# -*- Mode: Python; py-indent-offset: 4 -*-
# vim: tabstop=4 shiftwidth=4 expandtab
-import pygtk
-pygtk.require("2.0")
-
import unittest
import sys
sys.path.insert(0, "../")
+from compathelper import _long, _unicode, _bytes
+
+from gi.repository import GLib
from gi.repository import GObject
from gi.repository import Gdk
from gi.repository import Gtk
+from gi.repository import Gio
+from gi.repository import Pango
+from gi.repository import GdkPixbuf
import gi.overrides as overrides
+import gi.types
+
+
+class TestRegistry(unittest.TestCase):
+
+ def test_non_gi(self):
+ class MyClass:
+ pass
+
+ try:
+ overrides.override(MyClass)
+ self.fail('unexpected success of overriding non-GI class')
+ except TypeError as e:
+ self.assertTrue('Can not override a type MyClass' in str(e))
+
+
+class TestGLib(unittest.TestCase):
+
+ def test_gvariant_create(self):
+ # simple values
+
+ variant = GLib.Variant('i', 42)
+ self.assertTrue(isinstance(variant, GLib.Variant))
+ self.assertEqual(variant.get_int32(), 42)
+
+ variant = GLib.Variant('s', '')
+ self.assertTrue(isinstance(variant, GLib.Variant))
+ self.assertEqual(variant.get_string(), '')
+
+ variant = GLib.Variant('s', 'hello')
+ self.assertTrue(isinstance(variant, GLib.Variant))
+ self.assertEqual(variant.get_string(), 'hello')
+
+ # boxed variant
+ variant = GLib.Variant('v', GLib.Variant('i', 42))
+ self.assertTrue(isinstance(variant, GLib.Variant))
+ self.assertTrue(isinstance(variant.get_variant(), GLib.Variant))
+ self.assertEqual(variant.get_type_string(), 'v')
+ self.assertEqual(variant.get_variant().get_type_string(), 'i')
+ self.assertEqual(variant.get_variant().get_int32(), 42)
+
+ variant = GLib.Variant('v', GLib.Variant('v', GLib.Variant('i', 42)))
+ self.assertEqual(variant.get_type_string(), 'v')
+ self.assertEqual(variant.get_variant().get_type_string(), 'v')
+ self.assertEqual(variant.get_variant().get_variant().get_type_string(), 'i')
+ self.assertEqual(variant.get_variant().get_variant().get_int32(), 42)
+
+ # tuples
+
+ variant = GLib.Variant('()', ())
+ self.assertEqual(variant.get_type_string(), '()')
+ self.assertEqual(variant.n_children(), 0)
+
+ variant = GLib.Variant('(i)', (3,))
+ self.assertEqual(variant.get_type_string(), '(i)')
+ self.assertTrue(isinstance(variant, GLib.Variant))
+ self.assertEqual(variant.n_children(), 1)
+ self.assertTrue(isinstance(variant.get_child_value(0), GLib.Variant))
+ self.assertEqual(variant.get_child_value(0).get_int32(), 3)
+
+ variant = GLib.Variant('(ss)', ('mec', 'mac'))
+ self.assertEqual(variant.get_type_string(), '(ss)')
+ self.assertTrue(isinstance(variant, GLib.Variant))
+ self.assertTrue(isinstance(variant.get_child_value(0), GLib.Variant))
+ self.assertTrue(isinstance(variant.get_child_value(1), GLib.Variant))
+ self.assertEqual(variant.get_child_value(0).get_string(), 'mec')
+ self.assertEqual(variant.get_child_value(1).get_string(), 'mac')
+
+ # nested tuples
+ variant = GLib.Variant('((si)(ub))', (('hello', -1), (42, True)))
+ self.assertEqual(variant.get_type_string(), '((si)(ub))')
+ self.assertEqual(variant.unpack(), (('hello', -1), (_long(42), True)))
+
+ # dictionaries
+
+ variant = GLib.Variant('a{si}', {})
+ self.assertTrue(isinstance(variant, GLib.Variant))
+ self.assertEqual(variant.get_type_string(), 'a{si}')
+ self.assertEqual(variant.n_children(), 0)
+
+ variant = GLib.Variant('a{si}', {'': 1, 'key1': 2, 'key2': 3})
+ self.assertEqual(variant.get_type_string(), 'a{si}')
+ self.assertTrue(isinstance(variant, GLib.Variant))
+ self.assertTrue(isinstance(variant.get_child_value(0), GLib.Variant))
+ self.assertTrue(isinstance(variant.get_child_value(1), GLib.Variant))
+ self.assertTrue(isinstance(variant.get_child_value(2), GLib.Variant))
+ self.assertEqual(variant.unpack(), {'': 1, 'key1': 2, 'key2': 3})
+
+ # nested dictionaries
+ variant = GLib.Variant('a{sa{si}}', {})
+ self.assertTrue(isinstance(variant, GLib.Variant))
+ self.assertEqual(variant.get_type_string(), 'a{sa{si}}')
+ self.assertEqual(variant.n_children(), 0)
+
+ d = {'': {'': 1, 'keyn1': 2},
+ 'key1': {'key11': 11, 'key12': 12}}
+ variant = GLib.Variant('a{sa{si}}', d)
+ self.assertEqual(variant.get_type_string(), 'a{sa{si}}')
+ self.assertTrue(isinstance(variant, GLib.Variant))
+ self.assertEqual(variant.unpack(), d)
+
+ # arrays
+
+ variant = GLib.Variant('ai', [])
+ self.assertEqual(variant.get_type_string(), 'ai')
+ self.assertEqual(variant.n_children(), 0)
+
+ variant = GLib.Variant('ai', [1, 2])
+ self.assertEqual(variant.get_type_string(), 'ai')
+ self.assertTrue(isinstance(variant, GLib.Variant))
+ self.assertTrue(isinstance(variant.get_child_value(0), GLib.Variant))
+ self.assertTrue(isinstance(variant.get_child_value(1), GLib.Variant))
+ self.assertEqual(variant.get_child_value(0).get_int32(), 1)
+ self.assertEqual(variant.get_child_value(1).get_int32(), 2)
+
+ variant = GLib.Variant('as', [])
+ self.assertEqual(variant.get_type_string(), 'as')
+ self.assertEqual(variant.n_children(), 0)
+
+ variant = GLib.Variant('as', [''])
+ self.assertEqual(variant.get_type_string(), 'as')
+ self.assertTrue(isinstance(variant, GLib.Variant))
+ self.assertTrue(isinstance(variant.get_child_value(0), GLib.Variant))
+ self.assertEqual(variant.get_child_value(0).get_string(), '')
+
+ variant = GLib.Variant('as', ['hello', 'world'])
+ self.assertEqual(variant.get_type_string(), 'as')
+ self.assertTrue(isinstance(variant, GLib.Variant))
+ self.assertTrue(isinstance(variant.get_child_value(0), GLib.Variant))
+ self.assertTrue(isinstance(variant.get_child_value(1), GLib.Variant))
+ self.assertEqual(variant.get_child_value(0).get_string(), 'hello')
+ self.assertEqual(variant.get_child_value(1).get_string(), 'world')
+
+ # nested arrays
+ variant = GLib.Variant('aai', [])
+ self.assertEqual(variant.get_type_string(), 'aai')
+ self.assertEqual(variant.n_children(), 0)
+
+ variant = GLib.Variant('aai', [[]])
+ self.assertEqual(variant.get_type_string(), 'aai')
+ self.assertEqual(variant.n_children(), 1)
+ self.assertEqual(variant.get_child_value(0).n_children(), 0)
+
+ variant = GLib.Variant('aai', [[1, 2], [3, 4, 5]])
+ self.assertEqual(variant.get_type_string(), 'aai')
+ self.assertEqual(variant.unpack(), [[1, 2], [3, 4, 5]])
+
+ #
+ # complex types
+ #
+
+ variant = GLib.Variant('(as)', ([],))
+ self.assertEqual(variant.get_type_string(), '(as)')
+ self.assertEqual(variant.n_children(), 1)
+ self.assertEqual(variant.get_child_value(0).n_children(), 0)
+
+ variant = GLib.Variant('(as)', ([''],))
+ self.assertEqual(variant.get_type_string(), '(as)')
+ self.assertEqual(variant.n_children(), 1)
+ self.assertEqual(variant.get_child_value(0).n_children(), 1)
+ self.assertEqual(variant.get_child_value(0).get_child_value(0).get_string(), '')
+
+ variant = GLib.Variant('(as)', (['hello'],))
+ self.assertEqual(variant.get_type_string(), '(as)')
+ self.assertEqual(variant.n_children(), 1)
+ self.assertEqual(variant.get_child_value(0).n_children(), 1)
+ self.assertEqual(variant.get_child_value(0).get_child_value(0).get_string(), 'hello')
+
+ obj = {'a1': (1, True), 'a2': (2, False)}
+ variant = GLib.Variant('a{s(ib)}', obj)
+ self.assertEqual(variant.get_type_string(), 'a{s(ib)}')
+ self.assertEqual(variant.unpack(), obj)
+
+ obj = {'a1': (1, GLib.Variant('b', True)), 'a2': (2, GLib.Variant('y', 255))}
+ variant = GLib.Variant('a{s(iv)}', obj)
+ self.assertEqual(variant.get_type_string(), 'a{s(iv)}')
+ self.assertEqual(variant.unpack(), {'a1': (1, True), 'a2': (2, 255)})
+
+ obj = (1, {'a': {'a1': True, 'a2': False},
+ 'b': {'b1': False},
+ 'c': {}
+ },
+ 'foo')
+ variant = GLib.Variant('(ia{sa{sb}}s)', obj)
+ self.assertEqual(variant.get_type_string(), '(ia{sa{sb}}s)')
+ self.assertEqual(variant.unpack(), obj)
+
+ obj = {"frequency": GLib.Variant('t', 738000000),
+ "hierarchy": GLib.Variant('i', 0),
+ "bandwidth": GLib.Variant('x', 8),
+ "code-rate-hp": GLib.Variant('d', 2.0 / 3.0),
+ "constellation": GLib.Variant('s', "QAM16"),
+ "guard-interval": GLib.Variant('u', 4)}
+ variant = GLib.Variant('a{sv}', obj)
+ self.assertEqual(variant.get_type_string(), 'a{sv}')
+ self.assertEqual(variant.unpack(),
+ {"frequency": 738000000,
+ "hierarchy": 0,
+ "bandwidth": 8,
+ "code-rate-hp": 2.0 / 3.0,
+ "constellation": "QAM16",
+ "guard-interval": 4
+ })
+
+ def test_gvariant_create_errors(self):
+ # excess arguments
+ self.assertRaises(TypeError, GLib.Variant, 'i', 42, 3)
+ self.assertRaises(TypeError, GLib.Variant, '(i)', (42, 3))
+
+ # not enough arguments
+ self.assertRaises(TypeError, GLib.Variant, '(ii)', (42,))
+
+ # data type mismatch
+ self.assertRaises(TypeError, GLib.Variant, 'i', 'hello')
