import unittest import subprocess import sys import os from test import support from test.support import import_helper from test.support import os_helper # Skip this test if the _tkinter module wasn't built. _tkinter = import_helper.import_module('_tkinter') import tkinter from tkinter import Tcl from _tkinter import TclError try: from _testcapi import INT_MAX, PY_SSIZE_T_MAX except ImportError: INT_MAX = PY_SSIZE_T_MAX = sys.maxsize tcl_version = tuple(map(int, _tkinter.TCL_VERSION.split('.'))) class TkinterTest(unittest.TestCase): def testFlattenLen(self): # Object without length. self.assertRaises(TypeError, _tkinter._flatten, True) # Object with length, but not sequence. self.assertRaises(TypeError, _tkinter._flatten, {}) # Sequence or set, but not tuple or list. # (issue44608: there were leaks in the following cases) self.assertRaises(TypeError, _tkinter._flatten, 'string') self.assertRaises(TypeError, _tkinter._flatten, {'set'}) class TclTest(unittest.TestCase): def setUp(self): self.interp = Tcl() self.wantobjects = self.interp.tk.wantobjects() def testEval(self): tcl = self.interp tcl.eval('set a 1') self.assertEqual(tcl.eval('set a'),'1') def test_eval_null_in_result(self): tcl = self.interp self.assertEqual(tcl.eval('set a "a\\0b"'), 'a\x00b') def test_eval_surrogates_in_result(self): tcl = self.interp self.assertEqual(tcl.eval(r'set a "<\ud83d\udcbb>"'), '<\U0001f4bb>') def testEvalException(self): tcl = self.interp self.assertRaises(TclError,tcl.eval,'set a') def testEvalException2(self): tcl = self.interp self.assertRaises(TclError,tcl.eval,'this is wrong') def test_eval_returns_tcl_obj(self): tcl = self.interp.tk tcl.eval(r'set a "\u20ac \ud83d\udcbb \0 \udcab"; regexp -about $a') a = tcl.eval('set a') expected = '\u20ac \U0001f4bb \0 \udced\udcb2\udcab' self.assertEqual(a, expected) def testCall(self): tcl = self.interp tcl.call('set','a','1') self.assertEqual(tcl.call('set','a'),'1') def test_call_passing_null(self): tcl = self.interp tcl.call('set', 'a', 'a\0b') # ASCII-only self.assertEqual(tcl.getvar('a'), 'a\x00b') self.assertEqual(tcl.call('set', 'a'), 'a\x00b') self.assertEqual(tcl.eval('set a'), 'a\x00b') tcl.call('set', 'a', '\u20ac\0') # non-ASCII self.assertEqual(tcl.getvar('a'), '\u20ac\x00') self.assertEqual(tcl.call('set', 'a'), '\u20ac\x00') self.assertEqual(tcl.eval('set a'), '\u20ac\x00') def testCallException(self): tcl = self.interp self.assertRaises(TclError,tcl.call,'set','a') def testCallException2(self): tcl = self.interp self.assertRaises(TclError,tcl.call,'this','is','wrong') def test_call_returns_tcl_obj(self): tcl = self.interp.tk tcl.eval(r'set a "\u20ac \ud83d\udcbb \0 \udcab"; regexp -about $a') a = tcl.call('set', 'a') expected = '\u20ac \U0001f4bb \0 \udced\udcb2\udcab' if self.wantobjects: self.assertEqual(str(a), expected) self.assertEqual(a.string, expected) self.assertEqual(a.typename, 'regexp') else: self.assertEqual(a, expected) def testSetVar(self): tcl = self.interp tcl.setvar('a','1') self.assertEqual(tcl.eval('set a'),'1') def test_setvar_passing_null(self): tcl = self.interp tcl.setvar('a', 