lib-python.2.7.lib2to3.tests.test_refactor.py Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of jython-standalone Show documentation
Show all versions of jython-standalone Show documentation
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.
"""
Unit tests for refactor.py.
"""
from __future__ import with_statement
import sys
import os
import codecs
import operator
import StringIO
import tempfile
import shutil
import unittest
import warnings
from lib2to3 import refactor, pygram, fixer_base
from lib2to3.pgen2 import token
from . import support
TEST_DATA_DIR = os.path.join(os.path.dirname(__file__), "data")
FIXER_DIR = os.path.join(TEST_DATA_DIR, "fixers")
sys.path.append(FIXER_DIR)
try:
_DEFAULT_FIXERS = refactor.get_fixers_from_package("myfixes")
finally:
sys.path.pop()
_2TO3_FIXERS = refactor.get_fixers_from_package("lib2to3.fixes")
class TestRefactoringTool(unittest.TestCase):
def setUp(self):
sys.path.append(FIXER_DIR)
def tearDown(self):
sys.path.pop()
def check_instances(self, instances, classes):
for inst, cls in zip(instances, classes):
if not isinstance(inst, cls):
self.fail("%s are not instances of %s" % instances, classes)
def rt(self, options=None, fixers=_DEFAULT_FIXERS, explicit=None):
return refactor.RefactoringTool(fixers, options, explicit)
def test_print_function_option(self):
rt = self.rt({"print_function" : True})
self.assertTrue(rt.grammar is pygram.python_grammar_no_print_statement)
self.assertTrue(rt.driver.grammar is
pygram.python_grammar_no_print_statement)
def test_write_unchanged_files_option(self):
rt = self.rt()
self.assertFalse(rt.write_unchanged_files)
rt = self.rt({"write_unchanged_files" : True})
self.assertTrue(rt.write_unchanged_files)
def test_fixer_loading_helpers(self):
contents = ["explicit", "first", "last", "parrot", "preorder"]
non_prefixed = refactor.get_all_fix_names("myfixes")
prefixed = refactor.get_all_fix_names("myfixes", False)
full_names = refactor.get_fixers_from_package("myfixes")
self.assertEqual(prefixed, ["fix_" + name for name in contents])
self.assertEqual(non_prefixed, contents)
self.assertEqual(full_names,
["myfixes.fix_" + name for name in contents])
def test_detect_future_features(self):
run = refactor._detect_future_features
fs = frozenset
empty = fs()
self.assertEqual(run(""), empty)
self.assertEqual(run("from __future__ import print_function"),
fs(("print_function",)))
self.assertEqual(run("from __future__ import generators"),
fs(("generators",)))
self.assertEqual(run("from __future__ import generators, feature"),
fs(("generators", "feature")))
inp = "from __future__ import generators, print_function"
self.assertEqual(run(inp), fs(("generators", "print_function")))
inp ="from __future__ import print_function, generators"
self.assertEqual(run(inp), fs(("print_function", "generators")))
inp = "from __future__ import (print_function,)"
self.assertEqual(run(inp), fs(("print_function",)))
inp = "from __future__ import (generators, print_function)"
self.assertEqual(run(inp), fs(("generators", "print_function")))
inp = "from __future__ import (generators, nested_scopes)"
self.assertEqual(run(inp), fs(("generators", "nested_scopes")))
inp = """from __future__ import generators
from __future__ import print_function"""
self.assertEqual(run(inp), fs(("generators", "print_function")))
invalid = ("from",
"from 4",
"from x",
"from x 5",
"from x im",
"from x import",
"from x import 4",
)
for inp in invalid:
self.assertEqual(run(inp), empty)
inp = "'docstring'\nfrom __future__ import print_function"
self.assertEqual(run(inp), fs(("print_function",)))
inp = "'docstring'\n'somng'\nfrom __future__ import print_function"
self.assertEqual(run(inp), empty)
inp = "# comment\nfrom __future__ import print_function"
self.assertEqual(run(inp), fs(("print_function",)))
inp = "# comment\n'doc'\nfrom __future__ import print_function"
self.assertEqual(run(inp), fs(("print_function",)))
inp = "class x: pass\nfrom __future__ import print_function"
self.assertEqual(run(inp), empty)
def test_get_headnode_dict(self):
class NoneFix(fixer_base.BaseFix):
pass
class FileInputFix(fixer_base.BaseFix):
PATTERN = "file_input< any * >"
class SimpleFix(fixer_base.BaseFix):
PATTERN = "'name'"
no_head = NoneFix({}, [])
with_head = FileInputFix({}, [])
simple = SimpleFix({}, [])
d = refactor._get_headnode_dict([no_head, with_head, simple])
top_fixes = d.pop(pygram.python_symbols.file_input)
self.assertEqual(top_fixes, [with_head, no_head])
name_fixes = d.pop(token.NAME)
self.assertEqual(name_fixes, [simple, no_head])
for fixes in d.itervalues():
self.assertEqual(fixes, [no_head])
def test_fixer_loading(self):
from myfixes.fix_first import FixFirst
from myfixes.fix_last import FixLast
from myfixes.fix_parrot import FixParrot
