prebuilt/linux-x86_64/lib/python2.7/test/test_compiler.py - toolchain/prebuilts/ndk/r16 - Git at Google

 import test.test_support
 compiler = test.test_support.import_module('compiler', deprecated=True)
 from compiler.ast import flatten
 import os, sys, time, unittest
 from random import random
 from StringIO import StringIO

 # How much time in seconds can pass before we print a 'Still working' message.
 _PRINT_WORKING_MSG_INTERVAL = 5 * 60

 class TrivialContext(object):
     def __enter__(self):
         return self
     def __exit__(self, *exc_info):
         pass

 class CompilerTest(unittest.TestCase):

     def testCompileLibrary(self):
         # A simple but large test.  Compile all the code in the
         # standard library and its test suite.  This doesn't verify
         # that any of the code is correct, merely the compiler is able
         # to generate some kind of code for it.

         next_time = time.time() + _PRINT_WORKING_MSG_INTERVAL
         # warning: if 'os' or 'test_support' are moved in some other dir,
         # they should be changed here.
         libdir = os.path.dirname(os.__file__)
         testdir = os.path.dirname(test.test_support.__file__)

         for dir in [testdir]:
             for basename in "test_os.py",:
                 # Print still working message since this test can be really slow
                 if next_time <= time.time():
                     next_time = time.time() + _PRINT_WORKING_MSG_INTERVAL
                     print >>sys.__stdout__, \
                        '  testCompileLibrary still working, be patient...'
                     sys.__stdout__.flush()

                 if not basename.endswith(".py"):
                     continue
                 if not TEST_ALL and random() < 0.98:
                     continue
                 path = os.path.join(dir, basename)
                 if test.test_support.verbose:
                     print "compiling", path
                 f = open(path, "U")
                 buf = f.read()
                 f.close()
                 if "badsyntax" in basename or "bad_coding" in basename:
                     self.assertRaises(SyntaxError, compiler.compile,
                                       buf, basename, "exec")
                 else:
                     try:
                         compiler.compile(buf, basename, "exec")
                     except Exception, e:
                         args = list(e.args)
                         args.append("in file %s]" % basename)
                         #args[0] += "[in file %s]" % basename
                         e.args = tuple(args)
                         raise

     def testNewClassSyntax(self):
         compiler.compile("class foo():pass\n\n","<string>","exec")

     def testYieldExpr(self):
         compiler.compile("def g(): yield\n\n", "<string>", "exec")

     def testKeywordAfterStarargs(self):
         def f(*args, **kwargs):
             self.assertEqual((args, kwargs), ((2,3), {'x': 1, 'y': 4}))
         c = compiler.compile('f(x=1, *(2, 3), y=4)', '<string>', 'exec')
         exec c in {'f': f}

         self.assertRaises(SyntaxError, compiler.parse, "foo(a=1, b)")
         self.assertRaises(SyntaxError, compiler.parse, "foo(1, *args, 3)")

     def testTryExceptFinally(self):
         # Test that except and finally clauses in one try stmt are recognized
         c = compiler.compile("try:\n 1//0\nexcept:\n e = 1\nfinally:\n f = 1",
                              "<string>", "exec")
         dct = {}
         exec c in dct
         self.assertEqual(dct.get('e'), 1)
         self.assertEqual(dct.get('f'), 1)

     def testDefaultArgs(self):
         self.assertRaises(SyntaxError, compiler.parse, "def foo(a=1, b): pass")

     def testDocstrings(self):
         c = compiler.compile('"doc"', '<string>', 'exec')
         self.assertIn('__doc__', c.co_names)
         c = compiler.compile('def f():\n "doc"', '<string>', 'exec')
         g = {}
         exec c in g
         self.assertEqual(g['f'].__doc__, "doc")

     def testLineNo(self):
         # Test that all nodes except Module have a correct lineno attribute.
         filename = __file__
         if filename.endswith((".pyc", ".pyo")):
             filename = filename[:-1]
         tree = compiler.parseFile(filename)
         self.check_lineno(tree)

     def check_lineno(self, node):
         try:
             self._check_lineno(node)
         except AssertionError:
             print node.__class__, node.lineno
             raise