'a\0b') # ASCII-only self.assertEqual(tcl.getvar('a'), 'a\x00b') self.assertEqual(tcl.call('set', 'a'), 'a\x00b') self.assertEqual(tcl.eval('set a'), 'a\x00b') tcl.setvar('a', '\u20ac\0') # non-ASCII self.assertEqual(tcl.getvar('a'), '\u20ac\x00') self.assertEqual(tcl.call('set', 'a'), '\u20ac\x00') self.assertEqual(tcl.eval('set a'), '\u20ac\x00') def testSetVarArray(self): tcl = self.interp tcl.setvar('a(1)','1') self.assertEqual(tcl.eval('set a(1)'),'1') def testGetVar(self): tcl = self.interp tcl.eval('set a 1') self.assertEqual(tcl.getvar('a'),'1') def testGetVarArray(self): tcl = self.interp tcl.eval('set a(1) 1') self.assertEqual(tcl.getvar('a(1)'),'1') def testGetVarException(self): tcl = self.interp self.assertRaises(TclError,tcl.getvar,'a') def testGetVarArrayException(self): tcl = self.interp self.assertRaises(TclError,tcl.getvar,'a(1)') def test_getvar_returns_tcl_obj(self): tcl = self.interp.tk tcl.eval(r'set a "\u20ac \ud83d\udcbb \0 \udcab"; regexp -about $a') a = tcl.getvar('a') expected = '\u20ac \U0001f4bb \0 \udced\udcb2\udcab' if self.wantobjects: self.assertEqual(str(a), expected) self.assertEqual(a.string, expected) self.assertEqual(a.typename, 'regexp') else: self.assertEqual(a, expected) def testUnsetVar(self): tcl = self.interp tcl.setvar('a',1) self.assertEqual(tcl.eval('info exists a'),'1') tcl.unsetvar('a') self.assertEqual(tcl.eval('info exists a'),'0') def testUnsetVarArray(self): tcl = self.interp tcl.setvar('a(1)',1) tcl.setvar('a(2)',2) self.assertEqual(tcl.eval('info exists a(1)'),'1') self.assertEqual(tcl.eval('info exists a(2)'),'1') tcl.unsetvar('a(1)') self.assertEqual(tcl.eval('info exists a(1)'),'0') self.assertEqual(tcl.eval('info exists a(2)'),'1') def testUnsetVarException(self): tcl = self.interp self.assertRaises(TclError,tcl.unsetvar,'a') def get_integers(self): return (0, 1, -1, 2**31-1, -2**31, 2**31, -2**31-1, 2**63-1, -2**63, 2**63, -2**63-1, 2**1000, -2**1000) def test_getint(self): tcl = self.interp.tk for i in self.get_integers(): self.assertEqual(tcl.getint(' %d ' % i), i) self.assertEqual(tcl.getint(' %#o ' % i), i) # Numbers starting with 0 are parsed as decimal in Tcl 9.0 # and as octal in older versions. self.assertEqual(tcl.getint((' %#o ' % i).replace('o', '')), i if tcl_version < (9, 0) else int('%o' % i)) self.assertEqual(tcl.getint(' %#x ' % i), i) self.assertEqual(tcl.getint(42), 42) self.assertRaises(TypeError, tcl.getint) self.assertRaises(TypeError, tcl.getint, '42', '10') self.assertRaises(TypeError, tcl.getint, b'42') self.assertRaises(TypeError, tcl.getint, 42.0) self.assertRaises(TclError, tcl.getint, 'a') self.assertRaises((TypeError, ValueError, TclError), tcl.getint, '42\0') self.assertRaises((UnicodeEncodeError, ValueError, TclError), tcl.getint, '42\ud800') def test_getdouble(self): tcl = self.interp.tk self.assertEqual(tcl.getdouble(' 42 '), 42.0) self.assertEqual(tcl.getdouble(' 42.5 '), 42.5) self.assertEqual(tcl.getdouble(42.5), 42.5) self.assertEqual(tcl.getdouble(42), 