def test_access_recursion(self):
paths = ['content/.DirectoryA', 'content/-DirectoryB']
basenames = [
'content/.DirectoryA/SubdirA', 'content/.DirectoryA/SubdirB',
'content/.DirectoryA/SubdirC',
'content/.DirectoryA/SubdirA/emptyfileA',
'content/.DirectoryA/SubdirA/emptyfileB',
'content/.DirectoryA/SubdirA/emptyfileC',
'content/.DirectoryA/SubdirA/nonemptyA',
'content/.DirectoryA/SubdirA/nonemptyB',
'content/.DirectoryA/SubdirA/nonemptyC',
'content/.DirectoryA/SubdirB/emptyA',
'content/.DirectoryA/SubdirB/emptyB',
'content/.DirectoryA/SubdirB/emptyC',
'content/.DirectoryA/SubdirB/nonemptyA',
'content/.DirectoryA/SubdirB/nonemptyB',
'content/.DirectoryA/SubdirB/nonemptyC'
]
expected = [os.path.abspath(p) for p in basenames]
gp = GeneratePaths()
output = gp.all(paths, access=os.W_OK, recursion=True)
self.assertEqual(output, expected)
def test_access_recursion(self):
paths = ['content/DirectoryD\\n', 'content/DirectoryE']
basenames = ['content/DirectoryE/SubdirA',
'content/DirectoryE/SubdirB',
'content/DirectoryE/SubdirC']
expected = [os.path.abspath(p) for p in basenames]
gp = GeneratePaths()
output = gp.dirs(paths, access=os.W_OK, recursion=True)
self.assertEqual(output, expected)
def test_access_recursion(self):
paths = ['content/DirectoryD\\n', 'content/DirectoryE']
basenames = [
'content/DirectoryE/SubdirA', 'content/DirectoryE/SubdirB',
'content/DirectoryE/SubdirC'
]
expected = [os.path.abspath(p) for p in basenames]
gp = GeneratePaths()
output = gp.dirs(paths, access=os.W_OK, recursion=True)
self.assertEqual(output, expected)
def test_filter_invalid_paths(self):
paths = ['content/.DirectoryA', 'content/does_not_exist',
'content/does_not_exist/subdirectory']
basenames = ['content/.DirectoryA/SubdirA',
'content/.DirectoryA/SubdirB',
'content/.DirectoryA/SubdirC']
expected = [os.path.abspath(p) for p in basenames]
gp = GeneratePaths()
output = gp.dirs(paths)
self.assertEqual(output, expected)
def test_filter_invalid_paths(self):
paths = ['content/.DirectoryA/SubdirB/emptyA',
'content/DirectoryD\\n/SubdirA/nonemptyA',
'content/does_not_exist/nonfile',
'content/does_not_exist/otherfile']
basenames = ['content/.DirectoryA/SubdirB/emptyA',
'content/DirectoryD\\n/SubdirA/nonemptyA']
expected = [os.path.abspath(p) for p in basenames]
gp = GeneratePaths()
output = gp.files(paths)
self.assertEqual(output, expected)
def test_nonrecursive(self):
paths = ['content']
basenames = [
'content/-DirectoryB', 'content/.DirectoryA',
'content/DirectoryD\\n', 'content/DirectoryE',
'content/DirectoryF', 'content/\\nDirectoryC'
]
expected = [os.path.abspath(p) for p in basenames]
gp = GeneratePaths()
output = gp.dirs(paths)
self.assertEqual(output, expected)
def test_minsize_nonrecursive(self):
paths = ['content/.DirectoryA/SubdirB']
basenames = ['content/.DirectoryA/SubdirB/nonemptyA',
'content/.DirectoryA/SubdirB/nonemptyB',
'content/.DirectoryA/SubdirB/nonemptyC',
'content/.DirectoryA/SubdirB/nonempty_rootA',
'content/.DirectoryA/SubdirB/nonempty_rootB',
'content/.DirectoryA/SubdirB/nonempty_rootC']
expected = [os.path.abspath(p) for p in basenames]
gp = GeneratePaths()
