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import copy
import parser
import pickle
import unittest
import operator
import struct
from test import support
from test.support.script_helper import assert_python_failure
#
# First, we test that we can generate trees from valid source fragments,
# and that these valid trees are indeed allowed by the tree-loading side
# of the parser module.
#
class RoundtripLegalSyntaxTestCase(unittest.TestCase):
def roundtrip(self, f, s):
st1 = f(s)
t = st1.totuple()
try:
st2 = parser.sequence2st(t)
except parser.ParserError as why:
self.fail("could not roundtrip %r: %s" % (s, why))
self.assertEqual(t, st2.totuple(),
"could not re-generate syntax tree")
def check_expr(self, s):
self.roundtrip(parser.expr, s)
def test_flags_passed(self):
# The unicode literals flags has to be passed from the paser to AST
# generation.
suite = parser.suite("from __future__ import unicode_literals; x = ''")
code = suite.compile()
scope = {}
exec(code, {}, scope)
self.assertIsInstance(scope["x"], str)
def check_suite(self, s):
self.roundtrip(parser.suite, s)
def test_yield_statement(self):
self.check_suite("def f(): yield 1")
self.check_suite("def f(): yield")
self.check_suite("def f(): x += yield")
self.check_suite("def f(): x = yield 1")
self.check_suite("def f(): x = y = yield 1")
self.check_suite("def f(): x = yield")
self.check_suite("def f(): x = y = yield")
self.check_suite("def f(): 1 + (yield)*2")
self.check_suite("def f(): (yield 1)*2")
self.check_suite("def f(): return; yield 1")
self.check_suite("def f(): yield 1; return")
self.check_suite("def f(): yield from 1")
self.check_suite("def f(): x = yield from 1")
self.check_suite("def f(): f((yield from 1))")
self.check_suite("def f(): yield 1; return 1")
self.check_suite("def f():\n"
" for x in range(30):\n"
" yield x\n")
self.check_suite("def f():\n"
" if (yield):\n"
" yield x\n")
def test_await_statement(self):
self.check_suite("async def f():\n await smth()")
self.check_suite("async def f():\n foo = await smth()")
self.check_suite("async def f():\n foo, bar = await smth()")
self.check_suite("async def f():\n (await smth())")
self.check_suite("async def f():\n foo((await smth()))")
self.check_suite("async def f():\n await foo(); return 42")
def test_async_with_statement(self):
self.check_suite("async def f():\n async with 1: pass")
self.check_suite("async def f():\n async with a as b, c as d: pass")
def test_async_for_statement(self):
self.check_suite("async def f():\n async for i in (): pass")
self.check_suite("async def f():\n async for i, b in (): pass")
def test_nonlocal_statement(self):
self.check_suite("def f():\n"
" x = 0\n"
" def g():\n"
" nonlocal x\n")
self.check_suite("def f():\n"
" x = y = 0\n"
" def g():\n"
" nonlocal x, y\n")
def test_expressions(self):
self.check_expr("foo(1)")
self.check_expr("[1, 2, 3]")
self.check_expr("[x**3 for x in range(20)]")
self.check_expr("[x**3 for x in range(20) if x % 3]")
self.check_expr("[x**3 for x in range(20) if x % 2 if x % 3]")
self.check_expr("list(x**3 for x in range(20))")
self.check_expr("list(x**3 for x in range(20) if x % 3)")
self.check_expr("list(x**3 for x in range(20) if x % 2 if x % 3)")
self.check_expr("foo(*args)")
self.check_expr("foo(*args, **kw)")
self.check_expr("foo(**kw)")
self.check_expr("foo(key=value)")
self.check_expr("foo(key=value, *args)")
self.check_expr("foo(key=value, *args, **kw)")
self.check_expr("foo(key=value, **kw)")
self.check_expr("foo(a, b, c, *args)")
self.check_expr("foo(a, b, c, *args, **kw)")
self.check_expr("foo(a, b, c, **kw)")
self.check_expr("foo(a, *args, keyword=23)")
self.check_expr("foo + bar")
self.check_expr("foo - bar")
self.check_expr("foo * bar")
self.check_expr("foo / bar")
self.check_expr("foo // bar")
self.check_expr("lambda: 0")
self.check_expr("lambda x: 0")
self.check_expr("lambda *y: 0")
self.check_expr("lambda *y, **z: 0")
self.check_expr("lambda **z: 0")
self.check_expr("lambda x, y: 0")
self.check_expr("lambda foo=bar: 0")
self.check_expr("lambda foo=bar, spaz=nifty+spit: 0")
self.check_expr("lambda foo=bar, **z: 0")
self.check_expr("lambda foo=bar, blaz=blat+2, **z: 0")
self.check_expr("lambda foo=bar, blaz=blat+2, *y, **z: 0")
self.check_expr("lambda x, *y, **z: 0")
self.check_expr("(x for x in range(10))")
self.check_expr("foo(x for x in range(10))")
self.check_expr("...")
