"Test run, coverage 54%." from idlelib import run import io import sys from test.support import captured_output, captured_stderr import unittest from unittest import mock import idlelib from idlelib.idle_test.mock_idle import Func from test.support import force_not_colorized idlelib.testing = True # Use {} for executing test user code. class ExceptionTest(unittest.TestCase): def test_print_exception_unhashable(self): class UnhashableException(Exception): def __eq__(self, other): return True ex1 = UnhashableException('ex1') ex2 = UnhashableException('ex2') try: raise ex2 from ex1 except UnhashableException: try: raise ex1 except UnhashableException: with captured_stderr() as output: with mock.patch.object(run, 'cleanup_traceback') as ct: ct.side_effect = lambda t, e: t run.print_exception() tb = output.getvalue().strip().splitlines() self.assertEqual(11, len(tb)) self.assertIn('UnhashableException: ex2', tb[3]) self.assertIn('UnhashableException: ex1', tb[10]) data = (('1/0', ZeroDivisionError, "division by zero\n"), ('abc', NameError, "name 'abc' is not defined. " "Did you mean: 'abs'? " "Or did you forget to import 'abc'?\n"), ('int.reel', AttributeError, "type object 'int' has no attribute 'reel'. " "Did you mean: 'real'?\n"), ) @force_not_colorized def test_get_message(self): for code, exc, msg in self.data: with self.subTest(code=code): try: eval(compile(code, '', 'eval')) except exc: typ, val, tb = sys.exc_info() actual = run.get_message_lines(typ, val, tb)[0] expect = f'{exc.__name__}: {msg}' self.assertEqual(actual, expect) @force_not_colorized @mock.patch.object(run, 'cleanup_traceback', new_callable=lambda: (lambda t, e: None)) def test_get_multiple_message(self, mock): d = self.data data2 = ((d[0], d[1]), (d[1], d[2]), (d[2], d[0])) subtests = 0 for (code1, exc1, msg1), (code2, exc2, msg2) in data2: with self.subTest(codes=(code1,code2)): try: eval(compile(code1, '', 'eval')) except exc1: try: eval(compile(code2, '', 'eval')) except exc2: with captured_stderr() as output: run.print_exception() actual = output.getvalue() self.assertIn(msg1, actual) self.assertIn(msg2, actual) subtests += 1 self.assertEqual(subtests, len(data2)) # All subtests ran? # StdioFile tests. class S(str): def __str__(self): return '%s:str' % type(self).__name__ def __unicode__(self): return '%s:unicode' % type(self).__name__ def __len__(self): return 3 def __iter__(self): return iter('abc') def __getitem__(self, *args): return '%s:item' % type(self).__name__ def __getslice__(self, *args): return '%s:slice' % type(self).__name__ class MockShell: def __init__(self): self.reset() def write(self, *args): self.written.append(args) def readline(self): return self.lines.pop() def close(self): pass def reset(self): self.written = [] def push(self, lines): self.lines = list(lines)[::-1] class StdInputFilesTest(unittest.TestCase): def test_misc(self): shell = MockShell() f = run.StdInputFile(shell, 'stdin') self.assertIsInstance(f, io.TextIOBase) self.assertEqual(f.encoding, 'utf-8') self.assertEqual(f.errors, 'strict') self.assertIsNone(f.newlines) self.assertEqual(f.name, '') self.assertFalse(f.closed) self.assertTrue(f.isatty()) self.assertTrue(f.readable()) self.assertFalse(f.writable()) self.assertFalse(f.seekable()) def test_unsupported(self): shell = MockShell() f = run.StdInputFile(shell, 'stdin') self.assertRaises(OSError, f.fileno) self.assertRaises(OSError, f.tell) self.assertRaises(OSError, f.seek, 0) self.assertRaises(OSError, f.write, 'x') self.assertRaises(OSError, f.writelines, ['x']) def test_read(self): shell = MockShell() f = run.StdInputFile(shell, 'stdin') shell.push(['one\n', 'two\n', '']) self.assertEqual(f.read(), 'one\ntwo\n') shell.push(['one\n', 'two\n', '']) self.assertEqual(f.read(-1), 'one\ntwo\n') shell.push(['one\n', 'two\n', '']) self.assertEqual(f.read(None), 'one\ntwo\n') shell.push(['one\n', 'two\n', 'three\n', '']) self.assertEqual(f.read(2), 'on') self.assertEqual(f.read(3), 'e\nt') self.assertEqual(f.read(10), 'wo\nthree\n') shell.push(['one\n', 'two\n']) self.assertEqual(f.read(0), '') self.assertRaises(TypeError, f.read, 1.5) self.assertRaises(TypeError, f.read, '1') self.assertRaises(TypeError, f.read, 