def test_flex_dont_match_missing(self): Item._types = {'myint': types.Integer()} self.add_item() matched = self.lib.items('myint:2').get() self.assertIsNone(matched)
# Model field lists. # Fields in the "items" database table; all the metadata available for # items in the library. These are used directly in SQL; they are # vulnerable to injection if accessible to the user. # Each tuple has the following values: # - The name of the field. # - The (Python) type of the field. # - Is the field writable? # - Does the field reflect an attribute of a MediaFile? ITEM_FIELDS = [ ('id', types.Id(), False, False), ('path', PathType(), False, False), ('album_id', types.Integer(), False, False), ('title', types.String(), True, True), ('artist', types.String(), True, True), ('artist_sort', types.String(), True, True), ('artist_credit', types.String(), True, True), ('album', types.String(), True, True), ('albumartist', types.String(), True, True), ('albumartist_sort', types.String(), True, True), ('albumartist_credit', types.String(), True, True), ('genre', types.String(), True, True), ('composer', types.String(), True, True), ('grouping', types.String(), True, True), ('year', types.PaddedInt(4), True, True), ('month', types.PaddedInt(2), True, True), ('day', types.PaddedInt(2), True, True),
def test_flex_range_match(self): Item._types = {'myint': types.Integer()} item = self.add_item(myint=2) matched = self.lib.items('myint:2').get() self.assertEqual(item.id, matched.id)
class Item(LibModel): _table = 'items' _flex_table = 'item_attributes' _fields = { 'id': types.Id(True), 'path': PathType(), 'album_id': types.Id(False), 'title': types.String(), 'artist': types.String(), 'artist_sort': types.String(), 'artist_credit': types.String(), 'album': types.String(), 'albumartist': types.String(), 'albumartist_sort': types.String(), 'albumartist_credit': types.String(), 'genre': types.String(), 'composer': types.String(), 'grouping': types.String(), 'year': types.PaddedInt(4), 'month': types.PaddedInt(2), 'day': types.PaddedInt(2), 'track': types.PaddedInt(2), 'tracktotal': types.PaddedInt(2), 'disc': types.PaddedInt(2), 'disctotal': types.PaddedInt(2), 'lyrics': types.String(), 'comments': types.String(), 'bpm': types.Integer(), 'comp': types.Boolean(), 'mb_trackid': types.String(), 'mb_albumid': types.String(), 'mb_artistid': types.String(), 'mb_albumartistid': types.String(), 'albumtype': types.String(), 'label': types.String(), 'acoustid_fingerprint': types.String(), 'acoustid_id': types.String(), 'mb_releasegroupid': types.String(), 'asin': types.String(), 'catalognum': types.String(), 'script': types.String(), 'language': types.String(), 'country': types.String(), 'albumstatus': types.String(), 'media': types.String(), 'albumdisambig': types.String(), 'disctitle': types.String(), 'encoder': types.String(), 'rg_track_gain': types.NullFloat(), 'rg_track_peak': types.NullFloat(), 'rg_album_gain': types.NullFloat(), 'rg_album_peak': types.NullFloat(), 'original_year': types.PaddedInt(4), 'original_month': types.PaddedInt(2), 'original_day': types.PaddedInt(2), 'initial_key': types.MusicalKey(), 'length': types.Float(), 'bitrate': types.ScaledInt(1000, u'kbps'), 'format': types.String(), 'samplerate': types.ScaledInt(1000, u'kHz'), 'bitdepth': types.Integer(), 'channels': types.Integer(), 'mtime': DateType(), 'added': DateType(), } _search_fields = ('artist', 'title', 'comments', 'album', 'albumartist', 'genre') _media_fields = set(MediaFile.readable_fields()) \ .intersection(_fields.keys()) """Set of item fields that are backed by `MediaFile` fields. Any kind of field (fixed, flexible, and computed) may be a media field. Only these fields are read from disk in `read` and written in `write`. """ @classmethod def _getters(cls): getters = plugins.item_field_getters() getters['singleton'] = lambda i: i.album_id is None return getters @classmethod def from_path(cls, path): """Creates a new item from the media file at the specified path. """ # Initiate with values that aren't read from files. i = cls(album_id=None) i.read(path) i.mtime = i.current_mtime() # Initial mtime. return i def __setitem__(self, key, value): """Set the item's value for a standard field or a flexattr. """ # Encode unicode paths and read buffers. if key == 'path': if isinstance(value, unicode): value = bytestring_path(value) elif isinstance(value, buffer): value = str(value) if key in MediaFile.fields(): self.mtime = 0 # Reset mtime on dirty. super(Item, self).__setitem__(key, value) def update(self, values): """Set all key/value pairs in the mapping. If mtime is specified, it is not reset (as it might otherwise be). """ super(Item, self).update(values) if self.mtime == 0 and 'mtime' in values: self.mtime = values['mtime'] def get_album(self): """Get the Album object that this item belongs to, if any, or None if the item is a singleton or is not associated with a library. """ if not self._db: return None return self._db.get_album(self) # Interaction with file metadata. def read(self, read_path=None): """Read the metadata from the associated file. If ``read_path`` is specified, read metadata from that file instead. Updates all the properties in `_media_fields` from the media file. Raises a `ReadError` if the file could not be read. """ if read_path is None: read_path = self.path else: read_path = normpath(read_path) try: mediafile = MediaFile(syspath(read_path)) except (OSError, IOError) as exc: raise ReadError(read_path, exc) for key in self._media_fields: value = getattr(mediafile, key) if isinstance(value, (int, long)): # Filter values wider than 64 bits (in signed representation). # SQLite cannot store them. py26: Post transition, we can use: # value.bit_length() > 63 if abs(value) >= 2**63: value = 0 self[key] = value # Database's mtime should now reflect the on-disk value. if read_path == self.path: self.mtime = self.current_mtime() self.path = read_path def write(self, path=None): """Write the item's metadata to a media file. All fields in `_media_fields` are written to disk according to the values on this object. Can raise either a `ReadError` or a `WriteError`. """ if