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9594942716
error messages and comments.
509 lines
19 KiB
Python
509 lines
19 KiB
Python
import unittest
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import sys
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import _ast
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import types
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from test import support
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class TestSpecifics(unittest.TestCase):
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def compile_single(self, source):
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compile(source, "<single>", "single")
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def assertInvalidSingle(self, source):
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self.assertRaises(SyntaxError, self.compile_single, source)
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def test_no_ending_newline(self):
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compile("hi", "<test>", "exec")
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compile("hi\r", "<test>", "exec")
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def test_empty(self):
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compile("", "<test>", "exec")
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def test_other_newlines(self):
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compile("\r\n", "<test>", "exec")
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compile("\r", "<test>", "exec")
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compile("hi\r\nstuff\r\ndef f():\n pass\r", "<test>", "exec")
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compile("this_is\rreally_old_mac\rdef f():\n pass", "<test>", "exec")
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def test_debug_assignment(self):
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# catch assignments to __debug__
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self.assertRaises(SyntaxError, compile, '__debug__ = 1', '?', 'single')
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import builtins
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prev = builtins.__debug__
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setattr(builtins, '__debug__', 'sure')
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setattr(builtins, '__debug__', prev)
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def test_argument_handling(self):
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# detect duplicate positional and keyword arguments
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self.assertRaises(SyntaxError, eval, 'lambda a,a:0')
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self.assertRaises(SyntaxError, eval, 'lambda a,a=1:0')
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self.assertRaises(SyntaxError, eval, 'lambda a=1,a=1:0')
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self.assertRaises(SyntaxError, exec, 'def f(a, a): pass')
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self.assertRaises(SyntaxError, exec, 'def f(a = 0, a = 1): pass')
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self.assertRaises(SyntaxError, exec, 'def f(a): global a; a = 1')
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def test_syntax_error(self):
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self.assertRaises(SyntaxError, compile, "1+*3", "filename", "exec")
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def test_none_keyword_arg(self):
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self.assertRaises(SyntaxError, compile, "f(None=1)", "<string>", "exec")
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def test_duplicate_global_local(self):
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self.assertRaises(SyntaxError, exec, 'def f(a): global a; a = 1')
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def test_exec_with_general_mapping_for_locals(self):
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class M:
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"Test mapping interface versus possible calls from eval()."
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def __getitem__(self, key):
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if key == 'a':
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return 12
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raise KeyError
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def __setitem__(self, key, value):
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self.results = (key, value)
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def keys(self):
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return list('xyz')
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m = M()
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g = globals()
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exec('z = a', g, m)
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self.assertEqual(m.results, ('z', 12))
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try:
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exec('z = b', g, m)
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except NameError:
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pass
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else:
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self.fail('Did not detect a KeyError')
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exec('z = dir()', g, m)
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self.assertEqual(m.results, ('z', list('xyz')))
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exec('z = globals()', g, m)
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self.assertEqual(m.results, ('z', g))
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exec('z = locals()', g, m)
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self.assertEqual(m.results, ('z', m))
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self.assertRaises(TypeError, exec, 'z = b', m)
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class A:
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"Non-mapping"
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pass
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m = A()
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self.assertRaises(TypeError, exec, 'z = a', g, m)
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# Verify that dict subclasses work as well
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class D(dict):
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def __getitem__(self, key):
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if key == 'a':
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return 12
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return dict.__getitem__(self, key)
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d = D()
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exec('z = a', g, d)
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self.assertEqual(d['z'], 12)
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def test_extended_arg(self):
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longexpr = 'x = x or ' + '-x' * 2500
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g = {}
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code = '''
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def f(x):
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%s
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%s
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%s
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%s
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%s
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%s
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%s
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%s
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%s
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%s
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# the expressions above have no effect, x == argument
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while x:
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x -= 1
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# EXTENDED_ARG/JUMP_ABSOLUTE here
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return x
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''' % ((longexpr,)*10)
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exec(code, g)
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self.assertEqual(g['f'](5), 0)
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def test_argument_order(self):
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self.assertRaises(SyntaxError, exec, 'def f(a=1, b): pass')
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def test_float_literals(self):
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# testing bad float literals
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self.assertRaises(SyntaxError, eval, "2e")
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self.assertRaises(SyntaxError, eval, "2.0e+")
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self.assertRaises(SyntaxError, eval, "1e-")
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self.assertRaises(SyntaxError, eval, "3-4e/21")
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def test_indentation(self):
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# testing compile() of indented block w/o trailing newline"
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s = """
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if 1:
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if 2:
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pass"""
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compile(s, "<string>", "exec")
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# This test is probably specific to CPython and may not generalize
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# to other implementations. We are trying to ensure that when
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# the first line of code starts after 256, correct line numbers
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# in tracebacks are still produced.