42.0) self.assertRaises(TypeError, tcl.getdouble) self.assertRaises(TypeError, tcl.getdouble, '42.5', '10') self.assertRaises(TypeError, tcl.getdouble, b'42.5') self.assertRaises(TclError, tcl.getdouble, 'a') self.assertRaises((TypeError, ValueError, TclError), tcl.getdouble, '42.5\0') self.assertRaises((UnicodeEncodeError, ValueError, TclError), tcl.getdouble, '42.5\ud800') def test_getboolean(self): tcl = self.interp.tk self.assertIs(tcl.getboolean('on'), True) self.assertIs(tcl.getboolean('1'), True) self.assertIs(tcl.getboolean(42), True) self.assertIs(tcl.getboolean(0), False) self.assertRaises(TypeError, tcl.getboolean) self.assertRaises(TypeError, tcl.getboolean, 'on', '1') self.assertRaises(TypeError, tcl.getboolean, b'on') self.assertRaises(TypeError, tcl.getboolean, 1.0) self.assertRaises(TclError, tcl.getboolean, 'a') self.assertRaises((TypeError, ValueError, TclError), tcl.getboolean, 'on\0') self.assertRaises((UnicodeEncodeError, ValueError, TclError), tcl.getboolean, 'on\ud800') def testEvalFile(self): tcl = self.interp filename = os_helper.TESTFN_ASCII self.addCleanup(os_helper.unlink, filename) with open(filename, 'w') as f: f.write("""set a 1 set b 2 set c [ expr $a + $b ] """) tcl.evalfile(filename) self.assertEqual(tcl.eval('set a'),'1') self.assertEqual(tcl.eval('set b'),'2') self.assertEqual(tcl.eval('set c'),'3') def test_evalfile_null_in_result(self): tcl = self.interp filename = os_helper.TESTFN_ASCII self.addCleanup(os_helper.unlink, filename) with open(filename, 'w') as f: f.write(""" set a "a\0b" set b "a\\0b" """) tcl.evalfile(filename) self.assertEqual(tcl.eval('set a'), 'a\x00b') self.assertEqual(tcl.eval('set b'), 'a\x00b') def test_evalfile_surrogates_in_result(self): tcl = self.interp encoding = tcl.call('encoding', 'system') self.addCleanup(tcl.call, 'encoding', 'system', encoding) tcl.call('encoding', 'system', 'utf-8') filename = os_helper.TESTFN_ASCII self.addCleanup(os_helper.unlink, filename) with open(filename, 'wb') as f: f.write(b""" set a "<\xed\xa0\xbd\xed\xb2\xbb>" """) if tcl_version >= (9, 0): self.assertRaises(TclError, tcl.evalfile, filename) else: tcl.evalfile(filename) self.assertEqual(tcl.eval('set a'), '<\U0001f4bb>') with open(filename, 'wb') as f: f.write(b""" set b "<\\ud83d\\udcbb>" """) tcl.evalfile(filename) self.assertEqual(tcl.eval('set b'), '<\U0001f4bb>') def testEvalFileException(self): tcl = self.interp filename = "doesnotexists" try: os.remove(filename) except Exception as e: pass self.assertRaises(TclError,tcl.evalfile,filename) def testPackageRequireException(self): tcl = self.interp self.assertRaises(TclError,tcl.eval,'package require DNE') @unittest.skipUnless(sys.platform == 'win32', 'Requires Windows') def testLoadWithUNC(self): # Build a UNC path from the regular path. # Something like # \\%COMPUTERNAME%\c$\python27\python.exe fullname = os.path.abspath(sys.executable) if fullname[1] != ':': raise unittest.SkipTest('Absolute path should have drive part') unc_name = r'\\%s\%s$\%s' % (os.environ['COMPUTERNAME'], fullname[0], fullname[3:]) if not os.path.exists(unc_name): raise unittest.SkipTest('Cannot connect to UNC Path') with os_helper.EnvironmentVarGuard() as