+ self.assertRaises(TypeError, GLib.Variant, 's', 42)
+ self.assertRaises(TypeError, GLib.Variant, '(ss)', 'mec', 'mac')
+ self.assertRaises(TypeError, GLib.Variant, '(s)', 'hello')
+
+ # unimplemented data type
+ self.assertRaises(NotImplementedError, GLib.Variant, 'Q', 1)
+
+ def test_gvariant_unpack(self):
+ # simple values
+ res = GLib.Variant.new_int32(-42).unpack()
+ self.assertEqual(res, -42)
+
+ res = GLib.Variant.new_uint64(34359738368).unpack()
+ self.assertEqual(res, 34359738368)
+
+ res = GLib.Variant.new_boolean(True).unpack()
+ self.assertEqual(res, True)
+
+ res = GLib.Variant.new_object_path('/foo/Bar').unpack()
+ self.assertEqual(res, '/foo/Bar')
+
+ # variant
+ res = GLib.Variant('v', GLib.Variant.new_int32(-42)).unpack()
+ self.assertEqual(res, -42)
+
+ GLib.Variant('v', GLib.Variant('v', GLib.Variant('i', 42)))
+ self.assertEqual(res, -42)
+
+ # tuple
+ res = GLib.Variant.new_tuple(GLib.Variant.new_int32(-1),
+ GLib.Variant.new_string('hello')).unpack()
+ self.assertEqual(res, (-1, 'hello'))
+
+ # array
+ vb = GLib.VariantBuilder.new(gi._gi.variant_type_from_string('ai'))
+ vb.add_value(GLib.Variant.new_int32(-1))
+ vb.add_value(GLib.Variant.new_int32(3))
+ res = vb.end().unpack()
+ self.assertEqual(res, [-1, 3])
+
+ # dictionary
+ res = GLib.Variant('a{si}', {'key1': 1, 'key2': 2}).unpack()
+ self.assertEqual(res, {'key1': 1, 'key2': 2})
+
+ def test_gvariant_iteration(self):
+ # array index access
+ vb = GLib.VariantBuilder.new(gi._gi.variant_type_from_string('ai'))
+ vb.add_value(GLib.Variant.new_int32(-1))
+ vb.add_value(GLib.Variant.new_int32(3))
+ v = vb.end()
+
+ self.assertEqual(len(v), 2)
+ self.assertEqual(v[0], -1)
+ self.assertEqual(v[1], 3)
+ self.assertEqual(v[-1], 3)
+ self.assertEqual(v[-2], -1)
+ self.assertRaises(IndexError, v.__getitem__, 2)
+ self.assertRaises(IndexError, v.__getitem__, -3)
+ self.assertRaises(ValueError, v.__getitem__, 'a')
+
+ # array iteration
+ self.assertEqual([x for x in v], [-1, 3])
+ self.assertEqual(list(v), [-1, 3])
+
+ # tuple index access
+ v = GLib.Variant.new_tuple(GLib.Variant.new_int32(-1),
+ GLib.Variant.new_string('hello'))
+ self.assertEqual(len(v), 2)
+ self.assertEqual(v[0], -1)
+ self.assertEqual(v[1], 'hello')
+ self.assertEqual(v[-1], 'hello')
+ self.assertEqual(v[-2], -1)
+ self.assertRaises(IndexError, v.__getitem__, 2)
+ self.assertRaises(IndexError, v.__getitem__, -3)
+ self.assertRaises(ValueError, v.__getitem__, 'a')
+
+ # tuple iteration
+ self.assertEqual([x for x in v], [-1, 'hello'])
+ self.assertEqual(tuple(v), (-1, 'hello'))
+
+ # dictionary index access
+ vsi = GLib.Variant('a{si}', {'key1': 1, 'key2': 2})
+ vis = GLib.Variant('a{is}', {1: 'val1', 5: 'val2'})
+
+ self.assertEqual(len(vsi), 2)
+ self.assertEqual(vsi['key1'], 1)
+ self.assertEqual(vsi['key2'], 2)
+ self.assertRaises(KeyError, vsi.__getitem__, 'unknown')
+
+ self.assertEqual(len(vis), 2)
+ self.assertEqual(vis[1], 'val1')
+ self.assertEqual(vis[5], 'val2')
+ self.assertRaises(KeyError, vsi.__getitem__, 3)
+
+ # dictionary iteration
+ self.assertEqual(set(vsi.keys()), set(['key1', 'key2']))
+ self.assertEqual(set(vis.keys()), set([1, 5]))
+
+ # string index access
+ v = GLib.Variant('s', 'hello')
+ self.assertEqual(len(v), 5)
+ self.assertEqual(v[0], 'h')
+ self.assertEqual(v[4], 'o')
+ self.assertEqual(v[-1], 'o')
+ self.assertEqual(v[-5], 'h')
+ self.assertRaises(IndexError, v.__getitem__, 5)
+ self.assertRaises(IndexError, v.__getitem__, -6)
+
+ # string iteration
+ self.assertEqual([x for x in v], ['h', 'e', 'l', 'l', 'o'])
+
+ def test_variant_split_signature(self):
+ self.assertEqual(GLib.Variant.split_signature('()'), [])
+
+ self.assertEqual(GLib.Variant.split_signature('s'), ['s'])
+
+ self.assertEqual(GLib.Variant.split_signature('as'), ['as'])
+
+ self.assertEqual(GLib.Variant.split_signature('(s)'), ['s'])
+
+ self.assertEqual(GLib.Variant.split_signature('(iso)'), ['i', 's', 'o'])
+
+ self.assertEqual(GLib.Variant.split_signature('(s(ss)i(ii))'),
+ ['s', '(ss)', 'i', '(ii)'])
+
+ self.assertEqual(GLib.Variant.split_signature('(as)'), ['as'])
+
+ self.assertEqual(GLib.Variant.split_signature('(s(ss)iaiaasa(ii))'),
+ ['s', '(ss)', 'i', 'ai', 'aas', 'a(ii)'])
+
+ self.assertEqual(GLib.Variant.split_signature('(a{iv}(ii)((ss)a{s(ss)}))'),
+ ['a{iv}', '(ii)', '((ss)a{s(ss)})'])
+
+ def test_variant_hash(self):
+ v1 = GLib.Variant('s', 'somestring')
+ v2 = GLib.Variant('s', 'somestring')
+ v3 = GLib.Variant('s', 'somestring2')
+
+ self.assertTrue(v2 in set([v1, v3]))
+ self.assertTrue(v2 in frozenset([v1, v3]))
+ self.assertTrue(v2 in {v1: '1', v3: '2'})
+
+ def test_variant_compare(self):
+ # Check if identical GVariant are equal
+
+ def assert_equal(vtype, value):
+ self.assertEqual(GLib.Variant(vtype, value), GLib.Variant(vtype, value))
+
+ def assert_not_equal(vtype1, value1, vtype2, value2):
+ self.assertNotEqual(GLib.Variant(vtype1, value1), GLib.Variant(vtype2, value2))
+
+ numbers = ['y', 'n', 'q', 'i', 'u', 'x', 't', 'h', 'd']
+ for num in numbers:
+ assert_equal(num, 42)
+ assert_not_equal(num, 42, num, 41)
+ assert_not_equal(num, 42, 's', '42')
+
+ assert_equal('s', 'something')
+ assert_not_equal('s', 'something', 's', 'somethingelse')
+ assert_not_equal('s', 'something', 'i', 1234)
+
+ assert_equal('g', 'dustybinqhogx')
+ assert_not_equal('g', 'dustybinqhogx', 'g', 'dustybin')
+ assert_not_equal('g', 'dustybinqhogx', 'i', 1234)
+
+ assert_equal('o', '/dev/null')
+ assert_not_equal('o', '/dev/null', 'o', '/dev/zero')
+ assert_not_equal('o', '/dev/null', 'i', 1234)
+
+ assert_equal('(s)', ('strtuple',))
+ assert_not_equal('(s)', ('strtuple',), '(s)', ('strtuple2',))
+
+ assert_equal('a{si}', {'str': 42})
+ assert_not_equal('a{si}', {'str': 42}, 'a{si}', {'str': 43})
+
+ assert_equal('v', GLib.Variant('i', 42))
+ assert_not_equal('v', GLib.Variant('i', 42), 'v', GLib.Variant('i', 43))
+
+ def test_variant_bool(self):
+ # Check if the GVariant bool matches the unpacked Pythonic bool
+
+ def assert_equals_bool(vtype, value):
+ self.assertEqual(bool(GLib.Variant(vtype, value)), bool(value))
+
+ # simple values
+ assert_equals_bool('b', True)
+ assert_equals_bool('b', False)
+
+ numbers = ['y', 'n', 'q', 'i', 'u', 'x', 't', 'h', 'd']
+ for number in numbers:
+ assert_equals_bool(number, 0)
+ assert_equals_bool(number, 1)
+
+ assert_equals_bool('s', '')
+ assert_equals_bool('g', '')
+ assert_equals_bool('s', 'something')
+ assert_equals_bool('o', '/dev/null')
+ assert_equals_bool('g', 'dustybinqhogx')
+
+ # arrays
+ assert_equals_bool('ab', [True])
+ assert_equals_bool('ab', [False])
+ for number in numbers:
+ assert_equals_bool('a' + number, [])
+ assert_equals_bool('a' + number, [0])
+ assert_equals_bool('as', [])
+ assert_equals_bool('as', [''])
+ assert_equals_bool('ao', [])
+ assert_equals_bool('ao', ['/'])
+ assert_equals_bool('ag', [])
+ assert_equals_bool('ag', [''])
+ assert_equals_bool('aai', [[]])
+
+ # tuples
+ assert_equals_bool('()', ())
+ for number in numbers:
+ assert_equals_bool('(' + number + ')', (0,))
+ assert_equals_bool('(s)', ('',))
+ assert_equals_bool('(o)', ('/',))
+ assert_equals_bool('(g)', ('',))
+ assert_equals_bool('(())', ((),))
+
+ # dictionaries
+ assert_equals_bool('a{si}', {})
+ assert_equals_bool('a{si}', {'': 0})
+
+ # complex types, always True
+ assert_equals_bool('(as)', ([],))
+ assert_equals_bool('a{s(i)}', {'': (0,)})
+
+ # variant types, recursive unpacking
+ assert_equals_bool('v', GLib.Variant('i', 0))
+ assert_equals_bool('v', GLib.Variant('i', 1))
+
+
+class TestPango(unittest.TestCase):
+
+ def test_default_font_description(self):
+ desc = Pango.FontDescription()
+ self.assertEqual(desc.get_variant(), Pango.Variant.NORMAL)
+
+ def test_font_description(self):
+ desc = Pango.FontDescription('monospace')
+ self.assertEqual(desc.get_family(), 'monospace')
+ self.assertEqual(desc.get_variant(), Pango.Variant.NORMAL)
+
+ def test_layout(self):
+ self.assertRaises(TypeError, Pango.Layout)
+ context = Pango.Context()
+ layout = Pango.Layout(context)
+ self.assertEqual(layout.get_context(), context)
+
+ layout.set_markup("Foobar")
+ self.assertEqual(layout.get_text(), "Foobar")
+
class TestGdk(unittest.TestCase):
+ def test_constructor(self):
+ attribute = Gdk.WindowAttr()
+ attribute.window_type = Gdk.WindowType.CHILD
+ attributes_mask = Gdk.WindowAttributesType.X | \
+ Gdk.WindowAttributesType.Y
+ window = Gdk.Window(None, attribute, attributes_mask)
+ self.assertEqual(window.get_window_type(), Gdk.WindowType.CHILD)
+
def test_color(self):
color = Gdk.Color(100, 200, 300)
- self.assertEquals(color.red, 100)
- self.assertEquals(color.green, 200)
- self.assertEquals(color.blue, 300)
