cpython/Lib/test/test_codeop.py

327 lines
8.3 KiB
Python

"""
Test cases for codeop.py
Nick Mathewson
"""
import sys
import unittest
import warnings
from test import support
from test.support import warnings_helper
from codeop import compile_command, PyCF_DONT_IMPLY_DEDENT
import io
if support.is_jython:
def unify_callables(d):
for n,v in d.items():
if hasattr(v, '__call__'):
d[n] = True
return d
class CodeopTests(unittest.TestCase):
def assertValid(self, str, symbol='single'):
'''succeed iff str is a valid piece of code'''
if support.is_jython:
code = compile_command(str, "<input>", symbol)
self.assertTrue(code)
if symbol == "single":
d,r = {},{}
saved_stdout = sys.stdout
sys.stdout = io.StringIO()
try:
exec(code, d)
exec(compile(str,"<input>","single"), r)
finally:
sys.stdout = saved_stdout
elif symbol == 'eval':
ctx = {'a': 2}
d = { 'value': eval(code,ctx) }
r = { 'value': eval(str,ctx) }
self.assertEqual(unify_callables(r),unify_callables(d))
else:
expected = compile(str, "<input>", symbol, PyCF_DONT_IMPLY_DEDENT)
self.assertEqual(compile_command(str, "<input>", symbol), expected)
def assertIncomplete(self, str, symbol='single'):
'''succeed iff str is the start of a valid piece of code'''
self.assertEqual(compile_command(str, symbol=symbol), None)
def assertInvalid(self, str, symbol='single', is_syntax=1):
'''succeed iff str is the start of an invalid piece of code'''
try:
compile_command(str,symbol=symbol)
self.fail("No exception raised for invalid code")
except SyntaxError:
self.assertTrue(is_syntax)
except OverflowError:
self.assertTrue(not is_syntax)
def test_valid(self):
av = self.assertValid
# special case
if not support.is_jython:
self.assertEqual(compile_command(""),
compile("pass", "<input>", 'single',
PyCF_DONT_IMPLY_DEDENT))
self.assertEqual(compile_command("\n"),
compile("pass", "<input>", 'single',
PyCF_DONT_IMPLY_DEDENT))
else:
av("")
av("\n")
av("a = 1")
av("\na = 1")
av("a = 1\n")
av("a = 1\n\n")
av("\n\na = 1\n\n")
av("def x():\n pass\n")
av("if 1:\n pass\n")
av("\n\nif 1: pass\n")
av("\n\nif 1: pass\n\n")
av("def x():\n\n pass\n")
av("def x():\n pass\n \n")
av("def x():\n pass\n \n")
av("pass\n")
av("3**3\n")
av("if 9==3:\n pass\nelse:\n pass\n")
av("if 1:\n pass\n if 1:\n pass\n else:\n pass\n")
av("#a\n#b\na = 3\n")
av("#a\n\n \na=3\n")
av("a=3\n\n")
av("a = 9+ \\\n3")
av("3**3","eval")
av("(lambda z: \n z**3)","eval")
av("9+ \\\n3","eval")
av("9+ \\\n3\n","eval")
av("\n\na**3","eval")
av("\n \na**3","eval")
av("#a\n#b\na**3","eval")
av("\n\na = 1\n\n")
av("\n\nif 1: a=1\n\n")
av("if 1:\n pass\n if 1:\n pass\n else:\n pass\n")
av("#a\n\n \na=3\n\n")
av("\n\na**3","eval")
av("\n \na**3","eval")
av("#a\n#b\na**3","eval")
av("def f():\n try: pass\n finally: [x for x in (1,2)]\n")
av("def f():\n pass\n#foo\n")
av("@a.b.c\ndef f():\n pass\n")
def test_incomplete(self):
ai = self.assertIncomplete
ai("(a **")
ai("(a,b,")
ai("(a,b,(")
ai("(a,b,(")
ai("a = (")
ai("a = {")
ai("b + {")
ai("print([1,\n2,")
ai("print({1:1,\n2:3,")
ai("print((1,\n2,")
ai("if 9==3:\n pass\nelse:")
ai("if 9==3:\n pass\nelse:\n")
ai("if 9==3:\n pass\nelse:\n pass")