self.check_expr("a[...]")
def test_simple_expression(self):
# expr_stmt
self.check_suite("a")
def test_simple_assignments(self):
self.check_suite("a = b")
self.check_suite("a = b = c = d = e")
def test_var_annot(self):
self.check_suite("x: int = 5")
self.check_suite("y: List[T] = []; z: [list] = fun()")
self.check_suite("x: tuple = (1, 2)")
self.check_suite("d[f()]: int = 42")
self.check_suite("f(d[x]): str = 'abc'")
self.check_suite("x.y.z.w: complex = 42j")
self.check_suite("x: int")
self.check_suite("def f():\n"
" x: str\n"
" y: int = 5\n")
self.check_suite("class C:\n"
" x: str\n"
" y: int = 5\n")
self.check_suite("class C:\n"
" def __init__(self, x: int) -> None:\n"
" self.x: int = x\n")
# double check for nonsense
with self.assertRaises(SyntaxError):
exec("2+2: int", {}, {})
with self.assertRaises(SyntaxError):
exec("[]: int = 5", {}, {})
with self.assertRaises(SyntaxError):
exec("x, *y, z: int = range(5)", {}, {})
with self.assertRaises(SyntaxError):
exec("t: tuple = 1, 2", {}, {})
with self.assertRaises(SyntaxError):
exec("u = v: int", {}, {})
with self.assertRaises(SyntaxError):
exec("False: int", {}, {})
with self.assertRaises(SyntaxError):
exec("x.False: int", {}, {})
with self.assertRaises(SyntaxError):
exec("x.y,: int", {}, {})
with self.assertRaises(SyntaxError):
exec("[0]: int", {}, {})
with self.assertRaises(SyntaxError):
exec("f(): int", {}, {})
def test_simple_augmented_assignments(self):
self.check_suite("a += b")
self.check_suite("a -= b")
self.check_suite("a *= b")
self.check_suite("a /= b")
self.check_suite("a //= b")
self.check_suite("a %= b")
self.check_suite("a &= b")
self.check_suite("a |= b")
self.check_suite("a ^= b")
self.check_suite("a <<= b")
self.check_suite("a >>= b")
self.check_suite("a **= b")
def test_function_defs(self):
self.check_suite("def f(): pass")
self.check_suite("def f(*args): pass")
self.check_suite("def f(*args, **kw): pass")
self.check_suite("def f(**kw): pass")
self.check_suite("def f(foo=bar): pass")
self.check_suite("def f(foo=bar, *args): pass")
self.check_suite("def f(foo=bar, *args, **kw): pass")
self.check_suite("def f(foo=bar, **kw): pass")
self.check_suite("def f(a, b): pass")
self.check_suite("def f(a, b, *args): pass")
self.check_suite("def f(a, b, *args, **kw): pass")
self.check_suite("def f(a, b, **kw): pass")
self.check_suite("def f(a, b, foo=bar): pass")
self.check_suite("def f(a, b, foo=bar, *args): pass")
self.check_suite("def f(a, b, foo=bar, *args, **kw): pass")
self.check_suite("def f(a, b, foo=bar, **kw): pass")
self.check_suite("@staticmethod\n"
"def f(): pass")
self.check_suite("@staticmethod\n"
"@funcattrs(x, y)\n"
"def f(): pass")
self.check_suite("@funcattrs()\n"
"def f(): pass")
# keyword-only arguments
self.check_suite("def f(*, a): pass")
self.check_suite("def f(*, a = 5): pass")
self.check_suite("def f(*, a = 5, b): pass")
self.check_suite("def f(*, a, b = 5): pass")
self.check_suite("def f(*, a, b = 5, **kwds): pass")
self.check_suite("def f(*args, a): pass")
self.check_suite("def f(*args, a = 5): pass")
self.check_suite("def f(*args, a = 5, b): pass")
self.check_suite("def f(*args, a, b = 5): pass")
self.check_suite("def f(*args, a, b = 5, **kwds): pass")
