import os from typing import List, Tuple, Dict from mutagen.easyid3 import EasyID3 from .id3_mapping import Mapping as ID3_MAPPING from ...utils.shared import ( MUSIC_DIR, DATABASE_LOGGER as logger ) from .database_object import ( DatabaseObject, Reference ) """ All Objects dependent """ class SongAttribute: def __init__(self, song=None): # the reference to the song the lyrics belong to self.song = song def add_song(self, song): self.song = song def get_ref_song_id(self): if self.song is None: return None return self.song.reference.id def set_ref_song_id(self, song_id): self.song_ref = Reference(song_id) song_ref_id = property(fget=get_ref_song_id, fset=set_ref_song_id) class Metadata: """ Shall only be read or edited via the Song object. call it like a dict to read/write values """ def __init__(self, data: dict = {}) -> None: # this is pretty self explanatory # the key is a 4 letter key from the id3 standarts like TITL self.id3_attributes: Dict[str, any] = {} def get_all_metadata(self): return list(self.id3_attributes.items()) def __setitem__(self, item, value): self.id3_attributes[item] = value def __getitem__(self, item): if item not in self.data: return None return self.data[item] def __str__(self) -> str: rows = [] for key, value in self.id3_attributes.items(): rows.append(f"{key} - {str(value)}") return "\n".join(rows) class Source(DatabaseObject, SongAttribute): """ create somehow like that ```python # url won't be a valid one due to it being just an example Source(src="youtube", url="https://youtu.be/dfnsdajlhkjhsd") ``` """ def __init__(self, id_: str = None, src: str = None, url: str = None) -> None: DatabaseObject.__init__(self, id_=id_) SongAttribute.__init__(self) self.src = src self.url = url def __str__(self): return f"{self.src}: {self.url}" class Target(DatabaseObject, SongAttribute): """ create somehow like that ```python # I know path is pointless, and I will change that (don't worry about backwards compatibility there) Target(file="~/Music/genre/artist/album/song.mp3", path="~/Music/genre/artist/album") ``` """ def __init__(self, id_: str = None, file: str = None, path: str = None) -> None: DatabaseObject.__init__(self, id_=id_) SongAttribute.__init__(self) self._file = file self._path = path def set_file(self, _file: str): self._file = _file def get_file(self) -> str | None: if self._file is None: return None return os.path.join(MUSIC_DIR, self._file) def set_path(self, _path: str): self._path = _path def get_path(self) -> str | None: if self._path is None: return None return os.path.join(MUSIC_DIR, self._path) def get_exists_on_disc(self) -> bool: """ returns True when file can be found on disc returns False when file can't be found on disc or no filepath is set """ if not self.is_set(): return False return os.path.exists(self.file) def is_set(self) -> bool: return not (self._file is None or self._path is None) file = property(fget=get_file, fset=set_file) path = property(fget=get_path, fset=set_path) exists_on_disc = property(fget=get_exists_on_disc) class Lyrics(DatabaseObject, SongAttribute): def __init__(self, text: str, language: str, id_: str = None) -> None: DatabaseObject.__init__(self, id_=id_) SongAttribute.__init__(self) self.text = text self.language = language class Song(DatabaseObject): def __init__( self, id_: str = None, mb_id: str = None, title: str = None, album_name: str = None, artist_names: List[str] = [], isrc: str = None, length: int = None, tracksort: int = None, sources: List[Source] = None, target: Target = None, lyrics: List[Lyrics] = None, album=None, main_artist_list: list = [], feature_artist_list: list = [] ) -> None: """ id: is not NECESARRILY the musicbrainz id, but is DISTINCT for every song mb_id: is the musicbrainz_id target: Each Song can have exactly one target which can be either full or empty lyrics: There can be multiple lyrics. Each Lyrics object can me added to multiple lyrics """ super().__init__(id_=id_) # attributes # *private* attributes self._title = None self._isrc = None self._length = None self.metadata = Metadata() self.title = title self.isrc = isrc self.length = length self.mb_id: str | None = mb_id self.album_name: str | None = album_name self.artist_names = artist_names self.tracksort: int | None = tracksort if sources is None: sources = [] self.sources: List[Source] = sources for source in self.sources: source.add_song(self) if target is None: target = Target() self.target: Target = target self.target.add_song(self) if lyrics is None: lyrics = [] self.lyrics: List[Lyrics] = lyrics for lyrics_ in self.lyrics: lyrics_.add_song(self) self.album: Album = album self.main_artist_list = main_artist_list self.feature_artist_list = feature_artist_list def __eq__(self, other): if type(other) != type(self): return False return self.id == other.id def get_artist_credits(self) -> str: feature_str = "" if len(self.feature_artist_list) > 0: feature_str = " feat. " + ", ".join([artist.name for artist in self.feature_artist_list]) return ", ".join([artist.name for artist in self.main_artist_list]) + feature_str def __str__(self) -> str: artist_credit_str = "" artist_credits = self.get_artist_credits() if artist_credits != "": artist_credit_str = f" by {artist_credits}" return f"\"{self.title}\"{artist_credit_str}" def __repr__(self) -> str: return self.