Mini Shell
import unittest
import re
import Tkinter as tkinter
from Tkinter import TclError
from test.test_support import requires, run_unittest
from test_ttk.support import pixels_conv, tcl_version, requires_tcl
from widget_tests import AbstractWidgetTest, int_round
requires('gui')
class PackTest(AbstractWidgetTest, unittest.TestCase):
test_keys = None
def create2(self):
pack = tkinter.Toplevel(self.root, name='pack')
pack.wm_geometry('300x200+0+0')
pack.wm_minsize(1, 1)
a = tkinter.Frame(pack, name='a', width=20, height=40, bg='red')
b = tkinter.Frame(pack, name='b', width=50, height=30, bg='blue')
c = tkinter.Frame(pack, name='c', width=80, height=80, bg='green')
d = tkinter.Frame(pack, name='d', width=40, height=30, bg='yellow')
return pack, a, b, c, d
def test_pack_configure_after(self):
pack, a, b, c, d = self.create2()
with self.assertRaisesRegexp(TclError, 'window "%s" isn\'t packed' % b):
a.pack_configure(after=b)
with self.assertRaisesRegexp(TclError, 'bad window path name ".foo"'):
a.pack_configure(after='.foo')
a.pack_configure(side='top')
b.pack_configure(side='top')
c.pack_configure(side='top')
d.pack_configure(side='top')
self.assertEqual(pack.pack_slaves(), [a, b, c, d])
a.pack_configure(after=b)
self.assertEqual(pack.pack_slaves(), [b, a, c, d])
a.pack_configure(after=a)
self.assertEqual(pack.pack_slaves(), [b, a, c, d])
def test_pack_configure_anchor(self):
pack, a, b, c, d = self.create2()
def check(anchor, geom):
a.pack_configure(side='top', ipadx=5, padx=10, ipady=15, pady=20,
expand=True, anchor=anchor)
self.root.update()
self.assertEqual(a.winfo_geometry(), geom)
check('n', '30x70+135+20')
check('ne', '30x70+260+20')
check('e', '30x70+260+65')
check('se', '30x70+260+110')
check('s', '30x70+135+110')
check('sw', '30x70+10+110')
check('w', '30x70+10+65')
check('nw', '30x70+10+20')
check('center', '30x70+135+65')
def test_pack_configure_before(self):
pack, a, b, c, d = self.create2()
with self.assertRaisesRegexp(TclError, 'window "%s" isn\'t packed' % b):
a.pack_configure(before=b)
with self.assertRaisesRegexp(TclError, 'bad window path name ".foo"'):
a.pack_configure(before='.foo')
a.pack_configure(side='top')
b.pack_configure(side='top')
c.pack_configure(side='top')
d.pack_configure(side='top')
self.assertEqual(pack.pack_slaves(), [a, b, c, d])
a.pack_configure(before=d)
self.assertEqual(pack.pack_slaves(), [b, c, a, d])
a.pack_configure(before=a)
self.assertEqual(pack.pack_slaves(), [b, c, a, d])
def test_pack_configure_expand(self):
pack, a, b, c, d = self.create2()
def check(*geoms):
self.root.update()
self.assertEqual(a.winfo_geometry(), geoms[0])
self.assertEqual(b.winfo_geometry(), geoms[1])
self.assertEqual(c.winfo_geometry(), geoms[2])
self.assertEqual(d.winfo_geometry(), geoms[3])
a.pack_configure(side='left')
b.pack_configure(side='top')
c.pack_configure(side='right')
d.pack_configure(side='bottom')
check('20x40+0+80', '50x30+135+0', '80x80+220+75', '40x30+100+170')
a.pack_configure(side='left', expand='yes')
b.pack_configure(side='top', expand='on')
c.pack_configure(side='right', expand=True)
d.pack_configure(side='bottom', expand=1)
check('20x40+40+80', '50x30+175+35', '80x80+180+110', '40x30+100+135')
a.pack_configure(side='left', expand='yes', fill='both')
b.pack_configure(side='top', expand='on', fill='both')
c.pack_configure(side='right', expand=True, fill='both')
d.pack_configure(side='bottom', expand=1, fill='both')
check('100x200+0+0', '200x100+100+0', '160x100+140+100', '40x100+100+100')
def test_pack_configure_in(self):
pack, a, b, c, d = self.create2()
a.pack_configure(side='top')
b.pack_configure(side='top')
c.pack_configure(side='top')
d.pack_configure(side='top')
a.pack_configure(in_=pack)
self.assertEqual(pack.pack_slaves(), [b, c, d, a])
a.pack_configure(in_=c)
self.assertEqual(pack.pack_slaves(), [b, c, d])
self.assertEqual(c.pack_slaves(), [a])
with self.assertRaisesRegexp(TclError,
'can\'t pack %s inside itself' % (a,)):
a.pack_configure(in_=a)
with self.assertRaisesRegexp(TclError, 'bad window path name ".foo"'):
a.pack_configure(in_='.foo')
def test_pack_configure_padx_ipadx_fill(self):