output = gp.files(paths, minsize=0)
self.assertEqual(output, expected)
def test_filter_invalid_paths(self):
paths = [
'content/.DirectoryA', 'content/does_not_exist',
'content/does_not_exist/subdirectory'
]
basenames = [
'content/.DirectoryA/SubdirA', 'content/.DirectoryA/SubdirB',
'content/.DirectoryA/SubdirC'
]
expected = [os.path.abspath(p) for p in basenames]
gp = GeneratePaths()
output = gp.dirs(paths)
self.assertEqual(output, expected)
def test_nonrecursive(self):
paths = ['content']
basenames = ['content/-DirectoryB',
'content/.DirectoryA',
'content/DirectoryD\\n',
'content/DirectoryE',
'content/DirectoryF',
'content/\\nDirectoryC']
expected = [os.path.abspath(p) for p in basenames]
gp = GeneratePaths()
output = gp.dirs(paths)
self.assertEqual(output, expected)
def test_minsize_nonrecursive(self):
paths = ['content/.DirectoryA/SubdirB']
basenames = [
'content/.DirectoryA/SubdirB/nonemptyA',
'content/.DirectoryA/SubdirB/nonemptyB',
'content/.DirectoryA/SubdirB/nonemptyC',
'content/.DirectoryA/SubdirB/nonempty_rootA',
'content/.DirectoryA/SubdirB/nonempty_rootB',
'content/.DirectoryA/SubdirB/nonempty_rootC'
]
expected = [os.path.abspath(p) for p in basenames]
gp = GeneratePaths()
output = gp.files(paths, minsize=0)
self.assertEqual(output, expected)
def test_filter_invalid_paths(self):
paths = ['content', 'content/does_not_exist', 'content/does_not_exist/subdirectory']
basenames = ['content/-DirectoryB',
'content/.DirectoryA',
'content/DirectoryD\\n',
'content/DirectoryE',
'content/DirectoryF',
'content/\\nDirectoryC',
'content/file1.txt',
'content/file2_nonempty.txt',
'content/file3.conf']
expected = [os.path.abspath(p) for p in basenames]
gp = GeneratePaths()
output = gp.all(paths)
self.assertEqual(output, expected)
def test_filter_invalid_paths(self):
paths = [
'content', 'content/does_not_exist',
'content/does_not_exist/subdirectory'
]
basenames = [
'content/-DirectoryB', 'content/.DirectoryA',
'content/DirectoryD\\n', 'content/DirectoryE',
'content/DirectoryF', 'content/\\nDirectoryC', 'content/file1.txt',
'content/file2_nonempty.txt', 'content/file3.conf'
]
expected = [os.path.abspath(p) for p in basenames]
gp = GeneratePaths()
output = gp.all(paths)
self.assertEqual(output, expected)
def test_filter_invalid_paths(self):
paths = [
'content/.DirectoryA/SubdirB/emptyA',
'content/DirectoryD\\n/SubdirA/nonemptyA',
'content/does_not_exist/nonfile',
'content/does_not_exist/otherfile'
]
basenames = [
'content/.DirectoryA/SubdirB/emptyA',
'content/DirectoryD\\n/SubdirA/nonemptyA'
]
expected = [os.path.abspath(p) for p in basenames]
gp = GeneratePaths()
output = gp.files(paths)
self.assertEqual(output, expected)
def test_recursion(self):
paths = ['content']
basenames = [
'content/-DirectoryB', 'content/.DirectoryA',
'content/DirectoryD\\n', 'content/DirectoryE',
'content/DirectoryF', 'content/\\nDirectoryC',
'content/.DirectoryA/SubdirA', 'content/.DirectoryA/SubdirB',
'content/.DirectoryA/SubdirC', 'content/DirectoryD\\n/SubdirA',
'content/DirectoryD\\n/SubdirB', 'content/DirectoryD\\n/SubdirC',
'content/DirectoryE/SubdirA', 'content/DirectoryE/SubdirB',
