#
# Gramps - a GTK+/GNOME based genealogy program
#
# Copyright (C) 2000-2007 Donald N. Allingham
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
# $Id$
"""
Utility functions that depend on GUI components or for GUI components
"""
#-------------------------------------------------------------------------
#
# Standard python modules
#
#-------------------------------------------------------------------------
import os
import sys
import subprocess
import threading
from gen.ggettext import gettext as _
import constfunc
# gtk is not included here, because this file is currently imported
# by code that needs to run without the DISPLAY variable (eg, in
# the cli only).
#-------------------------------------------------------------------------
#
# GNOME/GTK
#
#-------------------------------------------------------------------------
import gobject
#-------------------------------------------------------------------------
#
# Gramps modules
#
#-------------------------------------------------------------------------
import gen.lib
import Errors
import constfunc
from gen.plug.utils import available_updates
#-------------------------------------------------------------------------
#
#
#
#-------------------------------------------------------------------------
def add_menuitem(menu, msg, obj, func):
"""
add a menuitem to menu with label msg, which activates func, and has data
obj
"""
import gtk
item = gtk.MenuItem(msg)
item.set_data('o', obj)
item.connect("activate", func)
item.show()
menu.append(item)
class CLIVbox():
"""
Command-line interface vbox, to keep compatible with Dialog.
"""
def set_border_width(self, width):
pass
def add(self, widget):
pass
def set_spacing(self, spacing):
pass
def set_border_width(self, width):
pass
class CLIDialog:
"""
Command-line interface vbox, to keep compatible with Dialog.
"""
def connect(self, signal, callback):
pass
def set_has_separator(self, flag):
pass
def set_title(self, title):
pass
def set_border_width(self, width):
pass
def set_size_request(self, width, height):
pass
def set_transient_for(self, window):
pass
def set_modal(self, flag):
pass
def show_all(self):
pass
def destroy(self):
pass
vbox = CLIVbox()
#-------------------------------------------------------------------------
#
# Progress meter class
#
#-------------------------------------------------------------------------
class ProgressMeter(object):
"""
Progress meter class for GRAMPS.
The progress meter has two modes:
MODE_FRACTION is used when you know the number of steps that will be taken.
Set the total number of steps, and then call step() that many times.
The progress bar will progress from left to right.
MODE_ACTIVITY is used when you don't know the number of steps that will be
taken. Set up the total number of steps for the bar to get from one end of
the bar to the other. Then, call step() as many times as you want. The bar
will move from left to right until you stop calling step.
"""
MODE_FRACTION = 0
MODE_ACTIVITY = 1
def __init__(self, title, header='', can_cancel=False,
cancel_callback=None, message_area=False, parent=None):
"""
Specify the title and the current pass header.
"""
import gtk
self.__mode = ProgressMeter.MODE_FRACTION
self.__pbar_max = 100.0
self.__pbar_index = 0.0
self.__old_val = -1
self.__can_cancel = can_cancel
self.__cancelled = False
if cancel_callback:
self.__cancel_callback = cancel_callback
else:
self.__cancel_callback = self.handle_cancel
if constfunc.has_display():
self.__dialog = gtk.Dialog()
else:
self.__dialog = CLIDialog()
if self.__can_cancel:
self.__dialog.connect('delete_event', self.__cancel_callback)
else:
self.__dialog.connect('delete_event', self.__warn)
self.__dialog.set_has_separator(False)
self.__dialog.set_title(title)
self.__dialog.set_border_width(12)
self.__dialog.vbox.set_spacing(10)
self.__dialog.vbox.set_border_width(24)
self.__dialog.set_size_request(400, 125)
if parent:
self.__dialog.set_transient_for(parent)
self.__dialog.set_modal(True)
tlbl = gtk.Label('%s' % title)
tlbl.set_use_markup(True)
self.__dialog.vbox.add(tlbl)
self.__lbl = gtk.Label(header)
self.__lbl.set_use_markup(True)
self.__dialog.vbox.add(self.__lbl)
self.__pbar = gtk.ProgressBar()
self.__dialog.vbox.add(self.__pbar)
if self.__can_cancel:
self.__dialog.set_size_request(350, 170)
self.__cancel_button = gtk.Button(stock=gtk.STOCK_CANCEL)
self.__cancel_button.connect('clicked', self.__cancel_callback)
self.__dialog.vbox.add(self.__cancel_button)
self.message_area = None
if message_area:
area = gtk.ScrolledWindow()
text = gtk.TextView()
text.set_border_width(6)
text.set_editable(False)
self.message_area = text
area.add_with_viewport(text)
area.set_policy(gtk.POLICY_AUTOMATIC, gtk.POLICY_AUTOMATIC)
self.__dialog.vbox.add(area)
self.message_area_ok = gtk.Button(stock=gtk.STOCK_OK)
self.message_area_ok.connect("clicked", self.close)
self.message_area_ok.set_sensitive(False)
self.__dialog.vbox.pack_start(self.message_area_ok, expand=False, fill=False)
self.__dialog.set_size_request(500, 350)
self.__dialog.show_all()
if header == '':
self.__lbl.hide()
def append_message(self, text):
"""
Method to add text to message area.