     def _check_lineno(self, node):
         if not node.__class__ in NOLINENO:
             self.assertIsInstance(node.lineno, int,
                 "lineno=%s on %s" % (node.lineno, node.__class__))
             self.assertTrue(node.lineno > 0,
                 "lineno=%s on %s" % (node.lineno, node.__class__))
         for child in node.getChildNodes():
             self.check_lineno(child)

     def testFlatten(self):
         self.assertEqual(flatten([1, [2]]), [1, 2])
         self.assertEqual(flatten((1, (2,))), [1, 2])

     def testNestedScope(self):
         c = compiler.compile('def g():\n'
                              '    a = 1\n'
                              '    def f(): return a + 2\n'
                              '    return f()\n'
                              'result = g()',
                              '<string>',
                              'exec')
         dct = {}
         exec c in dct
         self.assertEqual(dct.get('result'), 3)

     def testGenExp(self):
         c = compiler.compile('list((i,j) for i in range(3) if i < 3'
                              '           for j in range(4) if j > 2)',
                              '<string>',
                              'eval')
         self.assertEqual(eval(c), [(0, 3), (1, 3), (2, 3)])

     def testSetLiteral(self):
         c = compiler.compile('{1, 2, 3}', '<string>', 'eval')
         self.assertEqual(eval(c), {1,2,3})
         c = compiler.compile('{1, 2, 3,}', '<string>', 'eval')
         self.assertEqual(eval(c), {1,2,3})

     def testDictLiteral(self):
         c = compiler.compile('{1:2, 2:3, 3:4}', '<string>', 'eval')
         self.assertEqual(eval(c), {1:2, 2:3, 3:4})
         c = compiler.compile('{1:2, 2:3, 3:4,}', '<string>', 'eval')
         self.assertEqual(eval(c), {1:2, 2:3, 3:4})

     def testSetComp(self):
         c = compiler.compile('{x for x in range(1, 4)}', '<string>', 'eval')
         self.assertEqual(eval(c), {1, 2, 3})
         c = compiler.compile('{x * y for x in range(3) if x != 0'
                              '       for y in range(4) if y != 0}',
                              '<string>',
                              'eval')
         self.assertEqual(eval(c), {1, 2, 3, 4, 6})

     def testDictComp(self):
         c = compiler.compile('{x:x+1 for x in range(1, 4)}', '<string>', 'eval')
         self.assertEqual(eval(c), {1:2, 2:3, 3:4})
         c = compiler.compile('{(x, y) : y for x in range(2) if x != 0'
                              '            for y in range(3) if y != 0}',
                              '<string>',
                              'eval')
         self.assertEqual(eval(c), {(1, 2): 2, (1, 1): 1})

     def testWith(self):
         # SF bug 1638243
         c = compiler.compile('from __future__ import with_statement\n'
                              'def f():\n'
                              '    with TrivialContext():\n'
                              '        return 1\n'
                              'result = f()',
                              '<string>',
                              'exec' )
         dct = {'TrivialContext': TrivialContext}
         exec c in dct
         self.assertEqual(dct.get('result'), 1)

     def testWithAss(self):
         c = compiler.compile('from __future__ import with_statement\n'
                              'def f():\n'
                              '    with TrivialContext() as tc:\n'
                              '        return 1\n'
                              'result = f()',
                              '<string>',
                              'exec' )
         dct = {'TrivialContext': TrivialContext}
         exec c in dct
         self.assertEqual(dct.get('result'), 1)

     def testWithMult(self):
         events = []
         class Ctx:
             def __init__(self, n):
                 self.n = n
             def __enter__(self):
                 events.append(self.n)
             def __exit__(self, *args):
                 pass
         c = compiler.compile('from __future__ import with_statement\n'
                              'def f():\n'
                              '    with Ctx(1) as tc, Ctx(2) as tc2:\n'
                              '        return 1\n'
                              'result = f()',
                              '<string>',
                              'exec' )
         dct = {'Ctx': Ctx}
         exec c in dct
         self.assertEqual(dct.get('result'), 1)
         self.assertEqual(events, [1, 2])

     def testGlobal(self):
         code = compiler.compile('global x\nx=1', '<string>', 'exec')
         d1 = {'__builtins__': {}}
         d2 = {}
         exec code in d1, d2
         # x should be in the globals dict
         self.assertEqual(d1.get('x'), 1)