'content/DirectoryE/SubdirC'
]
expected = [os.path.abspath(p) for p in basenames]
gp = GeneratePaths()
output = gp.dirs(paths, recursion=True)
self.assertEqual(output, expected)
def test_access_recursion(self):
paths = ['content/.DirectoryA']
basenames = ['content/.DirectoryA/SubdirA/emptyfileA',
'content/.DirectoryA/SubdirA/emptyfileB',
'content/.DirectoryA/SubdirA/emptyfileC',
'content/.DirectoryA/SubdirA/nonemptyA',
'content/.DirectoryA/SubdirA/nonemptyB',
'content/.DirectoryA/SubdirA/nonemptyC',
'content/.DirectoryA/SubdirB/emptyA',
'content/.DirectoryA/SubdirB/emptyB',
'content/.DirectoryA/SubdirB/emptyC',
'content/.DirectoryA/SubdirB/nonemptyA',
'content/.DirectoryA/SubdirB/nonemptyB',
'content/.DirectoryA/SubdirB/nonemptyC']
expected = [os.path.abspath(p) for p in basenames]
gp = GeneratePaths()
output = gp.files(paths, access=os.W_OK, recursion=True)
self.assertEqual(output, expected)
def test_nonrecursive(self):
paths = ['content/.DirectoryA/SubdirA', 'content/DirectoryE/SubdirA']
basenames = ['content/.DirectoryA/SubdirA/emptyfileA',
'content/.DirectoryA/SubdirA/emptyfileB',
'content/.DirectoryA/SubdirA/emptyfileC',
'content/.DirectoryA/SubdirA/nonemptyA',
'content/.DirectoryA/SubdirA/nonemptyB',
'content/.DirectoryA/SubdirA/nonemptyC',
'content/DirectoryE/SubdirA/emptyfileA',
'content/DirectoryE/SubdirA/emptyfileB',
'content/DirectoryE/SubdirA/emptyfileC',
'content/DirectoryE/SubdirA/nonemptyA',
'content/DirectoryE/SubdirA/nonemptyB',
'content/DirectoryE/SubdirA/nonemptyC']
expected = [os.path.abspath(p) for p in basenames]
gp = GeneratePaths()
output = gp.files(paths)
self.assertEqual(output, expected)
def prep_files(paths, extensions):
"""Parses `paths` (which may consist of files and/or directories).
Removes duplicates, sorts, and returns verified srt files."""
from batchpath import GeneratePaths
filenames = GeneratePaths().files(paths, os.W_OK, extensions, 0, True)
if filenames:
return filenames
else:
LOGGER.error('No valid targets were specified')
sys.exit(1)
def test_nonrecursive(self):
paths = ['content/.DirectoryA/SubdirA', 'content/DirectoryE/SubdirA']
basenames = [
'content/.DirectoryA/SubdirA/emptyfileA',
'content/.DirectoryA/SubdirA/emptyfileB',
'content/.DirectoryA/SubdirA/emptyfileC',
'content/.DirectoryA/SubdirA/nonemptyA',
'content/.DirectoryA/SubdirA/nonemptyB',
'content/.DirectoryA/SubdirA/nonemptyC',
'content/DirectoryE/SubdirA/emptyfileA',
'content/DirectoryE/SubdirA/emptyfileB',
'content/DirectoryE/SubdirA/emptyfileC',
'content/DirectoryE/SubdirA/nonemptyA',
'content/DirectoryE/SubdirA/nonemptyB',
'content/DirectoryE/SubdirA/nonemptyC'
]
expected = [os.path.abspath(p) for p in basenames]
gp = GeneratePaths()
output = gp.files(paths)
self.assertEqual(output, expected)
def test_recursion(self):
paths = ['content']
basenames = ['content/-DirectoryB',
'content/.DirectoryA',
'content/DirectoryD\\n',
'content/DirectoryE',
'content/DirectoryF',
'content/\\nDirectoryC',
'content/.DirectoryA/SubdirA',
'content/.DirectoryA/SubdirB',
'content/.DirectoryA/SubdirC',
'content/DirectoryD\\n/SubdirA',
'content/DirectoryD\\n/SubdirB',
