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|
# -*- Mode: Python -*-
import gc
import unittest
import sys
import weakref
from gi.repository import GObject, GLib
from gi import _signalhelper as signalhelper
import testhelper
from compathelper import _long
try:
import cairo
cairo # PyFlakes
from gi.repository import Regress
has_cairo = True
except ImportError:
has_cairo = False
class C(GObject.GObject):
__gsignals__ = {'my_signal': (GObject.SignalFlags.RUN_FIRST, None,
(GObject.TYPE_INT,))}
def do_my_signal(self, arg):
self.arg = arg
class D(C):
def do_my_signal(self, arg2):
self.arg2 = arg2
C.do_my_signal(self, arg2)
class TestSignalCreation(unittest.TestCase):
# Bug 540376.
def test_illegals(self):
self.assertRaises(TypeError, lambda: GObject.signal_new('test',
None,
0,
None,
(GObject.TYPE_LONG,)))
class TestChaining(unittest.TestCase):
def setUp(self):
self.inst = C()
self.inst.connect("my_signal", self.my_signal_handler_cb, 1, 2, 3)
def my_signal_handler_cb(self, *args):
assert len(args) == 5
assert isinstance(args[0], C)
assert args[0] == self.inst
assert isinstance(args[1], int)
assert args[1] == 42
assert args[2:] == (1, 2, 3)
def test_chaining(self):
self.inst.emit("my_signal", 42)
assert self.inst.arg == 42
def test_chaining2(self):
inst2 = D()
inst2.emit("my_signal", 44)
assert inst2.arg == 44
assert inst2.arg2 == 44
# This is for bug 153718
class TestGSignalsError(unittest.TestCase):
def test_invalid_type(self, *args):
def foo():
class Foo(GObject.GObject):
__gsignals__ = None
self.assertRaises(TypeError, foo)
gc.collect()
def test_invalid_name(self, *args):
def foo():
class Foo(GObject.GObject):
__gsignals__ = {'not-exists': 'override'}
# do not stumble over the warning thrown by GLib
old_mask = GLib.log_set_always_fatal(GLib.LogLevelFlags.LEVEL_CRITICAL |
GLib.LogLevelFlags.LEVEL_ERROR)
try:
self.assertRaises(TypeError, foo)
finally:
GLib.log_set_always_fatal(old_mask)
gc.collect()
class TestGPropertyError(unittest.TestCase):
def test_invalid_type(self, *args):
def foo():
class Foo(GObject.GObject):
__gproperties__ = None
self.assertRaises(TypeError, foo)
gc.collect()
def test_invalid_name(self, *args):
def foo():
class Foo(GObject.GObject):
__gproperties__ = {None: None}
self.assertRaises(TypeError, foo)
gc.collect()
class TestList(unittest.TestCase):
def test_list_names(self):
self.assertEqual(GObject.signal_list_names(C), ('my-signal',))
def my_accumulator(ihint, return_accu, handler_return, user_data):
"""An accumulator that stops emission when the sum of handler
returned values reaches 3"""
assert user_data == "accum data"
if return_accu >= 3:
return False, return_accu
return True, return_accu + handler_return
class Foo(GObject.GObject):
my_acc_signal = GObject.Signal(return_type=GObject.TYPE_INT,
flags=GObject.SignalFlags.RUN_LAST,
accumulator=my_accumulator,
accu_data="accum data")
my_other_acc_signal = GObject.Signal(return_type=GObject.TYPE_BOOLEAN,
flags=GObject.SignalFlags.RUN_LAST,
accumulator=GObject.signal_accumulator_true_handled)
my_acc_first_wins = GObject.Signal(return_type=GObject.TYPE_BOOLEAN,
flags=GObject.SignalFlags.RUN_LAST,
accumulator=GObject.signal_accumulator_first_wins)
class TestAccumulator(unittest.TestCase):
def test_accumulator(self):
inst = Foo()
inst.my_acc_signal.connect(lambda obj: 1)
inst.my_acc_signal.connect(lambda obj: 2)
# the value returned in the following handler will not be
# considered, because at this point the accumulator already
# reached its limit.
inst.my_acc_signal.connect(lambda obj: 3)
retval = inst.my_acc_signal.emit()
self.assertEqual(retval, 3)
def test_accumulator_true_handled(self):
inst = Foo()
inst.my_other_acc_signal.connect(self._true_handler1)
inst.my_other_acc_signal.connect(self._true_handler2)