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def test_leading_newlines(self):
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s256 = "".join(["\n"] * 256 + ["spam"])
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co = compile(s256, 'fn', 'exec')
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self.assertEqual(co.co_firstlineno, 257)
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self.assertEqual(co.co_lnotab, bytes())
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def test_literals_with_leading_zeroes(self):
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for arg in ["077787", "0xj", "0x.", "0e", "090000000000000",
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"080000000000000", "000000000000009", "000000000000008",
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"0b42", "0BADCAFE", "0o123456789", "0b1.1", "0o4.2",
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"0b101j2", "0o153j2", "0b100e1", "0o777e1", "0777",
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"000777", "000000000000007"]:
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self.assertRaises(SyntaxError, eval, arg)
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self.assertEqual(eval("0xff"), 255)
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self.assertEqual(eval("0777."), 777)
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self.assertEqual(eval("0777.0"), 777)
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self.assertEqual(eval("000000000000000000000000000000000000000000000000000777e0"), 777)
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self.assertEqual(eval("0777e1"), 7770)
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self.assertEqual(eval("0e0"), 0)
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self.assertEqual(eval("0000e-012"), 0)
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self.assertEqual(eval("09.5"), 9.5)
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self.assertEqual(eval("0777j"), 777j)
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self.assertEqual(eval("000"), 0)
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self.assertEqual(eval("00j"), 0j)
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self.assertEqual(eval("00.0"), 0)
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self.assertEqual(eval("0e3"), 0)
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self.assertEqual(eval("090000000000000."), 90000000000000.)
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self.assertEqual(eval("090000000000000.0000000000000000000000"), 90000000000000.)
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self.assertEqual(eval("090000000000000e0"), 90000000000000.)
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self.assertEqual(eval("090000000000000e-0"), 90000000000000.)
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self.assertEqual(eval("090000000000000j"), 90000000000000j)
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self.assertEqual(eval("000000000000008."), 8.)
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self.assertEqual(eval("000000000000009."), 9.)
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self.assertEqual(eval("0b101010"), 42)
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self.assertEqual(eval("-0b000000000010"), -2)
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self.assertEqual(eval("0o777"), 511)
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self.assertEqual(eval("-0o0000010"), -8)
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def test_unary_minus(self):
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# Verify treatment of unary minus on negative numbers SF bug #660455
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if sys.maxsize == 2147483647:
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# 32-bit machine
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all_one_bits = '0xffffffff'
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self.assertEqual(eval(all_one_bits), 4294967295)
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self.assertEqual(eval("-" + all_one_bits), -4294967295)
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elif sys.maxsize == 9223372036854775807:
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# 64-bit machine
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all_one_bits = '0xffffffffffffffff'
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self.assertEqual(eval(all_one_bits), 18446744073709551615)
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self.assertEqual(eval("-" + all_one_bits), -18446744073709551615)
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else:
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self.fail("How many bits *does* this machine have???")
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# Verify treatment of constant folding on -(sys.maxsize+1)
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# i.e. -2147483648 on 32 bit platforms. Should return int.