'content/DirectoryD\\n/SubdirC',
'content/DirectoryE/SubdirA',
'content/DirectoryE/SubdirB',
'content/DirectoryE/SubdirC']
expected = [os.path.abspath(p) for p in basenames]
gp = GeneratePaths()
output = gp.dirs(paths, recursion=True)
self.assertEqual(output, expected)
def test_recursion(self):
paths = ['content']
basenames = [
'content/-DirectoryB', 'content/.DirectoryA',
'content/DirectoryD\\n', 'content/DirectoryE',
'content/DirectoryF', 'content/\\nDirectoryC', 'content/file1.txt',
'content/file2_nonempty.txt', 'content/file3.conf',
'content/.DirectoryA/SubdirA', 'content/.DirectoryA/SubdirB',
'content/.DirectoryA/SubdirC',
'content/.DirectoryA/SubdirA/emptyfileA',
'content/.DirectoryA/SubdirA/emptyfileB',
'content/.DirectoryA/SubdirA/emptyfileC',
'content/.DirectoryA/SubdirA/nonemptyA',
'content/.DirectoryA/SubdirA/nonemptyB',
'content/.DirectoryA/SubdirA/nonemptyC',
'content/.DirectoryA/SubdirB/emptyA',
'content/.DirectoryA/SubdirB/emptyB',
'content/.DirectoryA/SubdirB/emptyC',
'content/.DirectoryA/SubdirB/empty_rootA',
'content/.DirectoryA/SubdirB/empty_rootB',
'content/.DirectoryA/SubdirB/empty_rootC',
'content/.DirectoryA/SubdirB/nonemptyA',
'content/.DirectoryA/SubdirB/nonemptyB',
'content/.DirectoryA/SubdirB/nonemptyC',
'content/.DirectoryA/SubdirB/nonempty_rootA',
'content/.DirectoryA/SubdirB/nonempty_rootB',
'content/.DirectoryA/SubdirB/nonempty_rootC',
'content/DirectoryD\\n/SubdirA', 'content/DirectoryD\\n/SubdirB',
'content/DirectoryD\\n/SubdirC',
'content/DirectoryD\\n/SubdirA/emptyfileA',
'content/DirectoryD\\n/SubdirA/emptyfileB',
'content/DirectoryD\\n/SubdirA/emptyfileC',
'content/DirectoryD\\n/SubdirA/nonemptyA',
'content/DirectoryD\\n/SubdirA/nonemptyB',
'content/DirectoryD\\n/SubdirA/nonemptyC',
'content/DirectoryD\\n/SubdirB/emptyA',
'content/DirectoryD\\n/SubdirB/emptyB',
'content/DirectoryD\\n/SubdirB/emptyC',
'content/DirectoryD\\n/SubdirB/empty_rootA',
'content/DirectoryD\\n/SubdirB/empty_rootB',
'content/DirectoryD\\n/SubdirB/empty_rootC',
'content/DirectoryD\\n/SubdirB/nonemptyA',
'content/DirectoryD\\n/SubdirB/nonemptyB',
'content/DirectoryD\\n/SubdirB/nonemptyC',
'content/DirectoryD\\n/SubdirB/nonempty_rootA',
'content/DirectoryD\\n/SubdirB/nonempty_rootB',
'content/DirectoryD\\n/SubdirB/nonempty_rootC',
'content/DirectoryE/SubdirA', 'content/DirectoryE/SubdirB',
'content/DirectoryE/SubdirC',
'content/DirectoryE/SubdirA/emptyfileA',
'content/DirectoryE/SubdirA/emptyfileB',
'content/DirectoryE/SubdirA/emptyfileC',
'content/DirectoryE/SubdirA/nonemptyA',
'content/DirectoryE/SubdirA/nonemptyB',
'content/DirectoryE/SubdirA/nonemptyC',
'content/DirectoryE/SubdirB/emptyA',
'content/DirectoryE/SubdirB/emptyB',
'content/DirectoryE/SubdirB/emptyC',
'content/DirectoryE/SubdirB/empty_rootA',
'content/DirectoryE/SubdirB/empty_rootB',
'content/DirectoryE/SubdirB/empty_rootC',
'content/DirectoryE/SubdirB/nonemptyA',
'content/DirectoryE/SubdirB/nonemptyB',
'content/DirectoryE/SubdirB/nonemptyC',
'content/DirectoryE/SubdirB/nonempty_rootA',
'content/DirectoryE/SubdirB/nonempty_rootB',
'content/DirectoryE/SubdirB/nonempty_rootC'
]