     def testPrintFunction(self):
         c = compiler.compile('from __future__ import print_function\n'
                              'print("a", "b", sep="**", end="++", '
                                     'file=output)',
                              '<string>',
                              'exec' )
         dct = {'output': StringIO()}
         exec c in dct
         self.assertEqual(dct['output'].getvalue(), 'a**b++')

     def _testErrEnc(self, src, text, offset):
         try:
             compile(src, "", "exec")
         except SyntaxError, e:
             self.assertEqual(e.offset, offset)
             self.assertEqual(e.text, text)

     def testSourceCodeEncodingsError(self):
         # Test SyntaxError with encoding definition
         sjis = "print '\x83\x70\x83\x43\x83\x5c\x83\x93', '\n"
         ascii = "print '12345678', '\n"
         encdef = "#! -*- coding: ShiftJIS -*-\n"

         # ascii source without encdef
         self._testErrEnc(ascii, ascii, 19)

         # ascii source with encdef
         self._testErrEnc(encdef+ascii, ascii, 19)

         # non-ascii source with encdef
         self._testErrEnc(encdef+sjis, sjis, 19)

         # ShiftJIS source without encdef
         self._testErrEnc(sjis, sjis, 19)


 NOLINENO = (compiler.ast.Module, compiler.ast.Stmt, compiler.ast.Discard)

 ###############################################################################
 # code below is just used to trigger some possible errors, for the benefit of
 # testLineNo
 ###############################################################################

 class Toto:
     """docstring"""
     pass

 a, b = 2, 3
 [c, d] = 5, 6
 l = [(x, y) for x, y in zip(range(5), range(5,10))]
 l[0]
 l[3:4]
 d = {'a': 2}
 d = {}
 d = {x: y for x, y in zip(range(5), range(5,10))}
 s = {x for x in range(10)}
 s = {1}
 t = ()
 t = (1, 2)
 l = []
 l = [1, 2]
 if l:
     pass
 else:
     a, b = b, a

 try:
     print yo
 except:
     yo = 3
 else:
     yo += 3

 try:
     a += b
 finally:
     b = 0

 from math import *

 ###############################################################################

 def test_main():
     global TEST_ALL
     TEST_ALL = test.test_support.is_resource_enabled("cpu")
     test.test_support.run_unittest(CompilerTest)

 if __name__ == "__main__":
     test_main()
	import test.test_support
	compiler = test.test_support.import_module('compiler', deprecated=True)
	from compiler.ast import flatten
	import os, sys, time, unittest
	from random import random
	from StringIO import StringIO

	# How much time in seconds can pass before we print a 'Still working' message.
	_PRINT_WORKING_MSG_INTERVAL = 5 * 60

	class TrivialContext(object):
	def __enter__(self):
	return self
	def __exit__(self, *exc_info):
	pass

	class CompilerTest(unittest.TestCase):

	def testCompileLibrary(self):
	# A simple but large test. Compile all the code in the
	# standard library and its test suite. This doesn't verify
	# that any of the code is correct, merely the compiler is able
	# to generate some kind of code for it.

	next_time = time.time() + _PRINT_WORKING_MSG_INTERVAL
	# warning: if 'os' or 'test_support' are moved in some other dir,
	# they should be changed here.
	libdir = os.path.dirname(os.__file__)
	testdir = os.path.dirname(test.test_support.__file__)

	for dir in [testdir]:
	for basename in "test_os.py",:
	# Print still working message since this test can be really slow
	if next_time <= time.time():
	next_time = time.time() + _PRINT_WORKING_MSG_INTERVAL
	print >>sys.__stdout__, \
	' testCompileLibrary still working, be patient...'
	sys.__stdout__.flush()

	if not basename.endswith(".py"):
	continue
	if not TEST_ALL and random() < 0.98:
	continue
	path = os.path.join(dir, basename)
	if test.test_support.verbose:
	print "compiling", path
	f = open(path, "U")
	buf = f.read()
	f.close()
	if "badsyntax" in basename or "bad_coding" in basename:
	self.assertRaises(SyntaxError, compiler.compile,
	buf, basename, "exec")
	else:
	try:
	compiler.compile(buf, basename, "exec")
	except Exception, e:
	args = list(e.args)
	args.append("in file %s]" % basename)
	#args[0] += "[in file %s]" % basename
	e.args = tuple(args)
	raise