"""
if self.message_area:
buffer = self.message_area.get_buffer()
end = buffer.get_end_iter()
buffer.insert(end, text)
else:
print "Progress:", text
def set_message(self, text):
"""
Sets the text of the message area.
"""
if self.message_area:
buffer = self.message_area.get_buffer()
buffer.set_text(text)
else:
print "Progress:", text
def handle_cancel(self, *args, **kwargs):
"""
Default cancel handler (if enabled).
"""
self.__cancel_button.set_sensitive(False)
self.__lbl.set_label(_("Cancelling..."))
self.__cancelled = True
def get_cancelled(self):
"""
Returns cancelled setting. True if progress meter has been
cancelled.
"""
return self.__cancelled
def set_pass(self, header="", total=100, mode=MODE_FRACTION):
"""
Reset for another pass. Provide a new header and define number
of steps to be used.
"""
import gtk
self.__mode = mode
self.__pbar_max = total
self.__pbar_index = 0.0
# If it is cancelling, don't overwite that message:
if not self.__cancelled:
self.__lbl.set_text(header)
if header == '':
self.__lbl.hide()
else:
self.__lbl.show()
if self.__mode is ProgressMeter.MODE_FRACTION:
self.__pbar.set_fraction(0.0)
else: # ProgressMeter.MODE_ACTIVITY
self.__pbar.set_pulse_step(1.0/self.__pbar_max)
while gtk.events_pending():
gtk.main_iteration()
def step(self):
"""
Click the progress bar over to the next value. Be paranoid
and insure that it doesn't go over 100%.
"""
import gtk
if self.__mode is ProgressMeter.MODE_FRACTION:
self.__pbar_index = self.__pbar_index + 1.0
if self.__pbar_index > self.__pbar_max:
self.__pbar_index = self.__pbar_max
try:
val = int(100*self.__pbar_index/self.__pbar_max)
except ZeroDivisionError:
val = 0
if val != self.__old_val:
self.__pbar.set_text("%d%%" % val)
self.__pbar.set_fraction(val/100.0)
self.__old_val = val
else: # ProgressMeter.MODE_ACTIVITY
self.__pbar.pulse()
while gtk.events_pending():
gtk.main_iteration()
return self.__cancelled
def set_header(self, text):
import gtk
self.__lbl.set_text(text)
while gtk.events_pending():
gtk.main_iteration()
def __warn(self, *obj):
"""
Don't let the user close the progress dialog.
"""
from QuestionDialog import WarningDialog
WarningDialog(
_("Attempt to force closing the dialog"),
_("Please do not force closing this important dialog."),
self.__dialog)
return True
def close(self, widget=None):
"""
Close the progress meter
"""
self.__dialog.destroy()
#-------------------------------------------------------------------------
#
#
#
#-------------------------------------------------------------------------
def display_error_dialog (index, errorstrings):
"""
Display a message box for errors resulting from xdg-open/open
"""
from QuestionDialog import ErrorDialog
error = _("The external program failed to launch or experienced an error")
if errorstrings:
if isinstance(errorstrings, dict):
try:
error = errorstrings[index]
except KeyError:
pass
else:
error = errorstrings
ErrorDialog(_("Error from external program"), error)
def poll_external (args):
"""
Check the for completion of a task launched with
subprocess.Popen(). This function is intended to be passed to
GLib.timeout_add_seconds, so the arguments are in a tuple because that
function takes only a single data argument.
@proc the process, returned from subprocess.Popen()
@errorstrings a dict of possible response values and the corresponding messages to display.
@returns False when the function has completed.
"""
(proc, errorstrings)= args
resp = proc.poll()
if resp is None:
return True
if resp != 0:
display_error_dialog(resp, errorstrings)
return False
def open_file_with_default_application(file_name):
"""
Launch a program to open an arbitrary file. The file will be opened using
whatever program is configured on the host as the default program for that
type of file.
