# 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. """The core data store and collection logic for beets. """ import os import sys import logging import shlex import unicodedata import time import re from unidecode import unidecode from beets.mediafile import MediaFile, MutagenError, UnreadableFileError from beets import plugins from beets import util from beets.util import bytestring_path, syspath, normpath, samefile from beets.util.functemplate import Template from beets import dbcore from beets.dbcore import types import beets log = logging.getLogger('beets') # Library-specific query types. class PathQuery(dbcore.FieldQuery): """A query that matches all items under a given path.""" escape_re = re.compile(r'[\\_%]') escape_char = '\\' def __init__(self, field, pattern, fast=True): super(PathQuery, self).__init__(field, pattern, fast) # Match the path as a single file. self.file_path = util.bytestring_path(util.normpath(pattern)) # As a directory (prefix). self.dir_path = util.bytestring_path(os.path.join(self.file_path, '')) def match(self, item): return (item.path == self.file_path) or \ item.path.startswith(self.dir_path) def clause(self): escape = lambda m: self.escape_char + m.group(0) dir_pattern = self.escape_re.sub(escape, self.dir_path) dir_pattern = buffer(dir_pattern + '%') file_blob = buffer(self.file_path) return '({0} = ?) || ({0} LIKE ? ESCAPE ?)'.format(self.field), \ (file_blob, dir_pattern, self.escape_char) # Library-specific field types. class DateType(types.Float): # TODO representation should be `datetime` object # TODO distinguish beetween date and time types query = dbcore.query.DateQuery def format(self, value): return time.strftime(beets.config['time_format'].get(unicode), time.localtime(value or 0)) def parse(self, string): try: # Try a formatted date string. return time.mktime( time.strptime(string, beets.config['time_format'].get(unicode)) ) except ValueError: # Fall back to a plain timestamp number. try: return float(string) except ValueError: return self.null class PathType(types.Type): sql = u'BLOB' query = PathQuery model_type = bytes def format(self, value): return util.displayable_path(value) def parse(self, string): return normpath(bytestring_path(string)) def normalize(self, value): if isinstance(value, unicode): # Paths stored internally as encoded bytes. return bytestring_path(value) elif isinstance(value, buffer): # SQLite must store bytestings as buffers to avoid decoding. # We unwrap buffers to bytes. return bytes(value) else: return value def from_sql(self, sql_value): return self.normalize(sql_value) def to_sql(self, value): if isinstance(value, str): value = buffer(value) return value class MusicalKey(types.String): """String representing the musical key of a song. The standard format is C, Cm, C#, C#m, etc. """ ENHARMONIC = { r'db': 'c#', r'eb': 'd#', r'gb': 'f#', r'ab': 'g#', r'bb': 'a#', } def parse(self, key): key = key.lower() for flat, sharp in self.ENHARMONIC.items(): key = re.sub(flat, sharp, key) key = re.sub(r'[\W\s]+minor', 'm', key) return key.capitalize() def normalize(self, key): if key is None: return None else: return self.parse(key) # Library-specific sort types. class SmartArtistSort(dbcore.query.Sort): """Sort by artist (either album artist or track artist), prioritizing the sort field over the raw field. """ def __init__(self, model_cls, ascending=True): self.album = model_cls is Album self.ascending = ascending def order_clause(self): order = "ASC" if self.ascending else "DESC" if self.album: field = 'albumartist' else: field = 'artist' return ('(CASE {0}_sort WHEN NULL THEN {0} ' 'WHEN "" THEN {0} ' 'ELSE {0}_sort END) {1}').format(field, order) def sort(self, objs): if self.album: key = lambda a: a.albumartist_sort or a.albumartist else: key = lambda i: i.artist_sort or i.artist return sorted(objs, key=key, reverse=not self.ascending) # Special path format key. PF_KEY_DEFAULT = 'default' # Exceptions. class FileOperationError(Exception): """Indicates an error when interacting with a file on disk. Possibilities include an unsupported media type, a permissions error, and an unhandled Mutagen exception. """ def __init__(self, path, reason): """Create an exception describing an operation on the file at `path` with the underlying (chained) exception `reason`. """ super(FileOperationError, self).__init__(path, reason) self.path = path self.reason = reason def __unicode__(self): """Get a string representing the error. Describes both the underlying reason and the file path in question. """ return u'{0}: {1}'.format( util.displayable_path(self.path), unicode(self.reason) ) def __str__(self): return unicode(self).encode('utf8') class ReadError(FileOperationError): """An error while reading a file (i.e. in `Item.read`). """ def __unicode__(self): return u'error reading ' + super(ReadError, self).