# the following handler will not be called because handler2
# returns True, so it should stop the emission.
inst.my_other_acc_signal.connect(self._true_handler3)
self.__true_val = None
inst.my_other_acc_signal.emit()
self.assertEqual(self.__true_val, 2)
def test_accumulator_first_wins(self):
# First signal hit will always win
inst = Foo()
inst.my_acc_first_wins.connect(self._true_handler3)
inst.my_acc_first_wins.connect(self._true_handler1)
inst.my_acc_first_wins.connect(self._true_handler2)
self.__true_val = None
inst.my_acc_first_wins.emit()
self.assertEqual(self.__true_val, 3)
def _true_handler1(self, obj):
self.__true_val = 1
return False
def _true_handler2(self, obj):
self.__true_val = 2
return True
def _true_handler3(self, obj):
self.__true_val = 3
return False
class E(GObject.GObject):
__gsignals__ = {'signal': (GObject.SignalFlags.RUN_FIRST, None,
())}
# Property used to test detailed signal
prop = GObject.Property(type=int, default=0)
def __init__(self):
GObject.GObject.__init__(self)
self.status = 0
def do_signal(self):
assert self.status == 0
self.status = 1
class F(GObject.GObject):
__gsignals__ = {'signal': (GObject.SignalFlags.RUN_FIRST, None,
())}
def __init__(self):
GObject.GObject.__init__(self)
self.status = 0
def do_signal(self):
self.status += 1
class TestEmissionHook(unittest.TestCase):
def test_add(self):
self.hook = True
e = E()
e.connect('signal', self._callback)
GObject.add_emission_hook(E, "signal", self._emission_hook)
e.emit('signal')
self.assertEqual(e.status, 3)
def test_remove(self):
self.hook = False
e = E()
e.connect('signal', self._callback)
hook_id = GObject.add_emission_hook(E, "signal", self._emission_hook)
GObject.remove_emission_hook(E, "signal", hook_id)
e.emit('signal')
self.assertEqual(e.status, 3)
def _emission_hook(self, e):
self.assertEqual(e.status, 1)
e.status = 2
def _callback(self, e):
if self.hook:
self.assertEqual(e.status, 2)
else:
self.assertEqual(e.status, 1)
e.status = 3
def test_callback_return_false(self):
self.hook = False
obj = F()
def _emission_hook(obj):
obj.status += 1
return False
GObject.add_emission_hook(obj, "signal", _emission_hook)
obj.emit('signal')
obj.emit('signal')
self.assertEqual(obj.status, 3)
def test_callback_return_true(self):
self.hook = False
obj = F()
def _emission_hook(obj):
obj.status += 1
return True
hook_id = GObject.add_emission_hook(obj, "signal", _emission_hook)
obj.emit('signal')
obj.emit('signal')
GObject.remove_emission_hook(obj, "signal", hook_id)
self.assertEqual(obj.status, 4)
def test_callback_return_true_but_remove(self):
self.hook = False
obj = F()
def _emission_hook(obj):
obj.status += 1
return True
hook_id = GObject.add_emission_hook(obj, "signal", _emission_hook)
obj.emit('signal')
GObject.remove_emission_hook(obj, "signal", hook_id)
obj.emit('signal')
self.assertEqual(obj.status, 3)
class TestMatching(unittest.TestCase):
class Object(GObject.Object):
status = 0
prop = GObject.Property(type=int, default=0)
@GObject.Signal()
def my_signal(self):
pass
@unittest.expectedFailure # https://bugzilla.gnome.org/show_bug.cgi?id=692918
def test_signal_handler_block_matching(self):
def dummy(*args):
"Hack to work around: "
def foo(obj):
obj.status += 1
obj = self.Object()
handler_id = GObject.signal_connect_closure(obj, 'my-signal', foo, after=False)
handler_id
self.assertEqual(obj.status, 0)
obj.emit('my-signal')
self.assertEqual(obj.status, 1)
# Blocking by match criteria disables the foo callback
signal_id, detail = GObject.signal_parse_name('my-signal', obj, True)
count = GObject.signal_handlers_block_matched(obj,
GObject.SignalMatchType.ID | GObject.SignalMatchType.CLOSURE,
signal_id=signal_id, detail=detail,
closure=foo, func=dummy, data=dummy)
self.assertEqual(count, 1)
obj.emit('my-signal')
self.assertEqual(obj.status, 1)
# Unblocking by the same match criteria allows callback to work again
count = GObject.signal_handlers_unblock_matched(obj,
GObject.SignalMatchType.ID | GObject.SignalMatchType.CLOSURE,
signal_id=signal_id, detail=detail,
closure=foo, func=dummy, data=dummy)
self.assertEqual(count, 1)
obj.emit('my-signal')
self.assertEqual(obj.status, 2)
# Disconnecting by match criteria completely removes the handler
count = GObject.signal_handlers_disconnect_matched(obj,
GObject.SignalMatchType.ID | GObject.SignalMatchType.CLOSURE,
signal_id=signal_id, detail=detail,
closure=foo, func=dummy, data=dummy)
self.assertEqual(count, 1)
obj.emit('my-signal')
self.assertEqual(obj.status, 2)
def test_signal_handler_find(self):
def foo(obj):
obj.status += 1
obj = self.Object()
handler_id = GObject.signal_connect_closure(obj, 'my-signal', foo, after=False)
signal_id, detail = GObject.signal_parse_name('my-signal', obj, True)
found_id = GObject.signal_handler_find(obj,
GObject.SignalMatchType.ID,
signal_id=signal_id, detail=detail,
closure=None, func=0, data=0)
self.assertEqual(handler_id, found_id)
class TestClosures(unittest.TestCase):
def setUp(self):
self.count = 0
self.emission_stopped = False
self.emission_error = False
self.handler_pending = False
def _callback_handler_pending(self, e):
signal_id, detail = GObject.signal_parse_name('signal', e, True)
self.handler_pending = GObject.signal_has_handler_pending(e, signal_id, detail,
may_be_blocked=False)
def _callback(self, e):
self.count += 1
def _callback_stop_emission(self, obj, prop, stop_it):
if stop_it:
obj.stop_emission_by_name('notify::prop')
self.emission_stopped = True
else:
self.count += 1
def _callback_invalid_stop_emission_name(self, obj, prop):
# We expect a GLib warning but there currently is no way to test that
# This can at least make sure we don't crash
old_mask = GLib.log_set_always_fatal(GLib.LogLevelFlags.LEVEL_CRITICAL |
GLib.LogLevelFlags.LEVEL_ERROR)
try:
obj.stop_emission_by_name('notasignal::baddetail')
finally:
GLib.log_set_always_fatal(old_mask)
self.emission_error = True
def test_disconnect_by_func(self):
e = E()
e.connect('signal', self._callback)
e.disconnect_by_func(self._callback)
e.emit('signal')
self.assertEqual(self.count, 0)
def test_disconnect(self):
e = E()
handler_id = e.connect('signal', self._callback)
self.assertTrue(e.handler_is_connected(handler_id))
e.disconnect(handler_id)
e.emit('signal')
self.assertEqual(self.count, 0)
self.assertFalse(e.handler_is_connected(handler_id))
def test_stop_emission_by_name(self):
e = E()
# Sandwich a callback that stops emission in between a callback that increments
e.connect('notify::prop', self._callback_stop_emission, False)
e.connect('notify::prop', self._callback_stop_emission, True)
e.connect('notify::prop', self._callback_stop_emission, False)
e.set_property('prop', 1234)
self.assertEqual(e.get_property('prop'), 1234)
self.assertEqual(self.count, 1)
self.assertTrue(self.emission_stopped)
def test_stop_emission_by_name_error(self):
e = E()
e.connect('notify::prop', self._callback_invalid_stop_emission_name)
e.set_property('prop', 1234)
self.assertTrue(self.emission_error)
def test_handler_block(self):
e = E()
e.connect('signal', self._callback)
e.handler_block_by_func(self._callback)
e.emit('signal')
self.assertEqual(self.count, 0)
def test_handler_unblock(self):
e = E()
handler_id = e.connect('signal', self._callback)
e.handler_block(handler_id)
e.handler_unblock_by_func(self._callback)
e.emit('signal')
self.assertEqual(self.count, 1)
def test_handler_block_method(self):
# Filed as #375589
class A:
def __init__(self):
self.a = 0
def callback(self, o):
self.a = 1
o.handler_block_by_func(self.callback)
inst = A()
e = E()
e.connect("signal", inst.callback)
e.emit('signal')
self.assertEqual(inst.a, 1)
gc.collect()
def test_gstring(self):
class C(GObject.GObject):
__gsignals__ = {'my_signal': (GObject.SignalFlags.RUN_LAST, GObject.TYPE_GSTRING,
(GObject.TYPE_GSTRING,))}
def __init__(self, test):
GObject.GObject.__init__(self)
self.test = test
def do_my_signal(self, data):
self.data = data
self.test.assertEqual(len(data), 3)
return ''.join([data[2], data[1], data[0]])
c = C(self)
data = c.emit("my_signal", "\01\00\02")
self.assertEqual(data, "\02\00\01")
def test_handler_pending(self):
obj = F()
obj.connect('signal', self._callback_handler_pending)
obj.connect('signal', self._callback)
self.assertEqual(self.count, 0)
self.assertEqual(self.handler_pending, False)
obj.emit('signal')
self.assertEqual(self.count, 1)
self.assertEqual(self.handler_pending, True)
def test_signal_handlers_destroy(self):
obj = F()
obj.connect('signal', self._callback)
obj.connect('signal', self._callback)
obj.connect('signal', self._callback)
obj.emit('signal')
self.assertEqual(self.count, 3)
# count should remain at 3 after all handlers are destroyed
GObject.signal_handlers_destroy(obj)
obj.emit('signal')
self.assertEqual(self.count, 3)
class SigPropClass(GObject.GObject):
__gsignals__ = {'my_signal': (GObject.SignalFlags.RUN_FIRST, None,
(GObject.TYPE_INT,))}
__gproperties__ = {
'foo': (str, None, None, '',
GObject.ParamFlags.WRITABLE | GObject.ParamFlags.CONSTRUCT),
}
signal_emission_failed = False
def do_my_signal(self, arg):
self.arg = arg
def do_set_property(self, pspec, value):
if pspec.name == 'foo':
self._foo = value
else:
raise AttributeError('unknown property %s' % pspec.name)
try:
self.emit("my-signal", 1)
except TypeError:
self.signal_emission_failed = True
class TestSigProp(unittest.TestCase):
def test_emit_in_property_setter(self):
obj = SigPropClass()
self.assertFalse(obj.signal_emission_failed)
class CM(GObject.GObject):
__gsignals__ = dict(
test1=(GObject.SignalFlags.RUN_FIRST, None, ()),
test2=(GObject.SignalFlags.RUN_LAST, None, (str,)),
test3=(GObject.SignalFlags.RUN_LAST, int, (GObject.TYPE_DOUBLE,)),
test4=(GObject.SignalFlags.RUN_FIRST, None,
(bool, _long, GObject.TYPE_FLOAT, GObject.TYPE_DOUBLE, int,
GObject.TYPE_UINT, GObject.TYPE_ULONG)),
test_float=(GObject.SignalFlags.RUN_LAST, GObject.TYPE_FLOAT, (GObject.TYPE_FLOAT,)),
test_double=(GObject.SignalFlags.RUN_LAST, GObject.TYPE_DOUBLE, (GObject.TYPE_DOUBLE,)),
test_int64=(GObject.SignalFlags.RUN_LAST, GObject.TYPE_INT64, (GObject.TYPE_INT64,)),
test_string=(GObject.SignalFlags.RUN_LAST, str, (str,)),
test_object=(GObject.SignalFlags.RUN_LAST, object, (object,)),
test_paramspec=(GObject.SignalFlags.RUN_LAST, GObject.ParamSpec, ()),
test_paramspec_in=(GObject.SignalFlags.RUN_LAST, GObject.ParamSpec, (GObject.ParamSpec, )),
test_gvalue=(GObject.SignalFlags.RUN_LAST, GObject.Value, (GObject.Value,)),
test_gvalue_ret=(GObject.SignalFlags.RUN_LAST, GObject.Value, (GObject.TYPE_GTYPE,)),
)
testprop = GObject.Property(type=int)
class _TestCMarshaller:
def setUp(self):
self.obj = CM()
testhelper.connectcallbacks(self.obj)
def test_test1(self):
self.obj.emit("test1")
def test_test2(self):
self.obj.emit("test2", "string")
def test_test3(self):