@param file_path: The path to the file to be opened.
Example: "c:\\foo.txt"
@type file_path: string
@return: nothing
"""
errstrings = None
norm_path = os.path.normpath(file_name)
if not os.path.exists(norm_path):
display_error_dialog(0, _("File does not exist"))
return
if constfunc.win():
try:
os.startfile(norm_path)
except WindowsError, msg:
display_error_dialog(0, str(msg))
return
if constfunc.mac():
utility = '/usr/bin/open'
else:
utility = 'xdg-open'
errstrings = {1:_('Error in command line syntax.'),
2:_('One of the files passed on the command line did not exist.'),
3:_('A required tool could not be found.'),
4:_('The action failed.')}
proc = subprocess.Popen([utility, norm_path], stderr=subprocess.STDOUT)
from gobject import timeout_add
timeout_add(1000, poll_external, (proc, errstrings))
return
def process_pending_events(max_count=10):
"""
Process pending events, but don't get into an infinite loop.
"""
import gtk
count = 0
while gtk.events_pending():
gtk.main_iteration()
count += 1
if count >= max_count:
break
# Then there's the infamous Mac one-button mouse (or more likely these
# days, one-button trackpad). The canonical mac way to generate what
# Gdk calls a button-3 is button-1, but that's not baked into
# Gdk. We'll emulate the behavior here.
def is_right_click(event):
"""
Returns True if the event is a button-3 or equivalent
"""
import gtk
if event.type == gtk.gdk.BUTTON_PRESS:
if constfunc.is_quartz():
if (event.button == 3
or (event.button == 1 and event.state & gtk.gdk.CONTROL_MASK)):
return True
if event.button == 3:
return True
def edit_object(dbstate, uistate, reftype, ref):
"""
Invokes the appropriate editor for an object type and given handle.
"""
from gui.editors import (EditEvent, EditPerson, EditFamily, EditSource,
EditPlace, EditMedia, EditRepository,
EditCitation)
if reftype == 'Person':
try:
person = dbstate.db.get_person_from_handle(ref)
EditPerson(dbstate, uistate, [], person)
except Errors.WindowActiveError:
pass
elif reftype == 'Family':
try:
family = dbstate.db.get_family_from_handle(ref)
EditFamily(dbstate, uistate, [], family)
except Errors.WindowActiveError:
pass
elif reftype == 'Source':
try:
source = dbstate.db.get_source_from_handle(ref)
EditSource(dbstate, uistate, [], source)
except Errors.WindowActiveError:
pass
elif reftype == 'Citation':
try:
citation = dbstate.db.get_citation_from_handle(ref)
EditCitation(dbstate, uistate, [], citation)
except Errors.WindowActiveError:
"""
Return the text used when citation cannot be edited
"""
blocked_text = _("Cannot open new citation editor at this time. "
"Either the citation is already being edited, "
"or the associated source is already being "
"edited, and opening a citation editor "
"(which also allows the source "
"to be edited), would create ambiguity "
"by opening two editors on the same source. "
"\n\n"
"To edit the citation, close the source "
"editor and open an editor for the citation "
"alone")
from QuestionDialog import WarningDialog
WarningDialog(_("Cannot open new citation editor"),
blocked_text)
elif reftype == 'Place':
try:
place = dbstate.db.get_place_from_handle(ref)
EditPlace(dbstate, uistate, [], place)
except Errors.WindowActiveError:
pass
elif reftype == 'MediaObject':
try:
obj = dbstate.db.get_object_from_handle(ref)
EditMedia(dbstate, uistate, [], obj)
except Errors.WindowActiveError:
pass
elif reftype == 'Event':
try:
event = dbstate.db.get_event_from_handle(ref)
EditEvent(dbstate, uistate, [], event)
except Errors.WindowActiveError:
pass
elif reftype == 'Repository':
try:
repo = dbstate.db.get_repository_from_handle(ref)
EditRepository(dbstate, uistate, [], repo)
except Errors.WindowActiveError:
pass
#-------------------------------------------------------------------------
#
# AvailableUpdates
#
#-------------------------------------------------------------------------
class AvailableUpdates(threading.Thread):
def __init__(self, uistate):
threading.Thread.__init__(self)
self.uistate = uistate
self.addon_update_list = []
def emit_update_available(self):
self.uistate.emit('update-available', (self.addon_update_list, ))
def run(self):
self.addon_update_list = available_updates()
if len(self.addon_update_list) > 0:
gobject.idle_add(self.emit_update_available)