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self.assertIsInstance(eval("%s" % (-sys.maxsize - 1)), int)
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self.assertIsInstance(eval("%s" % (-sys.maxsize - 2)), int)
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if sys.maxsize == 9223372036854775807:
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def test_32_63_bit_values(self):
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a = +4294967296 # 1 << 32
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b = -4294967296 # 1 << 32
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c = +281474976710656 # 1 << 48
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d = -281474976710656 # 1 << 48
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e = +4611686018427387904 # 1 << 62
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f = -4611686018427387904 # 1 << 62
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g = +9223372036854775807 # 1 << 63 - 1
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h = -9223372036854775807 # 1 << 63 - 1
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for variable in self.test_32_63_bit_values.__code__.co_consts:
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if variable is not None:
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self.assertIsInstance(variable, int)
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def test_sequence_unpacking_error(self):
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# Verify sequence packing/unpacking with "or". SF bug #757818
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i,j = (1, -1) or (-1, 1)
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self.assertEqual(i, 1)
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self.assertEqual(j, -1)
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def test_none_assignment(self):
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stmts = [
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'None = 0',
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'None += 0',
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'__builtins__.None = 0',
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'def None(): pass',
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'class None: pass',
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'(a, None) = 0, 0',
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'for None in range(10): pass',
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'def f(None): pass',
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'import None',
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'import x as None',
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'from x import None',
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'from x import y as None'
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]
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for stmt in stmts:
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stmt += "\n"
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self.assertRaises(SyntaxError, compile, stmt, 'tmp', 'single')
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self.assertRaises(SyntaxError, compile, stmt, 'tmp', 'exec')
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def test_import(self):
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succeed = [
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'import sys',
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'import os, sys',
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'import os as bar',
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'import os.path as bar',
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'from __future__ import nested_scopes, generators',
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'from __future__ import (nested_scopes,\ngenerators)',
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'from __future__ import (nested_scopes,\ngenerators,)',
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'from sys import stdin, stderr, stdout',
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'from sys import (stdin, stderr,\nstdout)',
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'from sys import (stdin, stderr,\nstdout,)',
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'from sys import (stdin\n, stderr, stdout)',
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'from sys import (stdin\n, stderr, stdout,)',
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'from sys import stdin as si, stdout as so, stderr as se',
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'from sys import (stdin as si, stdout as so, stderr as se)',
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'from sys import (stdin as si, stdout as so, stderr as se,)',
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]
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fail = [
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'import (os, sys)',
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'import (os), (sys)',
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'import ((os), (sys))',
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'import (sys',
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'import sys)',
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'import (os,)',
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'import os As bar',
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'import os.path a bar',
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'from sys import stdin As stdout',
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'from sys import stdin a stdout',
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'from (sys) import stdin',
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'from __future__ import (nested_scopes',
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'from __future__ import nested_scopes)',
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'from __future__ import nested_scopes,\ngenerators',
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'from sys import (stdin',
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'from sys import stdin)',
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'from sys import stdin, stdout,\nstderr',
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'from sys import stdin si',
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'from sys import stdin,'
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'from sys import (*)',
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'from sys import (stdin,, stdout, stderr)',
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'from sys import (stdin, stdout),',
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]
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for stmt in succeed:
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compile(stmt, 'tmp', 'exec')
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for stmt in fail:
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self.assertRaises(SyntaxError, compile, stmt, 'tmp', 'exec')
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def test_for_distinct_code_objects(self):