+ self.assertEqual(color.red, 100)
+ self.assertEqual(color.green, 200)
+ self.assertEqual(color.blue, 300)
+ self.assertEqual(color, Gdk.Color(100, 200, 300))
+ self.assertNotEqual(color, Gdk.Color(1, 2, 3))
+
+ def test_color_floats(self):
+ self.assertEqual(Gdk.Color(13107, 21845, 65535),
+ Gdk.Color.from_floats(0.2, 1.0 / 3.0, 1.0))
+
+ self.assertEqual(Gdk.Color(13107, 21845, 65535).to_floats(),
+ (0.2, 1.0 / 3.0, 1.0))
+
+ self.assertEqual(Gdk.RGBA(0.2, 1.0 / 3.0, 1.0, 0.5).to_color(),
+ Gdk.Color.from_floats(0.2, 1.0 / 3.0, 1.0))
+
+ self.assertEqual(Gdk.RGBA.from_color(Gdk.Color(13107, 21845, 65535)),
+ Gdk.RGBA(0.2, 1.0 / 3.0, 1.0, 1.0))
+
+ def test_rgba(self):
+ self.assertEqual(Gdk.RGBA, overrides.Gdk.RGBA)
+ rgba = Gdk.RGBA(0.1, 0.2, 0.3, 0.4)
+ self.assertEqual(rgba, Gdk.RGBA(0.1, 0.2, 0.3, 0.4))
+ self.assertNotEqual(rgba, Gdk.RGBA(0.0, 0.2, 0.3, 0.4))
+ self.assertEqual(rgba.red, 0.1)
+ self.assertEqual(rgba.green, 0.2)
+ self.assertEqual(rgba.blue, 0.3)
+ self.assertEqual(rgba.alpha, 0.4)
+ rgba.green = 0.9
+ self.assertEqual(rgba.green, 0.9)
+
+ # Iterator/tuple convsersion
+ self.assertEqual(tuple(Gdk.RGBA(0.1, 0.2, 0.3, 0.4)),
+ (0.1, 0.2, 0.3, 0.4))
+
+ def test_event(self):
+ event = Gdk.Event.new(Gdk.EventType.CONFIGURE)
+ self.assertEqual(event.type, Gdk.EventType.CONFIGURE)
+ self.assertEqual(event.send_event, 0)
+
+ event = Gdk.Event.new(Gdk.EventType.DRAG_MOTION)
+ event.x_root, event.y_root = 0, 5
+ self.assertEqual(event.x_root, 0)
+ self.assertEqual(event.y_root, 5)
+
+ event = Gdk.Event()
+ event.type = Gdk.EventType.SCROLL
+ self.assertRaises(AttributeError, lambda: getattr(event, 'foo_bar'))
+
+ def test_event_structures(self):
+ def button_press_cb(button, event):
+ self.assertTrue(isinstance(event, Gdk.EventButton))
+ self.assertTrue(event.type == Gdk.EventType.BUTTON_PRESS)
+ self.assertEqual(event.send_event, 0)
+ self.assertEqual(event.get_state(), Gdk.ModifierType.CONTROL_MASK)
+ self.assertEqual(event.get_root_coords(), (2, 5))
+
+ event.time = 12345
+ self.assertEqual(event.get_time(), 12345)
+
+ w = Gtk.Window()
+ b = Gtk.Button()
+ b.connect('button-press-event', button_press_cb)
+ w.add(b)
+ w.show_all()
+ Gdk.test_simulate_button(b.get_window(),
+ 2, 5,
+ 0,
+ Gdk.ModifierType.CONTROL_MASK,
+ Gdk.EventType.BUTTON_PRESS)
+
+ def test_cursor(self):
+ self.assertEqual(Gdk.Cursor, overrides.Gdk.Cursor)
+ c = Gdk.Cursor(Gdk.CursorType.WATCH)
+ self.assertNotEqual(c, None)
+ c = Gdk.Cursor(cursor_type=Gdk.CursorType.WATCH)
+ self.assertNotEqual(c, None)
+
+ display_manager = Gdk.DisplayManager.get()
+ display = display_manager.get_default_display()
+
+ test_pixbuf = GdkPixbuf.Pixbuf.new(GdkPixbuf.Colorspace.RGB,
+ False,
+ 8,
+ 5,
+ 10)
+
+ c = Gdk.Cursor(display,
+ test_pixbuf,
+ y=0, x=0)
+
+ self.assertNotEqual(c, None)
+ self.assertRaises(ValueError, Gdk.Cursor, 1, 2, 3)
+
class TestGtk(unittest.TestCase):
- def test_uimanager(self):
- self.assertEquals(Gtk.UIManager, overrides.Gtk.UIManager)
- ui = Gtk.UIManager()
- ui.add_ui_from_string(
-"""
-<ui>
- <menubar name="menubar1"></menubar>
-</ui>
-"""
-)
- menubar = ui.get_widget("/menubar1")
- self.assertEquals(type(menubar), Gtk.MenuBar)
+
+ def test_container(self):
+ box = Gtk.Box()
+ self.assertTrue(isinstance(box, Gtk.Box))
+ self.assertTrue(isinstance(box, Gtk.Container))
+ self.assertTrue(isinstance(box, Gtk.Widget))
+ self.assertTrue(box)
+ label = Gtk.Label()
+ label2 = Gtk.Label()
+ box.add(label)
+ box.add(label2)
+ self.assertTrue(label in box)
+ self.assertTrue(label2 in box)
+ self.assertEqual(len(box), 2)
+ self.assertTrue(box)
+ l = [x for x in box]
+ self.assertEqual(l, [label, label2])
+
+ def test_actions(self):
+ self.assertEqual(Gtk.Action, overrides.Gtk.Action)
+ self.assertRaises(TypeError, Gtk.Action)
+ action = Gtk.Action("test", "Test", "Test Action", Gtk.STOCK_COPY)
+ self.assertEqual(action.get_name(), "test")
+ self.assertEqual(action.get_label(), "Test")
+ self.assertEqual(action.get_tooltip(), "Test Action")
+ self.assertEqual(action.get_stock_id(), Gtk.STOCK_COPY)
+
+ self.assertEqual(Gtk.RadioAction, overrides.Gtk.RadioAction)
+ self.assertRaises(TypeError, Gtk.RadioAction)
+ action = Gtk.RadioAction("test", "Test", "Test Action", Gtk.STOCK_COPY, 1)
+ self.assertEqual(action.get_name(), "test")
+ self.assertEqual(action.get_label(), "Test")
+ self.assertEqual(action.get_tooltip(), "Test Action")
+ self.assertEqual(action.get_stock_id(), Gtk.STOCK_COPY)
+ self.assertEqual(action.get_current_value(), 1)
def test_actiongroup(self):
- self.assertEquals(Gtk.ActionGroup, overrides.Gtk.ActionGroup)
- action_group = Gtk.ActionGroup (name = 'TestActionGroup')
+ self.assertEqual(Gtk.ActionGroup, overrides.Gtk.ActionGroup)
+ self.assertRaises(TypeError, Gtk.ActionGroup)
+
+ action_group = Gtk.ActionGroup(name='TestActionGroup')
callback_data = "callback data"
def test_action_callback_data(action, user_data):
- self.assertEquals(user_data, callback_data);
+ self.assertEqual(user_data, callback_data)
def test_radio_action_callback_data(action, current, user_data):
- self.assertEquals(user_data, callback_data);
+ self.assertEqual(user_data, callback_data)
- action_group.add_actions ([
+ action_group.add_actions([
('test-action1', None, 'Test Action 1',
None, None, test_action_callback_data),
('test-action2', Gtk.STOCK_COPY, 'Test Action 2',
- None, None, test_action_callback_data)], callback_data)
+ None, None, test_action_callback_data)], callback_data)
action_group.add_toggle_actions([
('test-toggle-action1', None, 'Test Toggle Action 1',
None, None, test_action_callback_data, False),
('test-toggle-action2', Gtk.STOCK_COPY, 'Test Toggle Action 2',
- None, None, test_action_callback_data, True)], callback_data)
+ None, None, test_action_callback_data, True)], callback_data)
action_group.add_radio_actions([
('test-radio-action1', None, 'Test Radio Action 1'),
('test-radio-action2', Gtk.STOCK_COPY, 'Test Radio Action 2')], 1,
test_radio_action_callback_data,
callback_data)
- expected_results = (('test-action1', Gtk.Action),
+ expected_results = [('test-action1', Gtk.Action),
('test-action2', Gtk.Action),
('test-toggle-action1', Gtk.ToggleAction),
('test-toggle-action2', Gtk.ToggleAction),
('test-radio-action1', Gtk.RadioAction),
- ('test-radio-action2', Gtk.RadioAction))
+ ('test-radio-action2', Gtk.RadioAction)]
- for action, cmp in zip(action_group.list_actions(), expected_results):
+ for action in action_group.list_actions():
a = (action.get_name(), type(action))
- self.assertEquals(a,cmp)
+ self.assertTrue(a in expected_results)
+ expected_results.remove(a)
action.activate()
+ def test_uimanager(self):
+ self.assertEqual(Gtk.UIManager, overrides.Gtk.UIManager)
+ ui = Gtk.UIManager()
+ ui.add_ui_from_string("""<ui>
+ <menubar name="menubar1"></menubar>
+</ui>
+"""
+)
+ menubar = ui.get_widget("/menubar1")
+ self.assertEqual(type(menubar), Gtk.MenuBar)
+
+ ag = Gtk.ActionGroup(name="ag1")
+ ui.insert_action_group(ag)
+ ag2 = Gtk.ActionGroup(name="ag2")
+ ui.insert_action_group(ag2)
+ groups = ui.get_action_groups()
+ self.assertEqual(ag, groups[-2])
+ self.assertEqual(ag2, groups[-1])
+
def test_builder(self):
- self.assertEquals(Gtk.Builder, overrides.Gtk.Builder)
+ self.assertEqual(Gtk.Builder, overrides.Gtk.Builder)
class SignalTest(GObject.GObject):
__gtype_name__ = "GIOverrideSignalTest"
__gsignals__ = {
- "test-signal": (GObject.SIGNAL_RUN_FIRST,
- GObject.TYPE_NONE,
+ "test-signal": (GObject.SignalFlags.RUN_FIRST,
+ None,
[]),
}
-
class SignalCheck:
def __init__(self):
self.sentinel = 0
+ self.after_sentinel = 0
def on_signal_1(self, *args):
self.sentinel += 1
+ self.after_sentinel += 1
def on_signal_3(self, *args):
self.sentinel += 3
+ def on_signal_after(self, *args):
+ if self.after_sentinel == 1:
+ self.after_sentinel += 1
+
signal_checker = SignalCheck()
builder = Gtk.Builder()
# add object1 to the builder
- builder.add_from_string(
-"""
+ builder.add_from_string("""
<interface>
<object class="GIOverrideSignalTest" id="object1">
+ <signal name="test-signal" after="yes" handler="on_signal_after" />
<signal name="test-signal" handler="on_signal_1" />
</object>
</interface>
""")
# only add object3 to the builder
- builder.add_objects_from_string(
-"""
+ builder.add_objects_from_string("""
<interface>
<object class="GIOverrideSignalTest" id="object2">
<signal name="test-signal" handler="on_signal_2" />
<signal name="test-signal" handler="on_signal_4" />
</object>
</interface>
-
-""",
- ['object3'])
+""", ['object3'])
# hook up signals
builder.connect_signals(signal_checker)
# call their notify signals and check sentinel
objects = builder.get_objects()