rv = self.obj.emit("test3", 42.0)
self.assertEqual(rv, 20)
def test_test4(self):
self.obj.emit("test4", True, _long(10), 3.14, 1.78, 20, _long(30), _long(31))
def test_float(self):
rv = self.obj.emit("test-float", 1.234)
self.assertTrue(rv >= 1.233999 and rv <= 1.2400001, rv)
def test_double(self):
rv = self.obj.emit("test-double", 1.234)
self.assertEqual(rv, 1.234)
def test_int64(self):
rv = self.obj.emit("test-int64", 102030405)
self.assertEqual(rv, 102030405)
rv = self.obj.emit("test-int64", GLib.MAXINT64)
self.assertEqual(rv, GLib.MAXINT64 - 1)
rv = self.obj.emit("test-int64", GLib.MININT64)
self.assertEqual(rv, GLib.MININT64)
def test_string(self):
rv = self.obj.emit("test-string", "str")
self.assertEqual(rv, "str")
def test_object(self):
rv = self.obj.emit("test-object", self)
self.assertEqual(rv, self)
def test_paramspec(self):
rv = self.obj.emit("test-paramspec")
self.assertEqual(rv.name, "test-param")
self.assertEqual(rv.nick, "test")
@unittest.skipUnless(hasattr(GObject, 'param_spec_boolean'),
'too old gobject-introspection')
def test_paramspec_in(self):
rv = GObject.param_spec_boolean('mybool', 'test-bool', 'do something',
True, GObject.ParamFlags.READABLE)
rv2 = self.obj.emit("test-paramspec-in", rv)
self.assertEqual(type(rv), type(rv2))
self.assertEqual(rv2.name, "mybool")
self.assertEqual(rv2.nick, "test-bool")
def test_C_paramspec(self):
self.notify_called = False
def cb_notify(obj, prop):
self.notify_called = True
self.assertEqual(obj, self.obj)
self.assertEqual(prop.name, "testprop")
self.obj.connect("notify", cb_notify)
self.obj.set_property("testprop", 42)
self.assertTrue(self.notify_called)
def test_gvalue(self):
# implicit int
rv = self.obj.emit("test-gvalue", 42)
self.assertEqual(rv, 42)
# explicit float
v = GObject.Value(GObject.TYPE_FLOAT, 1.234)
rv = self.obj.emit("test-gvalue", v)
self.assertAlmostEqual(rv, 1.234, 4)
# implicit float
rv = self.obj.emit("test-gvalue", 1.234)
self.assertAlmostEqual(rv, 1.234, 4)
# explicit int64
v = GObject.Value(GObject.TYPE_INT64, GLib.MAXINT64)
rv = self.obj.emit("test-gvalue", v)
self.assertEqual(rv, GLib.MAXINT64)
# explicit uint64
v = GObject.Value(GObject.TYPE_UINT64, GLib.MAXUINT64)
rv = self.obj.emit("test-gvalue", v)
self.assertEqual(rv, GLib.MAXUINT64)
@unittest.expectedFailure # https://bugzilla.gnome.org/show_bug.cgi?id=705291
def test_gvalue_implicit_int64(self):
# implicit int64
rv = self.obj.emit("test-gvalue", GLib.MAXINT64)
self.assertEqual(rv, GLib.MAXINT64)
# implicit uint64
rv = self.obj.emit("test-gvalue", GLib.MAXUINT64)
self.assertEqual(rv, GLib.MAXUINT64)
def test_gvalue_ret(self):
self.assertEqual(self.obj.emit("test-gvalue-ret", GObject.TYPE_INT),
GLib.MAXINT)
self.assertEqual(self.obj.emit("test-gvalue-ret", GObject.TYPE_UINT),
GLib.MAXUINT)
self.assertEqual(self.obj.emit("test-gvalue-ret", GObject.TYPE_INT64),
GLib.MAXINT64)
self.assertEqual(self.obj.emit("test-gvalue-ret", GObject.TYPE_UINT64),
GLib.MAXUINT64)
self.assertEqual(self.obj.emit("test-gvalue-ret", GObject.TYPE_STRING),
"hello")
if 'generic-c-marshaller' in GObject.features:
class TestCMarshaller(_TestCMarshaller, unittest.TestCase):
pass
else:
print()
print('** WARNING: LIBFFI disabled, not testing')
print()
# Test for 374653
class TestPyGValue(unittest.TestCase):
def test_none_null_boxed_conversion(self):
class C(GObject.GObject):
__gsignals__ = dict(my_boxed_signal=(
GObject.SignalFlags.RUN_LAST,
GObject.TYPE_STRV, ()))
obj = C()
obj.connect('my-boxed-signal', lambda obj: None)
sys.last_type = None
obj.emit('my-boxed-signal')
assert not sys.last_type
class TestSignalDecorator(unittest.TestCase):
class Decorated(GObject.GObject):
value = 0
@GObject.Signal
def pushed(self):
"""this will push"""
self.value += 1
@GObject.Signal(flags=GObject.SignalFlags.RUN_LAST)
def pulled(self):
self.value -= 1
stomped = GObject.Signal('stomped', arg_types=(int,), doc='this will stomp')
unnamed = GObject.Signal()
class DecoratedOverride(GObject.GObject):
overridden_closure_called = False
notify_called = False
value = GObject.Property(type=int, default=0)
@GObject.SignalOverride
def notify(self, *args, **kargs):
self.overridden_closure_called = True
def on_notify(self, obj, prop):
self.notify_called = True
def setUp(self):
self.unnamedCalled = False
def onUnnamed(self, obj):
self.unnamedCalled = True
def test_get_signal_args(self):
self.assertEqual(self.Decorated.pushed.get_signal_args(),
(GObject.SignalFlags.RUN_FIRST, None, tuple(), None, None))
self.assertEqual(self.Decorated.pulled.get_signal_args(),
(GObject.SignalFlags.RUN_LAST, None, tuple(), None, None))
self.assertEqual(self.Decorated.stomped.get_signal_args(),
(GObject.SignalFlags.RUN_FIRST, None, (int,), None, None))
def test_closures_called(self):
decorated = self.Decorated()
self.assertEqual(decorated.value, 0)
decorated.pushed.emit()
self.assertEqual(decorated.value, 1)
decorated.pulled.emit()
self.assertEqual(decorated.value, 0)
def test_signal_copy(self):
blah = self.Decorated.stomped.copy('blah')
self.assertEqual(str(blah), blah)
self.assertEqual(blah.func, self.Decorated.stomped.func)
self.assertEqual(blah.flags, self.Decorated.stomped.flags)
self.assertEqual(blah.return_type, self.Decorated.stomped.return_type)
self.assertEqual(blah.arg_types, self.Decorated.stomped.arg_types)
self.assertEqual(blah.__doc__, self.Decorated.stomped.__doc__)
def test_doc_string(self):
