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if __name__ == '__main__':
from os.path import abspath, join
import sys
sys.path.append(abspath(join(sys.path[0], '..')))
from ranger import fsobject
from ranger.file import File
from ranger.directory import Directory
from os.path import realpath, join, dirname
TESTDIR = realpath(join(dirname(__file__), 'testdir'))
TESTFILE = join(TESTDIR, 'testfile5234148')
NONEXISTANT_DIR = '/this/directory/will/most/certainly/not/exist'
import unittest
class Test1(unittest.TestCase):
def test_initial_condition(self):
# Check for the expected initial condition
dir = Directory(TESTDIR)
self.assertEqual(dir.path, TESTDIR)
self.assertFalse(dir.content_loaded)
self.assertEqual(dir.filenames, None)
self.assertEqual(dir.files, None)
self.assertRaises(fsobject.NotLoadedYet, len, dir)
self.assertRaises(fsobject.NotLoadedYet, dir.__getitem__, 0)
def test_after_content_loaded(self):
import os
# Check whether the directory has the correct list of filenames.
dir = Directory(TESTDIR)
dir.load_content()
self.assertTrue(dir.exists)
self.assertEqual(type(dir.filenames), list)
# Get the filenames you expect it to have and sort both before
# comparing. I don't expect any order after only loading the filenames.
assumed_filenames = os.listdir(TESTDIR)
assumed_filenames = list(map(lambda str: os.path.join(TESTDIR, str), assumed_filenames))
assumed_filenames.sort()
dir.filenames.sort()
self.assertTrue(len(dir) > 0)
self.assertEqual(dir.filenames, assumed_filenames)
# build a file object for each file in the list assumed_filenames
# and find exactly one equivalent in dir.files
for name in assumed_filenames:
f = File(name)
f.load()
equal = 0
for dirfile in dir.files:
if (f.__dict__ == dirfile.__dict__):
equal += 1
self.assertEqual(equal, 1)
def test_nonexistant_dir(self):
dir = Directory(NONEXISTANT_DIR)
dir.load_content()
self.assertTrue(dir.content_loaded)
self.assertFalse(dir.exists)
self.assertFalse(dir.accessible)
self.assertEqual(dir.filenames, None)
self.assertRaises(fsobject.NotLoadedYet, len, dir)
self.assertRaises(fsobject.NotLoadedYet, dir.__getitem__, 0)
# This test is obsolete!
# def test_modify_frozen_clone(self):
# dir = Directory(TESTDIR)
# clone = dir.frozen_clone()
#
# # assert that their attributes are equal, except for frozen, which
# # should be true for the clone.
# self.assertTrue(clone.frozen)
# clone.frozen = False
# self.assertEqual(dir.__dict__, clone.__dict__)
# clone.frozen = True
#
# # check for inequality after loading filenames with one object
# self.assertEqual(dir.filenames, clone.filenames)
# dir.load_content()
# self.assertNotEqual(dir.filenames, clone.filenames)
#
# self.assertRaises(fsobject.FrozenException, clone.load_content)
def test_load_if_outdated(self):
import os
import time
# modify the directory. If the time between the last modification
# was within the filesystems resolution of mtime, we should have a re-load.
def modify_dir():
open(TESTFILE, 'w').close()
os.unlink(TESTFILE)
def mtime():
return os.stat(TESTDIR).st_mtime
dir = Directory(TESTDIR)
dir.load()
# If the modification happens to be in the same second as the
# last modification, it will result in mtime having the same
# integer value. So we wait until the resolution is exceeded
# and mtime differs.
old_mtime = mtime()
for i in range(50):
modify_dir()
if old_mtime != mtime(): break
time.sleep(0.1)
else:
# fail after 5 seconds of trying
self.fail("Cannot perform test: mtime of TESTDIR is not being updated.")
self.assertTrue(dir.load_if_outdated())
if __name__ == '__main__':
unittest.main()
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