- self.assertEquals(len(objects), 2)
+ self.assertEqual(len(objects), 2)
for obj in objects:
obj.emit('test-signal')
- self.assertEquals(signal_checker.sentinel, 4)
+ self.assertEqual(signal_checker.sentinel, 4)
+ self.assertEqual(signal_checker.after_sentinel, 2)
+
+ def test_window(self):
+ # standard Window
+ w = Gtk.Window()
+ self.assertEqual(w.get_property('type'), Gtk.WindowType.TOPLEVEL)
+
+ # type works as keyword argument
+ w = Gtk.Window(type=Gtk.WindowType.POPUP)
+ self.assertEqual(w.get_property('type'), Gtk.WindowType.POPUP)
+
+ # pygtk compatible positional argument
+ w = Gtk.Window(Gtk.WindowType.POPUP)
+ self.assertEqual(w.get_property('type'), Gtk.WindowType.POPUP)
+
+ class TestWindow(Gtk.Window):
+ __gtype_name__ = "TestWindow"
+
+ # works from builder
+ builder = Gtk.Builder()
+ builder.add_from_string('''
+<interface>
+ <object class="GtkWindow" id="win">
+ <property name="type">popup</property>
+ </object>
+ <object class="TestWindow" id="testwin">
+ </object>
+ <object class="TestWindow" id="testpop">
+ <property name="type">popup</property>
+ </object>
+</interface>''')
+ self.assertEqual(builder.get_object('win').get_property('type'),
+ Gtk.WindowType.POPUP)
+ self.assertEqual(builder.get_object('testwin').get_property('type'),
+ Gtk.WindowType.TOPLEVEL)
+ self.assertEqual(builder.get_object('testpop').get_property('type'),
+ Gtk.WindowType.POPUP)
+
+ def test_dialogs(self):
+ self.assertEqual(Gtk.Dialog, overrides.Gtk.Dialog)
+ self.assertEqual(Gtk.AboutDialog, overrides.Gtk.AboutDialog)
+ self.assertEqual(Gtk.MessageDialog, overrides.Gtk.MessageDialog)
+ self.assertEqual(Gtk.ColorSelectionDialog, overrides.Gtk.ColorSelectionDialog)
+ self.assertEqual(Gtk.FileChooserDialog, overrides.Gtk.FileChooserDialog)
+ self.assertEqual(Gtk.FontSelectionDialog, overrides.Gtk.FontSelectionDialog)
+ self.assertEqual(Gtk.RecentChooserDialog, overrides.Gtk.RecentChooserDialog)
+
+ # Gtk.Dialog
+ dialog = Gtk.Dialog(title='Foo',
+ flags=Gtk.DialogFlags.MODAL,
+ buttons=('test-button1', 1))
+ self.assertTrue(isinstance(dialog, Gtk.Dialog))
+ self.assertTrue(isinstance(dialog, Gtk.Window))
+
+ dialog.add_buttons('test-button2', 2, Gtk.STOCK_CLOSE, Gtk.ResponseType.CLOSE)
+
+ self.assertEqual('Foo', dialog.get_title())
+ self.assertTrue(dialog.get_modal())
+ button = dialog.get_widget_for_response(1)
+ self.assertEqual('test-button1', button.get_label())
+ button = dialog.get_widget_for_response(2)
+ self.assertEqual('test-button2', button.get_label())
+ button = dialog.get_widget_for_response(Gtk.ResponseType.CLOSE)
+ self.assertEqual(Gtk.STOCK_CLOSE, button.get_label())
- def test_dialog(self):
- self.assertEquals(Gtk.Dialog, overrides.Gtk.Dialog)
- dialog = Gtk.Dialog (title='Foo',
- flags=Gtk.DialogFlags.MODAL,
- buttons=('test-button1', 1))
+ # Gtk.AboutDialog
+ dialog = Gtk.AboutDialog()
+ self.assertTrue(isinstance(dialog, Gtk.Dialog))
+ self.assertTrue(isinstance(dialog, Gtk.Window))
- dialog.add_buttons ('test-button2', 2, Gtk.STOCK_CLOSE, Gtk.ResponseType.CLOSE)
+ # Gtk.MessageDialog
+ dialog = Gtk.MessageDialog(title='message dialog test',
+ flags=Gtk.DialogFlags.MODAL,
+ buttons=Gtk.ButtonsType.OK,
+ message_format='dude!')
+ self.assertTrue(isinstance(dialog, Gtk.Dialog))
+ self.assertTrue(isinstance(dialog, Gtk.Window))
- self.assertEquals('Foo', dialog.get_title())
+ self.assertEqual('message dialog test', dialog.get_title())
self.assertTrue(dialog.get_modal())
- button = dialog.get_widget_for_response (1)
- self.assertEquals('test-button1', button.get_label())
- button = dialog.get_widget_for_response (2)
- self.assertEquals('test-button2', button.get_label())
- button = dialog.get_widget_for_response (Gtk.ResponseType.CLOSE)
- self.assertEquals(Gtk.STOCK_CLOSE, button.get_label())
-
- def test_tree_api(self):
- self.assertEquals(Gtk.TreeStore, overrides.Gtk.TreeStore)
- self.assertEquals(Gtk.ListStore, overrides.Gtk.ListStore)
- self.assertEquals(Gtk.TreeViewColumn, overrides.Gtk.TreeViewColumn)
-
- class TestClass(GObject.GObject):
- __gtype_name__ = "GIOverrideTreeAPITest"
-
- def __init__(self, tester, int_value, string_value):
- super(TestClass, self).__init__()
- self.tester = tester
- self.int_value = int_value
- self.string_value = string_value
-
- def check(self, int_value, string_value):
- self.tester.assertEquals(int_value, self.int_value)
- self.tester.assertEquals(string_value, self.string_value)
-
- # check TreeStore
- # FIXME: we should be able to pass strings like 'TestClass'
- tree_store = Gtk.TreeStore(int, str, TestClass)
+ text = dialog.get_property('text')
+ self.assertEqual('dude!', text)
+
+ dialog.format_secondary_text('2nd text')
+ self.assertEqual(dialog.get_property('secondary-text'), '2nd text')
+ self.assertFalse(dialog.get_property('secondary-use-markup'))
+
+ dialog.format_secondary_markup('2nd markup')
+ self.assertEqual(dialog.get_property('secondary-text'), '2nd markup')
+ self.assertTrue(dialog.get_property('secondary-use-markup'))
+
+ # Gtk.ColorSelectionDialog
+ dialog = Gtk.ColorSelectionDialog("color selection dialog test")
+ self.assertTrue(isinstance(dialog, Gtk.Dialog))
+ self.assertTrue(isinstance(dialog, Gtk.Window))
+ self.assertEqual('color selection dialog test', dialog.get_title())
+
+ # Gtk.FileChooserDialog
+ dialog = Gtk.FileChooserDialog(title='file chooser dialog test',
+ buttons=('test-button1', 1),
+ action=Gtk.FileChooserAction.SAVE)
+ self.assertTrue(isinstance(dialog, Gtk.Dialog))
+ self.assertTrue(isinstance(dialog, Gtk.Window))
+
+ dialog.add_buttons('test-button2', 2, Gtk.STOCK_CLOSE, Gtk.ResponseType.CLOSE)
+ self.assertEqual('file chooser dialog test', dialog.get_title())
+ button = dialog.get_widget_for_response(1)
+ self.assertEqual('test-button1', button.get_label())
+ button = dialog.get_widget_for_response(2)
+ self.assertEqual('test-button2', button.get_label())
+ button = dialog.get_widget_for_response(Gtk.ResponseType.CLOSE)
+ self.assertEqual(Gtk.STOCK_CLOSE, button.get_label())
+ action = dialog.get_property('action')
+ self.assertEqual(Gtk.FileChooserAction.SAVE, action)
+
+ # Gtk.FontSelectionDialog
+ dialog = Gtk.ColorSelectionDialog("font selection dialog test")
+ self.assertTrue(isinstance(dialog, Gtk.Dialog))
+ self.assertTrue(isinstance(dialog, Gtk.Window))
+ self.assertEqual('font selection dialog test', dialog.get_title())
+
+ # Gtk.RecentChooserDialog
+ test_manager = Gtk.RecentManager()
+ dialog = Gtk.RecentChooserDialog(title='recent chooser dialog test',
+ buttons=('test-button1', 1),
+ manager=test_manager)
+ self.assertTrue(isinstance(dialog, Gtk.Dialog))
+ self.assertTrue(isinstance(dialog, Gtk.Window))
+
+ dialog.add_buttons('test-button2', 2, Gtk.STOCK_CLOSE, Gtk.ResponseType.CLOSE)
+ self.assertEqual('recent chooser dialog test', dialog.get_title())
+ button = dialog.get_widget_for_response(1)
+ self.assertEqual('test-button1', button.get_label())
+ button = dialog.get_widget_for_response(2)
+ self.assertEqual('test-button2', button.get_label())
+ button = dialog.get_widget_for_response(Gtk.ResponseType.CLOSE)
+ self.assertEqual(Gtk.STOCK_CLOSE, button.get_label())
+
+ class TestClass(GObject.GObject):
+ __gtype_name__ = "GIOverrideTreeAPITest"
+
+ def __init__(self, tester, int_value, string_value):
+ super(TestGtk.TestClass, self).__init__()
+ self.tester = tester
+ self.int_value = int_value
+ self.string_value = string_value
+
+ def check(self, int_value, string_value):
+ self.tester.assertEqual(int_value, self.int_value)
+ self.tester.assertEqual(string_value, self.string_value)
+
+ def test_tree_store(self):
+ self.assertEqual(Gtk.TreeStore, overrides.Gtk.TreeStore)
+ self.assertEqual(Gtk.ListStore, overrides.Gtk.ListStore)
+ self.assertEqual(Gtk.TreeModel, overrides.Gtk.TreeModel)
+ self.assertEqual(Gtk.TreeViewColumn, overrides.Gtk.TreeViewColumn)
+
+ class TestPyObject(object):
+ pass
+
+ test_pyobj = TestPyObject()
+ test_pydict = {1: 1, "2": 2, "3": "3"}
+ test_pylist = [1, "2", "3"]
+ tree_store = Gtk.TreeStore(int,
+ 'gchararray',
+ TestGtk.TestClass,
+ GObject.TYPE_PYOBJECT,
+ object,
+ object,
+ object,
+ bool,
+ bool,
+ GObject.TYPE_UINT,
+ GObject.TYPE_ULONG,
+ GObject.TYPE_INT64,
+ GObject.TYPE_UINT64,
+ GObject.TYPE_UCHAR,
+ GObject.TYPE_CHAR)
+
parent = None
- for i in xrange(100):
+ for i in range(97):
label = 'this is child #%d' % i
- testobj = TestClass(self, i, label)
- parent = tree_store.append(parent, (i, label, testobj))
+ testobj = TestGtk.TestClass(self, i, label)
+ parent = tree_store.append(parent, (i,
+ label,
+ testobj,
+ testobj,
+ test_pyobj,
+ test_pydict,
+ test_pylist,
+ i % 2,
+ bool(i % 2),
+ i,
+ GObject.G_MAXULONG,