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# SF bug 1048870
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def f():
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f1 = lambda x=1: x
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f2 = lambda x=2: x
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return f1, f2
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f1, f2 = f()
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self.assertNotEqual(id(f1.__code__), id(f2.__code__))
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def test_lambda_doc(self):
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l = lambda: "foo"
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self.assertIsNone(l.__doc__)
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## def test_unicode_encoding(self):
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## code = "# -*- coding: utf-8 -*-\npass\n"
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## self.assertRaises(SyntaxError, compile, code, "tmp", "exec")
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def test_subscripts(self):
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# SF bug 1448804
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# Class to make testing subscript results easy
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class str_map(object):
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def __init__(self):
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self.data = {}
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def __getitem__(self, key):
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return self.data[str(key)]
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def __setitem__(self, key, value):
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self.data[str(key)] = value
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def __delitem__(self, key):
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del self.data[str(key)]
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def __contains__(self, key):
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return str(key) in self.data
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d = str_map()
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# Index
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d[1] = 1
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self.assertEqual(d[1], 1)
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d[1] += 1
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self.assertEqual(d[1], 2)
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del d[1]
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self.assertNotIn(1, d)
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# Tuple of indices
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d[1, 1] = 1
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self.assertEqual(d[1, 1], 1)
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d[1, 1] += 1
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self.assertEqual(d[1, 1], 2)
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del d[1, 1]
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self.assertNotIn((1, 1), d)
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# Simple slice
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d[1:2] = 1
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self.assertEqual(d[1:2], 1)
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d[1:2] += 1
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self.assertEqual(d[1:2], 2)
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del d[1:2]
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self.assertNotIn(slice(1, 2), d)
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# Tuple of simple slices
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d[1:2, 1:2] = 1
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self.assertEqual(d[1:2, 1:2], 1)
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d[1:2, 1:2] += 1
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self.assertEqual(d[1:2, 1:2], 2)
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del d[1:2, 1:2]
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self.assertNotIn((slice(1, 2), slice(1, 2)), d)
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# Extended slice
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d[1:2:3] = 1
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self.assertEqual(d[1:2:3], 1)
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d[1:2:3] += 1
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self.assertEqual(d[1:2:3], 2)
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del d[1:2:3]
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self.assertNotIn(slice(1, 2, 3), d)
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# Tuple of extended slices
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d[1:2:3, 1:2:3] = 1
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self.assertEqual(d[1:2:3, 1:2:3], 1)
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d[1:2:3, 1:2:3] += 1
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self.assertEqual(d[1:2:3, 1:2:3], 2)
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del d[1:2:3, 1:2:3]
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self.assertNotIn((slice(1, 2, 3), slice(1, 2, 3)), d)
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# Ellipsis
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d[...] = 1
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self.assertEqual(d[...], 1)
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d[...] += 1
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self.assertEqual(d[...], 2)
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del d[...]
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self.assertNotIn(Ellipsis, d)
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# Tuple of Ellipses
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d[..., ...] = 1
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self.assertEqual(d[..., ...], 1)
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d[..., ...] += 1
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self.assertEqual(d[..., ...], 2)
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del d[..., ...]
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self.assertNotIn((Ellipsis, Ellipsis), d)
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def test_annotation_limit(self):
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# 16 bits are available for # of annotations, but only 8 bits are
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# available for the parameter count, hence 255
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# is the max. Ensure the result of too many annotations is a
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# SyntaxError.
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s = "def f(%s): pass"
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s %= ', '.join('a%d:%d' % (i,i) for i in range(256))