# function annotations
self.check_suite("def f(a: int): pass")
self.check_suite("def f(a: int = 5): pass")
self.check_suite("def f(*args: list): pass")
self.check_suite("def f(**kwds: dict): pass")
self.check_suite("def f(*, a: int): pass")
self.check_suite("def f(*, a: int = 5): pass")
self.check_suite("def f() -> int: pass")
def test_class_defs(self):
self.check_suite("class foo():pass")
self.check_suite("class foo(object):pass")
self.check_suite("@class_decorator\n"
"class foo():pass")
self.check_suite("@class_decorator(arg)\n"
"class foo():pass")
self.check_suite("@decorator1\n"
"@decorator2\n"
"class foo():pass")
def test_import_from_statement(self):
self.check_suite("from sys.path import *")
self.check_suite("from sys.path import dirname")
self.check_suite("from sys.path import (dirname)")
self.check_suite("from sys.path import (dirname,)")
self.check_suite("from sys.path import dirname as my_dirname")
self.check_suite("from sys.path import (dirname as my_dirname)")
self.check_suite("from sys.path import (dirname as my_dirname,)")
self.check_suite("from sys.path import dirname, basename")
self.check_suite("from sys.path import (dirname, basename)")
self.check_suite("from sys.path import (dirname, basename,)")
self.check_suite(
"from sys.path import dirname as my_dirname, basename")
self.check_suite(
"from sys.path import (dirname as my_dirname, basename)")
self.check_suite(
"from sys.path import (dirname as my_dirname, basename,)")
self.check_suite(
"from sys.path import dirname, basename as my_basename")
self.check_suite(
"from sys.path import (dirname, basename as my_basename)")
self.check_suite(
"from sys.path import (dirname, basename as my_basename,)")
self.check_suite("from .bogus import x")
def test_basic_import_statement(self):
self.check_suite("import sys")
self.check_suite("import sys as system")
self.check_suite("import sys, math")
self.check_suite("import sys as system, math")
self.check_suite("import sys, math as my_math")
def test_relative_imports(self):
self.check_suite("from . import name")
self.check_suite("from .. import name")
# check all the way up to '....', since '...' is tokenized
# differently from '.' (it's an ellipsis token).
self.check_suite("from ... import name")
self.check_suite("from .... import name")
self.check_suite("from .pkg import name")
self.check_suite("from ..pkg import name")
self.check_suite("from ...pkg import name")
self.check_suite("from ....pkg import name")
def test_pep263(self):
self.check_suite("# -*- coding: iso-8859-1 -*-\n"
"pass\n")
def test_assert(self):
self.check_suite("assert alo < ahi and blo < bhi\n")
def test_with(self):
self.check_suite("with open('x'): pass\n")
self.check_suite("with open('x') as f: pass\n")
self.check_suite("with open('x') as f, open('y') as g: pass\n")
def test_try_stmt(self):
self.check_suite("try: pass\nexcept: pass\n")
self.check_suite("try: pass\nfinally: pass\n")
self.check_suite("try: pass\nexcept A: pass\nfinally: pass\n")
self.check_suite("try: pass\nexcept A: pass\nexcept: pass\n"
"finally: pass\n")
self.check_suite("try: pass\nexcept: pass\nelse: pass\n")
self.check_suite("try: pass\nexcept: pass\nelse: pass\n"
"finally: pass\n")
def test_position(self):