+ GObject.G_MININT64,
+ 0xffffffffffffffff,
+ 254,
+ _bytes('a')
+ ))
+ # test set
+ parent = tree_store.append(parent)
+ i = 97
+ label = 'this is child #%d' % i
+ testobj = TestGtk.TestClass(self, i, label)
+ tree_store.set(parent, 0, i,
+ 2, testobj,
+ 1, label,
+ 3, testobj,
+ 4, test_pyobj,
+ 5, test_pydict,
+ 6, test_pylist,
+ 7, i % 2,
+ 8, bool(i % 2),
+ 9, i,
+ 10, GObject.G_MAXULONG,
+ 11, GObject.G_MININT64,
+ 12, 0xffffffffffffffff,
+ 13, 254,
+ 14, _bytes('a'))
+
+ parent = tree_store.append(parent)
+ i = 98
+ label = 'this is child #%d' % i
+ testobj = TestGtk.TestClass(self, i, label)
+ tree_store.set(parent, {0: i,
+ 2: testobj,
+ 1: label,
+ 3: testobj,
+ 4: test_pyobj,
+ 5: test_pydict,
+ 6: test_pylist,
+ 7: i % 2,
+ 8: bool(i % 2),
+ 9: i,
+ 10: GObject.G_MAXULONG,
+ 11: GObject.G_MININT64,
+ 12: 0xffffffffffffffff,
+ 13: 254,
+ 14: _bytes('a')})
+
+ parent = tree_store.append(parent)
+ i = 99
+ label = 'this is child #%d' % i
+ testobj = TestGtk.TestClass(self, i, label)
+ tree_store.set(parent, (0, 2, 1, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14),
+ (i,
+ testobj,
+ label,
+ testobj,
+ test_pyobj,
+ test_pydict,
+ test_pylist,
+ i % 2,
+ bool(i % 2),
+ i,
+ GObject.G_MAXULONG,
+ GObject.G_MININT64,
+ 0xffffffffffffffff,
+ 254,
+ _bytes('a')))
+
+ # len gets the number of children in the root node
+ # since we kept appending to the previous node
+ # there should only be one child of the root
+ self.assertEqual(len(tree_store), 1)
# walk the tree to see if the values were stored correctly
- iter = Gtk.TreeIter()
parent = None
i = 0
- while tree_store.iter_children(iter, parent):
- i = tree_store.get_value(iter, 0)
- s = tree_store.get_value(iter, 1)
- obj = tree_store.get_value(iter, 2)
- obj.check(i, s)
- parent = iter
- iter = Gtk.TreeIter()
-
- self.assertEquals(i, 99)
-
- # check ListStore
- # FIXME: we should be able to pass strings like 'TestClass'
- list_store = Gtk.ListStore(int, str, TestClass)
- for i in xrange(100):
+
+ treeiter = tree_store.iter_children(parent)
+ while treeiter:
+ i = tree_store.get_value(treeiter, 0)
+ s = tree_store.get_value(treeiter, 1)
+ obj = tree_store.get_value(treeiter, 2)
+ obj.check(i, s)
+ obj2 = tree_store.get_value(treeiter, 3)
+ self.assertEqual(obj, obj2)
+
+ pyobj = tree_store.get_value(treeiter, 4)
+ self.assertEqual(pyobj, test_pyobj)
+ pydict = tree_store.get_value(treeiter, 5)
+ self.assertEqual(pydict, test_pydict)
+ pylist = tree_store.get_value(treeiter, 6)
+ self.assertEqual(pylist, test_pylist)
+
+ bool_1 = tree_store.get_value(treeiter, 7)
+ bool_2 = tree_store.get_value(treeiter, 8)
+ self.assertEqual(bool_1, bool_2)
+ self.assertTrue(isinstance(bool_1, bool))
+ self.assertTrue(isinstance(bool_2, bool))
+
+ uint_ = tree_store.get_value(treeiter, 9)
+ self.assertEqual(uint_, i)
+ ulong_ = tree_store.get_value(treeiter, 10)
+ self.assertEqual(ulong_, GObject.G_MAXULONG)
+ int64_ = tree_store.get_value(treeiter, 11)
+ self.assertEqual(int64_, GObject.G_MININT64)
+ uint64_ = tree_store.get_value(treeiter, 12)
+ self.assertEqual(uint64_, 0xffffffffffffffff)
+ uchar_ = tree_store.get_value(treeiter, 13)
+ self.assertEqual(ord(uchar_), 254)
+ char_ = tree_store.get_value(treeiter, 14)
+ self.assertEqual(char_, 'a')
+
+ parent = treeiter
+ treeiter = tree_store.iter_children(parent)
+
+ self.assertEqual(i, 99)
+
+ def test_tree_store_signals(self):
+ tree_store = Gtk.TreeStore(int, bool)
+
+ def on_row_inserted(tree_store, tree_path, tree_iter, signal_list):
+ signal_list.append('row-inserted')
+
+ def on_row_changed(tree_store, tree_path, tree_iter, signal_list):
+ signal_list.append('row-changed')
+
+ signals = []
+ tree_store.connect('row-inserted', on_row_inserted, signals)
+ tree_store.connect('row-changed', on_row_changed, signals)
+
+ # adding rows with and without data should only call one signal
+ tree_store.append(None, (0, False))
+ self.assertEqual(signals, ['row-inserted'])
+
+ signals.pop()
+ tree_store.append(None)
+ self.assertEqual(signals, ['row-inserted'])
+
+ signals.pop()
+ tree_store.prepend(None, (0, False))
+ self.assertEqual(signals, ['row-inserted'])
+
+ signals.pop()
+ tree_store.prepend(None)
+ self.assertEqual(signals, ['row-inserted'])
+
+ signals.pop()
+ tree_store.insert(None, 1, (0, False))
+ self.assertEqual(signals, ['row-inserted'])
+
+ signals.pop()
+ tree_store.insert(None, 1)
+ self.assertEqual(signals, ['row-inserted'])
+
+ def test_list_store(self):
+ class TestPyObject(object):
+ pass
+
+ test_pyobj = TestPyObject()
+ test_pydict = {1: 1, "2": 2, "3": "3"}
+ test_pylist = [1, "2", "3"]
+
+ list_store = Gtk.ListStore(int, str, 'GIOverrideTreeAPITest', object, object, object, bool, bool)
+ for i in range(1, 93):
label = 'this is row #%d' % i
- testobj = TestClass(self, i, label)
- parent = list_store.append((i, label, testobj))
+ testobj = TestGtk.TestClass(self, i, label)
+ list_store.append((i,
+ label,
+ testobj,
+ test_pyobj,
+ test_pydict,
+ test_pylist,
+ i % 2,
+ bool(i % 2)))
+
+ i = 93
+ label = _unicode('this is row #93')
+ treeiter = list_store.append()
+ list_store.set_value(treeiter, 0, i)
+ list_store.set_value(treeiter, 1, label)
+ list_store.set_value(treeiter, 2, TestGtk.TestClass(self, i, label))
+ list_store.set_value(treeiter, 3, test_pyobj)
+ list_store.set_value(treeiter, 4, test_pydict)
+ list_store.set_value(treeiter, 5, test_pylist)
+ list_store.set_value(treeiter, 6, 1)
+ list_store.set_value(treeiter, 7, True)
+
+ # test prepend
+ label = 'this is row #0'
+ list_store.prepend((0,
+ label,
+ TestGtk.TestClass(self, 0, label),
+ test_pyobj,
+ test_pydict,
+ test_pylist,
+ 0,
+ False))
+
+ # test automatic unicode->str conversion
+ i = 94
+ label = _unicode('this is row #94')
+ treeiter = list_store.append((i,
+ label,
+ TestGtk.TestClass(self, i, label),
+ test_pyobj,
+ test_pydict,
+ test_pylist,
+ 0,
+ False))
+
+ # add sorted items out of order to test insert* apis
+ # also test sending in None to not set a column
+ i = 97
+ label = 'this is row #97'
+ treeiter = list_store.append((None,
+ None,
+ None,
+ test_pyobj,
+ None,
+ test_pylist,
+ 1,
+ None))
+
+ list_store.set_value(treeiter, 0, i)
+ list_store.set_value(treeiter, 1, label)
+ list_store.set_value(treeiter, 2, TestGtk.TestClass(self, i, label))
+ list_store.set_value(treeiter, 4, test_pydict)
+ list_store.set_value(treeiter, 7, True)
+
+ # this should append
+ i = 99
+ label = 'this is row #99'
+ list_store.insert(9999, (i,
+ label,
+ TestGtk.TestClass(self, i, label),
+ test_pyobj,
+ test_pydict,
+ test_pylist,
+ 1,
+ True))
+
+ i = 96
+ label = 'this is row #96'
+ list_store.insert_before(treeiter, (i,
+ label,
+ TestGtk.TestClass(self, i, label),
+ test_pyobj,
+ test_pydict,
+ test_pylist,
+ 0,
+ False))
+
+ i = 98
+ label = 'this is row #98'
+ list_store.insert_after(treeiter, (i,
+ label,
+ TestGtk.TestClass(self, i, label),
+ test_pyobj,
+ test_pydict,
+ test_pylist,
+ 0,
+ False))
+
+ i = 95
+ label = 'this is row #95'
+ list_store.insert(95, (i,
+ label,
+ TestGtk.TestClass(self, i, label),
+ test_pyobj,
+ test_pydict,
+ test_pylist,
+ 1,
+ True))
+
+ i = 100
+ label = 'this is row #100'
+ treeiter = list_store.append()
+ list_store.set(treeiter, 1, label,
+ 0, i,
+ 2, TestGtk.TestClass(self, i, label),
+ 3, test_pyobj,
+ 4, test_pydict,
+ 5, test_pylist,
+ 6, 0,
+ 7, False)
+ i = 101
+ label = 'this is row #101'
+ treeiter = list_store.append()
+ list_store.set(treeiter, {1: label,
+ 0: i,
+ 2: TestGtk.TestClass(self, i, label),
+ 3: test_pyobj,
+ 4: test_pydict,
+ 5: test_pylist,
+ 6: 1,
+ 7: True})
+ i = 102
+ label = 'this is row #102'
+ treeiter = list_store.append()
+ list_store.set(treeiter, (1, 0, 2, 3, 4, 5, 6, 7),
+ (label,
+ i,
+ TestGtk.TestClass(self, i, label),
+ test_pyobj,
+ test_pydict,
+ test_pylist,
+ 0,
+ False))
+
+ self.assertEqual(len(list_store), 103)
# walk the list to see if the values were stored correctly
- iter = Gtk.TreeIter()
i = 0
- has_more = list_store.get_iter_first(iter)
- while has_more:
- i = list_store.get_value(iter, 0)
- s = list_store.get_value(iter, 1)
- obj = list_store.get_value(iter, 2)
- obj.check(i, s)
- has_more = list_store.iter_next(iter)
+ treeiter = list_store.get_iter_first()
+
+ counter = 0
+ while treeiter:
+ i = list_store.get_value(treeiter, 0)
+ self.assertEqual(i, counter)
+ s = list_store.get_value(treeiter, 1)
+ obj = list_store.get_value(treeiter, 2)
+ obj.check(i, s)
+
+ pyobj = list_store.get_value(treeiter, 3)
+ self.assertEqual(pyobj, test_pyobj)
+ pydict = list_store.get_value(treeiter, 4)
+ self.assertEqual(pydict, test_pydict)
+ pylist = list_store.get_value(treeiter, 5)
