# This file is part of beets. # Copyright 2013, Adrian Sampson. # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be # included in all copies or substantial portions of the Software. """Test file manipulation functionality of Item. """ import shutil import os import stat from os.path import join import _common from _common import unittest from _common import item, touch import beets.library from beets import util class MoveTest(_common.TestCase): def setUp(self): # make a temporary file self.path = join(_common.RSRC, 'temp.mp3') shutil.copy(join(_common.RSRC, 'full.mp3'), self.path) # add it to a temporary library self.lib = beets.library.Library(':memory:') self.i = beets.library.Item.from_path(self.path) self.lib.add(self.i) # set up the destination self.libdir = join(_common.RSRC, 'testlibdir') self.lib.directory = self.libdir self.lib.path_formats = [('default', join('$artist', '$album', '$title'))] self.i.artist = 'one' self.i.album = 'two' self.i.title = 'three' self.dest = join(self.libdir, 'one', 'two', 'three.mp3') self.otherdir = join(_common.RSRC, 'testotherdir') def tearDown(self): if os.path.exists(self.path): os.remove(self.path) if os.path.exists(self.libdir): shutil.rmtree(self.libdir) if os.path.exists(self.otherdir): shutil.rmtree(self.otherdir) def test_move_arrives(self): self.lib.move(self.i) self.assertExists(self.dest) def test_move_to_custom_dir(self): self.lib.move(self.i, basedir=self.otherdir) self.assertExists(join(self.otherdir, 'one', 'two', 'three.mp3')) def test_move_departs(self): self.lib.move(self.i) self.assertNotExists(self.path) def test_move_in_lib_prunes_empty_dir(self): self.lib.move(self.i) old_path = self.i.path self.assertExists(old_path) self.i.artist = 'newArtist' self.lib.move(self.i) self.assertNotExists(old_path) self.assertNotExists(os.path.dirname(old_path)) def test_copy_arrives(self): self.lib.move(self.i, copy=True) self.assertExists(self.dest) def test_copy_does_not_depart(self): self.lib.move(self.i, copy=True) self.assertExists(self.path) def test_move_changes_path(self): self.lib.move(self.i) self.assertEqual(self.i.path, util.normpath(self.dest)) def test_copy_already_at_destination(self): self.lib.move(self.i) old_path = self.i.path self.lib.move(self.i, copy=True) self.assertEqual(self.i.path, old_path) def test_move_already_at_destination(self): self.lib.move(self.i) old_path = self.i.path self.lib.move(self.i, copy=False) self.assertEqual(self.i.path, old_path) def test_read_only_file_copied_writable(self): # Make the source file read-only. os.chmod(self.path, 0444) try: self.lib.move(self.i, copy=True) self.assertTrue(os.access(self.i.path, os.W_OK)) finally: # Make everything writable so it can be cleaned up. os.chmod(self.path, 0777) os.chmod(self.i.path, 0777) def test_move_avoids_collision_with_existing_file(self): # Make a conflicting file at the destination. dest = self.lib.destination(self.i) os.makedirs(os.path.dirname(dest)) touch(dest) self.lib.move(self.i) self.assertNotEqual(self.i.path, dest) self.assertEqual(os.path.dirname(self.i.path), os.path.dirname(dest)) class HelperTest(_common.TestCase): def test_ancestry_works_on_file(self): p = '/a/b/c' a = ['/','/a','/a/b'] self.assertEqual(util.ancestry(p), a) def test_ancestry_works_on_dir(self): p = '/a/b/c/' a = ['/', '/a', '/a/b', '/a/b/c'] self.assertEqual(util.ancestry(p), a) def test_ancestry_works_on_relative(self): p = 'a/b/c' a = ['a', 'a/b'] self.assertEqual(util.ancestry(p), a) def test_components_works_on_file(self): p = '/a/b/c' a = ['/', 'a', 'b', 'c'] self.assertEqual(util.components(p), a) def test_components_works_on_dir(self): p = '/a/b/c/' a = ['/', 'a', 'b', 'c'] self.assertEqual(util.components(p), a) def test_components_works_on_relative(self): p = 'a/b/c' a = ['a', 'b', 'c'] self.assertEqual(util.components(p), a) class AlbumFileTest(_common.TestCase): def setUp(self): # Make library and item. self.lib = beets.library.Library(':memory:') self.lib.path_formats = \ [('default', join('$albumartist', '$album', '$title'))] self.libdir = os.path.join(_common.RSRC, 'testlibdir') self.lib.directory = self.libdir self.i = item() # Make a file for the item. self.i.path = self.lib.destination(self.i) util.mkdirall(self.i.path) touch(self.i.path) # Make an album. self.ai = self.lib.add_album((self.i,)) # Alternate destination dir. self.otherdir = os.path.join(_common.RSRC, 'testotherdir') def tearDown(self): if os.path.exists(self.libdir): shutil.rmtree(self.libdir) if os.path.exists(self.otherdir): shutil.rmtree(self.otherdir) def test_albuminfo_move_changes_paths(self): self.ai.album = 'newAlbumName' self.ai.move() self.lib.load(self.i) self.assert_('newAlbumName' in self.i.path) def test_albuminfo_move_moves_file(self): oldpath = self.i.path self.ai.album = 'newAlbumName' self.ai.move() self.lib.load(self.i) self.assertFalse(os.path.exists(oldpath)) self.assertTrue(os.path.exists(self.i.path)) def test_albuminfo_move_copies_file(self): oldpath = self.i.path self.ai.album = 'newAlbumName' self.ai.move(True) self.lib.load(self.i) self.assertTrue(os.path.exists(oldpath)) self.assertTrue(os.path.exists(self.i.path)) def test_albuminfo_move_to_custom_dir(self): self.ai.move(basedir=self.otherdir) self.lib.load(self.i) self.assertTrue('testotherdir' in self.i.path) class ArtFileTest(_common.TestCase): def setUp(self): # Make library and item. self.lib = beets.library.Library(':memory:') self.libdir = os.path.abspath(os.path.join(_common.RSRC, 'testlibdir')) self.lib.directory = self.libdir self.i = item() self.i.path = self.lib.destination(self.i) # Make a music file. util.mkdirall(self.i.path) touch(self.i.path) # Make an album. self.ai = self.lib.add_album((self.i,)) # Make an art file too. self.art = self.lib.get_album(self.i).art_destination('something.jpg') touch(self.art) self.ai.artpath = self.art # Alternate destination dir. self.otherdir = os.path.join(_common.RSRC, 'testotherdir') def tearDown(self): if os.path.exists(self.libdir): shutil.rmtree(self.libdir) if os.path.exists(self.otherdir): shutil.rmtree(self.otherdir) def test_art_deleted_when_items_deleted(self): self.assertTrue(os.path.exists(self.art)) self.ai.remove(True) self.assertFalse(os.path.exists(self.art)) def test_art_moves_with_album(self): self.assertTrue(os.path.exists(self.art)) oldpath = self.i.path self.ai.album = 'newAlbum' self.ai.move() self.lib.load(self.i) self.assertNotEqual(self.i.path, oldpath) self.assertFalse(os.path.exists(self.art)) newart = self.lib.get_album(self.i).art_destination(self.art) self.assertTrue(os.path.exists(newart)) def test_art_moves_with_album_to_custom_dir(self): # Move the album to another directory. self.ai.move(basedir=self.otherdir) self.lib.load(self.i) # Art should be in new directory. self.assertNotExists(self.art) newart = self.lib.get_album(self.i).artpath self.assertExists(newart) self.assertTrue('testotherdir' in newart) def test_setart_copies_image(self): os.remove(self.art) newart = os.path.join(self.libdir, 'newart.jpg') touch(newart) i2 = item() i2.path = self.i.path i2.artist = 'someArtist' ai = self.lib.add_album((i2,)) self.lib.move(i2, True) self.assertEqual(ai.artpath, None) ai.set_art(newart) self.assertTrue(os.path.exists(ai.artpath)) def test_setart_to_existing_art_works(self): os.remove(self.art) # Original art. newart = os.path.join(self.libdir, 'newart.jpg') touch(newart) i2 = item() i2.path = self.i.path i2.artist = 'someArtist' ai = self.lib.add_album((i2,)) self.lib.move(i2, True) ai.set_art(newart) # Set the art again. ai.set_art(ai.artpath) self.assertTrue(os.path.exists(ai.artpath)) def test_setart_to_existing_but_unset_art_works(self): newart = os.path.join(self.libdir, 'newart.jpg') touch(newart) i2 = item() i2.path = self.i.path i2.artist = 'someArtist' ai = self.lib.add_album((i2,)) self.lib.move(i2, True) # Copy the art to the destination. artdest = ai.art_destination(newart) shutil.copy(newart, artdest) # Set the art again. ai.set_art(artdest) self.assertTrue(os.path.exists(ai.artpath)) def