__unicode__() class WriteError(FileOperationError): """An error while writing a file (i.e. in `Item.write`). """ def __unicode__(self): return u'error writing ' + super(WriteError, self).__unicode__() # Item and Album model classes. class LibModel(dbcore.Model): """Shared concrete functionality for Items and Albums. """ def _template_funcs(self): funcs = DefaultTemplateFunctions(self, self._db).functions() funcs.update(plugins.template_funcs()) return funcs def store(self): super(LibModel, self).store() plugins.send('database_change', lib=self._db) def remove(self): super(LibModel, self).remove() plugins.send('database_change', lib=self._db) def add(self, lib=None): super(LibModel, self).add(lib) plugins.send('database_change', lib=self._db) class FormattedItemMapping(dbcore.db.FormattedMapping): """Add lookup for album-level fields. Album-level fields take precedence if `for_path` is true. """ def __init__(self, item, for_path=False): super(FormattedItemMapping, self).__init__(item, for_path) self.album = item.get_album() self.album_keys = [] if self.album: for key in self.album.keys(True): if key in Album.item_keys or key not in item._fields.keys(): self.album_keys.append(key) self.all_keys = set(self.model_keys).union(self.album_keys) def _get(self, key): """Get the value for a key, either from the album or the item. Raise a KeyError for invalid keys. """ if self.for_path and key in self.album_keys: return self._get_formatted(self.album, key) elif key in self.model_keys: return self._get_formatted(self.model, key) elif key in self.album_keys: return self._get_formatted(self.album, key) else: raise KeyError(key) def __getitem__(self, key): """Get the value for a key. Certain unset values are remapped. """ value = self._get(key) # `artist` and `albumartist` fields fall back to one another. # This is helpful in path formats when the album artist is unset # on as-is imports. if key == 'artist' and not value: return self._get('albumartist') elif key == 'albumartist' and not value: return self._get('artist') else: return value def __iter__(self): return iter(self.all_keys) def __len__(self): return len(self.all_keys) class Item(LibModel): _table = 'items' _flex_table = 'item_attributes' _fields = { 'id': types.PRIMARY_ID, 'path': PathType(), 'album_id': types.FOREIGN_ID, '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.NULL_FLOAT, 'rg_track_peak': types.NULL_FLOAT, 'rg_album_gain': types.NULL_FLOAT, 'rg_album_peak': types.NULL_FLOAT, 'original_year': types.PaddedInt(4), 'original_month': types.PaddedInt(2), 'original_day': types.PaddedInt(2), 'initial_key': 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`. """ _formatter = FormattedItemMapping _sorts = {'artist': SmartArtistSort} @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, UnreadableFileError) 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) tags = dict(self) plugins.send('write', item=self, path=path, tags=tags) try: mediafile = MediaFile(syspath(path), id3v23=beets.config['id3v23'].get(bool)) except (OSError, IOError, UnreadableFileError) as exc: raise ReadError(self.path, exc) mediafile.update(tags) try: mediafile.save() 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 def try_sync(self, write=None): """Synchronize the item with the database and the media file tags, updating them with this object's current state. By default, the current `path` for the item is used to write tags. If `write` is `False`, no tags are written. If `write` is a path, tags are written to that file instead. Similar to calling :meth:`write` and :meth:`store`. """ if write is True: write = None if write is not False: self.try_write(path=write) self.store() # Files themselves. def move_file(self, dest, copy=False, link=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) elif link: util.link(self.path, dest) plugins.send("item_linked", item=self, source=self.path, destination=dest) else: plugins.send("before_item_moved", item=self, source=self.path, destination=dest) 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, link=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. Similarly, `link` creates a symlink instead. 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, link) 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 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, _ = parse_query_string(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) if beets.config['asciify_paths']: subpath = unidecode(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)) class Album(LibModel): """Provides access to information about albums stored in a library. Reflects the library's "albums" table, including album art. """ _table = 'albums' _flex_table = 'album_attributes' _always_dirty = True _fields = { 'id': types.PRIMARY_ID, 'artpath': PathType(), 'added': DateType(), 'albumartist': types.STRING, 'albumartist_sort': types.STRING, 'albumartist_credit': types.STRING, 