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Jython is an implementation of the high-level, dynamic, object-oriented
language Python written in 100% Pure Java, and seamlessly integrated with
the Java platform. It thus allows you to run Python on any Java platform.
"""
Test cases for codeop.py
Nick Mathewson
"""
import unittest
from test.test_support import run_unittest, is_jython
from codeop import compile_command, PyCF_DONT_IMPLY_DEDENT
if is_jython:
import sys
import cStringIO
def unify_callables(d):
for n,v in d.items():
if callable(v):
d[n] = callable
return d
class CodeopTests(unittest.TestCase):
def assertValid(self, str, symbol='single'):
'''succeed iff str is a valid piece of code'''
if is_jython:
code = compile_command(str, "", symbol)
self.assertTrue(code)
if symbol == "single":
d,r = {},{}
saved_stdout = sys.stdout
sys.stdout = cStringIO.StringIO()
try:
exec code in d
exec compile(str,"","single") in 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, "", symbol, PyCF_DONT_IMPLY_DEDENT)
self.assertEqual(compile_command(str, "", 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 is_jython:
self.assertEqual(compile_command(""),
compile("pass", "", 'single',
PyCF_DONT_IMPLY_DEDENT))
self.assertEqual(compile_command("\n"),
compile("pass", "", '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")
#XXX: works in CPython
if not is_jython:
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("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("(\n\n\n","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 (")
# Merge test cases below upstream.
ai("def x():\n pass\n#comment")
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")
# XXX: PythonPartial.g needs to reject this.
if not is_jython:
ai("a = (","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")
# XXX: PythonPartial.g needs to reject these.
if not is_jython:
ai("del 1")
ai("del ()")
ai("del (1,)")
ai("del [1]")
ai("del '1'")
ai("[i for i in range(10)] = (1, 2, 3)")
# Merge test cases below upstream.
ai("def x():\n pass\na=1\n")
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_main():
run_unittest(CodeopTests)
if __name__ == "__main__":
test_main()