# Test the two techniques for setting doc strings on the signals
# class variables, through the "doc" keyword or as the getter doc string.
self.assertEqual(self.Decorated.stomped.__doc__, 'this will stomp')
self.assertEqual(self.Decorated.pushed.__doc__, 'this will push')
def test_unnamed_signal_gets_named(self):
self.assertEqual(str(self.Decorated.unnamed), 'unnamed')
def test_unnamed_signal_gets_called(self):
obj = self.Decorated()
obj.connect('unnamed', self.onUnnamed)
self.assertEqual(self.unnamedCalled, False)
obj.emit('unnamed')
self.assertEqual(self.unnamedCalled, True)
def test_overridden_signal(self):
# Test that the pushed signal is called in with super and the override
# which should both increment the "value" to 3
obj = self.DecoratedOverride()
obj.connect("notify", obj.on_notify)
self.assertEqual(obj.value, 0)
obj.value = 1
self.assertEqual(obj.value, 1)
self.assertTrue(obj.overridden_closure_called)
self.assertTrue(obj.notify_called)
class TestSignalConnectors(unittest.TestCase):
class CustomButton(GObject.GObject):
on_notify_called = False
value = GObject.Property(type=int)
@GObject.Signal(arg_types=(int,))
def clicked(self, value):
self.value = value
def setUp(self):
self.obj = None
self.value = None
def on_clicked(self, obj, value):
self.obj = obj
self.value = value
def test_signal_notify(self):
def on_notify(obj, param):
obj.on_notify_called = True
obj = self.CustomButton()
obj.connect('notify', on_notify)
self.assertFalse(obj.on_notify_called)
obj.notify('value')
self.assertTrue(obj.on_notify_called)
def test_signal_emit(self):
# standard callback connection with different forms of emit.
obj = self.CustomButton()
obj.connect('clicked', self.on_clicked)
# vanilla
obj.emit('clicked', 1)
self.assertEqual(obj.value, 1)
self.assertEqual(obj, self.obj)
self.assertEqual(self.value, 1)
# using class signal as param
self.obj = None
self.value = None
obj.emit(self.CustomButton.clicked, 1)
self.assertEqual(obj, self.obj)
self.assertEqual(self.value, 1)
# using bound signal as param
self.obj = None
self.value = None
obj.emit(obj.clicked, 1)
self.assertEqual(obj, self.obj)
self.assertEqual(self.value, 1)
# using bound signal with emit
self.obj = None
self.value = None
obj.clicked.emit(1)
self.assertEqual(obj, self.obj)
self.assertEqual(self.value, 1)
def test_signal_class_connect(self):
obj = self.CustomButton()
obj.connect(self.CustomButton.clicked, self.on_clicked)
obj.emit('clicked', 2)
self.assertEqual(obj, self.obj)
self.assertEqual(self.value, 2)
def test_signal_bound_connect(self):
obj = self.CustomButton()
obj.clicked.connect(self.on_clicked)
obj.emit('clicked', 3)
self.assertEqual(obj, self.obj)
self.assertEqual(self.value, 3)
class _ConnectDataTestBase(object):
# Notes:
# - self.Object is overridden in sub-classes.
# - Numeric suffixes indicate the number of user data args passed in.
Object = None
def run_connect_test(self, emit_args, user_data, flags=0):
obj = self.Object()
callback_args = []
def callback(*args):
callback_args.append(args)
return 0
obj.connect_data('sig-with-int64-prop', callback, connect_flags=flags, *user_data)
obj.emit('sig-with-int64-prop', *emit_args)
self.assertEqual(len(callback_args), 1)
return callback_args[0]
def test_0(self):
obj, value = self.run_connect_test([GLib.MAXINT64], user_data=[])
self.assertIsInstance(obj, self.Object)
self.assertEqual(value, GLib.MAXINT64)
def test_1(self):
obj, value, data = self.run_connect_test([GLib.MAXINT64],
user_data=['mydata'])
self.assertIsInstance(obj, self.Object)
self.assertEqual(value, GLib.MAXINT64)
self.assertEqual(data, 'mydata')
def test_after_0(self):
obj, value = self.run_connect_test([GLib.MAXINT64],
user_data=[],
flags=GObject.ConnectFlags.AFTER)
self.assertIsInstance(obj, self.Object)
self.assertEqual(value, GLib.MAXINT64)
def test_after_1(self):
obj, value, data = self.run_connect_test([GLib.MAXINT64],
user_data=['mydata'],
flags=GObject.ConnectFlags.AFTER)
self.assertIsInstance(obj, self.Object)
self.assertEqual(value, GLib.MAXINT64)
self.assertEqual(data, 'mydata')
def test_swaped_0(self):
# Swapped only works with a single user data argument.
with self.assertRaises(ValueError):
self.run_connect_test([GLib.MAXINT64],
user_data=[],
flags=GObject.ConnectFlags.SWAPPED)
def test_swaped_1(self):
# Notice obj and data are reversed in the return.
data, value, obj = self.run_connect_test([GLib.MAXINT64],
user_data=['mydata'],
flags=GObject.ConnectFlags.SWAPPED)
self.assertIsInstance(obj, self.Object)
self.assertEqual(value, GLib.MAXINT64)
self.assertEqual(data, 'mydata')
def test_swaped_2(self):
# Swapped only works with a single user data argument.
with self.assertRaises(ValueError):
self.run_connect_test([GLib.MAXINT64],
user_data=[1, 2],
flags=GObject.ConnectFlags.SWAPPED)
def test_after_and_swapped_0(self):
# Swapped only works with a single user data argument.
with self.assertRaises(ValueError):
self.run_connect_test([GLib.MAXINT64],
user_data=[],
flags=GObject.ConnectFlags.AFTER | GObject.ConnectFlags.SWAPPED)
def test_after_and_swapped_1(self):
# Notice obj and data are reversed in the return.
data, value, obj = self.run_connect_test([GLib.MAXINT64],
user_data=['mydata'],
flags=GObject.ConnectFlags.AFTER | GObject.ConnectFlags.SWAPPED)
self.assertIsInstance(obj, self.Object)
self.assertEqual(value, GLib.MAXINT64)
self.assertEqual(data, 'mydata')
def test_after_and_swapped_2(self):
# Swapped only works with a single user data argument.
with self.assertRaises(ValueError):
self.run_connect_test([GLib.MAXINT64],
user_data=[],
flags=GObject.ConnectFlags.AFTER | GObject.ConnectFlags.SWAPPED)
class TestConnectDataNonIntrospected(unittest.TestCase, _ConnectDataTestBase):
# This tests connect_data with non-introspected signals
# (created in Python in this case).
class Object(GObject.Object):
test = GObject.Signal()
sig_with_int64_prop = GObject.Signal(return_type=GObject.TYPE_INT64,
arg_types=[GObject.TYPE_INT64],
flags=GObject.SignalFlags.RUN_LAST)
@unittest.skipUnless(has_cairo, 'built without cairo support')
class TestConnectDataIntrospected(unittest.TestCase, _ConnectDataTestBase):