from myfixes.fix_preorder import FixPreorder
rt = self.rt()
pre, post = rt.get_fixers()
self.check_instances(pre, [FixPreorder])
self.check_instances(post, [FixFirst, FixParrot, FixLast])
def test_naughty_fixers(self):
self.assertRaises(ImportError, self.rt, fixers=["not_here"])
self.assertRaises(refactor.FixerError, self.rt, fixers=["no_fixer_cls"])
self.assertRaises(refactor.FixerError, self.rt, fixers=["bad_order"])
def test_refactor_string(self):
rt = self.rt()
input = "def parrot(): pass\n\n"
tree = rt.refactor_string(input, "")
self.assertNotEqual(str(tree), input)
input = "def f(): pass\n\n"
tree = rt.refactor_string(input, "")
self.assertEqual(str(tree), input)
def test_refactor_stdin(self):
class MyRT(refactor.RefactoringTool):
def print_output(self, old_text, new_text, filename, equal):
results.extend([old_text, new_text, filename, equal])
results = []
rt = MyRT(_DEFAULT_FIXERS)
save = sys.stdin
sys.stdin = StringIO.StringIO("def parrot(): pass\n\n")
try:
rt.refactor_stdin()
finally:
sys.stdin = save
expected = ["def parrot(): pass\n\n",
"def cheese(): pass\n\n",
"", False]
self.assertEqual(results, expected)
def check_file_refactoring(self, test_file, fixers=_2TO3_FIXERS,
options=None, mock_log_debug=None,
actually_write=True):
tmpdir = tempfile.mkdtemp(prefix="2to3-test_refactor")
self.addCleanup(shutil.rmtree, tmpdir)
# make a copy of the tested file that we can write to
shutil.copy(test_file, tmpdir)
test_file = os.path.join(tmpdir, os.path.basename(test_file))
os.chmod(test_file, 0o644)
def read_file():
with open(test_file, "rb") as fp:
return fp.read()
old_contents = read_file()
rt = self.rt(fixers=fixers, options=options)
if mock_log_debug:
rt.log_debug = mock_log_debug
rt.refactor_file(test_file)
self.assertEqual(old_contents, read_file())
if not actually_write:
return
rt.refactor_file(test_file, True)
new_contents = read_file()
self.assertNotEqual(old_contents, new_contents)
return new_contents
def test_refactor_file(self):
test_file = os.path.join(FIXER_DIR, "parrot_example.py")
self.check_file_refactoring(test_file, _DEFAULT_FIXERS)
def test_refactor_file_write_unchanged_file(self):
test_file = os.path.join(FIXER_DIR, "parrot_example.py")
debug_messages = []
def recording_log_debug(msg, *args):
debug_messages.append(msg % args)
self.check_file_refactoring(test_file, fixers=(),
options={"write_unchanged_files": True},
mock_log_debug=recording_log_debug,
actually_write=False)
# Testing that it logged this message when write=False was passed is
# sufficient to see that it did not bail early after "No changes".
message_regex = r"Not writing changes to .*%s%s" % (
os.sep, os.path.basename(test_file))
for message in debug_messages:
if "Not writing changes" in message:
self.assertRegexpMatches(message, message_regex)
break
else:
self.fail("%r not matched in %r" % (message_regex, debug_messages))
def test_refactor_dir(self):
def check(structure, expected):
def mock_refactor_file(self, f, *args):
got.append(f)
save_func = refactor.RefactoringTool.refactor_file
refactor.RefactoringTool.refactor_file = mock_refactor_file
rt = self.rt()
got = []
dir = tempfile.mkdtemp(prefix="2to3-test_refactor")
try:
os.mkdir(os.path.join(dir, "a_dir"))
for fn in structure:
open(os.path.join(dir, fn), "wb").close()
rt.refactor_dir(dir)
finally:
refactor.RefactoringTool.refactor_file = save_func
shutil.rmtree(dir)
self.assertEqual(got,
[os.path.join(dir, path) for path in expected])
check([], [])
tree = ["nothing",
"hi.py",
".dumb",
".after.py",
"notpy.npy",
"sappy"]
expected = ["hi.py"]
check(tree, expected)
tree = ["hi.py",
os.path.join("a_dir", "stuff.py")]
check(tree, tree)
def test_file_encoding(self):
fn = os.path.join(TEST_DATA_DIR, "different_encoding.py")
self.check_file_refactoring(fn)
def test_bom(self):
fn = os.path.join(TEST_DATA_DIR, "bom.py")
data = self.check_file_refactoring(fn)
self.assertTrue(data.startswith(codecs.BOM_UTF8))
def test_crlf_newlines(self):
old_sep = os.linesep
os.linesep = "\r\n"
try:
fn = os.path.join(TEST_DATA_DIR, "crlf.py")
fixes = refactor.get_fixers_from_package("lib2to3.fixes")
self.check_file_refactoring(fn, fixes)
finally:
os.linesep = old_sep
def test_refactor_docstring(self):
rt = self.rt()
doc = """
>>> example()
42
"""
out = rt.refactor_docstring(doc, "")
self.assertEqual(out, doc)
doc = """
>>> def parrot():
... return 43
"""
out = rt.refactor_docstring(doc, "")
self.assertNotEqual(out, doc)
def test_explicit(self):
from myfixes.fix_explicit import FixExplicit
rt = self.rt(fixers=["myfixes.fix_explicit"])
self.assertEqual(len(rt.post_order), 0)
rt = self.rt(explicit=["myfixes.fix_explicit"])
for fix in rt.post_order:
if isinstance(fix, FixExplicit):
break
else:
self.fail("explicit fixer not loaded")