1, 1) def test_readline(self): shell = MockShell() f = run.StdInputFile(shell, 'stdin') shell.push(['one\n', 'two\n', 'three\n', 'four\n']) self.assertEqual(f.readline(), 'one\n') self.assertEqual(f.readline(-1), 'two\n') self.assertEqual(f.readline(None), 'three\n') shell.push(['one\ntwo\n']) self.assertEqual(f.readline(), 'one\n') self.assertEqual(f.readline(), 'two\n') shell.push(['one', 'two', 'three']) self.assertEqual(f.readline(), 'one') self.assertEqual(f.readline(), 'two') shell.push(['one\n', 'two\n', 'three\n']) self.assertEqual(f.readline(2), 'on') self.assertEqual(f.readline(1), 'e') self.assertEqual(f.readline(1), '\n') self.assertEqual(f.readline(10), 'two\n') shell.push(['one\n', 'two\n']) self.assertEqual(f.readline(0), '') self.assertRaises(TypeError, f.readlines, 1.5) self.assertRaises(TypeError, f.readlines, '1') self.assertRaises(TypeError, f.readlines, 1, 1) def test_readlines(self): shell = MockShell() f = run.StdInputFile(shell, 'stdin') shell.push(['one\n', 'two\n', '']) self.assertEqual(f.readlines(), ['one\n', 'two\n']) shell.push(['one\n', 'two\n', '']) self.assertEqual(f.readlines(-1), ['one\n', 'two\n']) shell.push(['one\n', 'two\n', '']) self.assertEqual(f.readlines(None), ['one\n', 'two\n']) shell.push(['one\n', 'two\n', '']) self.assertEqual(f.readlines(0), ['one\n', 'two\n']) shell.push(['one\n', 'two\n', '']) self.assertEqual(f.readlines(3), ['one\n']) shell.push(['one\n', 'two\n', '']) self.assertEqual(f.readlines(4), ['one\n', 'two\n']) shell.push(['one\n', 'two\n', '']) self.assertRaises(TypeError, f.readlines, 1.5) self.assertRaises(TypeError, f.readlines, '1') self.assertRaises(TypeError, f.readlines, 1, 1) def test_close(self): shell = MockShell() f = run.StdInputFile(shell, 'stdin') shell.push(['one\n', 'two\n', '']) self.assertFalse(f.closed) self.assertEqual(f.readline(), 'one\n') f.close() self.assertFalse(f.closed) self.assertEqual(f.readline(), 'two\n') self.assertRaises(TypeError, f.close, 1) class StdOutputFilesTest(unittest.TestCase): def test_misc(self): shell = MockShell() f = run.StdOutputFile(shell, 'stdout') self.assertIsInstance(f, io.TextIOBase) self.assertEqual(f.encoding, 'utf-8') self.assertEqual(f.errors, 'strict') self.assertIsNone(f.newlines) self.assertEqual(f.name, '') self.assertFalse(f.closed) self.assertTrue(f.isatty()) self.assertFalse(f.readable()) self.assertTrue(f.writable()) self.assertFalse(f.seekable()) def test_unsupported(self): shell = MockShell() f = run.StdOutputFile(shell, 'stdout') self.assertRaises(OSError, f.fileno) self.assertRaises(OSError, f.tell) self.assertRaises(OSError, f.seek, 0) self.assertRaises(OSError, f.read, 0) self.assertRaises(OSError, f.readline, 0) def test_write(self): shell = MockShell() f = run.StdOutputFile(shell, 'stdout') f.write('test') self.assertEqual(shell.written, [('test', 'stdout')]) shell.reset() f.write('t\xe8\u015b\U0001d599') self.assertEqual(shell.written, [('t\xe8\u015b\U0001d599', 'stdout')]) shell.reset() f.write(S('t\xe8\u015b\U0001d599')) self.assertEqual(shell.written, [('t\xe8\u015b\U0001d599', 'stdout')]) self.assertEqual(type(shell.written[0][0]), str) shell.reset() self.assertRaises(TypeError, f.write) self.assertEqual(shell.written, []) self.assertRaises(TypeError, f.write, b'test') self.assertRaises(TypeError, f.write, 123) self.assertEqual(shell.written, []) self.assertRaises(TypeError, f.write, 'test', 'spam') self.assertEqual(shell.written, []) def test_write_stderr_nonencodable(self): shell = MockShell() f = run.StdOutputFile(shell, 'stderr', 'iso-8859-15', 'backslashreplace') f.write('t\xe8\u015b\U0001d599\xa4') self.assertEqual(shell.written, [('t\xe8\\u015b\\U0001d599\\xa4', 'stderr')]) shell.reset() f.write(S('t\xe8\u015b\U0001d599\xa4')) self.assertEqual(shell.written, [('t\xe8\\u015b\\U0001d599\\xa4', 'stderr')]) self.assertEqual(type(shell.written[0][0]), str) shell.reset() self.assertRaises(TypeError, f.write) self.assertEqual(shell.written, []) self.assertRaises(TypeError, f.write, b'test') self.assertRaises(TypeError, f.write, 123) self.assertEqual(shell.written, []) self.assertRaises(TypeError, f.write, 'test', 'spam') self.assertEqual(shell.written, []) def