pack, a, b, c, d = self.create2()
def check(geom1, geom2, **kwargs):
a.pack_forget()
b.pack_forget()
a.pack_configure(**kwargs)
b.pack_configure(expand=True, fill='both')
self.root.update()
self.assertEqual(a.winfo_geometry(), geom1)
self.assertEqual(b.winfo_geometry(), geom2)
check('20x40+260+80', '240x200+0+0', side='right', padx=20)
check('20x40+250+80', '240x200+0+0', side='right', padx=(10, 30))
check('60x40+240+80', '240x200+0+0', side='right', ipadx=20)
check('30x40+260+80', '250x200+0+0', side='right', ipadx=5, padx=10)
check('20x40+260+80', '240x200+0+0', side='right', padx=20, fill='x')
check('20x40+249+80', '240x200+0+0',
side='right', padx=(9, 31), fill='x')
check('60x40+240+80', '240x200+0+0', side='right', ipadx=20, fill='x')
check('30x40+260+80', '250x200+0+0',
side='right', ipadx=5, padx=10, fill='x')
check('30x40+255+80', '250x200+0+0',
side='right', ipadx=5, padx=(5, 15), fill='x')
check('20x40+140+0', '300x160+0+40', side='top', padx=20)
check('20x40+120+0', '300x160+0+40', side='top', padx=(0, 40))
check('60x40+120+0', '300x160+0+40', side='top', ipadx=20)
check('30x40+135+0', '300x160+0+40', side='top', ipadx=5, padx=10)
check('30x40+130+0', '300x160+0+40', side='top', ipadx=5, padx=(5, 15))
check('260x40+20+0', '300x160+0+40', side='top', padx=20, fill='x')
check('260x40+25+0', '300x160+0+40',
side='top', padx=(25, 15), fill='x')
check('300x40+0+0', '300x160+0+40', side='top', ipadx=20, fill='x')
check('280x40+10+0', '300x160+0+40',
side='top', ipadx=5, padx=10, fill='x')
check('280x40+5+0', '300x160+0+40',
side='top', ipadx=5, padx=(5, 15), fill='x')
a.pack_configure(padx='1c')
self.assertEqual(a.pack_info()['padx'],
self._str(pack.winfo_pixels('1c')))
a.pack_configure(ipadx='1c')
self.assertEqual(a.pack_info()['ipadx'],
self._str(pack.winfo_pixels('1c')))
def test_pack_configure_pady_ipady_fill(self):
pack, a, b, c, d = self.create2()
def check(geom1, geom2, **kwargs):
a.pack_forget()
b.pack_forget()
a.pack_configure(**kwargs)
b.pack_configure(expand=True, fill='both')
self.root.update()
self.assertEqual(a.winfo_geometry(), geom1)
self.assertEqual(b.winfo_geometry(), geom2)
check('20x40+280+80', '280x200+0+0', side='right', pady=20)
check('20x40+280+70', '280x200+0+0', side='right', pady=(10, 30))
check('20x80+280+60', '280x200+0+0', side='right', ipady=20)
check('20x50+280+75', '280x200+0+0', side='right', ipady=5, pady=10)
check('20x40+280+80', '280x200+0+0', side='right', pady=20, fill='x')
check('20x40+280+69', '280x200+0+0',
side='right', pady=(9, 31), fill='x')
check('20x80+280+60', '280x200+0+0', side='right', ipady=20, fill='x')
check('20x50+280+75', '280x200+0+0',
side='right', ipady=5, pady=10, fill='x')
check('20x50+280+70', '280x200+0+0',
side='right', ipady=5, pady=(5, 15), fill='x')
check('20x40+140+20', '300x120+0+80', side='top', pady=20)
check('20x40+140+0', '300x120+0+80', side='top', pady=(0, 40))
check('20x80+140+0', '300x120+0+80', side='top', ipady=20)
check('20x50+140+10', '300x130+0+70', side='top', ipady=5, pady=10)
check('20x50+140+5', '300x130+0+70', side='top', ipady=5, pady=(5, 15))
check('300x40+0+20', '300x120+0+80', side='top', pady=20, fill='x')
check('300x40+0+25', '300x120+0+80',
side='top', pady=(25, 15), fill='x')
check('300x80+0+0', '300x120+0+80', side='top', ipady=20, fill='x')
check('300x50+0+10', '300x130+0+70',
side='top', ipady=5, pady=10, fill='x')
check('300x50+0+5', '300x130+0+70',
side='top', ipady=5, pady=(5, 15), fill='x')
a.pack_configure(pady='1c')
self.assertEqual(a.pack_info()['pady'],
self._str(pack.winfo_pixels('1c')))
a.pack_configure(ipady='1c')
self.assertEqual(a.pack_info()['ipady'],
self._str(pack.winfo_pixels('1c')))
def test_pack_configure_side(self):
pack, a, b, c, d = self.create2()
def check(side, geom1, geom2):
a.pack_configure(side=side)
self.assertEqual(a.pack_info()['side'], side)
b.pack_configure(expand=True, fill='both')
self.root.update()
self.assertEqual(a.winfo_geometry(), geom1)
self.assertEqual(b.winfo_geometry(), geom2)
check('top', '20x40+140+0', '300x160+0+40')
check('bottom', '20x40+140+160', '300x160+0+0')
check('left', '20x40+0+80', '280x200+20+0')