__str__() def set_simple_metadata(self, name: str, value): """ this method is for setting values of attributes, that directly map to an ID3 value. A good example is the title or the isrc. for more complex data I will use seperate functions the naming convention for the name I follow is, to name the attribute the same as the defined property, but with one underscore infront: title -> _title """ if value is None: return attribute_map = { "_title": ID3_MAPPING.TITLE, "_isrc": ID3_MAPPING.ISRC, "_length": ID3_MAPPING.LENGTH } # if this crashes/raises an error the function is # called wrongly. I DO NOT CATCH ERRORS DUE TO PERFORMANCE AND DEBUGGING self.__setattr__(name, value) # convert value to id3 value if necessary id3_value = value if type(value) == int: id3_value = str(value) self.metadata[attribute_map[name].value] = id3_value def get_metadata(self): return self.metadata.get_all_metadata() def has_isrc(self) -> bool: return self._isrc is not None def get_artist_names(self) -> List[str]: return self.artist_names def get_length(self): if self._length is None: return None return int(self._length) def get_album_id(self): if self.album is None: return None return self.album.id title: str = property(fget=lambda self: self._title, fset=lambda self, value: self.set_simple_metadata("_title", value)) isrc: str = property(fget=lambda self: self._isrc, fset=lambda self, value: self.set_simple_metadata("_isrc", value)) length: int = property(fget=get_length, fset=lambda self, value: self.set_simple_metadata("_length", value)) album_id: str = property(fget=get_album_id) """ All objects dependent on Album """ class Album(DatabaseObject): """ -------DB-FIELDS------- title TEXT, copyright TEXT, album_status TEXT, language TEXT, year TEXT, date TEXT, country TEXT, barcode TEXT, song_id BIGINT, is_split BOOLEAN NOT NULL DEFAULT 0 """ def __init__( self, id_: str = None, title: str = None, copyright_: str = None, album_status: str = None, language: str = None, year: str = None, date: str = None, country: str = None, barcode: str = None, is_split: bool = False, albumsort: int = None, dynamic: bool = False ) -> None: DatabaseObject.__init__(self, id_=id_, dynamic=dynamic) self.title: str = title self.copyright: str = copyright_ self.album_status: str = album_status self.language: str = language self.year: str = year self.date: str = date self.country: str = country self.barcode: str = barcode self.is_split: bool = is_split self.albumsort: int | None = albumsort self.tracklist: List[Song] = [] self.artists: List[Artist] = [] def __str__(self) -> str: return f"Album: \"{self.title}\"" def __repr__(self): return self.__str__() def __len__(self) -> int: return len(self.tracklist) def set_tracklist(self, tracklist: List[Song]): self.tracklist = tracklist for i, track in enumerate(self.tracklist): track.tracksort = i + 1 def add_song(self, song: Song): for existing_song in self.tracklist: if existing_song == song: return song.tracksort = len(self.tracklist) self.tracklist.append(song) """ All objects dependent on Artist """ class Artist(DatabaseObject): """ main_songs feature_song albums """ def __init__( self, id_: str = None, name: str = None, main_songs: List[Song] = None, feature_songs: List[Song] = None, main_albums: List[Album] = None ): DatabaseObject.__init__(self, id_=id_) if main_albums is None: main_albums = [] if feature_songs is None: feature_songs = [] if main_songs is None: main_songs = [] self.name: str | None = name self.main_songs = main_songs self.feature_songs = feature_songs self.main_albums = main_albums def __str__(self): return self.name or "" def __repr__(self): return self.__str__() def get_features(self) -> Album: feature_release = Album( title="features", copyright_=self.name, album_status="dynamic", is_split=True, albumsort=666, dynamic=True ) for feature in self.feature_songs: feature_release.add_song(feature) return feature_release def get_songs(self) -> Album: song_release = Album( title="song collection", copyright_=self.name, album_status="dynamic", is_split=False, albumsort=666, dynamic=True ) for song in self.main_songs: song_release.add_song(song) for song in self.feature_songs: song_release.add_song(song) return song_release def get_discography(self) -> List[Album]: flat_copy_discography = self.main_albums.copy() flat_copy_discography.append(self.get_features()) return flat_copy_discography discography: List[Album] = property(fget=get_discography) features: Album = property(fget=get_features) songs: Album = property(fget=get_songs)