add it to the surname
if cont and val.lower() in self.connector_list:
found = True
if new_connector_list[-1]:
new_connector_list[-1] = ' ' + val
else:
new_connector_list[-1] = val
try:
val = surnval.pop(0)
except IndexError:
val = ''
cont = False
#initialize for a next surname in case there are still
#val
if cont:
found = True # we split surname
pref=''
con = ''
prim = False
orig = NameOriginType()
ind += 1
if found:
compoundval = (new_surname_list, new_prefix_list,
new_connector_list, new_prim_list, new_orig_list)
if key in self.handle_to_action:
self.handle_to_action[key][self.compid] = compoundval
else:
self.handle_to_action[key] = {self.compid: compoundval}
self.progress.step()
if self.handle_to_action:
self.display()
else:
self.progress.close()
self.close()
OkDialog(_('No modifications made'),
_("No titles, nicknames or prefixes were found"),
parent=self.uistate.window)
def build_menu_names(self, obj):
return (self.label, None)
def toggled(self, cell, path_string):
path = tuple(map(int, path_string.split(':')))
row = self.model[path]
row[0] = not row[0]
self.model.row_changed(path, row.iter)
def display(self):
self.top = Glade()
window = self.top.toplevel
self.top.connect_signals({
"destroy_passed_object" : self.close,
"on_ok_clicked" : self.on_ok_clicked,
"on_help_clicked" : self.on_help_clicked,
"on_delete_event" : self.close,
})
self.list = self.top.get_object("list")
self.set_window(window, self.top.get_object('title'), self.label)
self.model = Gtk.ListStore(GObject.TYPE_BOOLEAN, GObject.TYPE_STRING,
GObject.TYPE_STRING, GObject.TYPE_STRING,
GObject.TYPE_STRING)
r = Gtk.CellRendererToggle()
r.connect('toggled', self.toggled)
c = Gtk.TreeViewColumn(_('Select'), r, active=0)
self.list.append_column(c)
c = Gtk.TreeViewColumn(_('ID'), Gtk.CellRendererText(), text=1)
self.list.append_column(c)
c = Gtk.TreeViewColumn(_('Type'), Gtk.CellRendererText(), text=2)
self.list.append_column(c)
c = Gtk.TreeViewColumn(_('Value'), Gtk.CellRendererText(), text=3)
self.list.append_column(c)
c = Gtk.TreeViewColumn(_('Current Name'), Gtk.CellRendererText(), text=4)
self.list.append_column(c)
self.list.set_model(self.model)
self.nick_hash = {}
self.title_hash = {}
self.prefix1_hash = {}
self.compound_hash = {}
self.progress.set_pass(_('Building display'),
len(list(self.handle_to_action.keys())))
for key, data in self.handle_to_action.items():
p = self.db.get_person_from_handle(key)
gid = p.get_gramps_id()
if self.nickid in data:
given, nick = data[self.nickid]
handle = self.model.append()
self.model.set_value(handle, 0, 1)
self.model.set_value(handle, 1, gid)
self.model.set_value(handle, 2, _('Nickname'))
self.model.set_value(handle, 3, nick)
self.model.set_value(handle, 4, p.get_primary_name().get_name())
self.nick_hash[key] = handle
if self.titleid in data:
title, given = data[self.titleid]
handle = self.model.append()
self.model.set_value(handle, 0, 1)
self.model.set_value(handle, 1, gid)
self.model.set_value(handle, 2, _('Person|Title'))
self.model.set_value(handle, 3, title)
self.model.set_value(handle, 4, p.get_primary_name().get_name())
self.title_hash[key] = handle
if self.pref1id in data:
given, prefixtotal, new_prefix = data[self.pref1id]
handle = self.model.append()
self.model.set_value(handle, 0, 1)
self.model.set_value(handle, 1, gid)
self.model.set_value(handle, 2, _('Prefix in given name'))
self.model.set_value(handle, 3, prefixtotal)