check('right', '20x40+280+80', '280x200+0+0')
def test_pack_forget(self):
pack, a, b, c, d = self.create2()
a.pack_configure()
b.pack_configure()
c.pack_configure()
self.assertEqual(pack.pack_slaves(), [a, b, c])
b.pack_forget()
self.assertEqual(pack.pack_slaves(), [a, c])
b.pack_forget()
self.assertEqual(pack.pack_slaves(), [a, c])
d.pack_forget()
def test_pack_info(self):
pack, a, b, c, d = self.create2()
with self.assertRaisesRegexp(TclError, 'window "%s" isn\'t packed' % a):
a.pack_info()
a.pack_configure()
b.pack_configure(side='right', in_=a, anchor='s', expand=True, fill='x',
ipadx=5, padx=10, ipady=2, pady=(5, 15))
info = a.pack_info()
self.assertIsInstance(info, dict)
self.assertEqual(info['anchor'], 'center')
self.assertEqual(info['expand'], self._str(0))
self.assertEqual(info['fill'], 'none')
self.assertEqual(info['in'], pack)
self.assertEqual(info['ipadx'], self._str(0))
self.assertEqual(info['ipady'], self._str(0))
self.assertEqual(info['padx'], self._str(0))
self.assertEqual(info['pady'], self._str(0))
self.assertEqual(info['side'], 'top')
info = b.pack_info()
self.assertIsInstance(info, dict)
self.assertEqual(info['anchor'], 's')
self.assertEqual(info['expand'], self._str(1))
self.assertEqual(info['fill'], 'x')
self.assertEqual(info['in'], a)
self.assertEqual(info['ipadx'], self._str(5))
self.assertEqual(info['ipady'], self._str(2))
self.assertEqual(info['padx'], self._str(10))
self.assertEqual(info['pady'], self._str((5, 15)))
self.assertEqual(info['side'], 'right')
def test_pack_propagate(self):
pack, a, b, c, d = self.create2()
pack.configure(width=300, height=200)
a.pack_configure()
pack.pack_propagate(False)
self.root.update()
self.assertEqual(pack.winfo_reqwidth(), 300)
self.assertEqual(pack.winfo_reqheight(), 200)
pack.pack_propagate(True)
self.root.update()
self.assertEqual(pack.winfo_reqwidth(), 20)
self.assertEqual(pack.winfo_reqheight(), 40)
def test_pack_slaves(self):
pack, a, b, c, d = self.create2()
self.assertEqual(pack.pack_slaves(), [])
a.pack_configure()
self.assertEqual(pack.pack_slaves(), [a])
b.pack_configure()
self.assertEqual(pack.pack_slaves(), [a, b])
class PlaceTest(AbstractWidgetTest, unittest.TestCase):
test_keys = None
def create2(self):
t = tkinter.Toplevel(self.root, width=300, height=200, bd=0)
t.wm_geometry('300x200+0+0')
f = tkinter.Frame(t, width=154, height=84, bd=2, relief='raised')
f.place_configure(x=48, y=38)
f2 = tkinter.Frame(t, width=30, height=60, bd=2, relief='raised')
self.root.update()
return t, f, f2
def test_place_configure_in(self):
t, f, f2 = self.create2()
self.assertEqual(f2.winfo_manager(), '')
with self.assertRaisesRegexp(TclError, "can't place %s relative to "
"itself" % re.escape(str(f2))):
f2.place_configure(in_=f2)
if tcl_version >= (8, 5):
self.assertEqual(f2.winfo_manager(), '')
with self.assertRaisesRegexp(TclError, 'bad window path name'):
f2.place_configure(in_='spam')
f2.place_configure(in_=f)
self.assertEqual(f2.winfo_manager(), 'place')
def test_place_configure_x(self):
t, f, f2 = self.create2()
f2.place_configure(in_=f)
self.assertEqual(f2.place_info()['x'], '0')
self.root.update()
self.assertEqual(f2.winfo_x(), 50)
f2.place_configure(x=100)
self.assertEqual(f2.place_info()['x'], '100')
self.root.update()
self.assertEqual(f2.winfo_x(), 150)
f2.place_configure(x=-10, relx=1)
self.assertEqual(f2.place_info()['x'], '-10')
self.root.update()
self.assertEqual(f2.winfo_x(), 190)
with self.assertRaisesRegexp(TclError, 'bad screen distance "spam"'):
f2.place_configure(in_=f, x='spam')
def test_place_configure_y(self):
t, f, f2 = self.create2()
f2.place_configure(in_=f)
self.assertEqual(f2.place_info()['y'], '0')
self.root.update()
self.assertEqual(f2.winfo_y(), 40)
f2.place_configure(y=50)
self.assertEqual(f2.place_info()['y'], '50')
self.root.update()
self.assertEqual(f2.winfo_y(), 90)
f2.place_configure(y=-10, rely=1)
self.assertEqual(f2.place_info()['y'], '-10')
self.root.update()
self.assertEqual(f2.winfo_y(), 110)
with self.assertRaisesRegexp(TclError, 'bad screen distance "spam"'):
f2.place_configure(in_=f, y='spam')
def test_place_configure_relx(self):
