use eventual::{Async, Future}; use linear_map::LinearMap; use protobuf; use protocol; use mercury::{MercuryRequest, MercuryMethod}; use util::{SpotifyId, FileId, StrChunksExt}; use session::Session; pub use protocol::metadata::AudioFile_Format as FileFormat; fn countrylist_contains(list: &str, country: &str) -> bool { list.chunks(2).any(|cc| cc == country) } fn parse_restrictions<'s, I>(restrictions: I, country: &str, catalogue: &str) -> bool where I: IntoIterator { restrictions.into_iter() .filter(|r| r.get_catalogue_str().contains(&catalogue.to_owned())) .all(|r| { !countrylist_contains(r.get_countries_forbidden(), country) && (!r.has_countries_allowed() || countrylist_contains(r.get_countries_allowed(), country)) }) } pub trait MetadataTrait : Send + 'static { type Message: protobuf::MessageStatic; fn base_url() -> &'static str; fn parse(msg: &Self::Message, session: &Session) -> Self; } #[derive(Debug, Clone)] pub struct Track { pub id: SpotifyId, pub name: String, pub album: SpotifyId, pub artists: Vec, pub files: LinearMap, pub alternatives: Vec, pub available: bool, } #[derive(Debug, Clone)] pub struct Album { pub id: SpotifyId, pub name: String, pub artists: Vec, pub tracks: Vec, pub covers: Vec, } #[derive(Debug, Clone)] pub struct Artist { pub id: SpotifyId, pub name: String, pub top_tracks: Vec, } pub type MetadataRef = Future; pub type TrackRef = MetadataRef; pub type AlbumRef = MetadataRef; pub type ArtistRef = MetadataRef; impl MetadataTrait for Track { type Message = protocol::metadata::Track; fn base_url() -> &'static str { "hm://metadata/3/track" } fn parse(msg: &Self::Message, session: &Session) -> Self { let country = session.country(); let artists = msg.get_artist() .iter() .filter(|artist| artist.has_gid()) .map(|artist| SpotifyId::from_raw(artist.get_gid())) .collect::>(); let files = msg.get_file() .iter() .filter(|file| file.has_file_id()) .map(|file| { let mut dst = [0u8; 20]; dst.clone_from_slice(&file.get_file_id()); (file.get_format(), FileId(dst)) }) .collect(); Track { id: SpotifyId::from_raw(msg.get_gid()), name: msg.get_name().to_owned(), album: SpotifyId::from_raw(msg.get_album().get_gid()), artists: artists, files: files, alternatives: msg.get_alternative() .iter() .map(|alt| SpotifyId::from_raw(alt.get_gid())) .collect(), available: parse_restrictions(msg.get_restriction(), &country, "premium"), } } } impl MetadataTrait for Album { type Message = protocol::metadata::Album; fn base_url() -> &'static str { "hm://metadata/3/album" } fn parse(msg: &Self::Message, _: &Session) -> Self { let artists = msg.get_artist() .iter() .filter(|artist| artist.has_gid()) .map(|artist| SpotifyId::from_raw(artist.get_gid())) .collect::>(); let tracks = msg.get_disc() .iter() .flat_map(|disc| disc.get_track()) .filter(|track| track.has_gid()) .map(|track| SpotifyId::from_raw(track.get_gid())) .collect::>(); let covers = msg.get_cover_group() .get_image() .iter() .filter(|image| image.has_file_id()) .map(|image| { let mut dst = [0u8; 20]; dst.clone_from_slice(&image.get_file_id()); FileId(dst) }) .collect::>(); Album { id: SpotifyId::from_raw(msg.get_gid()), name: msg.get_name().to_owned(), artists: artists, tracks: tracks, covers: covers, } } } impl MetadataTrait for Artist { type Message = protocol::metadata::Artist; fn base_url() -> &'static str { "hm://metadata/3/artist" } fn parse(msg: &Self::Message, session: &Session) -> Self { let country = session.country(); let top_tracks = msg.get_top_track() .iter() .filter(|tt| !tt.has_country() || countrylist_contains(tt.get_country(), &country)) .next() .unwrap() .get_track() .iter() .filter(|track| track.has_gid()) .map(|track| SpotifyId::from_raw(track.get_gid())) .collect::>(); Artist { id: SpotifyId::from_raw(msg.get_gid()), name: msg.get_name().to_owned(), top_tracks: top_tracks } } } pub struct MetadataManager; impl MetadataManager { pub fn new() -> MetadataManager { MetadataManager } pub fn get(&mut self, session: &Session, id: SpotifyId) -> MetadataRef { let session = session.clone(); session.mercury(MercuryRequest { method: MercuryMethod::GET, uri: format!("{}/{}", T::base_url(), id.to_base16()), content_type: None, payload: Vec::new(), }) .and_then(move |response| { let data = response.payload.first().expect("Empty payload"); let msg: T::Message = protobuf::parse_from_bytes(data).unwrap(); Ok(T::parse(&msg, &session)) }) } }