ai("if 1:")
ai("if 1:\n")
ai("if 1:\n pass\n if 1:\n pass\n else:")
ai("if 1:\n pass\n if 1:\n pass\n else:\n")
ai("if 1:\n pass\n if 1:\n pass\n else:\n pass")
ai("def x():")
ai("def x():\n")
ai("def x():\n\n")
ai("def x():\n pass")
ai("def x():\n pass\n ")
ai("def x():\n pass\n ")
ai("\n\ndef x():\n pass")
ai("a = 9+ \\")
ai("a = 'a\\")
ai("a = '''xy")
ai("","eval")
ai("\n","eval")
ai("(","eval")
ai("(9+","eval")
ai("9+ \\","eval")
ai("lambda z: \\","eval")
ai("if True:\n if True:\n if True: \n")
ai("@a(")
ai("@a(b")
ai("@a(b,")
ai("@a(b,c")
ai("@a(b,c,")
ai("from a import (")
ai("from a import (b")
ai("from a import (b,")
ai("from a import (b,c")
ai("from a import (b,c,")
ai("[");
ai("[a");
ai("[a,");
ai("[a,b");
ai("[a,b,");
ai("{");
ai("{a");
ai("{a:");
ai("{a:b");
ai("{a:b,");
ai("{a:b,c");
ai("{a:b,c:");
ai("{a:b,c:d");
ai("{a:b,c:d,");
ai("a(")
ai("a(b")
ai("a(b,")
ai("a(b,c")
ai("a(b,c,")
ai("a[")
ai("a[b")
ai("a[b,")
ai("a[b:")
ai("a[b:c")
ai("a[b:c:")
ai("a[b:c:d")
ai("def a(")
ai("def a(b")
ai("def a(b,")
ai("def a(b,c")
ai("def a(b,c,")
ai("(")
ai("(a")
ai("(a,")
ai("(a,b")
ai("(a,b,")
ai("if a:\n pass\nelif b:")
ai("if a:\n pass\nelif b:\n pass\nelse:")
ai("while a:")
ai("while a:\n pass\nelse:")
ai("for a in b:")
ai("for a in b:\n pass\nelse:")
ai("try:")
ai("try:\n pass\nexcept:")
ai("try:\n pass\nfinally:")
ai("try:\n pass\nexcept:\n pass\nfinally:")
ai("with a:")
ai("with a as b:")
ai("class a:")
ai("class a(")
ai("class a(b")
ai("class a(b,")
ai("class a():")
ai("[x for")
ai("[x for x in")
ai("[x for x in (")
ai("(x for")
ai("(x for x in")
ai("(x for x in (")
def test_invalid(self):
ai = self.assertInvalid
ai("a b")
ai("a @")
ai("a b @")
ai("a ** @")
ai("a = ")
ai("a = 9 +")
ai("def x():\n\npass\n")
ai("\n\n if 1: pass\n\npass")
ai("a = 9+ \\\n")
ai("a = 'a\\ ")
ai("a = 'a\\\n")
ai("a = 1","eval")
ai("]","eval")
ai("())","eval")
ai("[}","eval")
ai("9+","eval")
ai("lambda z:","eval")
ai("a b","eval")
ai("return 2.3")
ai("if (a == 1 and b = 2): pass")
ai("del 1")
ai("del (1,)")
ai("del [1]")
ai("del '1'")
ai("[i for i in range(10)] = (1, 2, 3)")
def test_invalid_exec(self):
ai = self.assertInvalid
ai("raise = 4", symbol="exec")
ai('def a-b', symbol='exec')
ai('await?', symbol='exec')
ai('=!=', symbol='exec')
ai('a await raise b', symbol='exec')
ai('a await raise b?+1', symbol='exec')
def test_filename(self):
self.assertEqual(compile_command("a = 1\n", "abc").co_filename,
compile("a = 1\n", "abc", 'single').co_filename)
self.assertNotEqual(compile_command("a = 1\n", "abc").co_filename,
compile("a = 1\n", "def", 'single').co_filename)
def test_warning(self):
# Test that the warning is only returned once.
with warnings_helper.check_warnings(
(".*literal", SyntaxWarning),
(".*invalid", DeprecationWarning),
) as w:
compile_command(r"'\e' is 0")
self.assertEqual(len(w.warnings), 2)
# bpo-41520: check SyntaxWarning treated as an SyntaxError
with warnings.catch_warnings(), self.assertRaises(SyntaxError):
warnings.simplefilter('error', SyntaxWarning)
compile_command('1 is 1', symbol='exec')
if __name__ == "__main__":
unittest.main()