t, f, f2 = self.create2()
f2.place_configure(in_=f)
self.assertEqual(f2.place_info()['relx'], '0')
self.root.update()
self.assertEqual(f2.winfo_x(), 50)
f2.place_configure(relx=0.5)
self.assertEqual(f2.place_info()['relx'], '0.5')
self.root.update()
self.assertEqual(f2.winfo_x(), 125)
f2.place_configure(relx=1)
self.assertEqual(f2.place_info()['relx'], '1')
self.root.update()
self.assertEqual(f2.winfo_x(), 200)
with self.assertRaisesRegexp(TclError, 'expected floating-point number '
'but got "spam"'):
f2.place_configure(in_=f, relx='spam')
def test_place_configure_rely(self):
t, f, f2 = self.create2()
f2.place_configure(in_=f)
self.assertEqual(f2.place_info()['rely'], '0')
self.root.update()
self.assertEqual(f2.winfo_y(), 40)
f2.place_configure(rely=0.5)
self.assertEqual(f2.place_info()['rely'], '0.5')
self.root.update()
self.assertEqual(f2.winfo_y(), 80)
f2.place_configure(rely=1)
self.assertEqual(f2.place_info()['rely'], '1')
self.root.update()
self.assertEqual(f2.winfo_y(), 120)
with self.assertRaisesRegexp(TclError, 'expected floating-point number '
'but got "spam"'):
f2.place_configure(in_=f, rely='spam')
def test_place_configure_anchor(self):
f = tkinter.Frame(self.root)
with self.assertRaisesRegexp(TclError, 'bad anchor "j"'):
f.place_configure(anchor='j')
with self.assertRaisesRegexp(TclError, 'ambiguous anchor ""'):
f.place_configure(anchor='')
for value in 'n', 'ne', 'e', 'se', 's', 'sw', 'w', 'nw', 'center':
f.place_configure(anchor=value)
self.assertEqual(f.place_info()['anchor'], value)
def test_place_configure_width(self):
t, f, f2 = self.create2()
f2.place_configure(in_=f, width=120)
self.root.update()
self.assertEqual(f2.winfo_width(), 120)
f2.place_configure(width='')
self.root.update()
self.assertEqual(f2.winfo_width(), 30)
with self.assertRaisesRegexp(TclError, 'bad screen distance "abcd"'):
f2.place_configure(width='abcd')
def test_place_configure_height(self):
t, f, f2 = self.create2()
f2.place_configure(in_=f, height=120)
self.root.update()
self.assertEqual(f2.winfo_height(), 120)
f2.place_configure(height='')
self.root.update()
self.assertEqual(f2.winfo_height(), 60)
with self.assertRaisesRegexp(TclError, 'bad screen distance "abcd"'):
f2.place_configure(height='abcd')
def test_place_configure_relwidth(self):
t, f, f2 = self.create2()
f2.place_configure(in_=f, relwidth=0.5)
self.root.update()
self.assertEqual(f2.winfo_width(), 75)
f2.place_configure(relwidth='')
self.root.update()
self.assertEqual(f2.winfo_width(), 30)
with self.assertRaisesRegexp(TclError, 'expected floating-point number '
'but got "abcd"'):
f2.place_configure(relwidth='abcd')
def test_place_configure_relheight(self):
t, f, f2 = self.create2()
f2.place_configure(in_=f, relheight=0.5)
self.root.update()
self.assertEqual(f2.winfo_height(), 40)
f2.place_configure(relheight='')
self.root.update()
self.assertEqual(f2.winfo_height(), 60)
with self.assertRaisesRegexp(TclError, 'expected floating-point number '
'but got "abcd"'):
f2.place_configure(relheight='abcd')
def test_place_configure_bordermode(self):
f = tkinter.Frame(self.root)
with self.assertRaisesRegexp(TclError, 'bad bordermode "j"'):
f.place_configure(bordermode='j')
with self.assertRaisesRegexp(TclError, 'ambiguous bordermode ""'):
f.place_configure(bordermode='')
for value in 'inside', 'outside', 'ignore':
f.place_configure(bordermode=value)
self.assertEqual(f.place_info()['bordermode'], value)
def test_place_forget(self):
foo = tkinter.Frame(self.root)
foo.place_configure(width=50, height=50)
self.root.update()
foo.place_forget()
self.root.update()
self.assertFalse(foo.winfo_ismapped())
with self.assertRaises(TypeError):
foo.place_forget(0)
def test_place_info(self):
t, f, f2 = self.create2()
f2.place_configure(in_=f, x=1, y=2, width=3, height=4,
relx=0.1, rely=0.2, relwidth=0.3, relheight=0.4,
anchor='se', bordermode='outside')
info = f2.place_info()
self.assertIsInstance(info, dict)
self.assertEqual(info['x'], '1')
self.assertEqual(info['y'], '2')
self.assertEqual(info['width'], '3')
self.assertEqual(info['height'], '4')
self.assertEqual(info['relx'], '0.1')
self.assertEqual(info['rely'], '0.2')