	def testNewClassSyntax(self):
	compiler.compile("class foo():pass\n\n","<string>","exec")

	def testYieldExpr(self):
	compiler.compile("def g(): yield\n\n", "<string>", "exec")

	def testKeywordAfterStarargs(self):
	def f(args, *kwargs):
	self.assertEqual((args, kwargs), ((2,3), {'x': 1, 'y': 4}))
	c = compiler.compile('f(x=1, *(2, 3), y=4)', '<string>', 'exec')
	exec c in {'f': f}

	self.assertRaises(SyntaxError, compiler.parse, "foo(a=1, b)")
	self.assertRaises(SyntaxError, compiler.parse, "foo(1, *args, 3)")

	def testTryExceptFinally(self):
	# Test that except and finally clauses in one try stmt are recognized
	c = compiler.compile("try:\n 1//0\nexcept:\n e = 1\nfinally:\n f = 1",
	"<string>", "exec")
	dct = {}
	exec c in dct
	self.assertEqual(dct.get('e'), 1)
	self.assertEqual(dct.get('f'), 1)

	def testDefaultArgs(self):
	self.assertRaises(SyntaxError, compiler.parse, "def foo(a=1, b): pass")

	def testDocstrings(self):
	c = compiler.compile('"doc"', '<string>', 'exec')
	self.assertIn('__doc__', c.co_names)
	c = compiler.compile('def f():\n "doc"', '<string>', 'exec')
	g = {}
	exec c in g
	self.assertEqual(g['f'].__doc__, "doc")

	def testLineNo(self):
	# Test that all nodes except Module have a correct lineno attribute.
	filename = __file__
	if filename.endswith((".pyc", ".pyo")):
	filename = filename[:-1]
	tree = compiler.parseFile(filename)
	self.check_lineno(tree)

	def check_lineno(self, node):
	try:
	self._check_lineno(node)
	except AssertionError:
	print node.__class__, node.lineno
	raise

	def _check_lineno(self, node):
	if not node.__class__ in NOLINENO:
	self.assertIsInstance(node.lineno, int,
	"lineno=%s on %s" % (node.lineno, node.__class__))
	self.assertTrue(node.lineno > 0,
	"lineno=%s on %s" % (node.lineno, node.__class__))
	for child in node.getChildNodes():
	self.check_lineno(child)

	def testFlatten(self):
	self.assertEqual(flatten([1, [2]]), [1, 2])
	self.assertEqual(flatten((1, (2,))), [1, 2])

	def testNestedScope(self):
	c = compiler.compile('def g():\n'
	' a = 1\n'
	' def f(): return a + 2\n'
	' return f()\n'
	'result = g()',
	'<string>',
	'exec')
	dct = {}
	exec c in dct
	self.assertEqual(dct.get('result'), 3)

	def testGenExp(self):
	c = compiler.compile('list((i,j) for i in range(3) if i < 3'
	' for j in range(4) if j > 2)',
	'<string>',
	'eval')
	self.assertEqual(eval(c), [(0, 3), (1, 3), (2, 3)])

	def testSetLiteral(self):
	c = compiler.compile('{1, 2, 3}', '<string>', 'eval')
	self.assertEqual(eval(c), {1,2,3})
	c = compiler.compile('{1, 2, 3,}', '<string>', 'eval')
	self.assertEqual(eval(c), {1,2,3})

	def testDictLiteral(self):
	c = compiler.compile('{1:2, 2:3, 3:4}', '<string>', 'eval')
	self.assertEqual(eval(c), {1:2, 2:3, 3:4})
	c = compiler.compile('{1:2, 2:3, 3:4,}', '<string>', 'eval')
	self.assertEqual(eval(c), {1:2, 2:3, 3:4})

	def testSetComp(self):
	c = compiler.compile('{x for x in range(1, 4)}', '<string>', 'eval')
	self.assertEqual(eval(c), {1, 2, 3})
	c = compiler.compile('{x * y for x in range(3) if x != 0'
	' for y in range(4) if y != 0}',
	'<string>',
	'eval')
	self.assertEqual(eval(c), {1, 2, 3, 4, 6})