# An absolutely minimal test of position information. Better
# tests would be a big project.
code = "def f(x):\n return x + 1"
st1 = parser.suite(code)
st2 = st1.totuple(line_info=1, col_info=1)
def walk(tree):
node_type = tree[0]
next = tree[1]
if isinstance(next, tuple):
for elt in tree[1:]:
for x in walk(elt):
yield x
else:
yield tree
terminals = list(walk(st2))
self.assertEqual([
(1, 'def', 1, 0),
(1, 'f', 1, 4),
(7, '(', 1, 5),
(1, 'x', 1, 6),
(8, ')', 1, 7),
(11, ':', 1, 8),
(4, '', 1, 9),
(5, '', 2, -1),
(1, 'return', 2, 4),
(1, 'x', 2, 11),
(14, '+', 2, 13),
(2, '1', 2, 15),
(4, '', 2, 16),
(6, '', 2, -1),
(4, '', 2, -1),
(0, '', 2, -1)],
terminals)
def test_extended_unpacking(self):
self.check_suite("*a = y")
self.check_suite("x, *b, = m")
self.check_suite("[*a, *b] = y")
self.check_suite("for [*x, b] in x: pass")
def test_raise_statement(self):
self.check_suite("raise\n")
self.check_suite("raise e\n")
self.check_suite("try:\n"
" suite\n"
"except Exception as e:\n"
" raise ValueError from e\n")
def test_list_displays(self):
self.check_expr('[]')
self.check_expr('[*{2}, 3, *[4]]')
def test_set_displays(self):
self.check_expr('{*{2}, 3, *[4]}')
self.check_expr('{2}')
self.check_expr('{2,}')
self.check_expr('{2, 3}')
self.check_expr('{2, 3,}')
def test_dict_displays(self):
self.check_expr('{}')
self.check_expr('{a:b}')
self.check_expr('{a:b,}')
self.check_expr('{a:b, c:d}')
self.check_expr('{a:b, c:d,}')
self.check_expr('{**{}}')
self.check_expr('{**{}, 3:4, **{5:6, 7:8}}')
def test_argument_unpacking(self):
self.check_expr("f(*a, **b)")
self.check_expr('f(a, *b, *c, *d)')
self.check_expr('f(**a, **b)')
self.check_expr('f(2, *a, *b, **b, **c, **d)')
self.check_expr("f(*b, *() or () and (), **{} and {}, **() or {})")
def test_set_comprehensions(self):
self.check_expr('{x for x in seq}')
self.check_expr('{f(x) for x in seq}')
self.check_expr('{f(x) for x in seq if condition(x)}')
def test_dict_comprehensions(self):
self.check_expr('{x:x for x in seq}')
self.check_expr('{x**2:x[3] for x in seq if condition(x)}')
self.check_expr('{x:x for x in seq1 for y in seq2 if condition(x, y)}')