self.assertEqual(info['relwidth'], '0.3')
self.assertEqual(info['relheight'], '0.4')
self.assertEqual(info['anchor'], 'se')
self.assertEqual(info['bordermode'], 'outside')
self.assertEqual(info['x'], '1')
self.assertEqual(info['x'], '1')
with self.assertRaises(TypeError):
f2.place_info(0)
def test_place_slaves(self):
foo = tkinter.Frame(self.root)
bar = tkinter.Frame(self.root)
self.assertEqual(foo.place_slaves(), [])
bar.place_configure(in_=foo)
self.assertEqual(foo.place_slaves(), [bar])
with self.assertRaises(TypeError):
foo.place_slaves(0)
class GridTest(AbstractWidgetTest, unittest.TestCase):
test_keys = None
def tearDown(self):
cols, rows = self.root.grid_size()
for i in range(cols + 1):
self.root.grid_columnconfigure(i, weight=0, minsize=0, pad=0, uniform='')
for i in range(rows + 1):
self.root.grid_rowconfigure(i, weight=0, minsize=0, pad=0, uniform='')
self.root.grid_propagate(1)
super(GridTest, self).tearDown()
def test_grid_configure(self):
b = tkinter.Button(self.root)
self.assertEqual(b.grid_info(), {})
b.grid_configure()
self.assertEqual(b.grid_info()['in'], self.root)
self.assertEqual(b.grid_info()['column'], self._str(0))
self.assertEqual(b.grid_info()['row'], self._str(0))
b.grid_configure({'column': 1}, row=2)
self.assertEqual(b.grid_info()['column'], self._str(1))
self.assertEqual(b.grid_info()['row'], self._str(2))
def test_grid_configure_column(self):
b = tkinter.Button(self.root)
with self.assertRaisesRegexp(TclError, 'bad column value "-1": '
'must be a non-negative integer'):
b.grid_configure(column=-1)
b.grid_configure(column=2)
self.assertEqual(b.grid_info()['column'], self._str(2))
def test_grid_configure_columnspan(self):
b = tkinter.Button(self.root)
with self.assertRaisesRegexp(TclError, 'bad columnspan value "0": '
'must be a positive integer'):
b.grid_configure(columnspan=0)
b.grid_configure(columnspan=2)
self.assertEqual(b.grid_info()['columnspan'], self._str(2))
def test_grid_configure_in(self):
f = tkinter.Frame(self.root)
b = tkinter.Button(self.root)
self.assertEqual(b.grid_info(), {})
b.grid_configure()
self.assertEqual(b.grid_info()['in'], self.root)
b.grid_configure(in_=f)
self.assertEqual(b.grid_info()['in'], f)
b.grid_configure({'in': self.root})
self.assertEqual(b.grid_info()['in'], self.root)
def test_grid_configure_ipadx(self):
b = tkinter.Button(self.root)
with self.assertRaisesRegexp(TclError, 'bad ipadx value "-1": '
'must be positive screen distance'):
b.grid_configure(ipadx=-1)
b.grid_configure(ipadx=1)
self.assertEqual(b.grid_info()['ipadx'], self._str(1))
b.grid_configure(ipadx='.5c')
self.assertEqual(b.grid_info()['ipadx'],
self._str(int_round(pixels_conv('.5c') * self.scaling)))
def test_grid_configure_ipady(self):
b = tkinter.Button(self.root)
with self.assertRaisesRegexp(TclError, 'bad ipady value "-1": '
'must be positive screen distance'):
b.grid_configure(ipady=-1)
b.grid_configure(ipady=1)
self.assertEqual(b.grid_info()['ipady'], self._str(1))
b.grid_configure(ipady='.5c')
self.assertEqual(b.grid_info()['ipady'],
self._str(int_round(pixels_conv('.5c') * self.scaling)))
def test_grid_configure_padx(self):
b = tkinter.Button(self.root)
with self.assertRaisesRegexp(TclError, 'bad pad value "-1": '
'must be positive screen distance'):
b.grid_configure(padx=-1)
b.grid_configure(padx=1)
self.assertEqual(b.grid_info()['padx'], self._str(1))
b.grid_configure(padx=(10, 5))
self.assertEqual(b.grid_info()['padx'], self._str((10, 5)))
b.grid_configure(padx='.5c')
self.assertEqual(b.grid_info()['padx'],
self._str(int_round(pixels_conv('.5c') * self.scaling)))
def test_grid_configure_pady(self):
b = tkinter.Button(self.root)
with self.assertRaisesRegexp(TclError, 'bad pad value "-1": '
'must be positive screen distance'):
b.grid_configure(pady=-1)
b.grid_configure(pady=1)
self.assertEqual(b.grid_info()['pady'], self._str(1))
b.grid_configure(pady=(10, 5))
self.assertEqual(b.grid_info()['pady'], self._str((10, 5)))
b.grid_configure(pady='.5c')
self.assertEqual(b.grid_info()['pady'],
self._str(int_round(pixels_conv('.5c') * self.scaling)))
def test_grid_configure_row(self):
b = tkinter.Button(self.root)