+ self.assertEqual(pylist, test_pylist)
+
+ bool_1 = list_store.get_value(treeiter, 6)
+ bool_2 = list_store.get_value(treeiter, 7)
+ self.assertEqual(bool_1, bool_2)
+ self.assertTrue(isinstance(bool_1, bool))
+ self.assertTrue(isinstance(bool_2, bool))
+
+ treeiter = list_store.iter_next(treeiter)
+
+ counter += 1
+
+ self.assertEqual(i, 102)
+
+ def test_list_store_sort(self):
+ def comp1(model, row1, row2, user_data):
+ v1 = model[row1][1]
+ v2 = model[row2][1]
+
+ # make "m" smaller than anything else
+ if v1.startswith('m') and not v2.startswith('m'):
+ return -1
+ if v2.startswith('m') and not v1.startswith('m'):
+ return 1
+ return (v1 > v2) - (v1 < v2)
+
+ list_store = Gtk.ListStore(int, str)
+ list_store.set_sort_func(2, comp1, None)
+ list_store.append((1, 'apples'))
+ list_store.append((3, 'oranges'))
+ list_store.append((2, 'mango'))
+
+ # not sorted yet, should be original order
+ self.assertEqual([list(i) for i in list_store],
+ [[1, 'apples'], [3, 'oranges'], [2, 'mango']])
+
+ # sort with our custom function
+ list_store.set_sort_column_id(2, Gtk.SortType.ASCENDING)
+ self.assertEqual([list(i) for i in list_store],
+ [[2, 'mango'], [1, 'apples'], [3, 'oranges']])
+
+ list_store.set_sort_column_id(2, Gtk.SortType.DESCENDING)
+ self.assertEqual([list(i) for i in list_store],
+ [[3, 'oranges'], [1, 'apples'], [2, 'mango']])
+
+ def test_list_store_signals(self):
+ list_store = Gtk.ListStore(int, bool)
+
+ def on_row_inserted(list_store, tree_path, tree_iter, signal_list):
+ signal_list.append('row-inserted')
+
+ def on_row_changed(list_store, tree_path, tree_iter, signal_list):
+ signal_list.append('row-changed')
+
+ signals = []
+ list_store.connect('row-inserted', on_row_inserted, signals)
+ list_store.connect('row-changed', on_row_changed, signals)
+
+ # adding rows with and without data should only call one signal
+ list_store.append((0, False))
+ self.assertEqual(signals, ['row-inserted'])
+
+ signals.pop()
+ list_store.append()
+ self.assertEqual(signals, ['row-inserted'])
+
+ signals.pop()
+ list_store.prepend((0, False))
+ self.assertEqual(signals, ['row-inserted'])
+
+ signals.pop()
+ list_store.prepend()
+ self.assertEqual(signals, ['row-inserted'])
+
+ signals.pop()
+ list_store.insert(1, (0, False))
+ self.assertEqual(signals, ['row-inserted'])
+
+ signals.pop()
+ list_store.insert(1)
+ self.assertEqual(signals, ['row-inserted'])
+
+ def test_tree_path(self):
+ p1 = Gtk.TreePath()
+ p2 = Gtk.TreePath.new_first()
+ self.assertEqual(p1, p2)
+ self.assertEqual(str(p1), '0')
+ p1 = Gtk.TreePath(2)
+ p2 = Gtk.TreePath.new_from_string('2')
+ self.assertEqual(p1, p2)
+ self.assertEqual(str(p1), '2')
+ p1 = Gtk.TreePath('1:2:3')
+ p2 = Gtk.TreePath.new_from_string('1:2:3')
+ self.assertEqual(p1, p2)
+ self.assertEqual(str(p1), '1:2:3')
+ p1 = Gtk.TreePath((1, 2, 3))
+ p2 = Gtk.TreePath.new_from_string('1:2:3')
+ self.assertEqual(p1, p2)
+ self.assertEqual(str(p1), '1:2:3')
+ self.assertNotEqual(p1, None)
+ self.assertTrue(p1 > None)
+ self.assertTrue(p1 >= None)
+ self.assertFalse(p1 < None)
+ self.assertFalse(p1 <= None)
+
+ self.assertEqual(tuple(p1), (1, 2, 3))
+
+ def test_tree_model(self):
+ tree_store = Gtk.TreeStore(int, str)
+
+ self.assertTrue(tree_store)
+ self.assertEqual(len(tree_store), 0)
+ self.assertEqual(tree_store.get_iter_first(), None)
+
+ def get_by_index(row, col=None):
+ if col:
+ return tree_store[row][col]
+ else:
+ return tree_store[row]
+
+ self.assertRaises(TypeError, get_by_index, None)
+ self.assertRaises(TypeError, get_by_index, "")
+ self.assertRaises(TypeError, get_by_index, ())
+
+ self.assertRaises(IndexError, get_by_index, "0")
+ self.assertRaises(IndexError, get_by_index, 0)
+ self.assertRaises(IndexError, get_by_index, (0,))
+
+ self.assertRaises(ValueError, tree_store.get_iter, "0")
+ self.assertRaises(ValueError, tree_store.get_iter, 0)
+ self.assertRaises(ValueError, tree_store.get_iter, (0,))
+
+ self.assertRaises(ValueError, tree_store.get_iter_from_string, "0")
+
+ for row in tree_store:
+ self.fail("Should not be reached")
+
+ class DerivedIntType(int):
+ pass
+
+ class DerivedStrType(str):
+ pass
+
+ for i in range(100):
+ label = 'this is row #%d' % i
+ parent = tree_store.append(None, (DerivedIntType(i), DerivedStrType(label),))
+ self.assertNotEqual(parent, None)
+ for j in range(20):
+ label = 'this is child #%d of node #%d' % (j, i)
+ child = tree_store.append(parent, (j, label,))
+ self.assertNotEqual(child, None)
+
+ self.assertTrue(tree_store)
+ self.assertEqual(len(tree_store), 100)
+
+ self.assertEqual(tree_store.iter_previous(tree_store.get_iter(0)), None)
+
+ for i, row in enumerate(tree_store):
+ self.assertEqual(row.model, tree_store)
+ self.assertEqual(row.parent, None)
+
+ self.assertEqual(tree_store[i].path, row.path)
+ self.assertEqual(tree_store[str(i)].path, row.path)
+ self.assertEqual(tree_store[(i,)].path, row.path)
+
+ self.assertEqual(tree_store[i][0], i)
+ self.assertEqual(tree_store[i][1], "this is row #%d" % i)
+
+ aiter = tree_store.get_iter(i)
+ self.assertEqual(tree_store.get_path(aiter), row.path)
+
+ aiter = tree_store.get_iter(str(i))
+ self.assertEqual(tree_store.get_path(aiter), row.path)
+
+ aiter = tree_store.get_iter((i,))
+ self.assertEqual(tree_store.get_path(aiter), row.path)
+
+ self.assertEqual(tree_store.iter_parent(aiter), row.parent)
+
+ next = tree_store.iter_next(aiter)
+ if i < len(tree_store) - 1:
+ self.assertEqual(tree_store.get_path(next), row.next.path)
+ self.assertEqual(tree_store.get_path(tree_store.iter_previous(next)),
+ tree_store.get_path(aiter))
+ else:
+ self.assertEqual(next, None)
+
+ self.assertEqual(tree_store.iter_n_children(row.iter), 20)
+
+ child = tree_store.iter_children(row.iter)
+ for j, childrow in enumerate(row.iterchildren()):
+ child_path = tree_store.get_path(child)
+ self.assertEqual(childrow.path, child_path)
+ self.assertEqual(childrow.parent.path, row.path)
+ self.assertEqual(childrow.path, tree_store[child].path)
+ self.assertEqual(childrow.path, tree_store[child_path].path)
+
+ self.assertEqual(childrow[0], tree_store[child][0])
+ self.assertEqual(childrow[0], j)
+ self.assertEqual(childrow[1], tree_store[child][1])
+ self.assertEqual(childrow[1], 'this is child #%d of node #%d' % (j, i))
+
+ self.assertRaises(IndexError, get_by_index, child, 2)
+
+ tree_store[child][1] = 'this was child #%d of node #%d' % (j, i)
+ self.assertEqual(childrow[1], 'this was child #%d of node #%d' % (j, i))
+
+ nth_child = tree_store.iter_nth_child(row.iter, j)
+ self.assertEqual(childrow.path, tree_store.get_path(nth_child))
+
+ childrow2 = tree_store["%d:%d" % (i, j)]
+ self.assertEqual(childrow.path, childrow2.path)
+
+ childrow2 = tree_store[(i, j,)]
+ self.assertEqual(childrow.path, childrow2.path)
+
+ child = tree_store.iter_next(child)
+ if j < 19:
+ self.assertEqual(childrow.next.path, tree_store.get_path(child))
+ else:
+ self.assertEqual(child, childrow.next)
+ self.assertEqual(child, None)
+
+ self.assertEqual(j, 19)
+
+ self.assertEqual(i, 99)
+
+ # negative indices
+ for i in range(-1, -100, -1):
+ i_real = i + 100
+ self.assertEqual(tree_store[i][0], i_real)
+
+ row = tree_store[i]
+ for j in range(-1, -20, -1):
+ j_real = j + 20
+ path = (i_real, j_real,)
+
+ self.assertEqual(tree_store[path][-2], j_real)
+
+ label = 'this was child #%d of node #%d' % (j_real, i_real)
+ self.assertEqual(tree_store[path][-1], label)
+
+ new_label = 'this still is child #%d of node #%d' % (j_real, i_real)
+ tree_store[path][-1] = new_label
+ self.assertEqual(tree_store[path][-1], new_label)
+
+ self.assertRaises(IndexError, get_by_index, path, -3)
+
+ self.assertRaises(IndexError, get_by_index, -101)
+
+ last_row = tree_store[99]
+ self.assertNotEqual(last_row, None)
+
+ for i, childrow in enumerate(last_row.iterchildren()):
+ if i < 19:
+ self.assertTrue(tree_store.remove(childrow.iter))
+ else:
+ self.assertFalse(tree_store.remove(childrow.iter))
+
+ self.assertEqual(i, 19)
+
+ self.assertEqual(tree_store.iter_n_children(last_row.iter), 0)
+ for childrow in last_row.iterchildren():
+ self.fail("Should not be reached")
+
+ aiter = tree_store.get_iter(10)
+ self.assertRaises(TypeError, tree_store.get, aiter, 1, 'a')
+ self.assertRaises(ValueError, tree_store.get, aiter, 1, -1)
+ self.assertRaises(ValueError, tree_store.get, aiter, 1, 100)
+ self.assertEqual(tree_store.get(aiter, 0, 1), (10, 'this is row #10'))
+
+ # check __delitem__
+ self.assertEqual(len(tree_store), 100)
+ aiter = tree_store.get_iter(10)
+ del tree_store[aiter]
+ self.assertEqual(len(tree_store), 99)
+ self.assertRaises(TypeError, tree_store.__delitem__, None)
+ self.assertRaises(IndexError, tree_store.__delitem__, -101)