test_writelines(self): shell = MockShell() f = run.StdOutputFile(shell, 'stdout') f.writelines([]) self.assertEqual(shell.written, []) shell.reset() f.writelines(['one\n', 'two']) self.assertEqual(shell.written, [('one\n', 'stdout'), ('two', 'stdout')]) shell.reset() f.writelines(['on\xe8\n', 'tw\xf2']) self.assertEqual(shell.written, [('on\xe8\n', 'stdout'), ('tw\xf2', 'stdout')]) shell.reset() f.writelines([S('t\xe8st')]) self.assertEqual(shell.written, [('t\xe8st', 'stdout')]) self.assertEqual(type(shell.written[0][0]), str) shell.reset() self.assertRaises(TypeError, f.writelines) self.assertEqual(shell.written, []) self.assertRaises(TypeError, f.writelines, 123) self.assertEqual(shell.written, []) self.assertRaises(TypeError, f.writelines, [b'test']) self.assertRaises(TypeError, f.writelines, [123]) self.assertEqual(shell.written, []) self.assertRaises(TypeError, f.writelines, [], []) self.assertEqual(shell.written, []) def test_close(self): shell = MockShell() f = run.StdOutputFile(shell, 'stdout') self.assertFalse(f.closed) f.write('test') f.close() self.assertTrue(f.closed) self.assertRaises(ValueError, f.write, 'x') self.assertEqual(shell.written, [('test', 'stdout')]) f.close() self.assertRaises(TypeError, f.close, 1) class RecursionLimitTest(unittest.TestCase): # Test (un)install_recursionlimit_wrappers and fixdoc. def test_bad_setrecursionlimit_calls(self): run.install_recursionlimit_wrappers() self.addCleanup(run.uninstall_recursionlimit_wrappers) f = sys.setrecursionlimit self.assertRaises(TypeError, f, limit=100) self.assertRaises(TypeError, f, 100, 1000) self.assertRaises(ValueError, f, 0) def test_roundtrip(self): run.install_recursionlimit_wrappers() self.addCleanup(run.uninstall_recursionlimit_wrappers) # Check that setting the recursion limit works. orig_reclimit = sys.getrecursionlimit() self.addCleanup(sys.setrecursionlimit, orig_reclimit) sys.setrecursionlimit(orig_reclimit + 3) # Check that the new limit is returned by sys.getrecursionlimit(). new_reclimit = sys.getrecursionlimit() self.assertEqual(new_reclimit, orig_reclimit + 3) def test_default_recursion_limit_preserved(self): orig_reclimit = sys.getrecursionlimit() run.install_recursionlimit_wrappers() self.addCleanup(run.uninstall_recursionlimit_wrappers) new_reclimit = sys.getrecursionlimit() self.assertEqual(new_reclimit, orig_reclimit) def test_fixdoc(self): # Put here until better place for miscellaneous test. def func(): "docstring" run.fixdoc(func, "more") self.assertEqual(func.__doc__, "docstring\n\nmore") func.__doc__ = None run.fixdoc(func, "more") self.assertEqual(func.__doc__, "more") class HandleErrorTest(unittest.TestCase): # Method of MyRPCServer def test_fatal_error(self): eq = self.assertEqual with captured_output('__stderr__') as err,\ mock.patch('idlelib.run.thread.interrupt_main', new_callable=Func) as func: try: raise EOFError except EOFError: run.MyRPCServer.handle_error(None, 'abc', '123') eq(run.exit_now, True) run.exit_now = False eq(err.getvalue(), '') try: raise IndexError except IndexError: run.MyRPCServer.handle_error(None, 'abc', '123') eq(run.quitting, True) run.quitting = False msg = err.getvalue() self.assertIn('abc', msg) self.assertIn('123', msg) self.assertIn('IndexError', msg) eq(func.called, 2) class ExecRuncodeTest(unittest.TestCase): @classmethod def setUpClass(cls): cls.addClassCleanup(setattr,run,'print_exception',run.print_exception) cls.prt = Func() # Need reference. run.print_exception = cls.prt mockrpc = mock.Mock() mockrpc.console.getvar = Func(result=False) cls.ex = run.Executive(mockrpc) @classmethod def tearDownClass(cls): assert sys.excepthook == sys.__excepthook__ def test_exceptions(self): ex = self.ex ex.runcode('1/0') self.assertIs(ex.user_exc_info[0], ZeroDivisionError) self.addCleanup(setattr, sys, 'excepthook', sys.__excepthook__) sys.excepthook = lambda t, e, tb: run.print_exception(t) ex.runcode('1/0') self.assertIs(self.prt.args[0], ZeroDivisionError) sys.excepthook = lambda: None ex.runcode('1/0') t, e, tb = ex.user_exc_info self.assertIs(t, TypeError) self.assertTrue(isinstance(e.__context__, ZeroDivisionError)) if __name__ == '__main__': unittest.main(verbosity=2)