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self.assertRaises(SyntaxError, compile, s, '?', 'exec')
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# Test that the max # of annotations compiles.
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s = "def f(%s): pass"
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s %= ', '.join('a%d:%d' % (i,i) for i in range(255))
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compile(s, '?', 'exec')
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def test_mangling(self):
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class A:
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def f():
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__mangled = 1
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__not_mangled__ = 2
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import __mangled_mod
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import __package__.module
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self.assertIn("_A__mangled", A.f.__code__.co_varnames)
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self.assertIn("__not_mangled__", A.f.__code__.co_varnames)
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self.assertIn("_A__mangled_mod", A.f.__code__.co_varnames)
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self.assertIn("__package__", A.f.__code__.co_varnames)
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def test_compile_ast(self):
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fname = __file__
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if fname.lower().endswith(('pyc', 'pyo')):
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fname = fname[:-1]
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with open(fname, 'r') as f:
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fcontents = f.read()
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sample_code = [
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['<assign>', 'x = 5'],
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['<ifblock>', """if True:\n pass\n"""],
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['<forblock>', """for n in [1, 2, 3]:\n print(n)\n"""],
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['<deffunc>', """def foo():\n pass\nfoo()\n"""],
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[fname, fcontents],
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]
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for fname, code in sample_code:
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co1 = compile(code, '%s1' % fname, 'exec')
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ast = compile(code, '%s2' % fname, 'exec', _ast.PyCF_ONLY_AST)
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self.assertTrue(type(ast) == _ast.Module)
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co2 = compile(ast, '%s3' % fname, 'exec')
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self.assertEqual(co1, co2)
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# the code object's filename comes from the second compilation step
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self.assertEqual(co2.co_filename, '%s3' % fname)
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# raise exception when node type doesn't match with compile mode
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co1 = compile('print(1)', '<string>', 'exec', _ast.PyCF_ONLY_AST)
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self.assertRaises(TypeError, compile, co1, '<ast>', 'eval')
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# raise exception when node type is no start node
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self.assertRaises(TypeError, compile, _ast.If(), '<ast>', 'exec')
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# raise exception when node has invalid children
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ast = _ast.Module()
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ast.body = [_ast.BoolOp()]
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self.assertRaises(TypeError, compile, ast, '<ast>', 'exec')
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@support.cpython_only
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def test_same_filename_used(self):
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s = """def f(): pass\ndef g(): pass"""
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c = compile(s, "myfile", "exec")
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for obj in c.co_consts:
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if isinstance(obj, types.CodeType):
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self.assertIs(obj.co_filename, c.co_filename)
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def test_single_statement(self):
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self.compile_single("1 + 2")
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self.compile_single("\n1 + 2")
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self.compile_single("1 + 2\n")
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self.compile_single("1 + 2\n\n")
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self.compile_single("1 + 2\t\t\n")
|
|
self.compile_single("1 + 2\t\t\n ")
|
|
self.compile_single("1 + 2 # one plus two")
|
|
self.compile_single("1; 2")
|
|
self.compile_single("import sys; sys")
|
|
self.compile_single("def f():\n pass")
|
|
self.compile_single("while False:\n pass")
|
|
self.compile_single("if x:\n f(x)")
|
|
self.compile_single("if x:\n f(x)\nelse:\n g(x)")
|
|
self.compile_single("class T:\n pass")
|
|
|
|
def test_bad_single_statement(self):
|
|
self.assertInvalidSingle('1\n2')
|
|
self.assertInvalidSingle('def f(): pass')
|
|
self.assertInvalidSingle('a = 13\nb = 187')
|
|
self.assertInvalidSingle('del x\ndel y')
|
|
self.assertInvalidSingle('f()\ng()')
|
|
self.assertInvalidSingle('f()\n# blah\nblah()')
|
|
self.assertInvalidSingle('f()\nxy # blah\nblah()')
|
|
self.assertInvalidSingle('x = 5 # comment\nx = 6\n')
|
|
|
|
@support.cpython_only
|
|
def test_compiler_recursion_limit(self):
|
|
# Expected limit is sys.getrecursionlimit() * the scaling factor
|
|
# in symtable.c (currently 3)
|
|
# We expect to fail *at* that limit, because we use up some of
|
|
# the stack depth limit in the test suite code
|
|
# So we check the expected limit and 75% of that
|
|
# XXX (ncoghlan): duplicating the scaling factor here is a little
|
|
# ugly. Perhaps it should be exposed somewhere...
|
|
fail_depth = sys.getrecursionlimit() * 3
|
|
success_depth = int(fail_depth * 0.75)
|
|
|
|
def check_limit(prefix, repeated):
|
|
expect_ok = prefix + repeated * success_depth
|
|
self.compile_single(expect_ok)
|
|
broken = prefix + repeated * fail_depth
|
|
details = "Compiling ({!r} + {!r} * {})".format(
|
|
prefix, repeated, fail_depth)
|
|
with self.assertRaises(RuntimeError, msg=details):
|
|
self.compile_single(broken)
|
|
|
|
check_limit("a", "()")
|
|
check_limit("a", ".b")
|
|
check_limit("a", "[0]")
|
|
check_limit("a", "*a")
|
|
|
|
|
|
def test_main():
|
|
support.run_unittest(TestSpecifics)
|
|
|
|
if __name__ == "__main__":
|
|
test_main()
|