path is None: path = self.path else: path = normpath(path) try: mediafile = MediaFile(path) except (OSError, IOError) as exc: raise ReadError(self.path, exc) plugins.send('write', item=self, path=path) mediafile.update(self) try: mediafile.save(id3v23=beets.config['id3v23'].get(bool)) except (OSError, IOError, MutagenError) as exc: raise WriteError(self.path, exc) # The file has a new mtime. if path == self.path: self.mtime = self.current_mtime() plugins.send('after_write', item=self, path=path) def try_write(self, path=None): """Calls `write()` but catches and logs `FileOperationError` exceptions. Returns `False` an exception was caught and `True` otherwise. """ try: self.write(path) return True except FileOperationError as exc: log.error(exc) return False # Files themselves. def move_file(self, dest, copy=False): """Moves or copies the item's file, updating the path value if the move succeeds. If a file exists at ``dest``, then it is slightly modified to be unique. """ if not util.samefile(self.path, dest): dest = util.unique_path(dest) if copy: util.copy(self.path, dest) plugins.send("item_copied", item=self, source=self.path, destination=dest) else: util.move(self.path, dest) plugins.send("item_moved", item=self, source=self.path, destination=dest) # Either copying or moving succeeded, so update the stored path. self.path = dest def current_mtime(self): """Returns the current mtime of the file, rounded to the nearest integer. """ return int(os.path.getmtime(syspath(self.path))) # Model methods. def remove(self, delete=False, with_album=True): """Removes the item. If `delete`, then the associated file is removed from disk. If `with_album`, then the item's album (if any) is removed if it the item was the last in the album. """ super(Item, self).remove() # Remove the album if it is empty. if with_album: album = self.get_album() if album and not album.items(): album.remove(delete, False) # Send a 'item_removed' signal to plugins plugins.send('item_removed', item=self) # Delete the associated file. if delete: util.remove(self.path) util.prune_dirs(os.path.dirname(self.path), self._db.directory) self._db._memotable = {} def move(self, copy=False, basedir=None, with_album=True): """Move the item to its designated location within the library directory (provided by destination()). Subdirectories are created as needed. If the operation succeeds, the item's path field is updated to reflect the new location. If copy is True, moving the file is copied rather than moved. basedir overrides the library base directory for the destination. If the item is in an album, the album is given an opportunity to move its art. (This can be disabled by passing with_album=False.) The item is stored to the database if it is in the database, so any dirty fields prior to the move() call will be written as a side effect. You probably want to call save() to commit the DB transaction. """ self._check_db() dest = self.destination(basedir=basedir) # Create necessary ancestry for the move. util.mkdirall(dest) # Perform the move and store the change. old_path = self.path self.move_file(dest, copy) self.store() # If this item is in an album, move its art. if with_album: album = self.get_album() if album: album.move_art(copy) album.store() # Prune vacated directory. if not copy: util.prune_dirs(os.path.dirname(old_path), self._db.directory) # Templating. def _formatted_mapping(self, for_path=False): """Get a mapping containing string-formatted values from either this item or the associated album, if any. """ mapping = super(Item, self)._formatted_mapping(for_path) # Merge in album-level fields. album = self.get_album() if album: for key in album.keys(True): if key in Album.item_keys or key not in self._fields.keys(): mapping[key] = album._get_formatted(key, for_path) # Use the album artist if the track artist is not set and # vice-versa. if not mapping['artist']: mapping['artist'] = mapping['albumartist'] if not mapping['albumartist']: mapping['albumartist'] = mapping['artist'] return mapping def destination(self, fragment=False, basedir=None, platform=None, path_formats=None): """Returns the path in the library directory designated for the item (i.e., where the file ought to be). fragment makes this method return just the path fragment underneath the root library directory; the path is also returned as Unicode instead of encoded as a bytestring. basedir can override the library's base directory for the destination. """ self._check_db() platform = platform or sys.platform basedir = basedir or self._db.directory path_formats = path_formats or self._db.path_formats # Use a path format based on a query, falling back on the # default. for query, path_format in path_formats: if query == PF_KEY_DEFAULT: continue query = get_query(query, type(self)) if query.match(self): # The query matches the item! Use the corresponding path # format. break else: # No query matched; fall back to default. for query, path_format in path_formats: if query == PF_KEY_DEFAULT: break else: assert False, "no default path format" if isinstance(path_format, Template): subpath_tmpl = path_format else: subpath_tmpl = Template(path_format) # Evaluate the selected template. subpath = self.evaluate_template(subpath_tmpl, True) # Prepare path for output: normalize Unicode characters. if platform == 'darwin': subpath = unicodedata.normalize('NFD', subpath) else: subpath = unicodedata.normalize('NFC', subpath) # Truncate components and remove forbidden characters. subpath = util.sanitize_path(subpath, self._db.replacements) # Encode for the filesystem. if not fragment: subpath = bytestring_path(subpath) # Preserve extension. _, extension = os.path.splitext(self.path) if fragment: # Outputting Unicode. extension = extension.decode('utf8', 'ignore') subpath += extension.lower() # Truncate too-long components. maxlen = beets.config['max_filename_length'].get(int) if not maxlen: # When zero, try to determine from filesystem. maxlen = util.max_filename_length(self._db.directory) subpath = util.truncate_path(subpath, maxlen) if fragment: return subpath else: return normpath(os.path.join(basedir, subpath))