# This tests connect_data with introspected signals brought in from Regress.
Object = Regress.TestObj
class TestInstallSignals(unittest.TestCase):
# These tests only test how signalhelper.install_signals works
# with the __gsignals__ dict and therefore does not need to use
# GObject as a base class because that would automatically call
# install_signals within the meta-class.
class Base(object):
__gsignals__ = {'test': (0, None, tuple())}
class Sub1(Base):
pass
class Sub2(Base):
@GObject.Signal
def sub2test(self):
pass
def setUp(self):
self.assertEqual(len(self.Base.__gsignals__), 1)
signalhelper.install_signals(self.Base)
self.assertEqual(len(self.Base.__gsignals__), 1)
def test_subclass_gets_empty_gsignals_dict(self):
# Installing signals will add the __gsignals__ dict to a class
# if it doesn't already exists.
self.assertFalse('__gsignals__' in self.Sub1.__dict__)
signalhelper.install_signals(self.Sub1)
self.assertTrue('__gsignals__' in self.Sub1.__dict__)
# Sub1 should only contain an empty signals dict, this tests:
# https://bugzilla.gnome.org/show_bug.cgi?id=686496
self.assertEqual(self.Sub1.__dict__['__gsignals__'], {})
def test_subclass_with_decorator_gets_gsignals_dict(self):
self.assertFalse('__gsignals__' in self.Sub2.__dict__)
signalhelper.install_signals(self.Sub2)
self.assertTrue('__gsignals__' in self.Sub2.__dict__)
self.assertEqual(len(self.Base.__gsignals__), 1)
self.assertEqual(len(self.Sub2.__gsignals__), 1)
self.assertTrue('sub2test' in self.Sub2.__gsignals__)
# Make sure the vfunc was added
self.assertTrue(hasattr(self.Sub2, 'do_sub2test'))
# For this test to work with both python2 and 3 we need to dynamically
# exec the given code due to the new syntax causing an error in python 2.
annotated_class_code = """
class AnnotatedSignalClass(GObject.GObject):
@GObject.Signal
def sig1(self, a:int, b:float):
pass
@GObject.Signal(flags=GObject.SignalFlags.RUN_LAST)
def sig2_with_return(self, a:int, b:float) -> str:
return "test"
"""
@unittest.skipUnless(sys.version_info >= (3, 0),
'Argument annotations require Python 3')
class TestPython3Signals(unittest.TestCase):
AnnotatedClass = None
def setUp(self):
exec(annotated_class_code, globals(), globals())
self.assertTrue('AnnotatedSignalClass' in globals())
self.AnnotatedClass = globals()['AnnotatedSignalClass']
def test_annotations(self):
self.assertEqual(signalhelper.get_signal_annotations(self.AnnotatedClass.sig1.func),
(None, (int, float)))
self.assertEqual(signalhelper.get_signal_annotations(self.AnnotatedClass.sig2_with_return.func),
(str, (int, float)))
self.assertEqual(self.AnnotatedClass.sig2_with_return.get_signal_args(),
(GObject.SignalFlags.RUN_LAST, str, (int, float), None, None))
self.assertEqual(self.AnnotatedClass.sig2_with_return.arg_types,
(int, float))
self.assertEqual(self.AnnotatedClass.sig2_with_return.return_type,
str)
def test_emit_return(self):
obj = self.AnnotatedClass()
self.assertEqual(obj.sig2_with_return.emit(1, 2.0),
'test')
class TestSignalModuleLevelFunctions(unittest.TestCase):
def test_signal_list_ids_with_invalid_type(self):
with self.assertRaisesRegex(TypeError, 'type must be instantiable or an interface.*'):
GObject.signal_list_ids(GObject.TYPE_INVALID)
def test_signal_list_ids(self):
with self.assertRaisesRegex(TypeError, 'type must be instantiable or an interface.*'):
GObject.signal_list_ids(GObject.TYPE_INT)
ids = GObject.signal_list_ids(C)
self.assertEqual(len(ids), 1)
# Note canonicalized names
self.assertEqual(GObject.signal_name(ids[0]), 'my-signal')
# There is no signal 0 in gobject
self.assertEqual(GObject.signal_name(0), None)
def test_signal_lookup_with_invalid_type(self):
with self.assertRaisesRegex(TypeError, 'type must be instantiable or an interface.*'):
GObject.signal_lookup('NOT_A_SIGNAL_NAME', GObject.TYPE_INVALID)
def test_signal_lookup(self):
ids = GObject.signal_list_ids(C)
self.assertEqual(ids[0], GObject.signal_lookup('my_signal', C))
self.assertEqual(ids[0], GObject.signal_lookup('my-signal', C))
with self.assertRaisesRegex(TypeError, 'type must be instantiable or an interface.*'):
GObject.signal_lookup('NOT_A_SIGNAL_NAME', GObject.TYPE_INT)
# Invalid signal names return 0 instead of raising
self.assertEqual(GObject.signal_lookup('NOT_A_SIGNAL_NAME', C),
0)
def test_signal_query(self):
my_signal_id, = GObject.signal_list_ids(C)