+ self.assertRaises(IndexError, tree_store.__delitem__, 101)
+
+ def test_tree_model_edit(self):
+ model = Gtk.ListStore(int, str, float)
+ model.append([1, "one", -0.1])
+ model.append([2, "two", -0.2])
+
+ def set_row(value):
+ model[1] = value
+
+ self.assertRaises(TypeError, set_row, 3)
+ self.assertRaises(TypeError, set_row, "three")
+ self.assertRaises(ValueError, set_row, [])
+ self.assertRaises(ValueError, set_row, [3, "three"])
+
+ model[0] = (3, "three", -0.3)
+
+ def test_tree_row_slice(self):
+ model = Gtk.ListStore(int, str, float)
+ model.append([1, "one", -0.1])
+
+ self.assertEqual([1, "one", -0.1], model[0][:])
+ self.assertEqual([1, "one"], model[0][:2])
+ self.assertEqual(["one", -0.1], model[0][1:])
+ self.assertEqual(["one"], model[0][1:-1])
+ self.assertEqual([1], model[0][:-2])
+ self.assertEqual([], model[0][5:])
+ self.assertEqual([1, -0.1], model[0][0:3:2])
- self.assertEquals(i, 99)
+ model[0][:] = (2, "two", -0.2)
+ self.assertEqual([2, "two", -0.2], model[0][:])
- # check to see that we can instantiate a TreeViewColumn
+ model[0][:2] = (3, "three")
+ self.assertEqual([3, "three", -0.2], model[0][:])
+
+ model[0][1:] = ("four", -0.4)
+ self.assertEqual([3, "four", -0.4], model[0][:])
+
+ model[0][1:-1] = ("five",)
+ self.assertEqual([3, "five", -0.4], model[0][:])
+
+ model[0][0:3:2] = (6, -0.6)
+ self.assertEqual([6, "five", -0.6], model[0][:])
+
+ def set_row1():
+ model[0][5:] = ("doesn't", "matter",)
+
+ self.assertRaises(ValueError, set_row1)
+
+ def set_row2():
+ model[0][:1] = (0, "zero", 0)
+
+ self.assertRaises(ValueError, set_row2)
+
+ def set_row3():
+ model[0][:2] = ("0", 0)
+
+ self.assertRaises(ValueError, set_row3)
+
+ def test_tree_view(self):
+ store = Gtk.ListStore(int, str)
+ store.append((0, "foo"))
+ store.append((1, "bar"))
+ view = Gtk.TreeView()
+ # FIXME: We can't easily call get_cursor() to make sure this works as
+ # expected as we need to realize and focus the column; the following
+ # will raise a Gtk-CRITICAL which we ignore for now
+ old_mask = GLib.log_set_always_fatal(
+ GLib.LogLevelFlags.LEVEL_WARNING | GLib.LogLevelFlags.LEVEL_ERROR)
+ view.set_cursor(store[1].path)
+ view.set_cursor(str(store[1].path))
+
+ view.get_cell_area(store[1].path)
+ view.get_cell_area(str(store[1].path))
+
+ GLib.log_set_always_fatal(old_mask)
+
+ def test_tree_view_column(self):
cell = Gtk.CellRendererText()
- column = Gtk.TreeViewColumn(title='This is just a test',
- cell_renderer=cell,
- text=0,
- style=2)
+ Gtk.TreeViewColumn(title='This is just a test',
+ cell_renderer=cell,
+ text=0,
+ style=2)
+
+ def test_tree_selection(self):
+ store = Gtk.ListStore(int, str)
+ for i in range(10):
+ store.append((i, "foo"))
+ view = Gtk.TreeView()
+ view.set_model(store)
+ firstpath = store.get_path(store.get_iter_first())
+ sel = view.get_selection()
+
+ sel.select_path(firstpath)
+ (m, s) = sel.get_selected()
+ self.assertEqual(m, store)
+ self.assertEqual(store.get_path(s), firstpath)
+
+ sel.select_path(0)
+ (m, s) = sel.get_selected()
+ self.assertEqual(m, store)
+ self.assertEqual(store.get_path(s), firstpath)
+
+ sel.select_path("0:0")
+ (m, s) = sel.get_selected()
+ self.assertEqual(m, store)
+ self.assertEqual(store.get_path(s), firstpath)
+
+ sel.select_path((0, 0))
+ (m, s) = sel.get_selected()
+ self.assertEqual(m, store)
+ self.assertEqual(store.get_path(s), firstpath)
def test_text_buffer(self):
- self.assertEquals(Gtk.TextBuffer, overrides.Gtk.TextBuffer)
+ self.assertEqual(Gtk.TextBuffer, overrides.Gtk.TextBuffer)
buffer = Gtk.TextBuffer()
- tag = buffer.create_tag ('title', font = 'Sans 18')
+ tag = buffer.create_tag('title', font='Sans 18')
- self.assertEquals(tag.props.name, 'title')
- self.assertEquals(tag.props.font, 'Sans 18')
+ self.assertEqual(tag.props.name, 'title')
+ self.assertEqual(tag.props.font, 'Sans 18')
+
+ (start, end) = buffer.get_bounds()
+
+ mark = buffer.create_mark(None, start)
+ self.assertFalse(mark.get_left_gravity())
+
+ buffer.set_text('Hello Jane Hello Bob')
+ (start, end) = buffer.get_bounds()
+ text = buffer.get_text(start, end, False)
+ self.assertEqual(text, 'Hello Jane Hello Bob')
+ buffer.set_text('')
(start, end) = buffer.get_bounds()
+ text = buffer.get_text(start, end, False)
+ self.assertEqual(text, '')
buffer.insert(end, 'HelloHello')
buffer.insert(end, ' Bob')
(start, end) = buffer.get_bounds()
text = buffer.get_text(start, end, False)
+ self.assertEqual(text, 'Hello Jane Hello Bob')
+
+ sel = buffer.get_selection_bounds()
+ self.assertEqual(sel, ())
+ buffer.select_range(start, end)
+ sel = buffer.get_selection_bounds()
+ self.assertTrue(sel[0].equal(start))
+ self.assertTrue(sel[1].equal(end))
+
+ buffer.set_text('')
+ buffer.insert_with_tags(buffer.get_start_iter(), 'HelloHello', tag)
+ (start, end) = buffer.get_bounds()
+ self.assertTrue(start.begins_tag(tag))
+ self.assertTrue(start.has_tag(tag))
+
+ buffer.set_text('')
+ buffer.insert_with_tags_by_name(buffer.get_start_iter(), 'HelloHello', 'title')
+ (start, end) = buffer.get_bounds()
+ self.assertTrue(start.begins_tag(tag))
+ self.assertTrue(start.has_tag(tag))
+
+ self.assertRaises(ValueError, buffer.insert_with_tags_by_name,
+ buffer.get_start_iter(), 'HelloHello', 'unknowntag')
+
+ def test_text_iter(self):
+ self.assertEqual(Gtk.TextIter, overrides.Gtk.TextIter)
+ buffer = Gtk.TextBuffer()
+ buffer.set_text('Hello Jane Hello Bob')
+ tag = buffer.create_tag('title', font='Sans 18')
+ (start, end) = buffer.get_bounds()
+ start.forward_chars(10)
+ buffer.apply_tag(tag, start, end)
+ self.assertTrue(start.begins_tag())
+ self.assertTrue(end.ends_tag())
+ self.assertTrue(start.toggles_tag())
+ self.assertTrue(end.toggles_tag())
+ start.backward_chars(1)
+ self.assertFalse(start.begins_tag())
+ self.assertFalse(start.ends_tag())
+ self.assertFalse(start.toggles_tag())
+
+ def test_buttons(self):
+ self.assertEqual(Gtk.Button, overrides.Gtk.Button)
+
+ # test Gtk.Button
+ button = Gtk.Button()
+ self.assertTrue(isinstance(button, Gtk.Button))
+ self.assertTrue(isinstance(button, Gtk.Container))
+ self.assertTrue(isinstance(button, Gtk.Widget))
+ button = Gtk.Button(stock=Gtk.STOCK_CLOSE)
+ self.assertEqual(Gtk.STOCK_CLOSE, button.get_label())
+ self.assertTrue(button.get_use_stock())
+ self.assertTrue(button.get_use_underline())
+
+ # test Gtk.Button use_stock
+ button = Gtk.Button(label=Gtk.STOCK_CLOSE, use_stock=True, use_underline=True)
+ self.assertEqual(Gtk.STOCK_CLOSE, button.get_label())
+ self.assertTrue(button.get_use_stock())
+ self.assertTrue(button.get_use_underline())
+
+ # test Gtk.LinkButton
+ self.assertRaises(TypeError, Gtk.LinkButton)
+ button = Gtk.LinkButton('http://www.Gtk.org', 'Gtk')
+ self.assertTrue(isinstance(button, Gtk.Button))
+ self.assertTrue(isinstance(button, Gtk.Container))
+ self.assertTrue(isinstance(button, Gtk.Widget))
+ self.assertEqual('http://www.Gtk.org', button.get_uri())
+ self.assertEqual('Gtk', button.get_label())
+
+ def test_inheritance(self):
+ for name in overrides.Gtk.__all__:
+ over = getattr(overrides.Gtk, name)
+ for element in dir(Gtk):
+ try:
+ klass = getattr(Gtk, element)
+ info = klass.__info__
+ except (NotImplementedError, AttributeError):
+ continue
+
+ # Get all parent classes and interfaces klass inherits from
+ if isinstance(info, gi.types.ObjectInfo):
+ classes = list(info.get_interfaces())
+ parent = info.get_parent()
+ while parent.get_name() != "Object":
+ classes.append(parent)
+ parent = parent.get_parent()
+ classes = [kl for kl in classes if kl.get_namespace() == "Gtk"]
+ else:
+ continue
+
+ for kl in classes:
+ if kl.get_name() == name:
+ self.assertTrue(issubclass(klass, over,),
+ "%r does not inherit from override %r" % (klass, over,))
+
+ def test_editable(self):
+ self.assertEqual(Gtk.Editable, overrides.Gtk.Editable)
+
+ # need to use Gtk.Entry because Editable is an interface
+ entry = Gtk.Entry()
+ pos = entry.insert_text('HeWorld', 0)
+ self.assertEqual(pos, 7)
+ pos = entry.insert_text('llo ', 2)
+ self.assertEqual(pos, 6)
+ text = entry.get_chars(0, 11)
+ self.assertEqual('Hello World', text)
+
+ def test_label(self):
+ label = Gtk.Label(label='Hello')
+ self.assertTrue(isinstance(label, Gtk.Widget))
+ self.assertEqual(label.get_text(), 'Hello')
+
+ def adjustment_check(self, adjustment, value=0.0, lower=0.0, upper=0.0,
+ step_increment=0.0, page_increment=0.0, page_size=0.0):
+ self.assertEqual(adjustment.get_value(), value)
+ self.assertEqual(adjustment.get_lower(), lower)
+ self.assertEqual(adjustment.get_upper(), upper)
+ self.assertEqual(adjustment.get_step_increment(), step_increment)