with self.assertRaisesRegexp(TclError, 'bad (row|grid) value "-1": '
'must be a non-negative integer'):
b.grid_configure(row=-1)
b.grid_configure(row=2)
self.assertEqual(b.grid_info()['row'], self._str(2))
def test_grid_configure_rownspan(self):
b = tkinter.Button(self.root)
with self.assertRaisesRegexp(TclError, 'bad rowspan value "0": '
'must be a positive integer'):
b.grid_configure(rowspan=0)
b.grid_configure(rowspan=2)
self.assertEqual(b.grid_info()['rowspan'], self._str(2))
def test_grid_configure_sticky(self):
f = tkinter.Frame(self.root, bg='red')
with self.assertRaisesRegexp(TclError, 'bad stickyness value "glue"'):
f.grid_configure(sticky='glue')
f.grid_configure(sticky='ne')
self.assertEqual(f.grid_info()['sticky'], 'ne')
f.grid_configure(sticky='n,s,e,w')
self.assertEqual(f.grid_info()['sticky'], 'nesw')
def test_grid_columnconfigure(self):
with self.assertRaises(TypeError):
self.root.grid_columnconfigure()
self.assertEqual(self.root.grid_columnconfigure(0),
{'minsize': 0, 'pad': 0, 'uniform': None, 'weight': 0})
with self.assertRaisesRegexp(TclError, 'bad option "-foo"'):
self.root.grid_columnconfigure(0, 'foo')
self.root.grid_columnconfigure((0, 3), weight=2)
with self.assertRaisesRegexp(TclError,
'must specify a single element on retrieval'):
self.root.grid_columnconfigure((0, 3))
b = tkinter.Button(self.root)
b.grid_configure(column=0, row=0)
if tcl_version >= (8, 5):
self.root.grid_columnconfigure('all', weight=3)
with self.assertRaisesRegexp(TclError, 'expected integer but got "all"'):
self.root.grid_columnconfigure('all')
self.assertEqual(self.root.grid_columnconfigure(0, 'weight'), 3)
self.assertEqual(self.root.grid_columnconfigure(3, 'weight'), 2)
self.assertEqual(self.root.grid_columnconfigure(265, 'weight'), 0)
if tcl_version >= (8, 5):
self.root.grid_columnconfigure(b, weight=4)
self.assertEqual(self.root.grid_columnconfigure(0, 'weight'), 4)
def test_grid_columnconfigure_minsize(self):
with self.assertRaisesRegexp(TclError, 'bad screen distance "foo"'):
self.root.grid_columnconfigure(0, minsize='foo')
self.root.grid_columnconfigure(0, minsize=10)
self.assertEqual(self.root.grid_columnconfigure(0, 'minsize'), 10)
self.assertEqual(self.root.grid_columnconfigure(0)['minsize'], 10)
def test_grid_columnconfigure_weight(self):
with self.assertRaisesRegexp(TclError, 'expected integer but got "bad"'):
self.root.grid_columnconfigure(0, weight='bad')
with self.assertRaisesRegexp(TclError, 'invalid arg "-weight": '
'should be non-negative'):
self.root.grid_columnconfigure(0, weight=-3)
self.root.grid_columnconfigure(0, weight=3)
self.assertEqual(self.root.grid_columnconfigure(0, 'weight'), 3)
self.assertEqual(self.root.grid_columnconfigure(0)['weight'], 3)
def test_grid_columnconfigure_pad(self):
with self.assertRaisesRegexp(TclError, 'bad screen distance "foo"'):
self.root.grid_columnconfigure(0, pad='foo')
with self.assertRaisesRegexp(TclError, 'invalid arg "-pad": '
'should be non-negative'):
self.root.grid_columnconfigure(0, pad=-3)
self.root.grid_columnconfigure(0, pad=3)
self.assertEqual(self.root.grid_columnconfigure(0, 'pad'), 3)
self.assertEqual(self.root.grid_columnconfigure(0)['pad'], 3)
def test_grid_columnconfigure_uniform(self):
self.root.grid_columnconfigure(0, uniform='foo')
self.assertEqual(self.root.grid_columnconfigure(0, 'uniform'), 'foo')
self.assertEqual(self.root.grid_columnconfigure(0)['uniform'], 'foo')
def test_grid_rowconfigure(self):
with self.assertRaises(TypeError):
self.root.grid_rowconfigure()
self.assertEqual(self.root.grid_rowconfigure(0),
{'minsize': 0, 'pad': 0, 'uniform': None, 'weight': 0})
with self.assertRaisesRegexp(TclError, 'bad option "-foo"'):
self.root.grid_rowconfigure(0, 'foo')
self.root.grid_rowconfigure((0, 3), weight=2)
with self.assertRaisesRegexp(TclError,
'must specify a single element on retrieval'):
self.root.grid_rowconfigure((0, 3))
b = tkinter.Button(self.root)
b.grid_configure(column=0, row=0)
if tcl_version >= (8, 5):
self.root.grid_rowconfigure('all', weight=3)
with self.assertRaisesRegexp(TclError, 'expected integer but got "all"'):
self.root.grid_rowconfigure('all')