test_setart_to_conflicting_file_gets_new_path(self): newart = os.path.join(self.libdir, 'newart.jpg') touch(newart) i2 = item() i2.path = self.i.path i2.artist = 'someArtist' ai = self.lib.add_album((i2,)) self.lib.move(i2, True) # Make a file at the destination. artdest = ai.art_destination(newart) touch(artdest) # Set the art. ai.set_art(newart) self.assertNotEqual(artdest, ai.artpath) self.assertEqual(os.path.dirname(artdest), os.path.dirname(ai.artpath)) def test_setart_sets_permissions(self): os.remove(self.art) newart = os.path.join(self.libdir, 'newart.jpg') touch(newart) os.chmod(newart, 0400) # read-only try: i2 = item() i2.path = self.i.path i2.artist = 'someArtist' ai = self.lib.add_album((i2,)) self.lib.move(i2, True) ai.set_art(newart) mode = stat.S_IMODE(os.stat(ai.artpath).st_mode) self.assertTrue(mode & stat.S_IRGRP) self.assertTrue(os.access(ai.artpath, os.W_OK)) finally: # Make everything writable so it can be cleaned up. os.chmod(newart, 0777) os.chmod(ai.artpath, 0777) def test_move_last_file_moves_albumart(self): oldartpath = self.lib.albums()[0].artpath self.assertExists(oldartpath) self.ai.album = 'different_album' self.lib.move(self.i) artpath = self.lib.albums()[0].artpath self.assertTrue('different_album' in artpath) self.assertExists(artpath) self.assertNotExists(oldartpath) def test_move_not_last_file_does_not_move_albumart(self): i2 = item() i2.albumid = self.ai.id self.lib.add(i2) oldartpath = self.lib.albums()[0].artpath self.assertExists(oldartpath) self.i.album = 'different_album' self.i.album_id = None # detach from album self.lib.move(self.i) artpath = self.lib.albums()[0].artpath self.assertFalse('different_album' in artpath) self.assertEqual(artpath, oldartpath) self.assertExists(oldartpath) class RemoveTest(_common.TestCase): def setUp(self): # Make library and item. self.lib = beets.library.Library(':memory:') self.libdir = os.path.abspath(os.path.join(_common.RSRC, 'testlibdir')) self.lib.directory = self.libdir self.i = item() self.i.path = self.lib.destination(self.i) # Make a music file. util.mkdirall(self.i.path) touch(self.i.path) # Make an album with the item. self.ai = self.lib.add_album((self.i,)) def tearDown(self): if os.path.exists(self.libdir): shutil.rmtree(self.libdir) def test_removing_last_item_prunes_empty_dir(self): parent = os.path.dirname(self.i.path) self.assertExists(parent) self.lib.remove(self.i, True) self.assertNotExists(parent) def test_removing_last_item_preserves_nonempty_dir(self): parent = os.path.dirname(self.i.path) touch(os.path.join(parent, 'dummy.txt')) self.lib.remove(self.i, True) self.assertExists(parent) def test_removing_last_item_prunes_dir_with_blacklisted_file(self): parent = os.path.dirname(self.i.path) touch(os.path.join(parent, '.DS_Store')) self.lib.remove(self.i, True) self.assertNotExists(parent) def test_removing_without_delete_leaves_file(self): path = self.i.path self.lib.remove(self.i) self.assertExists(path) def test_removing_last_item_preserves_library_dir(self): self.lib.remove(self.i, True) self.assertExists(self.libdir) def test_removing_item_outside_of_library_deletes_nothing(self): self.lib.directory = os.path.abspath(os.path.join(_common.RSRC, 'xxx')) parent = os.path.dirname(self.i.path) self.lib.remove(self.i, True) self.assertExists(parent) def test_removing_last_item_in_album_with_albumart_prunes_dir(self): artfile = os.path.join(_common.RSRC, 'testart.jpg') touch(artfile) self.ai.set_art(artfile) os.remove(artfile) parent = os.path.dirname(self.i.path) self.lib.remove(self.i, True) self.assertNotExists(parent) # Tests that we can "delete" nonexistent files. class SoftRemoveTest(_common.TestCase): def setUp(self): self.path = os.path.join(_common.RSRC, 'testfile') touch(self.path) def tearDown(self): if os.path.exists(self.path): os.remove(self.path) def test_soft_remove_deletes_file(self): util.remove(self.path, True) self.assertNotExists(self.path) def test_soft_remove_silent_on_no_file(self): try: util.remove(self.path + 'XXX', True) except OSError: self.fail('OSError when removing path') class SafeMoveCopyTest(_common.TestCase): def setUp(self): self.path = os.path.join(_common.RSRC, 'testfile') touch(self.path) self.otherpath = os.path.join(_common.RSRC, 'testfile2') touch(self.otherpath) self.dest = self.path + '.dest' def tearDown(self): if os.path.exists(self.path): os.remove(self.path) if os.path.exists(self.otherpath): os.remove(self.otherpath) if os.path.exists(self.dest): os.remove(self.dest) def test_successful_move(self): util.move(self.path, self.dest) self.assertExists(self.dest) self.assertNotExists(self.path) def test_successful_copy(self): util.copy(self.path, self.dest) self.assertExists(self.dest) self.assertExists(self.path) def test_unsuccessful_move(self): with self.assertRaises(util.FilesystemError): util.move(self.path, self.otherpath) def test_unsuccessful_copy(self): with self.assertRaises(util.FilesystemError): util.copy(self.path, self.otherpath) def test_self_move(self): util.move(self.path, self.path) self.assertExists(self.path) def test_self_copy(self): util.copy(self.path, self.path) self.assertExists(self.path) class PruneTest(_common.TestCase): def setUp(self): self.base = os.path.join(_common.RSRC, 'testdir') os.mkdir(self.base) self.sub = os.path.join(self.base, 'subdir') os.mkdir(self.sub) def tearDown(self): if os.path.exists(self.base): shutil.rmtree(self.base) def test_prune_existent_directory(self): util.prune_dirs(self.sub, self.base) self.assertExists(self.base) self.assertNotExists(self.sub) def test_prune_nonexistent_directory(self): util.prune_dirs(os.path.join(self.sub, 'another'), self.base) self.assertExists(self.base) self.assertNotExists(self.sub) class WalkTest(_common.TestCase): def setUp(self): self.base = os.path.join(_common.RSRC, 'testdir') os.mkdir(self.base) touch(os.path.join(self.base, 'y')) touch(os.path.join(self.base, 'x')) os.mkdir(os.path.join(self.base, 'd')) touch(os.path.join(self.base, 'd', 'z')) def tearDown(self): if os.path.exists(self.base): shutil.rmtree(self.base) def test_sorted_files(self): res = list(util.sorted_walk(self.base)) self.assertEqual(len(res), 2) self.assertEqual(res[0], (self.base, ['d'], ['x', 'y'])) self.assertEqual(res[1], (os.path.join(self.base, 'd'), [], ['z'])) def test_ignore_file(self): res = list(util.sorted_walk(self.base, ('x',))) self.assertEqual(len(res), 2) self.assertEqual(res[0], (self.base, ['d'], ['y'])) self.assertEqual(res[1], (os.path.join(self.base, 'd'), [], ['z'])) def test_ignore_directory(self): res = list(util.sorted_walk(self.base, ('d',))) self.assertEqual(len(res), 1) self.assertEqual(res[0], (self.base, [], ['x', 'y'])) def test_ignore_everything(self): res = list(util.sorted_walk(self.base, ('*',))) self.assertEqual(len(res), 1) self.assertEqual(res[0], (self.base, [], [])) class UniquePathTest(_common.TestCase): def setUp(self): self.base = os.path.join(_common.RSRC, 'testdir') os.mkdir(self.base) touch(os.path.join(self.base, 'x.mp3')) touch(os.path.join(self.base, 'x.1.mp3')) touch(os.path.join(self.base, 'x.2.mp3')) touch(os.path.join(self.base, 'y.mp3')) def tearDown(self): if os.path.exists(self.base): shutil.rmtree(self.base) def test_new_file_unchanged(self): path = util.unique_path(os.path.join(self.base, 'z.mp3')) self.assertEqual(path, os.path.join(self.base, 'z.mp3')) def test_conflicting_file_appends_1(self): path = util.unique_path(os.path.join(self.base, 'y.mp3')) self.assertEqual(path, os.path.join(self.base, 'y.1.mp3')) def test_conflicting_file_appends_higher_number(self): path = util.unique_path(os.path.join(self.base, 'x.mp3')) self.assertEqual(path, os.path.join(self.base, 'x.3.mp3')) def test_conflicting_file_with_number_increases_number(self): path = util.unique_path(os.path.join(self.base, 'x.1.mp3')) self.assertEqual(path, os.path.join(self.base, 'x.3.mp3')) def suite(): return unittest.TestLoader().loadTestsFromName(__name__) if __name__ == '__main__': unittest.main(defaultTest='suite')