env: env.unset("TCL_LIBRARY") stdout = subprocess.check_output( [unc_name, '-c', 'import tkinter; print(tkinter)']) self.assertIn(b'tkinter', stdout) def test_exprstring(self): tcl = self.interp tcl.call('set', 'a', 3) tcl.call('set', 'b', 6) def check(expr, expected): result = tcl.exprstring(expr) self.assertEqual(result, expected) self.assertIsInstance(result, str) self.assertRaises(TypeError, tcl.exprstring) self.assertRaises(TypeError, tcl.exprstring, '8.2', '+6') self.assertRaises(TypeError, tcl.exprstring, b'8.2 + 6') self.assertRaises(TclError, tcl.exprstring, 'spam') check('', '0') check('8.2 + 6', '14.2') check('3.1 + $a', '6.1') check('2 + "$a.$b"', '5.6') check('4*[llength "6 2"]', '8') check('{word one} < "word $a"', '0') check('4*2 < 7', '0') check('hypot($a, 4)', '5.0') check('5 / 4', '1') check('5 / 4.0', '1.25') check('5 / ( [string length "abcd"] + 0.0 )', '1.25') check('20.0/5.0', '4.0') check('"0x03" > "2"', '1') check('[string length "a\xbd\u20ac"]', '3') check(r'[string length "a\xbd\u20ac"]', '3') check('"abc"', 'abc') check('"a\xbd\u20ac"', 'a\xbd\u20ac') check(r'"a\xbd\u20ac"', 'a\xbd\u20ac') check(r'"a\0b"', 'a\x00b') check('2**64', str(2**64)) def test_exprdouble(self): tcl = self.interp tcl.call('set', 'a', 3) tcl.call('set', 'b', 6) def check(expr, expected): result = tcl.exprdouble(expr) self.assertEqual(result, expected) self.assertIsInstance(result, float) self.assertRaises(TypeError, tcl.exprdouble) self.assertRaises(TypeError, tcl.exprdouble, '8.2', '+6') self.assertRaises(TypeError, tcl.exprdouble, b'8.2 + 6') self.assertRaises(TclError, tcl.exprdouble, 'spam') check('', 0.0) check('8.2 + 6', 14.2) check('3.1 + $a', 6.1) check('2 + "$a.$b"', 5.6) check('4*[llength "6 2"]', 8.0) check('{word one} < "word $a"', 0.0) check('4*2 < 7', 0.0) check('hypot($a, 4)', 5.0) check('5 / 4', 1.0) check('5 / 4.0', 1.25) check('5 / ( [string length "abcd"] + 0.0 )', 1.25) check('20.0/5.0', 4.0) check('"0x03" > "2"', 1.0) check('[string length "a\xbd\u20ac"]', 3.0) check(r'[string length "a\xbd\u20ac"]', 3.0) self.assertRaises(TclError, tcl.exprdouble, '"abc"') check('2**64', float(2**64)) def test_exprlong(self): tcl = self.interp tcl.call('set', 'a', 3) tcl.call('set', 'b', 6) def check(expr, expected): result = tcl.exprlong(expr) self.assertEqual(result, expected) self.assertIsInstance(result, int) self.assertRaises(TypeError, tcl.exprlong) self.assertRaises(TypeError, tcl.exprlong, '8.2', '+6') self.assertRaises(TypeError, tcl.exprlong, b'8.2 + 6') self.assertRaises(TclError, tcl.exprlong, 'spam') check('', 0) check('8.2 + 6', 14) check('3.1 + $a', 6) check('2 + "$a.$b"', 5) check('4*[llength "6 2"]', 8) check('{word one} < "word $a"', 0) check('4*2 < 7', 0) check('hypot($a, 4)', 5) check('5 / 4', 1) check('5 / 4.0', 1) check('5 / ( [string length "abcd"] + 0.0 )', 1) check('20.0/5.0', 4) check('"0x03" > "2"', 1) check('[string length "a\xbd\u20ac"]', 3) check(r'[string length "a\xbd\u20ac"]', 3) self.assertRaises(TclError, tcl.exprlong, '"abc"') self.assertRaises(TclError, tcl.exprlong, '2**64') def test_exprboolean(self): tcl = self.interp tcl.call('set', 'a', 3) tcl.call('set', 'b', 6) def check(expr, expected): result = tcl.exprboolean(expr) self.assertEqual(result, expected) self.assertIsInstance(result, int) self.assertNotIsInstance(result, bool) self.assertRaises(TypeError, tcl.exprboolean) self.assertRaises(TypeError, tcl.exprboolean, '8.2', '+6') self.assertRaises(TypeError, tcl.exprboolean, b'8.2 + 6') self.assertRaises(TclError, tcl.exprboolean, 'spam') check('', False) for value in ('0', 'false', 'no', 'off'): check(value, False) check('"%s"' % value, False) check('{%s}' % value, False) for value in ('1', 'true', 'yes', 'on'): check(value, True) check('"%s"' % value, True) check('{%s}' % value, True) check('8.2 + 6', True) check('3.1 + $a', True) check('2 + "$a.$b"', True) check('4*[llength "6 2"]', True) check('{word one} < "word $a"', False) check('4*2 < 7', False) check('hypot($a, 4)', True) check('5 / 4', True) check('5 / 4.0', True) check('5 / ( [string length "abcd"] + 0.0 )', True) check('20.0/5.0', True) check('"0x03" > "2"', True) check('[string length "a\xbd\u20ac"]', True) check(r'[string length "a\xbd\u20ac"]', True) self.assertRaises(TclError, tcl.exprboolean, '"abc"') check('2**64', True) def test_booleans(self): tcl = self.interp def check(expr, expected): result = tcl.call('expr', expr) if tcl.wantobjects(): self.assertEqual(result, expected) self.assertIsInstance(result, int) else: self.assertIn(result, (expr, str(int(expected)))) self.assertIsInstance(result, str) check('true', True) check('yes', True) check('on', True) check('false', False) check('no', False) check('off', False) check('1 < 2', True) check('1 > 2', False) def test_expr_bignum(self): tcl = self.interp for i in self.get_integers(): result = tcl.call('expr', str(i)) if self.wantobjects: self.assertEqual(result, i) self.assertIsInstance(result, int) else: self.assertEqual(result, str(i)) self.assertIsInstance(result, str) def test_passing_values(self): def passValue(value): return self.interp.call('set', '_', value) self.assertEqual(passValue(True), True if self.wantobjects else '1') self.assertEqual(passValue(False), False if self.wantobjects else '0') self.assertEqual(passValue('string'), 'string') self.assertEqual(passValue('string\u20ac'), 'string\u20ac') self.assertEqual(passValue('string\U0001f4bb'), 'string\U0001f4bb') self.assertEqual(passValue('str\x00ing'), 'str\x00ing') self.assertEqual(passValue('str\x00ing\xbd'), 'str\x00ing\xbd') self.assertEqual(passValue('str\x00ing\u20ac'), 'str\x00ing\u20ac') self.assertEqual(passValue('str\x00ing\U0001f4bb'), 'str\x00ing\U0001f4bb') if sys.platform != 'win32': self.assertEqual(passValue('<\udce2\udc82\udcac>'), '<\u20ac>') self.assertEqual(passValue('<\udced\udca0\udcbd\udced\udcb2\udcbb>'), '<\U0001f4bb>') self.assertEqual(passValue(b'str\x00ing'), b'str\x00ing' if self.wantobjects else 'str\x00ing') self.assertEqual(passValue(b'str\xc0\x80ing'), b'str\xc0\x80ing' if self.wantobjects else 'str\xc0\x80ing') self.assertEqual(passValue(b'str\xbding'), b'str\xbding' if self.wantobjects else 'str\xbding') for i in