self.assertEqual(self.root.grid_rowconfigure(0, 'weight'), 3)
self.assertEqual(self.root.grid_rowconfigure(3, 'weight'), 2)
self.assertEqual(self.root.grid_rowconfigure(265, 'weight'), 0)
if tcl_version >= (8, 5):
self.root.grid_rowconfigure(b, weight=4)
self.assertEqual(self.root.grid_rowconfigure(0, 'weight'), 4)
def test_grid_rowconfigure_minsize(self):
with self.assertRaisesRegexp(TclError, 'bad screen distance "foo"'):
self.root.grid_rowconfigure(0, minsize='foo')
self.root.grid_rowconfigure(0, minsize=10)
self.assertEqual(self.root.grid_rowconfigure(0, 'minsize'), 10)
self.assertEqual(self.root.grid_rowconfigure(0)['minsize'], 10)
def test_grid_rowconfigure_weight(self):
with self.assertRaisesRegexp(TclError, 'expected integer but got "bad"'):
self.root.grid_rowconfigure(0, weight='bad')
with self.assertRaisesRegexp(TclError, 'invalid arg "-weight": '
'should be non-negative'):
self.root.grid_rowconfigure(0, weight=-3)
self.root.grid_rowconfigure(0, weight=3)
self.assertEqual(self.root.grid_rowconfigure(0, 'weight'), 3)
self.assertEqual(self.root.grid_rowconfigure(0)['weight'], 3)
def test_grid_rowconfigure_pad(self):
with self.assertRaisesRegexp(TclError, 'bad screen distance "foo"'):
self.root.grid_rowconfigure(0, pad='foo')
with self.assertRaisesRegexp(TclError, 'invalid arg "-pad": '
'should be non-negative'):
self.root.grid_rowconfigure(0, pad=-3)
self.root.grid_rowconfigure(0, pad=3)
self.assertEqual(self.root.grid_rowconfigure(0, 'pad'), 3)
self.assertEqual(self.root.grid_rowconfigure(0)['pad'], 3)
def test_grid_rowconfigure_uniform(self):
self.root.grid_rowconfigure(0, uniform='foo')
self.assertEqual(self.root.grid_rowconfigure(0, 'uniform'), 'foo')
self.assertEqual(self.root.grid_rowconfigure(0)['uniform'], 'foo')
def test_grid_forget(self):
b = tkinter.Button(self.root)
c = tkinter.Button(self.root)
b.grid_configure(row=2, column=2, rowspan=2, columnspan=2,
padx=3, pady=4, sticky='ns')
self.assertEqual(self.root.grid_slaves(), [b])
b.grid_forget()
c.grid_forget()
self.assertEqual(self.root.grid_slaves(), [])
self.assertEqual(b.grid_info(), {})
b.grid_configure(row=0, column=0)
info = b.grid_info()
self.assertEqual(info['row'], self._str(0))
self.assertEqual(info['column'], self._str(0))
self.assertEqual(info['rowspan'], self._str(1))
self.assertEqual(info['columnspan'], self._str(1))
self.assertEqual(info['padx'], self._str(0))
self.assertEqual(info['pady'], self._str(0))
self.assertEqual(info['sticky'], '')
def test_grid_remove(self):
b = tkinter.Button(self.root)
c = tkinter.Button(self.root)
b.grid_configure(row=2, column=2, rowspan=2, columnspan=2,
padx=3, pady=4, sticky='ns')
self.assertEqual(self.root.grid_slaves(), [b])
b.grid_remove()
c.grid_remove()
self.assertEqual(self.root.grid_slaves(), [])
self.assertEqual(b.grid_info(), {})
b.grid_configure(row=0, column=0)
info = b.grid_info()
self.assertEqual(info['row'], self._str(0))
self.assertEqual(info['column'], self._str(0))
self.assertEqual(info['rowspan'], self._str(2))
self.assertEqual(info['columnspan'], self._str(2))
self.assertEqual(info['padx'], self._str(3))
self.assertEqual(info['pady'], self._str(4))
self.assertEqual(info['sticky'], 'ns')
def test_grid_info(self):
b = tkinter.Button(self.root)
self.assertEqual(b.grid_info(), {})
b.grid_configure(row=2, column=2, rowspan=2, columnspan=2,
padx=3, pady=4, sticky='ns')
info = b.grid_info()
self.assertIsInstance(info, dict)
self.assertEqual(info['in'], self.root)
self.assertEqual(info['row'], self._str(2))
self.assertEqual(info['column'], self._str(2))
self.assertEqual(info['rowspan'], self._str(2))
self.assertEqual(info['columnspan'], self._str(2))
self.assertEqual(info['padx'], self._str(3))
self.assertEqual(info['pady'], self._str(4))
self.assertEqual(info['sticky'], 'ns')
def test_grid_bbox(self):
self.assertEqual(self.root.grid_bbox(), (0, 0, 0, 0))
self.assertEqual(self.root.grid_bbox(0, 0), (0, 0, 0, 0))
self.assertEqual(self.root.grid_bbox(0, 0, 1, 1), (0, 0, 0, 0))
with self.assertRaisesRegexp(TclError, 'expected integer but got "x"'):
self.root.grid_bbox('x', 0)
with self.assertRaisesRegexp(TclError, 'expected integer but got "x"'):