	def testDictComp(self):
	c = compiler.compile('{x:x+1 for x in range(1, 4)}', '<string>', 'eval')
	self.assertEqual(eval(c), {1:2, 2:3, 3:4})
	c = compiler.compile('{(x, y) : y for x in range(2) if x != 0'
	' for y in range(3) if y != 0}',
	'<string>',
	'eval')
	self.assertEqual(eval(c), {(1, 2): 2, (1, 1): 1})

	def testWith(self):
	# SF bug 1638243
	c = compiler.compile('from __future__ import with_statement\n'
	'def f():\n'
	' with TrivialContext():\n'
	' return 1\n'
	'result = f()',
	'<string>',
	'exec' )
	dct = {'TrivialContext': TrivialContext}
	exec c in dct
	self.assertEqual(dct.get('result'), 1)

	def testWithAss(self):
	c = compiler.compile('from __future__ import with_statement\n'
	'def f():\n'
	' with TrivialContext() as tc:\n'
	' return 1\n'
	'result = f()',
	'<string>',
	'exec' )
	dct = {'TrivialContext': TrivialContext}
	exec c in dct
	self.assertEqual(dct.get('result'), 1)

	def testWithMult(self):
	events = []
	class Ctx:
	def __init__(self, n):
	self.n = n
	def __enter__(self):
	events.append(self.n)
	def __exit__(self, *args):
	pass
	c = compiler.compile('from __future__ import with_statement\n'
	'def f():\n'
	' with Ctx(1) as tc, Ctx(2) as tc2:\n'
	' return 1\n'
	'result = f()',
	'<string>',
	'exec' )
	dct = {'Ctx': Ctx}
	exec c in dct
	self.assertEqual(dct.get('result'), 1)
	self.assertEqual(events, [1, 2])

	def testGlobal(self):
	code = compiler.compile('global x\nx=1', '<string>', 'exec')
	d1 = {'__builtins__': {}}
	d2 = {}
	exec code in d1, d2
	# x should be in the globals dict
	self.assertEqual(d1.get('x'), 1)

	def testPrintFunction(self):
	c = compiler.compile('from __future__ import print_function\n'
	'print("a", "b", sep="**", end="++", '
	'file=output)',
	'<string>',
	'exec' )
	dct = {'output': StringIO()}
	exec c in dct
	self.assertEqual(dct['output'].getvalue(), 'a**b++')

	def _testErrEnc(self, src, text, offset):
	try:
	compile(src, "", "exec")
	except SyntaxError, e:
	self.assertEqual(e.offset, offset)
	self.assertEqual(e.text, text)

	def testSourceCodeEncodingsError(self):
	# Test SyntaxError with encoding definition
	sjis = "print '\x83\x70\x83\x43\x83\x5c\x83\x93', '\n"
	ascii = "print '12345678', '\n"
	encdef = "#! -- coding: ShiftJIS --\n"

	# ascii source without encdef
	self._testErrEnc(ascii, ascii, 19)

	# ascii source with encdef
	self._testErrEnc(encdef+ascii, ascii, 19)

	# non-ascii source with encdef
	self._testErrEnc(encdef+sjis, sjis, 19)

	# ShiftJIS source without encdef
	self._testErrEnc(sjis, sjis, 19)


	NOLINENO = (compiler.ast.Module, compiler.ast.Stmt, compiler.ast.Discard)

	###############################################################################
	# code below is just used to trigger some possible errors, for the benefit of
	# testLineNo
	###############################################################################

	class Toto:
	"""docstring"""
	pass

	a, b = 2, 3
	[c, d] = 5, 6
	l = [(x, y) for x, y in zip(range(5), range(5,10))]
	l[0]
	l[3:4]
	d = {'a': 2}
	d = {}
	d = {x: y for x, y in zip(range(5), range(5,10))}
	s = {x for x in range(10)}
	s = {1}
	t = ()
	t = (1, 2)
	l = []
	l = [1, 2]
	if l:
	pass
	else:
	a, b = b, a

	try:
	print yo
	except:
	yo = 3
	else:
	yo += 3

	try:
	a += b
	finally:
	b = 0

	from math import *

	###############################################################################

	def test_main():
	global TEST_ALL
	TEST_ALL = test.test_support.is_resource_enabled("cpu")
	test.test_support.run_unittest(CompilerTest)

	if __name__ == "__main__":
	test_main()