self.model.set_value(handle, 4, p.get_primary_name().get_name())
self.prefix1_hash[key] = handle
if self.compid in data:
surn_list, pref_list, con_list, prims, origs = data[self.compid]
handle = self.model.append()
self.model.set_value(handle, 0, 1)
self.model.set_value(handle, 1, gid)
self.model.set_value(handle, 2, _('Compound surname'))
newval = ''
for sur, pre, con in zip(surn_list, pref_list, con_list):
if newval:
newval += '-['
else:
newval = '['
newval += pre + ',' + sur
if con:
newval += ',' + con + ']'
else:
newval += ']'
self.model.set_value(handle, 3, newval)
self.model.set_value(handle, 4, p.get_primary_name().get_name())
self.compound_hash[key] = handle
self.progress.step()
self.progress.close()
self.show()
def on_help_clicked(self, obj):
"""Display the relevant portion of GRAMPS manual"""
display_help(webpage=WIKI_HELP_PAGE, section=WIKI_HELP_SEC)
def on_ok_clicked(self, obj):
with DbTxn(_("Extract information from names"), self.db, batch=True
) as trans:
self.db.disable_signals()
for key, data in self.handle_to_action.items():
p = self.db.get_person_from_handle(key)
if self.nickid in data:
modelhandle = self.nick_hash[key]
val = self.model.get_value(modelhandle, 0)
if val:
given, nick = data[self.nickid]
name = p.get_primary_name()
name.set_first_name(given.strip())
name.set_nick_name(nick.strip())
if self.titleid in data:
modelhandle = self.title_hash[key]
val = self.model.get_value(modelhandle, 0)
if val:
title, given = data[self.titleid]
name = p.get_primary_name()
name.set_first_name(given.strip())
name.set_title(title.strip())
if self.pref1id in data:
modelhandle = self.prefix1_hash[key]
val = self.model.get_value(modelhandle, 0)
if val:
given, prefixtotal, prefix = data[self.pref1id]
name = p.get_primary_name()
name.set_first_name(given.strip())
oldpref = name.get_surname_list()[0].get_prefix().strip()
if oldpref == '' or oldpref == prefix.strip():
name.get_surname_list()[0].set_prefix(prefix)
else:
name.get_surname_list()[0].set_prefix('%s %s' % (prefix, oldpref))
if self.compid in data:
modelhandle = self.compound_hash[key]
val = self.model.get_value(modelhandle, 0)
if val:
surns, prefs, cons, prims, origs = data[self.compid]
name = p.get_primary_name()
new_surn_list = []
for surn, pref, con, prim, orig in zip(surns, prefs, cons,
prims, origs):
new_surn_list.append(Surname())
new_surn_list[-1].set_surname(surn.strip())
new_surn_list[-1].set_prefix(pref.strip())
new_surn_list[-1].set_connector(con.strip())
new_surn_list[-1].set_primary(prim)
new_surn_list[-1].set_origintype(orig)
name.set_surname_list(new_surn_list)
self.db.commit_person(p, trans)
self.db.enable_signals()
self.db.request_rebuild()
self.close()
self.cb()
class ChangeNames(tool.BatchTool, ManagedWindow):
def __init__(self, dbstate, user, options_class, name, callback=None):
uistate = user.uistate
self.label = _('Capitalization changes')
self.cb = callback
ManagedWindow.__init__(self,uistate,[],self.__class__)
self.set_window(Gtk.Window(),Gtk.Label(),'')
tool.BatchTool.__init__(self, dbstate, user, options_class, name)
if self.fail:
return
self.progress = ProgressMeter(_('Checking Family Names'),'')
self.progress.set_pass(_('Searching family names'),
len(self.db.get_surname_list()))
self.name_list = []
for name in self.db.get_surname_list():
name.strip()
namesplitSP= name.split()
lSP = len(namesplitSP)
namesplitHY= name.split('-')
lHY = len(namesplitHY)
