""" Unit tests for refactor.py. """ import sys import os import operator import StringIO import tempfile import unittest from lib2to3 import refactor, pygram, fixer_base from . import support FIXER_DIR = os.path.join(os.path.dirname(__file__), "data/fixers") sys.path.append(FIXER_DIR) try: _DEFAULT_FIXERS = refactor.get_fixers_from_package("myfixes") finally: sys.path.pop() 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): gram = pygram.python_grammar save = gram.keywords["print"] try: rt = self.rt({"print_function" : True}) self.assertRaises(KeyError, operator.itemgetter("print"), gram.keywords) finally: gram.keywords["print"] = save 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_get_headnode_dict(self): class NoneFix(fixer_base.BaseFix): PATTERN = None class FileInputFix(fixer_base.BaseFix): PATTERN = "file_input< any * >" no_head = NoneFix({}, []) with_head = FileInputFix({}, []) d = refactor.get_headnode_dict([no_head, with_head]) expected = {None: [no_head], pygram.python_symbols.file_input : [with_head]} self.assertEqual(d, expected) 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, lines): diff_lines.extend(lines) diff_lines = [] 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 = """--- (original) +++ (refactored) @@ -1,2 +1,2 @@ -def parrot(): pass +def cheese(): pass""".splitlines() self.assertEqual(diff_lines[:-1], expected) def test_refactor_file(self): test_file = os.path.join(FIXER_DIR, "parrot_example.py") old_contents = open(test_file, "r").read() rt = self.rt() rt.refactor_file(test_file) self.assertEqual(old_contents, open(test_file, "r").read()) rt.refactor_file(test_file, True) try: self.assertNotEqual(old_contents, open(test_file, "r").read()) finally: open(test_file, "w").write(old_contents) def test_refactor_docstring(self): rt = self.rt() def example(): """ >>> example() 42 """ out = rt.refactor_docstring(example.__doc__, "") self.assertEqual(out, example.__doc__) def parrot(): """ >>> def parrot(): ... return 43 """ out = rt.refactor_docstring(parrot.__doc__, "") self.assertNotEqual(out, parrot.__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[None]: if isinstance(fix, FixExplicit): break else: self.fail("explicit fixer not loaded")