# Form is: (id, name, gtype, arg_count, return_type, (arg_type1, ...))
my_signal_expected_query_result = [my_signal_id, 'my-signal', C.__gtype__,
1, GObject.TYPE_NONE, (GObject.TYPE_INT,)]
# signal_query(name, type)
self.assertEqual(list(GObject.signal_query('my-signal', C)), my_signal_expected_query_result)
# signal_query(signal_id)
self.assertEqual(list(GObject.signal_query(my_signal_id)), my_signal_expected_query_result)
# invalid query returns None instead of raising
self.assertEqual(GObject.signal_query(0), None)
self.assertEqual(GObject.signal_query('NOT_A_SIGNAL', C),
None)
@unittest.skipUnless(has_cairo, 'built without cairo support')
class TestIntrospectedSignals(unittest.TestCase):
def test_object_param_signal(self):
obj = Regress.TestObj()
def callback(obj, obj_param):
self.assertEqual(obj_param.props.int, 3)
self.assertGreater(obj_param.__grefcount__, 1)
obj.called = True
obj.called = False
obj.connect('sig-with-obj', callback)
obj.emit_sig_with_obj()
self.assertTrue(obj.called)
def test_connect_after(self):
obj = Regress.TestObj()
def callback(obj, obj_param):
obj.called = True
obj.called = False
obj.connect_after('sig-with-obj', callback)
obj.emit_sig_with_obj()
self.assertTrue(obj.called)
def test_int64_param_from_py(self):
obj = Regress.TestObj()
def callback(obj, i):
obj.callback_i = i
return i
obj.callback_i = None
obj.connect('sig-with-int64-prop', callback)
rv = obj.emit('sig-with-int64-prop', GLib.MAXINT64)
self.assertEqual(rv, GLib.MAXINT64)
self.assertEqual(obj.callback_i, GLib.MAXINT64)
def test_uint64_param_from_py(self):
obj = Regress.TestObj()
def callback(obj, i):
obj.callback_i = i
return i
obj.callback_i = None
obj.connect('sig-with-uint64-prop', callback)
rv = obj.emit('sig-with-uint64-prop', GLib.MAXUINT64)
self.assertEqual(rv, GLib.MAXUINT64)
self.assertEqual(obj.callback_i, GLib.MAXUINT64)
def test_int64_param_from_c(self):
obj = Regress.TestObj()
def callback(obj, i):
obj.callback_i = i
return i
obj.callback_i = None
obj.connect('sig-with-int64-prop', callback)
obj.emit_sig_with_int64()
self.assertEqual(obj.callback_i, GLib.MAXINT64)
def test_uint64_param_from_c(self):
obj = Regress.TestObj()
def callback(obj, i):
obj.callback_i = i
return i
obj.callback_i = None
obj.connect('sig-with-uint64-prop', callback)
obj.emit_sig_with_uint64()
self.assertEqual(obj.callback_i, GLib.MAXUINT64)
def test_intarray_ret(self):
obj = Regress.TestObj()
def callback(obj, i):
obj.callback_i = i
return [i, i + 1]
obj.callback_i = None
try:
obj.connect('sig-with-intarray-ret', callback)
except TypeError as e:
# compat with g-i 1.34.x
if 'unknown signal' in str(e):
return
raise
rv = obj.emit('sig-with-intarray-ret', 42)
self.assertEqual(obj.callback_i, 42)
self.assertEqual(type(rv), GLib.Array)
self.assertEqual(rv.len, 2)
@unittest.skip('https://bugzilla.gnome.org/show_bug.cgi?id=669496')
def test_array_parm(self):
obj = Regress.TestObj()
def callback(obj, arr):
obj.callback_arr = arr
obj.connect('sig-with-array-prop', callback)
obj.callback_arr = None
self.assertEqual(obj.emit('sig-with-array-prop', [1, 2, GLib.MAXUINT]), None)
self.assertEqual(obj.callback_arr, [1, 2, GLib.MAXUINT])
def test_held_struct_ref(self):
held_structs = []
def callback(obj, struct):
# The struct held by Python will become a copy after this callback exits.
struct.some_int = 42
struct.some_int8 = 42
held_structs.append(struct)
struct = Regress.TestSimpleBoxedA()
obj = Regress.TestObj()
self.assertEqual(struct.some_int, 0)
self.assertEqual(struct.some_int8, 0)
obj.connect('test-with-static-scope-arg', callback)
obj.emit('test-with-static-scope-arg', struct)
# The held struct will be a copy of the modified struct.
self.assertEqual(len(held_structs), 1)
held_struct = held_structs[0]
self.assertEqual(held_struct.some_int, 42)
self.assertEqual(held_struct.some_int8, 42)
# Boxed equality checks pointers by default.
self.assertNotEqual(struct, held_struct)
class _ConnectObjectTestBase(object):
# Notes:
# - self.Object is overridden in sub-classes.
# - Numeric suffixes indicate the number of user data args passed in.
Object = None
SwapObject = None
def run_connect_test(self, emit_args, user_data, flags=0):
obj = self.Object()
callback_args = []
swap_obj = self.SwapObject()
def callback(*args):
callback_args.append(args)
return 0
if flags & GObject.ConnectFlags.AFTER:
connect_func = obj.connect_object_after
else:
connect_func = obj.connect_object
connect_func('sig-with-int64-prop', callback, swap_obj, *user_data)
obj.emit('sig-with-int64-prop', *emit_args)
self.assertEqual(len(callback_args), 1)
return callback_args[0]
def test_0(self):
obj, value = self.run_connect_test([GLib.MAXINT64], user_data=[])
self.assertIsInstance(obj, self.SwapObject)
self.assertEqual(value, GLib.MAXINT64)
def test_1(self):
obj, value, data = self.run_connect_test([GLib.MAXINT64],
user_data=['mydata'])
self.assertIsInstance(obj, self.SwapObject)
self.assertEqual(value, GLib.MAXINT64)
self.assertEqual(data, 'mydata')
def test_2(self):
obj, value, data1, data2 = self.run_connect_test([GLib.MAXINT64],
user_data=['mydata1', 'mydata2'])
self.assertIsInstance(obj, self.SwapObject)
self.assertEqual(value, GLib.MAXINT64)
self.assertEqual(data1, 'mydata1')
self.assertEqual(data2, 'mydata2')
def test_after_0(self):
obj, value = self.run_connect_test([GLib.MAXINT64],
user_data=[],
flags=GObject.ConnectFlags.AFTER)
self.assertIsInstance(obj, self.SwapObject)
self.assertEqual(value, GLib.MAXINT64)
def test_after_1(self):
obj, value, data = self.run_connect_test([GLib.MAXINT64],
user_data=['mydata'],
flags=GObject.ConnectFlags.AFTER)
self.assertIsInstance(obj, self.SwapObject)
self.assertEqual(value, GLib.MAXINT64)
self.assertEqual(data, 'mydata')
def test_after_2(self):
obj, value, data1, data2 = self.run_connect_test([GLib.MAXINT64],
user_data=['mydata1', 'mydata2'],
flags=GObject.ConnectFlags.AFTER)
self.assertIsInstance(obj, self.SwapObject)
self.assertEqual(value, GLib.MAXINT64)
self.assertEqual(data1, 'mydata1')
self.assertEqual(data2, 'mydata2')
class TestConnectGObjectNonIntrospected(unittest.TestCase, _ConnectObjectTestBase):