#
# Second, we take *invalid* trees and make sure we get ParserError
# rejections for them.
#
class IllegalSyntaxTestCase(unittest.TestCase):
def check_bad_tree(self, tree, label):
try:
parser.sequence2st(tree)
except parser.ParserError:
pass
else:
self.fail("did not detect invalid tree for %r" % label)
def test_junk(self):
# not even remotely valid:
self.check_bad_tree((1, 2, 3), "<junk>")
def test_illegal_terminal(self):
tree = \
(257,
(269,
(270,
(271,
(277,
(1,))),
(4, ''))),
(4, ''),
(0, ''))
self.check_bad_tree(tree, "too small items in terminal node")
tree = \
(257,
(269,
(270,
(271,
(277,
(1, b'pass'))),
(4, ''))),
(4, ''),
(0, ''))
self.check_bad_tree(tree, "non-string second item in terminal node")
tree = \
(257,
(269,
(270,
(271,
(277,
(1, 'pass', '0', 0))),
(4, ''))),
(4, ''),
(0, ''))
self.check_bad_tree(tree, "non-integer third item in terminal node")
tree = \
(257,
(269,
(270,
(271,
(277,
(1, 'pass', 0, 0))),
(4, ''))),
(4, ''),
(0, ''))
self.check_bad_tree(tree, "too many items in terminal node")
def test_illegal_yield_1(self):
# Illegal yield statement: def f(): return 1; yield 1
tree = \
(257,
(264,
(285,
(259,
(1, 'def'),
(1, 'f'),
(260, (7, '('), (8, ')')),
(11, ':'),
(291,
(4, ''),
(5, ''),
(264,
(265,
(266,
(272,
(275,
(1, 'return'),
(313,
(292,
(293,
(294,
(295,
(297,
(298,
(299,
(300,
(301,
(302, (303, (304, (305, (2, '1')))))))))))))))))),
(264,
(265,
(266,
(272,
(276,
(1, 'yield'),
(313,
(292,
(293,
(294,
(295,
(297,
(298,
(299,
(300,
(301,
(302,
(303, (304, (305, (2, '1')))))))))))))))))),
(4, ''))),
(6, ''))))),
(4, ''),
(0, ''))))
self.check_bad_tree(tree, "def f():\n return 1\n yield 1")
def test_illegal_yield_2(self):
# Illegal return in generator: def f(): return 1; yield 1
tree = \
(257,
(264,
(265,
(266,
(278,
(1, 'from'),
(281, (1, '__future__')),
(1, 'import'),
(279, (1, 'generators')))),
(4, ''))),
(264,
(285,
(259,
(1, 'def'),
(1, 'f'),
(260, (7, '('), (8, ')')),
(11, ':'),
(291,
(4, ''),
(5, ''),
(264,
(265,
(266,
(272,
(275,
(1, 'return'),
(313,
(292,
(293,
(294,
(295,
(297,
(298,
(299,
(300,
(301,
(302, (303, (304, (305, (2, '1')))))))))))))))))),
(264,
(265,
(266,
(272,
(276,
(1, 'yield'),
(313,
(292,
(293,
(294,
(295,
(297,
(298,
(299,
(300,
(301,
(302,
(303, (304, (305, (2, '1')))))))))))))))))),
(4, ''))),
(6, ''))))),
(4, ''),
(0, ''))))
self.check_bad_tree(tree, "def f():\n return 1\n yield 1")
def test_a_comma_comma_c(self):
# Illegal input: a,,c
tree = \
(258,
(311,
(290,
(291,
(292,
(293,
(295,
(296,
(297,
(298, (299, (300, (301, (302, (303, (1, 'a')))))))))))))),
(12, ','),
(12, ','),
(290,
(291,
(292,
(293,
(295,
(296,
(297,
(298, (299, (300, (301, (302, (303, (1, 'c'))))))))))))))),
(4, ''),
(0, ''))
self.check_bad_tree(tree, "a,,c")
def test_illegal_operator(self):
# Illegal input: a $= b
tree = \
(257,
(264,
(265,
(266,
(267,
(312,
(291,
(292,
(293,
(294,
(296,
(297,
(298,
(299,
(300, (301, (302, (303, (304, (1, 'a'))))))))))))))),
(268, (37, '$=')),
(312,
(291,
(292,
(293,
(294,
(296,
(297,
(298,
(299,
(300, (301, (302, (303, (304, (1, 'b'))))))))))))))))),
(4, ''))),
(0, ''))
self.check_bad_tree(tree, "a $= b")
def test_malformed_global(self):
#doesn't have global keyword in ast
tree = (257,
(264,
(265,
(266,
(282, (1, 'foo'))), (4, ''))),
(4, ''),
(0, ''))
self.check_bad_tree(tree, "malformed global ast")
def test_missing_import_source(self):
# from import fred
tree = \
(257,
(268,
(269,
(270,
(282,
(284, (1, 'from'), (1, 'import'),