expected = [os.path.abspath(p) for p in basenames]
gp = GeneratePaths()
output = gp.all(paths, recursion=True)
self.assertEqual(output, expected)
def test_recursion(self):
paths = ['content']
basenames = ['content/-DirectoryB',
'content/.DirectoryA',
'content/DirectoryD\\n',
'content/DirectoryE',
'content/DirectoryF',
'content/\\nDirectoryC',
'content/file1.txt',
'content/file2_nonempty.txt',
'content/file3.conf',
'content/.DirectoryA/SubdirA',
'content/.DirectoryA/SubdirB',
'content/.DirectoryA/SubdirC',
'content/.DirectoryA/SubdirA/emptyfileA',
'content/.DirectoryA/SubdirA/emptyfileB',
'content/.DirectoryA/SubdirA/emptyfileC',
'content/.DirectoryA/SubdirA/nonemptyA',
'content/.DirectoryA/SubdirA/nonemptyB',
'content/.DirectoryA/SubdirA/nonemptyC',
'content/.DirectoryA/SubdirB/emptyA',
'content/.DirectoryA/SubdirB/emptyB',
'content/.DirectoryA/SubdirB/emptyC',
'content/.DirectoryA/SubdirB/empty_rootA',
'content/.DirectoryA/SubdirB/empty_rootB',
'content/.DirectoryA/SubdirB/empty_rootC',
'content/.DirectoryA/SubdirB/nonemptyA',
'content/.DirectoryA/SubdirB/nonemptyB',
'content/.DirectoryA/SubdirB/nonemptyC',
'content/.DirectoryA/SubdirB/nonempty_rootA',
'content/.DirectoryA/SubdirB/nonempty_rootB',
'content/.DirectoryA/SubdirB/nonempty_rootC',
'content/DirectoryD\\n/SubdirA',
'content/DirectoryD\\n/SubdirB',
'content/DirectoryD\\n/SubdirC',
'content/DirectoryD\\n/SubdirA/emptyfileA',
'content/DirectoryD\\n/SubdirA/emptyfileB',
'content/DirectoryD\\n/SubdirA/emptyfileC',
'content/DirectoryD\\n/SubdirA/nonemptyA',
'content/DirectoryD\\n/SubdirA/nonemptyB',
'content/DirectoryD\\n/SubdirA/nonemptyC',
'content/DirectoryD\\n/SubdirB/emptyA',
'content/DirectoryD\\n/SubdirB/emptyB',
'content/DirectoryD\\n/SubdirB/emptyC',
'content/DirectoryD\\n/SubdirB/empty_rootA',
'content/DirectoryD\\n/SubdirB/empty_rootB',
'content/DirectoryD\\n/SubdirB/empty_rootC',
'content/DirectoryD\\n/SubdirB/nonemptyA',
'content/DirectoryD\\n/SubdirB/nonemptyB',
'content/DirectoryD\\n/SubdirB/nonemptyC',
'content/DirectoryD\\n/SubdirB/nonempty_rootA',
'content/DirectoryD\\n/SubdirB/nonempty_rootB',
'content/DirectoryD\\n/SubdirB/nonempty_rootC',
'content/DirectoryE/SubdirA',
'content/DirectoryE/SubdirB',
'content/DirectoryE/SubdirC',
'content/DirectoryE/SubdirA/emptyfileA',
'content/DirectoryE/SubdirA/emptyfileB',
'content/DirectoryE/SubdirA/emptyfileC',
'content/DirectoryE/SubdirA/nonemptyA',
'content/DirectoryE/SubdirA/nonemptyB',
'content/DirectoryE/SubdirA/nonemptyC',
'content/DirectoryE/SubdirB/emptyA',
'content/DirectoryE/SubdirB/emptyB',
'content/DirectoryE/SubdirB/emptyC',
'content/DirectoryE/SubdirB/empty_rootA',
'content/DirectoryE/SubdirB/empty_rootB',
'content/DirectoryE/SubdirB/empty_rootC',
'content/DirectoryE/SubdirB/nonemptyA',
'content/DirectoryE/SubdirB/nonemptyB',
'content/DirectoryE/SubdirB/nonemptyC',
'content/DirectoryE/SubdirB/nonempty_rootA',
'content/DirectoryE/SubdirB/nonempty_rootB',
'content/DirectoryE/SubdirB/nonempty_rootC']
expected = [os.path.abspath(p) for p in basenames]
gp = GeneratePaths()
output = gp.all(paths, recursion=True)
self.assertEqual(output, expected)