if lSP == lHY == 1:
if name != name.capitalize():
# Single surname without hyphen(s)
self.name_list.append(name)
#if lSP == 1 and lHY > 1:
#print "LSP==1", name, name.capitalize()
#if name != name.capitalize():
# Single surname with hyphen(s)
#self.name_list.append(name)
if lSP>1 and lHY == 1:
# more than one string in surname but no hyphen
# check if first string is in prefix_list, if so test for cap in rest
s1 = 0
if namesplitSP[0].lower() in prefix_list:
s1 = 1
for x in range(len(namesplitSP)-s1):
# check if any subsurname is not cap
notcap = False
if namesplitSP[s1+x] != namesplitSP[s1+x].capitalize():
notcap = True
break
if notcap:
# Multiple surnames possibly after prefix
self.name_list.append(name)
if lHY > 1:
# more than one string in surname but hyphen(s) exists
# check if first string is in prefix_list, if so test for cap
if namesplitSP[0].lower() in prefix_list:
namesplitHY[0] = namesplitHY[0].replace(namesplitSP[0],'').strip()
for x in range(len(namesplitHY)):
# check if any subsurname is not cap
notcap = False
if namesplitHY[x] != namesplitHY[x].capitalize():
notcap = True
break
if notcap:
# Multiple surnames possibly after frefix
self.name_list.append(name)
if uistate:
self.progress.step()
if self.name_list:
self.display()
else:
self.progress.close()
self.close()
OkDialog(_('No modifications made'),
_("No capitalization changes were detected."),
parent=uistate.window)
def name_cap(self, name):
name.strip()
namesplitSP = name.split()
lSP = len(namesplitSP)
lHY = len(name.split('-'))
namesep = ' '
if lHY > 1:
namesep = '-'
namesplitSP = name.replace(namesep,' ').split()
lSP= len(namesplitSP)
if lSP == lHY == 1:
#if name != name.capitalize():
# Single surname without space(s) or hyphen(s), normal case
return name.capitalize()
else:
# more than one string in surname but no hyphen
# check if first string is in prefix_list, if so CAP the rest
# Names like (von) Kohl(-)Brandt
result = ""
s1 = 0
if namesplitSP[0].lower() in prefix_list:
s1 = 1
result = namesplitSP[0].lower()+ ' '
for x in range(lSP-s1):
# CAP all subsurnames
result = result + namesplitSP[s1+x].capitalize() + namesep
return result[:-1]
def display(self):
self.top = Glade()
window = self.top.toplevel
self.top.connect_signals({
"destroy_passed_object" : self.close,
"on_ok_clicked" : self.on_ok_clicked,
"on_help_clicked" : self.on_help_clicked,
"on_delete_event" : self.close,
})
self.list = self.top.get_object("list")
self.set_window(window,self.top.get_object('title'),self.label)
self.model = Gtk.ListStore(GObject.TYPE_BOOLEAN, GObject.TYPE_STRING,
GObject.TYPE_STRING)
r = Gtk.CellRendererToggle()
r.connect('toggled',self.toggled)
c = Gtk.TreeViewColumn(_('Select'),r,active=0)
self.list.append_column(c)
c = Gtk.TreeViewColumn(_('Original Name'),
Gtk.CellRendererText(),text=1)
self.list.append_column(c)
c = Gtk.TreeViewColumn(_('Capitalization Change'),
Gtk.CellRendererText(),text=2)
self.list.append_column(c)
self.list.set_model(self.model)
self.iter_list = []
self.progress.set_pass(_('Building display'),len(self.name_list))
for name in self.name_list:
handle = self.model.append()
self.model.set_value(handle,0,True)
self.model.set_value(handle,1, name)
namecap = self.name_cap(name)
self.model.set_value(handle,2, namecap)
self.iter_list.append(handle)
self.progress.step()
self.progress.close()
self.show()
def toggled(self,cell,path_string):
path = tuple(map(int, path_string.split(':')))