self.get_integers(): self.assertEqual(passValue(i), i if self.wantobjects else str(i)) for f in (0.0, 1.0, -1.0, 1/3, sys.float_info.min, sys.float_info.max, -sys.float_info.min, -sys.float_info.max): if self.wantobjects: self.assertEqual(passValue(f), f) else: self.assertEqual(float(passValue(f)), f) if self.wantobjects: f = passValue(float('nan')) self.assertNotEqual(f, f) self.assertEqual(passValue(float('inf')), float('inf')) self.assertEqual(passValue(-float('inf')), -float('inf')) else: self.assertEqual(float(passValue(float('inf'))), float('inf')) self.assertEqual(float(passValue(-float('inf'))), -float('inf')) # XXX NaN representation can be not parsable by float() self.assertEqual(passValue((1, '2', (3.4,))), (1, '2', (3.4,)) if self.wantobjects else '1 2 3.4') self.assertEqual(passValue(['a', ['b', 'c']]), ('a', ('b', 'c')) if self.wantobjects else 'a {b c}') def test_user_command(self): result = None def testfunc(arg): nonlocal result result = arg return arg self.interp.createcommand('testfunc', testfunc) self.addCleanup(self.interp.tk.deletecommand, 'testfunc') def check(value, expected1=None, expected2=None, *, eq=self.assertEqual): expected = value if self.wantobjects >= 2: if expected2 is not None: expected = expected2 expected_type = type(expected) else: if expected1 is not None: expected = expected1 expected_type = str nonlocal result result = None r = self.interp.call('testfunc', value) self.assertIsInstance(result, expected_type) eq(result, expected) self.assertIsInstance(r, expected_type) eq(r, expected) def float_eq(actual, expected): self.assertAlmostEqual(float(actual), expected, delta=abs(expected) * 1e-10) check(True, '1', 1) check(False, '0', 0) check('string') check('string\xbd') check('string\u20ac') check('string\U0001f4bb') if sys.platform != 'win32': check('<\udce2\udc82\udcac>', '<\u20ac>', '<\u20ac>') check('<\udced\udca0\udcbd\udced\udcb2\udcbb>', '<\U0001f4bb>', '<\U0001f4bb>') check('') check(b'string', 'string') check(b'string\xe2\x82\xac', 'string\xe2\x82\xac') check(b'string\xbd', 'string\xbd') check(b'', '') check('str\x00ing') check('str\x00ing\xbd') check('str\x00ing\u20ac') check(b'str\x00ing', 'str\x00ing') check(b'str\xc0\x80ing', 'str\xc0\x80ing') check(b'str\xc0\x80ing\xe2\x82\xac', 'str\xc0\x80ing\xe2\x82\xac') for i in self.get_integers(): check(i, str(i)) for f in (0.0, 1.0, -1.0): check(f, repr(f)) for f in (1/3.0, sys.float_info.min, sys.float_info.max, -sys.float_info.min, -sys.float_info.max): check(f, eq=float_eq) check(float('inf'), eq=float_eq) check(-float('inf'), eq=float_eq) # XXX NaN representation can be not parsable by float() check((), '', '') check((1, (2,), (3, 4), '5 6', ()), '1 2 {3 4} {5 6} {}', (1, (2,), (3, 4), '5 6', '')) check([1, [2,], [3, 4], '5 6', []], '1 2 {3 4} {5 6} {}', (1, (2,), (3, 4), '5 6', '')) def test_passing_tcl_obj(self): tcl = self.interp.tk a = None def testfunc(arg): nonlocal a a = arg self.interp.createcommand('testfunc', testfunc) self.addCleanup(self.interp.tk.deletecommand, 'testfunc') tcl.eval(r'set a "\u20ac \ud83d\udcbb \0 \udcab"; regexp -about $a') tcl.eval(r'testfunc $a') expected = '\u20ac \U0001f4bb \0 \udced\udcb2\udcab' if self.wantobjects >= 2: self.assertEqual(str(a), expected) self.assertEqual(a.string, expected) self.assertEqual(a.typename, 'regexp') else: self.assertEqual(a, expected) def test_splitlist(self): splitlist = self.interp.tk.splitlist call = self.interp.tk.call self.assertRaises(TypeError, splitlist) self.assertRaises(TypeError, splitlist, 'a', 'b') self.assertRaises(TypeError, splitlist, 2) testcases = [ ('2', ('2',)), ('', ()), ('{}', ('',)), ('""', ('',)), ('a\n b\t\r c\n ', ('a', 'b', 'c')), (b'a\n b\t\r c\n ', ('a', 'b', 'c')), ('a \u20ac', ('a', '\u20ac')), ('a \U0001f4bb', ('a', '\U0001f4bb')), (b'a \xe2\x82\xac', ('a', '\u20ac')), (b'a \xf0\x9f\x92\xbb', ('a', '\U0001f4bb')), (b'a \xed\xa0\xbd\xed\xb2\xbb', ('a', '\U0001f4bb')), (b'a\xc0\x80b c\xc0\x80d', ('a\x00b', 'c\x00d')), ('a {b c}', ('a', 'b c')), (r'a b\ c', ('a', 'b c')), (('a', 'b c'), ('a', 'b c')), ('a 2', ('a', '2')), (('a', 2), ('a', 2)), ('a 3.4', ('a', '3.4')), (('a', 3.4), ('a', 3.4)), ((), ()), ([], ()), (['a', ['b', 'c']], ('a', ['b', 'c'])), (call('list', 1, '2', (3.4,)), (1, '2', (3.4,)) if self.wantobjects else ('1', '2', '3.4')), ] if not self.wantobjects: expected = ('12', '\u20ac', '\xe2\x82\xac', '3.4') else: expected = (12, '\u20ac', b'\xe2\x82\xac', (3.4,)) testcases += [ (call('dict', 'create', 12, '\u20ac', b'\xe2\x82\xac', (3.4,)), expected), ] dbg_info = ('want objects? %s, Tcl version: %s, Tcl patchlevel: %s' % (self.wantobjects, tcl_version, self.interp.info_patchlevel())) for arg, res in testcases: self.assertEqual(splitlist(arg), res, 'arg=%a, %s' % (arg, dbg_info)) self.assertRaises(TclError, splitlist, '{') def test_splitdict(self): splitdict = tkinter._splitdict tcl = self.interp.tk arg = '-a {1 2 3} -something foo status {}' self.assertEqual(splitdict(tcl, arg, False), {'-a': '1 2 3', '-something': 'foo', 'status': ''}) self.assertEqual(splitdict(tcl, arg), {'a': '1 2 3', 'something': 'foo', 'status': ''}) arg = ('-a', (1, 2, 3), '-something', 'foo', 'status', '{}') self.assertEqual(splitdict(tcl, arg, False), {'-a': (1, 2, 3), '-something': 'foo', 'status': '{}'}) self.assertEqual(splitdict(tcl, arg), {'a': (1, 2, 3), 'something': 'foo', 'status': '{}'}) self.assertRaises(RuntimeError, splitdict, tcl, '-a b -c ') self.assertRaises(RuntimeError, splitdict, tcl, ('-a', 'b', '-c')) arg = tcl.call('list', '-a', (1, 2, 3), '-something', 'foo', 'status', ()) self.assertEqual(splitdict(tcl, arg), {'a': (1, 2, 3) if self.wantobjects else '1 2 3', 'something': 'foo', 'status': ''}) arg = tcl.call('dict', 'create', '-a', (1, 2, 3), '-something', 'foo', 'status', ()) if not self.wantobjects: expected = {'a': '1 2 3', 'something': 'foo', 'status': ''} else: expected = {'a': (1, 2, 3), 'something': 'foo', 'status': ''} self.assertEqual(splitdict(tcl, arg), expected) def test_join(self): join = tkinter._join tcl = self.interp.tk def unpack(s): return tcl.call('lindex', s, 0) def check(value): self.assertEqual(unpack(join([value])), value) self.assertEqual(unpack(join([value, 