(287, (285, (1, 'fred')))))),
(4, ''))),
(4, ''), (0, ''))
self.check_bad_tree(tree, "from import fred")
def test_illegal_encoding(self):
# Illegal encoding declaration
tree = \
(340,
(257, (0, '')))
self.check_bad_tree(tree, "missed encoding")
tree = \
(340,
(257, (0, '')),
b'iso-8859-1')
self.check_bad_tree(tree, "non-string encoding")
tree = \
(340,
(257, (0, '')),
'\udcff')
with self.assertRaises(UnicodeEncodeError):
parser.sequence2st(tree)
class CompileTestCase(unittest.TestCase):
# These tests are very minimal. :-(
def test_compile_expr(self):
st = parser.expr('2 + 3')
code = parser.compilest(st)
self.assertEqual(eval(code), 5)
def test_compile_suite(self):
st = parser.suite('x = 2; y = x + 3')
code = parser.compilest(st)
globs = {}
exec(code, globs)
self.assertEqual(globs['y'], 5)
def test_compile_error(self):
st = parser.suite('1 = 3 + 4')
self.assertRaises(SyntaxError, parser.compilest, st)
def test_compile_badunicode(self):
st = parser.suite('a = "\\U12345678"')
self.assertRaises(SyntaxError, parser.compilest, st)
st = parser.suite('a = "\\u1"')
self.assertRaises(SyntaxError, parser.compilest, st)
def test_issue_9011(self):
# Issue 9011: compilation of an unary minus expression changed
# the meaning of the ST, so that a second compilation produced
# incorrect results.
st = parser.expr('-3')
code1 = parser.compilest(st)
self.assertEqual(eval(code1), -3)
code2 = parser.compilest(st)
self.assertEqual(eval(code2), -3)
def test_compile_filename(self):
st = parser.expr('a + 5')
code = parser.compilest(st)
self.assertEqual(code.co_filename, '<syntax-tree>')
code = st.compile()
self.assertEqual(code.co_filename, '<syntax-tree>')
for filename in 'file.py', b'file.py':
code = parser.compilest(st, filename)
self.assertEqual(code.co_filename, 'file.py')
code = st.compile(filename)
self.assertEqual(code.co_filename, 'file.py')
for filename in bytearray(b'file.py'), memoryview(b'file.py'):
with self.assertWarns(DeprecationWarning):
code = parser.compilest(st, filename)
self.assertEqual(code.co_filename, 'file.py')
with self.assertWarns(DeprecationWarning):
code = st.compile(filename)
self.assertEqual(code.co_filename, 'file.py')
self.assertRaises(TypeError, parser.compilest, st, list(b'file.py'))
self.assertRaises(TypeError, st.compile, list(b'file.py'))
class ParserStackLimitTestCase(unittest.TestCase):
"""try to push the parser to/over its limits.
see http://bugs.python.org/issue1881 for a discussion
"""
def _nested_expression(self, level):
return "["*level+"]"*level
def test_deeply_nested_list(self):
# XXX used to be 99 levels in 2.x
e = self._nested_expression(93)
st = parser.expr(e)
st.compile()
def test_trigger_memory_error(self):
e = self._nested_expression(100)
rc, out, err = assert_python_failure('-c', e)
# parsing the expression will result in an error message
# followed by a MemoryError (see #11963)
self.assertIn(b's_push: parser stack overflow', err)
self.assertIn(b'MemoryError', err)
class STObjectTestCase(unittest.TestCase):
"""Test operations on ST objects themselves"""
def test_comparisons(self):
# ST objects should support order and equality comparisons
st1 = parser.expr('2 + 3')
st2 = parser.suite('x = 2; y = x + 3')
st3 = parser.expr('list(x**3 for x in range(20))')
st1_copy = parser.expr('2 + 3')
st2_copy = parser.suite('x = 2; y = x + 3')
st3_copy = parser.expr('list(x**3 for x in range(20))')
# exercise fast path for object identity
self.assertEqual(st1 == st1, True)