row = self.model[path]
row[0] = not row[0]
def build_menu_names(self, obj):
return (self.label,None)
def on_help_clicked(self, obj):
"""Display the relevant portion of GRAMPS manual"""
display_help(WIKI_HELP_PAGE , WIKI_HELP_SEC)
def on_ok_clicked(self, obj):
with DbTxn(_("Capitalization changes"), self.db, batch=True
) as self.trans:
self.db.disable_signals()
changelist = set(self.model.get_value(node,1)
for node in self.iter_list
if self.model.get_value(node,0))
#with self.db.get_person_cursor(update=True, commit=True) as cursor:
# for handle, data in cursor:
for handle in self.db.get_person_handles(False):
person = self.db.get_person_from_handle(handle)
#person = Person(data)
change = False
for name in [person.get_primary_name()] + person.get_alternate_names():
sname = find_surname_name(handle, name.serialize())
if sname in changelist:
change = True
for surn in name.get_surname_list():
sname = self.name_cap(surn.get_surname())
surn.set_surname(sname)
if change:
#cursor.update(handle, person.serialize())
self.db.commit_person(person, transaction=self.trans)
self.db.enable_signals()
self.db.request_rebuild()
# FIXME: this probably needs to be removed, and bookmarks
# should always be rebuilt on a commit_person via signals
# self.parent.bookmarks.redraw()
self.close()
self.cb()
class ChangeNames(tool.BatchTool, ManagedWindow):
def __init__(self, dbstate, user, options_class, name, callback=None):
uistate = user.uistate
self.label = _('Capitalization changes')
self.cb = callback
ManagedWindow.__init__(self, uistate, [], self.__class__)
self.set_window(Gtk.Window(), Gtk.Label(), '')
tool.BatchTool.__init__(self, dbstate, user, options_class, name)
if self.fail:
return
self.progress = ProgressMeter( # parent-OK
_('Checking Family Names'),
'',
parent=uistate.window)
self.progress.set_pass(_('Searching family names'),
len(self.db.get_surname_list()))
self.name_list = []
for name in self.db.get_surname_list():
name.strip()
namesplitSP = name.split()
lSP = len(namesplitSP)
namesplitHY = name.split('-')
lHY = len(namesplitHY)
if lSP == lHY == 1:
if name != name.capitalize():
# Single surname without hyphen(s)
self.name_list.append(name)
#if lSP == 1 and lHY > 1:
#print "LSP==1", name, name.capitalize()
#if name != name.capitalize():
# Single surname with hyphen(s)
#self.name_list.append(name)
if lSP > 1 and lHY == 1:
# more than one string in surname but no hyphen
# check if first string is in prefix_list, if so test for cap in rest
s1 = 0
if namesplitSP[0].lower() in prefix_list:
s1 = 1
for x in range(len(namesplitSP) - s1):
# check if any subsurname is not cap
notcap = False
if namesplitSP[s1 + x] != namesplitSP[s1 + x].capitalize():
notcap = True
break
if notcap:
# Multiple surnames possibly after prefix
self.name_list.append(name)
if lHY > 1:
# more than one string in surname but hyphen(s) exists
# check if first string is in prefix_list, if so test for cap
if namesplitSP[0].lower() in prefix_list:
namesplitHY[0] = namesplitHY[0].replace(
namesplitSP[0], '').strip()
for x in range(len(namesplitHY)):
# check if any subsurname is not cap
notcap = False
if namesplitHY[x] != namesplitHY[x].capitalize():
notcap = True
break
if notcap:
# Multiple surnames possibly after frefix
self.name_list.append(name)
if uistate:
self.progress.step()
if self.name_list:
self.display()
else:
self.progress.close()
self.close()
OkDialog(
_('No modifications made'), # parent-OK