'album': types.STRING, 'genre': types.STRING, 'year': types.PaddedInt(4), 'month': types.PaddedInt(2), 'day': types.PaddedInt(2), 'tracktotal': types.PaddedInt(2), 'disctotal': types.PaddedInt(2), 'comp': types.BOOLEAN, 'mb_albumid': types.STRING, 'mb_albumartistid': types.STRING, 'albumtype': types.STRING, 'label': types.STRING, 'mb_releasegroupid': types.STRING, 'asin': types.STRING, 'catalognum': types.STRING, 'script': types.STRING, 'language': types.STRING, 'country': types.STRING, 'albumstatus': types.STRING, 'albumdisambig': types.STRING, 'rg_album_gain': types.NULL_FLOAT, 'rg_album_peak': types.NULL_FLOAT, 'original_year': types.PaddedInt(4), 'original_month': types.PaddedInt(2), 'original_day': types.PaddedInt(2), } _search_fields = ('album', 'albumartist', 'genre') _sorts = { 'albumartist': SmartArtistSort, 'artist': SmartArtistSort, } item_keys = [ 'added', 'albumartist', 'albumartist_sort', 'albumartist_credit', 'album', 'genre', 'year', 'month', 'day', 'tracktotal', 'disctotal', 'comp', 'mb_albumid', 'mb_albumartistid', 'albumtype', 'label', 'mb_releasegroupid', 'asin', 'catalognum', 'script', 'language', 'country', 'albumstatus', 'albumdisambig', 'rg_album_gain', 'rg_album_peak', 'original_year', 'original_month', 'original_day', ] """List of keys that are set on an album's items. """ @classmethod def _getters(cls): # In addition to plugin-provided computed fields, also expose # the album's directory as `path`. getters = plugins.album_field_getters() getters['path'] = Album.item_dir return getters def items(self): """Returns an iterable over the items associated with this album. """ return self._db.items(dbcore.MatchQuery('album_id', self.id)) def remove(self, delete=False, with_items=True): """Removes this album and all its associated items from the library. If delete, then the items' files are also deleted from disk, along with any album art. The directories containing the album are also removed (recursively) if empty. Set with_items to False to avoid removing the album's items. """ super(Album, self).remove() # Delete art file. if delete: artpath = self.artpath if artpath: util.remove(artpath) # Remove (and possibly delete) the constituent items. if with_items: for item in self.items(): item.remove(delete, False) def move_art(self, copy=False, link=False): """Move or copy any existing album art so that it remains in the same directory as the items. """ old_art = self.artpath if not old_art: return new_art = self.art_destination(old_art) if new_art == old_art: return new_art = util.unique_path(new_art) log.debug(u'moving album art {0} to {1}' .format(util.displayable_path(old_art), util.displayable_path(new_art))) if copy: util.copy(old_art, new_art) elif link: util.link(old_art, new_art) else: util.move(old_art, new_art) self.artpath = new_art # Prune old path when moving. if not copy: util.prune_dirs(os.path.dirname(old_art), self._db.directory) def move(self, copy=False, link=False, basedir=None): """Moves (or copies) all items to their destination. Any album art moves along with them. basedir overrides the library base directory for the destination. The album is stored to the database, persisting any modifications to its metadata. """ basedir = basedir or self._db.directory # Ensure new metadata is available to items for destination # computation. self.store() # Move items. items = list(self.items()) for item in items: item.move(copy, link, basedir=basedir, with_album=False) # Move art. self.move_art(copy, link) self.store() def item_dir(self): """Returns the directory containing the album's first item, provided that such an item exists. """ item = self.items().get() if not item: raise ValueError('empty album') return os.path.dirname(item.path) def art_destination(self, image, item_dir=None): """Returns a path to the destination for the album art image for the album. `image` is the path of the image that will be moved there (used for its extension). The path construction uses the existing path of the album's items, so the album must contain at least one item or item_dir must be provided. """ image = bytestring_path(image) item_dir = item_dir or self.item_dir() filename_tmpl = Template(beets.config['art_filename'].get(unicode)) subpath = self.evaluate_template(filename_tmpl, True) if beets.config['asciify_paths']: subpath = unidecode(subpath) subpath = util.sanitize_path(subpath, replacements=self._db.replacements) subpath = bytestring_path(subpath) _, ext = os.path.splitext(image) dest = os.path.join(item_dir, subpath + ext) return bytestring_path(dest) def set_art(self, path, copy=True): """Sets the album's cover art to the image at the given path. The image is copied (or moved) into place, replacing any existing art. """ path = bytestring_path(path) oldart = self.artpath artdest = self.art_destination(path) if oldart and samefile(path, oldart): # Art