# This tests connect_object with non-introspected signals
# (created in Python in this case).
class Object(GObject.Object):
test = GObject.Signal()
sig_with_int64_prop = GObject.Signal(return_type=GObject.TYPE_INT64,
arg_types=[GObject.TYPE_INT64],
flags=GObject.SignalFlags.RUN_LAST)
# Object passed for swapping is GObject based.
class SwapObject(GObject.Object):
pass
@unittest.skipUnless(has_cairo, 'built without cairo support')
class TestConnectGObjectIntrospected(unittest.TestCase, _ConnectObjectTestBase):
# This tests connect_object with introspected signals brought in from Regress.
Object = Regress.TestObj
# Object passed for swapping is GObject based.
class SwapObject(GObject.Object):
pass
class TestConnectPyObjectNonIntrospected(unittest.TestCase, _ConnectObjectTestBase):
# This tests connect_object with non-introspected signals
# (created in Python in this case).
class Object(GObject.Object):
test = GObject.Signal()
sig_with_int64_prop = GObject.Signal(return_type=GObject.TYPE_INT64,
arg_types=[GObject.TYPE_INT64],
flags=GObject.SignalFlags.RUN_LAST)
# Object passed for swapping is pure Python
SwapObject = object
@unittest.skipUnless(has_cairo, 'built without cairo support')
class TestConnectPyObjectIntrospected(unittest.TestCase, _ConnectObjectTestBase):
# This tests connect_object with introspected signals brought in from Regress.
Object = Regress.TestObj
# Object passed for swapping is pure Python
SwapObject = object
class _RefCountTestBase(object):
# NOTE: ref counts are always one more than expected because the getrefcount()
# function adds a ref for the input argument.
# Sub-classes set this
Object = None
class PyData(object):
pass
def test_callback_ref_count_del(self):
def callback(obj, value):
return value // 2
callback_ref = weakref.ref(callback)
self.assertEqual(sys.getrefcount(callback), 2)
obj = self.Object()
obj.connect('sig-with-int64-prop', callback)
self.assertEqual(sys.getrefcount(callback), 3)
del callback
self.assertEqual(sys.getrefcount(callback_ref()), 2)
res = obj.emit('sig-with-int64-prop', 42)
self.assertEqual(res, 21)
self.assertEqual(sys.getrefcount(callback_ref), 2)
del obj
self.assertIsNone(callback_ref())
def test_callback_ref_count_disconnect(self):
def callback(obj, value):
return value // 2
callback_ref = weakref.ref(callback)
self.assertEqual(sys.getrefcount(callback), 2)
obj = self.Object()
handler_id = obj.connect('sig-with-int64-prop', callback)
self.assertEqual(sys.getrefcount(callback), 3)
del callback
self.assertEqual(sys.getrefcount(callback_ref()), 2)
res = obj.emit('sig-with-int64-prop', 42)
self.assertEqual(res, 21)
self.assertEqual(sys.getrefcount(callback_ref), 2)
obj.disconnect(handler_id)
self.assertIsNone(callback_ref())
def test_callback_ref_count_disconnect_by_func(self):
def callback(obj, value):
return value // 2
callback_ref = weakref.ref(callback)
self.assertEqual(sys.getrefcount(callback), 2)
obj = self.Object()
obj.connect('sig-with-int64-prop', callback)
self.assertEqual(sys.getrefcount(callback), 3)
del callback
self.assertEqual(sys.getrefcount(callback_ref()), 2)
res = obj.emit('sig-with-int64-prop', 42)
self.assertEqual(res, 21)
self.assertEqual(sys.getrefcount(callback_ref), 2)
obj.disconnect_by_func(callback_ref())
self.assertIsNone(callback_ref())
def test_user_data_ref_count(self):
def callback(obj, value, data):
return value // 2
data = self.PyData()
data_ref = weakref.ref(data)
self.assertEqual(sys.getrefcount(data), 2)
obj = self.Object()
obj.connect('sig-with-int64-prop', callback, data)
self.assertEqual(sys.getrefcount(data), 3)
del data
self.assertEqual(sys.getrefcount(data_ref()), 2)
res = obj.emit('sig-with-int64-prop', 42)
self.assertEqual(res, 21)
self.assertEqual(sys.getrefcount(data_ref()), 2)
del obj
self.assertIsNone(data_ref())
@unittest.expectedFailure # https://bugzilla.gnome.org/show_bug.cgi?id=688064
def test_object_ref_count(self):
# connect_object() should only weakly reference the object passed in
# and auto-disconnect the signal when the object is destroyed.
def callback(data, value):
return value // 2
data = GObject.Object()
data_ref = weakref.ref(data)
self.assertEqual(sys.getrefcount(data), 2)
obj = self.Object()
handler_id = obj.connect_object('sig-with-int64-prop', callback, data)
self.assertEqual(sys.getrefcount(data), 2)
res = obj.emit('sig-with-int64-prop', 42)
self.assertEqual(res, 21)
self.assertEqual(sys.getrefcount(data), 2)
del data
self.assertIsNone(data_ref())
self.assertFalse(obj.handler_is_connected(handler_id))
class TestRefCountsNonIntrospected(unittest.TestCase, _RefCountTestBase):
class Object(GObject.Object):
sig_with_int64_prop = GObject.Signal(return_type=GObject.TYPE_INT64,
arg_types=[GObject.TYPE_INT64],
flags=GObject.SignalFlags.RUN_LAST)
@unittest.skipUnless(has_cairo, 'built without cairo support')
class TestRefCountsIntrospected(unittest.TestCase, _RefCountTestBase):
Object = Regress.TestObj
if __name__ == '__main__':
unittest.main()
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