0])), value) self.assertEqual(unpack(unpack(join([[value]]))), value) self.assertEqual(unpack(unpack(join([[value, 0]]))), value) self.assertEqual(unpack(unpack(join([[value], 0]))), value) self.assertEqual(unpack(unpack(join([[value, 0], 0]))), value) check('') check('spam') check('sp am') check('sp\tam') check('sp\nam') check(' \t\n') check('{spam}') check('{sp am}') check('"spam"') check('"sp am"') check('{"spam"}') check('"{spam}"') check('sp\\am') check('"sp\\am"') check('"{}" "{}"') check('"\\') check('"{') check('"}') check('\n\\') check('\n{') check('\n}') check('\\\n') check('{\n') check('}\n') @support.cpython_only def test_new_tcl_obj(self): support.check_disallow_instantiation(self, _tkinter.Tcl_Obj) support.check_disallow_instantiation(self, _tkinter.TkttType) support.check_disallow_instantiation(self, _tkinter.TkappType) class BigmemTclTest(unittest.TestCase): def setUp(self): self.interp = Tcl() @support.cpython_only @unittest.skipUnless(INT_MAX < PY_SSIZE_T_MAX, "needs UINT_MAX < SIZE_MAX") @support.bigmemtest(size=INT_MAX + 1, memuse=5, dry_run=False) def test_huge_string_call(self, size): value = ' ' * size self.assertRaises(OverflowError, self.interp.call, 'string', 'index', value, 0) @support.cpython_only @unittest.skipUnless(INT_MAX < PY_SSIZE_T_MAX, "needs UINT_MAX < SIZE_MAX") @support.bigmemtest(size=INT_MAX + 1, memuse=2, dry_run=False) def test_huge_string_builtins(self, size): tk = self.interp.tk value = '1' + ' ' * size self.assertRaises(OverflowError, tk.getint, value) self.assertRaises(OverflowError, tk.getdouble, value) self.assertRaises(OverflowError, tk.getboolean, value) self.assertRaises(OverflowError, tk.eval, value) self.assertRaises(OverflowError, tk.evalfile, value) self.assertRaises(OverflowError, tk.record, value) self.assertRaises(OverflowError, tk.adderrorinfo, value) self.assertRaises(OverflowError, tk.setvar, value, 'x', 'a') self.assertRaises(OverflowError, tk.setvar, 'x', value, 'a') self.assertRaises(OverflowError, tk.unsetvar, value) self.assertRaises(OverflowError, tk.unsetvar, 'x', value) self.assertRaises(OverflowError, tk.adderrorinfo, value) self.assertRaises(OverflowError, tk.exprstring, value) self.assertRaises(OverflowError, tk.exprlong, value) self.assertRaises(OverflowError, tk.exprboolean, value) self.assertRaises(OverflowError, tk.splitlist, value) self.assertRaises(OverflowError, tk.createcommand, value, max) self.assertRaises(OverflowError, tk.deletecommand, value) @support.cpython_only @unittest.skipUnless(INT_MAX < PY_SSIZE_T_MAX, "needs UINT_MAX < SIZE_MAX") @support.bigmemtest(size=INT_MAX + 1, memuse=6, dry_run=False) def test_huge_string_builtins2(self, size): # These commands require larger memory for possible error messages tk = self.interp.tk value = '1' + ' ' * size self.assertRaises(OverflowError, tk.evalfile, value) self.assertRaises(OverflowError, tk.unsetvar, value) self.assertRaises(OverflowError, tk.unsetvar, 'x', value) def setUpModule(): if support.verbose: tcl = Tcl() print('patchlevel =', tcl.call('info', 'patchlevel'), flush=True) if __name__ == "__main__": unittest.main()