already set. return elif samefile(path, artdest): # Art already in place. self.artpath = path return # Normal operation. if oldart == artdest: util.remove(oldart) artdest = util.unique_path(artdest) if copy: util.copy(path, artdest) else: util.move(path, artdest) self.artpath = artdest def store(self): """Update the database with the album information. The album's tracks are also updated. """ # Get modified track fields. track_updates = {} for key in self.item_keys: if key in self._dirty: track_updates[key] = self[key] with self._db.transaction(): super(Album, self).store() if track_updates: for item in self.items(): for key, value in track_updates.items(): item[key] = value item.store() def try_sync(self, write=True): """Synchronize the album and its items with the database and their files by updating them with this object's current state. `write` indicates whether to write tags to the item files. """ self.store() for item in self.items(): item.try_sync(bool(write)) # Query construction helpers. def parse_query_parts(parts, model_cls): """Given a beets query string as a list of components, return the `Query` and `Sort` they represent. Like `dbcore.parse_sorted_query`, with beets query prefixes and special path query detection. """ # Get query types and their prefix characters. prefixes = {':': dbcore.query.RegexpQuery} prefixes.update(plugins.queries()) # Special-case path-like queries, which are non-field queries # containing path separators (/). if 'path' in model_cls._fields: path_parts = [] non_path_parts = [] for s in parts: if s.find(os.sep, 0, s.find(':')) != -1: # Separator precedes colon. path_parts.append(s) else: non_path_parts.append(s) else: path_parts = () non_path_parts = parts query, sort = dbcore.parse_sorted_query( model_cls, non_path_parts, prefixes ) # Add path queries to aggregate query. if path_parts: query.subqueries += [PathQuery('path', s) for s in path_parts] return query, sort def parse_query_string(s, model_cls): """Given a beets query string, return the `Query` and `Sort` they represent. The string is split into components using shell-like syntax. """ # A bug in Python < 2.7.3 prevents correct shlex splitting of # Unicode strings. # http://bugs.python.org/issue6988 if isinstance(s, unicode): s = s.encode('utf8') parts = [p.decode('utf8') for p in shlex.split(s)] return parse_query_parts(parts, model_cls) # The Library: interface to the database. class Library(dbcore.Database): """A database of music containing songs and albums. """ _models = (Item, Album) def __init__(self, path='library.blb', directory='~/Music', path_formats=((PF_KEY_DEFAULT, '$artist/$album/$track $title'),), replacements=None): if path != ':memory:': self.path = bytestring_path(normpath(path)) super(Library, self).__init__(path) self.directory = bytestring_path(normpath(directory)) self.path_formats = path_formats self.replacements = replacements self._memotable = {} # Used for template substitution performance. # Adding objects to the database. def add(self, obj): """Add the :class:`Item` or :class:`Album` object to the library database. Return the object's new id. """ obj.add(self) self._memotable = {} return obj.id def add_album(self, items): """Create a new album consisting of a list of items. The items are added to the database if they don't yet have an ID. Return a new :class:`Album` object. The list items must not be empty. """ if not items: raise ValueError(u'need at least one item') # Create the album structure using metadata from the first item. values = dict((key, items[0][key]) for key in Album.item_keys) album = Album(self, **values) # Add the album structure and set the items' album_id fields. # Store or add the items. with self.transaction(): album.add(self) for item in items: item.album_id = album.id if item.id is None: item.add(self) else: item.store() return album # Querying. def _fetch(self, model_cls, query, sort=None): """Parse a query and fetch. If a order specification is present in the query string the `sort` argument is ignored. """ # Parse the query, if necessary. parsed_sort = None if isinstance(query, basestring): query, parsed_sort = parse_query_string(query, model_cls) elif isinstance(query, (list, tuple)): query, parsed_sort = parse_query_parts(query, model_cls) # Any non-null sort specified by the parsed query overrides the # provided sort. if parsed_sort and not isinstance(parsed_sort, dbcore.query.NullSort): sort = parsed_sort return super(Library, self)._fetch( model_cls, query, sort ) def albums(self, query=None, sort=None): """Get :class:`Album` objects matching the query. """ sort = sort or dbcore.sort_from_strings( Album, beets.config['sort_album'].as_str_seq() ) return self._fetch(Album, query, sort) def items(self, query=None, sort=None): """Get :class:`Item` objects matching the query. """ sort = sort or dbcore.sort_from_strings( Item, beets.config['sort_item'].as_str_seq() ) return