+ self.assertEqual(adjustment.get_page_increment(), page_increment)
+ self.assertEqual(adjustment.get_page_size(), page_size)
+
+ def test_adjustment(self):
+ adjustment = Gtk.Adjustment(1, 0, 6, 4, 5, 3)
+ self.adjustment_check(adjustment, 1, 0, 6, 4, 5, 3)
+
+ adjustment = Gtk.Adjustment(1, 0, 6, 4, 5)
+ self.adjustment_check(adjustment, 1, 0, 6, 4, 5)
+
+ adjustment = Gtk.Adjustment(1, 0, 6, 4)
+ self.adjustment_check(adjustment, 1, 0, 6, 4)
+
+ adjustment = Gtk.Adjustment(1, 0, 6)
+ self.adjustment_check(adjustment, 1, 0, 6)
+
+ adjustment = Gtk.Adjustment()
+ self.adjustment_check(adjustment)
+
+ adjustment = Gtk.Adjustment(value=1, lower=0, upper=6,
+ step_increment=4, page_increment=5, page_size=3)
+ self.adjustment_check(adjustment, 1, 0, 6, 4, 5, 3)
+
+ def test_table(self):
+ table = Gtk.Table()
+ self.assertTrue(isinstance(table, Gtk.Table))
+ self.assertTrue(isinstance(table, Gtk.Container))
+ self.assertTrue(isinstance(table, Gtk.Widget))
+ self.assertEqual(table.get_size(), (1, 1))
+ self.assertEqual(table.get_homogeneous(), False)
+ table = Gtk.Table(2, 3)
+ self.assertEqual(table.get_size(), (2, 3))
+ self.assertEqual(table.get_homogeneous(), False)
+ table = Gtk.Table(2, 3, True)
+ self.assertEqual(table.get_size(), (2, 3))
+ self.assertEqual(table.get_homogeneous(), True)
+
+ # Test PyGTK interface
+ table = Gtk.Table(rows=3, columns=2)
+ self.assertEqual(table.get_size(), (3, 2))
+ # Test using the actual property names
+ table = Gtk.Table(n_rows=2, n_columns=3, homogeneous=True)
+ self.assertEqual(table.get_size(), (2, 3))
+ self.assertEqual(table.get_homogeneous(), True)
+
+ label = Gtk.Label(label='Hello')
+ self.assertTrue(isinstance(label, Gtk.Widget))
+ table.attach(label, 0, 1, 0, 1)
+ self.assertEqual(label, table.get_children()[0])
+
+ def test_scrolledwindow(self):
+ sw = Gtk.ScrolledWindow()
+ self.assertTrue(isinstance(sw, Gtk.ScrolledWindow))
+ self.assertTrue(isinstance(sw, Gtk.Container))
+ self.assertTrue(isinstance(sw, Gtk.Widget))
+ sb = sw.get_hscrollbar()
+ self.assertEqual(sw.get_hadjustment(), sb.get_adjustment())
+ sb = sw.get_vscrollbar()
+ self.assertEqual(sw.get_vadjustment(), sb.get_adjustment())
+
+ def test_widget_drag_methods(self):
+ widget = Gtk.Button()
+
+ # here we are not checking functionality, only that the methods exist
+ # and except the right number of arguments
+
+ widget.drag_check_threshold(0, 0, 0, 0)
+
+ # drag_dest_ methods
+ widget.drag_dest_set(Gtk.DestDefaults.DROP, None, Gdk.DragAction.COPY)
+ widget.drag_dest_add_image_targets()
+ widget.drag_dest_add_text_targets()
+ widget.drag_dest_add_uri_targets()
+ widget.drag_dest_get_track_motion()
+ widget.drag_dest_set_track_motion(True)
+ widget.drag_dest_get_target_list()
+ widget.drag_dest_set_target_list(Gtk.TargetList.new([Gtk.TargetEntry.new('test', 0, 0)]))
+ widget.drag_dest_unset()
+
+ widget.drag_highlight()
+ widget.drag_unhighlight()
+
+ # drag_source_ methods
+ widget.drag_source_set(Gdk.ModifierType.BUTTON1_MASK, None, Gdk.DragAction.MOVE)
+ widget.drag_source_add_image_targets()
+ widget.drag_source_add_text_targets()
+ widget.drag_source_add_uri_targets()
+ widget.drag_source_set_icon_name("")
+ widget.drag_source_set_icon_pixbuf(GdkPixbuf.Pixbuf())
+ widget.drag_source_set_icon_stock("")
+ widget.drag_source_get_target_list()
+ widget.drag_source_set_target_list(Gtk.TargetList.new([Gtk.TargetEntry.new('test', 0, 0)]))
+ widget.drag_source_unset()
+
+ # these methods cannot be called because they require a valid drag on
+ # a real GdkWindow. So we only check that they exist and are callable.
+ self.assertTrue(hasattr(widget.drag_dest_set_proxy, '__call__'))
+ self.assertTrue(hasattr(widget.drag_get_data, '__call__'))
+
+ def test_scrollbar(self):
+ # PyGTK compat
+ adjustment = Gtk.Adjustment()
+
+ hscrollbar = Gtk.HScrollbar()
+ vscrollbar = Gtk.VScrollbar()
+ self.assertNotEqual(hscrollbar.props.adjustment, adjustment)
+ self.assertNotEqual(vscrollbar.props.adjustment, adjustment)
+
+ hscrollbar = Gtk.HScrollbar(adjustment)
+ vscrollbar = Gtk.VScrollbar(adjustment)
+ self.assertEqual(hscrollbar.props.adjustment, adjustment)
+ self.assertEqual(vscrollbar.props.adjustment, adjustment)
+
+ def test_iconview(self):
+ # PyGTK compat
+ iconview = Gtk.IconView()
+ self.assertEqual(iconview.props.model, None)
+
+ model = Gtk.ListStore(str)
+ iconview = Gtk.IconView(model)
+ self.assertEqual(iconview.props.model, model)
+
+ def test_toolbutton(self):
+ # PyGTK compat
+ button = Gtk.ToolButton()
+ self.assertEqual(button.props.stock_id, None)
+
+ button = Gtk.ToolButton('gtk-new')
+ self.assertEqual(button.props.stock_id, 'gtk-new')
+
+ icon = Gtk.Image.new_from_stock(Gtk.STOCK_OPEN, Gtk.IconSize.SMALL_TOOLBAR)
+
+ button = Gtk.ToolButton(label='mylabel', icon_widget=icon)
+ self.assertEqual(button.props.label, 'mylabel')
+ self.assertEqual(button.props.icon_widget, icon)
+
+ def test_iconset(self):
+ # PyGTK compat
+ Gtk.IconSet()
+ pixbuf = GdkPixbuf.Pixbuf()
+ Gtk.IconSet(pixbuf)
+
+ def test_viewport(self):
+ # PyGTK compat
+ vadjustment = Gtk.Adjustment()
+ hadjustment = Gtk.Adjustment()
+
+ viewport = Gtk.Viewport(hadjustment=hadjustment,
+ vadjustment=vadjustment)
+
+ self.assertEqual(viewport.props.vadjustment, vadjustment)
+ self.assertEqual(viewport.props.hadjustment, hadjustment)
+
+
+class TestGio(unittest.TestCase):
+ def setUp(self):
+ self.settings = Gio.Settings('org.gnome.test')
+ # we change the values in the tests, so set them to predictable start
+ # value
+ self.settings.reset('test-string')
+ self.settings.reset('test-array')
+
+ def test_file_enumerator(self):
+ self.assertEqual(Gio.FileEnumerator, overrides.Gio.FileEnumerator)
+ f = Gio.file_new_for_path("./")
+
+ iter_info = []
+ for info in f.enumerate_children("standard::*", 0, None):
+ iter_info.append(info.get_name())
+
+ next_info = []
+ enumerator = f.enumerate_children("standard::*", 0, None)
+ while True:
+ info = enumerator.next_file(None)
+ if info is None:
+ break
+ next_info.append(info.get_name())
+
+ self.assertEqual(iter_info, next_info)
+
+ def test_gsettings_native(self):
+ self.assertTrue('test-array' in self.settings.list_keys())
+
+ # get various types
+ v = self.settings.get_value('test-boolean')
+ self.assertEqual(v.get_boolean(), True)
+ self.assertEqual(self.settings.get_boolean('test-boolean'), True)
+
+ v = self.settings.get_value('test-string')
+ self.assertEqual(v.get_string(), 'Hello')
+ self.assertEqual(self.settings.get_string('test-string'), 'Hello')
+
+ v = self.settings.get_value('test-array')
+ self.assertEqual(v.unpack(), [1, 2])
+
+ v = self.settings.get_value('test-tuple')
+ self.assertEqual(v.unpack(), (1, 2))
+
+ # set a value
+ self.settings.set_string('test-string', 'World')
+ self.assertEqual(self.settings.get_string('test-string'), 'World')
+
+ self.settings.set_value('test-string', GLib.Variant('s', 'Goodbye'))
+ self.assertEqual(self.settings.get_string('test-string'), 'Goodbye')
+
+ def test_gsettings_constructor(self):
+ # default constructor uses path from schema
+ self.assertEqual(self.settings.get_property('path'), '/tests/')
+
+ # optional constructor arguments
+ with_path = Gio.Settings('org.gnome.nopathtest', path='/mypath/')
+ self.assertEqual(with_path.get_property('path'), '/mypath/')
+ self.assertEqual(with_path['np-int'], 42)
+
+ def test_gsettings_override(self):
+ # dictionary interface
+ self.assertEqual(len(self.settings), 4)
+ self.assertTrue('test-array' in self.settings)
+ self.assertTrue('test-array' in self.settings.keys())
+ self.assertFalse('nonexisting' in self.settings)
+ self.assertFalse(4 in self.settings)
+ self.assertEqual(bool(self.settings), True)
+
+ # get various types
+ self.assertEqual(self.settings['test-boolean'], True)
+ self.assertEqual(self.settings['test-string'], 'Hello')
+ self.assertEqual(self.settings['test-array'], [1, 2])
+ self.assertEqual(self.settings['test-tuple'], (1, 2))
+
+ self.assertRaises(KeyError, self.settings.__getitem__, 'unknown')
+ self.assertRaises(KeyError, self.settings.__getitem__, 2)
+
+ # set a value
+ self.settings['test-string'] = 'Goodbye'
+ self.assertEqual(self.settings['test-string'], 'Goodbye')
+ self.settings['test-array'] = [3, 4, 5]
+ self.assertEqual(self.settings['test-array'], [3, 4, 5])
+
+ self.assertRaises(TypeError, self.settings.__setitem__, 'test-string', 1)
+ self.assertRaises(KeyError, self.settings.__setitem__, 'unknown', 'moo')
- self.assertEquals(text, 'Hello Jane Hello Bob')
+ def test_gsettings_empty(self):
+ empty = Gio.Settings('org.gnome.empty', path='/tests/')
+ self.assertEqual(len(empty), 0)
+ self.assertEqual(bool(empty), True)
+ self.assertEqual(empty.keys(), [])