self.assertEqual(st2 == st2, True)
self.assertEqual(st3 == st3, True)
# slow path equality
self.assertEqual(st1, st1_copy)
self.assertEqual(st2, st2_copy)
self.assertEqual(st3, st3_copy)
self.assertEqual(st1 == st2, False)
self.assertEqual(st1 == st3, False)
self.assertEqual(st2 == st3, False)
self.assertEqual(st1 != st1, False)
self.assertEqual(st2 != st2, False)
self.assertEqual(st3 != st3, False)
self.assertEqual(st1 != st1_copy, False)
self.assertEqual(st2 != st2_copy, False)
self.assertEqual(st3 != st3_copy, False)
self.assertEqual(st2 != st1, True)
self.assertEqual(st1 != st3, True)
self.assertEqual(st3 != st2, True)
# we don't particularly care what the ordering is; just that
# it's usable and self-consistent
self.assertEqual(st1 < st2, not (st2 <= st1))
self.assertEqual(st1 < st3, not (st3 <= st1))
self.assertEqual(st2 < st3, not (st3 <= st2))
self.assertEqual(st1 < st2, st2 > st1)
self.assertEqual(st1 < st3, st3 > st1)
self.assertEqual(st2 < st3, st3 > st2)
self.assertEqual(st1 <= st2, st2 >= st1)
self.assertEqual(st3 <= st1, st1 >= st3)
self.assertEqual(st2 <= st3, st3 >= st2)
# transitivity
bottom = min(st1, st2, st3)
top = max(st1, st2, st3)
mid = sorted([st1, st2, st3])[1]
self.assertTrue(bottom < mid)
self.assertTrue(bottom < top)
self.assertTrue(mid < top)
self.assertTrue(bottom <= mid)
self.assertTrue(bottom <= top)
self.assertTrue(mid <= top)
self.assertTrue(bottom <= bottom)
self.assertTrue(mid <= mid)
self.assertTrue(top <= top)
# interaction with other types
self.assertEqual(st1 == 1588.602459, False)
self.assertEqual('spanish armada' != st2, True)
self.assertRaises(TypeError, operator.ge, st3, None)
self.assertRaises(TypeError, operator.le, False, st1)
self.assertRaises(TypeError, operator.lt, st1, 1815)
self.assertRaises(TypeError, operator.gt, b'waterloo', st2)
def test_copy_pickle(self):
sts = [
parser.expr('2 + 3'),
parser.suite('x = 2; y = x + 3'),
parser.expr('list(x**3 for x in range(20))')
]
for st in sts:
st_copy = copy.copy(st)
self.assertEqual(st_copy.totuple(), st.totuple())
st_copy = copy.deepcopy(st)
self.assertEqual(st_copy.totuple(), st.totuple())
for proto in range(pickle.HIGHEST_PROTOCOL+1):
st_copy = pickle.loads(pickle.dumps(st, proto))
self.assertEqual(st_copy.totuple(), st.totuple())
check_sizeof = support.check_sizeof
@support.cpython_only
def test_sizeof(self):
def XXXROUNDUP(n):
if n <= 1:
return n
if n <= 128:
return (n + 3) & ~3
return 1 << (n - 1).bit_length()
basesize = support.calcobjsize('Pii')
nodesize = struct.calcsize('hP3iP0h')
def sizeofchildren(node):
if node is None:
return 0
res = 0
hasstr = len(node) > 1 and isinstance(node[-1], str)
if hasstr:
res += len(node[-1]) + 1
children = node[1:-1] if hasstr else node[1:]
if children:
res += XXXROUNDUP(len(children)) * nodesize
for child in children:
res += sizeofchildren(child)
return res
def check_st_sizeof(st):
self.check_sizeof(st, basesize + nodesize +
sizeofchildren(st.totuple()))
check_st_sizeof(parser.expr('2 + 3'))
check_st_sizeof(parser.expr('2 + 3 + 4'))
check_st_sizeof(parser.suite('x = 2 + 3'))
check_st_sizeof(parser.suite(''))
check_st_sizeof(parser.suite('# -*- coding: utf-8 -*-'))
check_st_sizeof(parser.expr('[' + '2,' * 1000 + ']'))
# XXX tests for pickling and unpickling of ST objects should go here
class OtherParserCase(unittest.TestCase):
def test_two_args_to_expr(self):
# See bug #12264
with self.assertRaises(TypeError):
parser.expr("a", "b")
if __name__ == "__main__":
unittest.main()
|