self._fetch(Item, query, sort) # Convenience accessors. def get_item(self, id): """Fetch an :class:`Item` by its ID. Returns `None` if no match is found. """ return self._get(Item, id) def get_album(self, item_or_id): """Given an album ID or an item associated with an album, return an :class:`Album` object for the album. If no such album exists, returns `None`. """ if isinstance(item_or_id, int): album_id = item_or_id else: album_id = item_or_id.album_id if album_id is None: return None return self._get(Album, album_id) # Default path template resources. def _int_arg(s): """Convert a string argument to an integer for use in a template function. May raise a ValueError. """ return int(s.strip()) class DefaultTemplateFunctions(object): """A container class for the default functions provided to path templates. These functions are contained in an object to provide additional context to the functions -- specifically, the Item being evaluated. """ _prefix = 'tmpl_' def __init__(self, item=None, lib=None): """Paramaterize the functions. If `item` or `lib` is None, then some functions (namely, ``aunique``) will always evaluate to the empty string. """ self.item = item self.lib = lib def functions(self): """Returns a dictionary containing the functions defined in this object. The keys are function names (as exposed in templates) and the values are Python functions. """ out = {} for key in self._func_names: out[key[len(self._prefix):]] = getattr(self, key) return out @staticmethod def tmpl_lower(s): """Convert a string to lower case.""" return s.lower() @staticmethod def tmpl_upper(s): """Covert a string to upper case.""" return s.upper() @staticmethod def tmpl_title(s): """Convert a string to title case.""" return s.title() @staticmethod def tmpl_left(s, chars): """Get the leftmost characters of a string.""" return s[0:_int_arg(chars)] @staticmethod def tmpl_right(s, chars): """Get the rightmost characters of a string.""" return s[-_int_arg(chars):] @staticmethod def tmpl_if(condition, trueval, falseval=u''): """If ``condition`` is nonempty and nonzero, emit ``trueval``; otherwise, emit ``falseval`` (if provided). """ try: int_condition = _int_arg(condition) except ValueError: if condition.lower() == "false": return falseval else: condition = int_condition if condition: return trueval else: return falseval @staticmethod def tmpl_asciify(s): """Translate non-ASCII characters to their ASCII equivalents. """ return unidecode(s) @staticmethod def tmpl_time(s, format): """Format a time value using `strftime`. """ cur_fmt = beets.config['time_format'].get(unicode) return time.strftime(format, time.strptime(s, cur_fmt)) def tmpl_aunique(self, keys=None, disam=None): """Generate a string that is guaranteed to be unique among all albums in the library who share the same set of keys. A fields from "disam" is used in the string if one is sufficient to disambiguate the albums. Otherwise, a fallback opaque value is used. Both "keys" and "disam" should be given as whitespace-separated lists of field names. """ # Fast paths: no album, no item or library, or memoized value. if not self.item or not self.lib: return u'' if self.item.album_id is None: return u'' memokey = ('aunique', keys, disam, self.item.album_id) memoval = self.lib._memotable.get(memokey) if memoval is not None: return memoval keys = keys or 'albumartist album' disam = disam or 'albumtype year label catalognum albumdisambig' keys = keys.split() disam = disam.split() album = self.lib.get_album(self.item) if not album: # Do nothing for singletons. self.lib._memotable[memokey] = u'' return u'' # Find matching albums to disambiguate with. subqueries = [] for key in keys: value = getattr(album, key) subqueries.append(dbcore.MatchQuery(key, value)) albums = self.lib.albums(dbcore.AndQuery(subqueries)) # If there's only one album to matching these details, then do # nothing. if len(albums) == 1: self.lib._memotable[memokey] = u'' return u'' # Find the first disambiguator that distinguishes the albums. for disambiguator in disam: # Get the value for each album for the current field. disam_values = set([getattr(a, disambiguator) for a in albums]) # If the set of unique values is equal to the number of # albums in the disambiguation set, we're done -- this is # sufficient disambiguation. if len(disam_values) == len(albums): break else: # No disambiguator distinguished all fields. res = u' {0}'.format(album.id) self.lib._memotable[memokey] = res return res # Flatten disambiguation value into a string. disam_value = album.formatted(True).get(disambiguator) res = u' [{0}]'.format(disam_value) self.lib._memotable[memokey] = res return res # Get the name of tmpl_* functions in the above class. DefaultTemplateFunctions._func_names = \ [s for s in dir(DefaultTemplateFunctions) if s.startswith(DefaultTemplateFunctions._prefix)]