self.root.grid_bbox(0, 'x')
with self.assertRaisesRegexp(TclError, 'expected integer but got "x"'):
self.root.grid_bbox(0, 0, 'x', 0)
with self.assertRaisesRegexp(TclError, 'expected integer but got "x"'):
self.root.grid_bbox(0, 0, 0, 'x')
with self.assertRaises(TypeError):
self.root.grid_bbox(0, 0, 0, 0, 0)
t = self.root
# de-maximize
t.wm_geometry('1x1+0+0')
t.wm_geometry('')
f1 = tkinter.Frame(t, width=75, height=75, bg='red')
f2 = tkinter.Frame(t, width=90, height=90, bg='blue')
f1.grid_configure(row=0, column=0)
f2.grid_configure(row=1, column=1)
self.root.update()
self.assertEqual(t.grid_bbox(), (0, 0, 165, 165))
self.assertEqual(t.grid_bbox(0, 0), (0, 0, 75, 75))
self.assertEqual(t.grid_bbox(0, 0, 1, 1), (0, 0, 165, 165))
self.assertEqual(t.grid_bbox(1, 1), (75, 75, 90, 90))
self.assertEqual(t.grid_bbox(10, 10, 0, 0), (0, 0, 165, 165))
self.assertEqual(t.grid_bbox(-2, -2, -1, -1), (0, 0, 0, 0))
self.assertEqual(t.grid_bbox(10, 10, 12, 12), (165, 165, 0, 0))
def test_grid_location(self):
with self.assertRaises(TypeError):
self.root.grid_location()
with self.assertRaises(TypeError):
self.root.grid_location(0)
with self.assertRaises(TypeError):
self.root.grid_location(0, 0, 0)
with self.assertRaisesRegexp(TclError, 'bad screen distance "x"'):
self.root.grid_location('x', 'y')
with self.assertRaisesRegexp(TclError, 'bad screen distance "y"'):
self.root.grid_location('1c', 'y')
t = self.root
# de-maximize
t.wm_geometry('1x1+0+0')
t.wm_geometry('')
f = tkinter.Frame(t, width=200, height=100,
highlightthickness=0, bg='red')
self.assertEqual(f.grid_location(10, 10), (-1, -1))
f.grid_configure()
self.root.update()
self.assertEqual(t.grid_location(-10, -10), (-1, -1))
self.assertEqual(t.grid_location(-10, 0), (-1, 0))
self.assertEqual(t.grid_location(-1, 0), (-1, 0))
self.assertEqual(t.grid_location(0, -10), (0, -1))
self.assertEqual(t.grid_location(0, -1), (0, -1))
self.assertEqual(t.grid_location(0, 0), (0, 0))
self.assertEqual(t.grid_location(200, 0), (0, 0))
self.assertEqual(t.grid_location(201, 0), (1, 0))
self.assertEqual(t.grid_location(0, 100), (0, 0))
self.assertEqual(t.grid_location(0, 101), (0, 1))
self.assertEqual(t.grid_location(201, 101), (1, 1))
def test_grid_propagate(self):
self.assertEqual(self.root.grid_propagate(), True)
with self.assertRaises(TypeError):
self.root.grid_propagate(False, False)
self.root.grid_propagate(False)
self.assertFalse(self.root.grid_propagate())
f = tkinter.Frame(self.root, width=100, height=100, bg='red')
f.grid_configure(row=0, column=0)
self.root.update()
self.assertEqual(f.winfo_width(), 100)
self.assertEqual(f.winfo_height(), 100)
f.grid_propagate(False)
g = tkinter.Frame(self.root, width=75, height=85, bg='green')
g.grid_configure(in_=f, row=0, column=0)
self.root.update()
self.assertEqual(f.winfo_width(), 100)
self.assertEqual(f.winfo_height(), 100)
f.grid_propagate(True)
self.root.update()
self.assertEqual(f.winfo_width(), 75)
self.assertEqual(f.winfo_height(), 85)
def test_grid_size(self):
with self.assertRaises(TypeError):
self.root.grid_size(0)
self.assertEqual(self.root.grid_size(), (0, 0))
f = tkinter.Scale(self.root)
f.grid_configure(row=0, column=0)
self.assertEqual(self.root.grid_size(), (1, 1))
f.grid_configure(row=4, column=5)
self.assertEqual(self.root.grid_size(), (6, 5))
def test_grid_slaves(self):
self.assertEqual(self.root.grid_slaves(), [])
a = tkinter.Label(self.root)
a.grid_configure(row=0, column=1)
b = tkinter.Label(self.root)
b.grid_configure(row=1, column=0)
c = tkinter.Label(self.root)
c.grid_configure(row=1, column=1)
d = tkinter.Label(self.root)
d.grid_configure(row=1, column=1)
self.assertEqual(self.root.grid_slaves(), [d, c, b, a])
self.assertEqual(self.root.grid_slaves(row=0), [a])
self.assertEqual(self.root.grid_slaves(row=1), [d, c, b])
self.assertEqual(self.root.grid_slaves(column=0), [b])
self.assertEqual(self.root.grid_slaves(column=1), [d, c, a])
self.assertEqual(self.root.grid_slaves(row=1, column=1), [d, c])
tests_gui = (
PackTest, PlaceTest, GridTest,
)
if __name__ == '__main__':
run_unittest(*tests_gui)
Zerion Mini Shell 1.0