_("No capitalization changes were detected."),
parent=uistate.window)
def name_cap(self, name):
name.strip()
namesplitSP = name.split()
lSP = len(namesplitSP)
lHY = len(name.split('-'))
namesep = ' '
if lHY > 1:
namesep = '-'
namesplitSP = name.replace(namesep, ' ').split()
lSP = len(namesplitSP)
if lSP == lHY == 1:
#if name != name.capitalize():
# Single surname without space(s) or hyphen(s), normal case
return name.capitalize()
else:
# more than one string in surname but no hyphen
# check if first string is in prefix_list, if so CAP the rest
# Names like (von) Kohl(-)Brandt
result = ""
s1 = 0
if namesplitSP[0].lower() in prefix_list:
s1 = 1
result = namesplitSP[0].lower() + ' '
for x in range(lSP - s1):
# CAP all subsurnames
result = result + namesplitSP[s1 + x].capitalize() + namesep
return result[:-1]
def display(self):
self.top = Glade()
window = self.top.toplevel
self.top.connect_signals({
"destroy_passed_object": self.close,
"on_ok_clicked": self.on_ok_clicked,
"on_help_clicked": self.on_help_clicked,
"on_delete_event": self.close,
})
self.list = self.top.get_object("list")
self.set_window(window, self.top.get_object('title'), self.label)
self.model = Gtk.ListStore(GObject.TYPE_BOOLEAN, GObject.TYPE_STRING,
GObject.TYPE_STRING)
r = Gtk.CellRendererToggle()
r.connect('toggled', self.toggled)
c = Gtk.TreeViewColumn(_('Select'), r, active=0)
self.list.append_column(c)
c = Gtk.TreeViewColumn(_('Original Name'),
Gtk.CellRendererText(),
text=1)
self.list.append_column(c)
c = Gtk.TreeViewColumn(_('Capitalization Change'),
Gtk.CellRendererText(),
text=2)
self.list.append_column(c)
self.list.set_model(self.model)
self.iter_list = []
self.progress.set_pass(_('Building display'), len(self.name_list))
for name in self.name_list:
handle = self.model.append()
self.model.set_value(handle, 0, True)
self.model.set_value(handle, 1, name)
namecap = self.name_cap(name)
self.model.set_value(handle, 2, namecap)
self.iter_list.append(handle)
self.progress.step()
self.progress.close()
self.show()
def toggled(self, cell, path_string):
path = tuple(map(int, path_string.split(':')))
row = self.model[path]
row[0] = not row[0]
def build_menu_names(self, obj):
return (self.label, None)
def on_help_clicked(self, obj):
"""Display the relevant portion of GRAMPS manual"""
display_help(WIKI_HELP_PAGE, WIKI_HELP_SEC)
def on_ok_clicked(self, obj):
with DbTxn(_("Capitalization changes"), self.db,
batch=True) as self.trans:
self.db.disable_signals()
changelist = set(
self.model.get_value(node, 1) for node in self.iter_list
if self.model.get_value(node, 0))
#with self.db.get_person_cursor(update=True, commit=True) as cursor:
# for handle, data in cursor:
for handle in self.db.get_person_handles(False):
person = self.db.get_person_from_handle(handle)
#person = Person(data)
change = False
for name in [person.get_primary_name()
] + person.get_alternate_names():
sname = find_surname_name(handle, name.serialize())
if sname in changelist:
change = True
for surn in name.get_surname_list():
sname = self.name_cap(surn.get_surname())
surn.set_surname(sname)
if change:
#cursor.update(handle, person.serialize())
self.db.commit_person(person, self.trans)
self.db.enable_signals()
self.db.request_rebuild()
# FIXME: this probably needs to be removed, and bookmarks
# should always be rebuilt on a commit_person via signals
# self.parent.bookmarks.redraw()
self.close()
self.cb()
