/eAlvaBrainz

MusicBrainz Kotlin Retrofit libraries for Android

Primary LanguageKotlinGNU Lesser General Public License v3.0LGPL-3.0

eAlvaBrainz

Kotlin MusicBrainz/CoverArtArchive Retrofit libraries for Android

Currently in an beta state, mostly stable API.

A few small examples to start:

// Get the artist represented by the ArtistMbid and include all Misc info
brainzSvc.lookupArtist(mbid) { include(*Artist.Include.values()) }
  .onSuccess { artist -> handleArtist(artist, mbid) }
  .onFailure { brainzMsg -> displayError(brainzMsg.toString()) }

// Get the artist Nirvana's info and include aliases
val nirvana = ArtistMbid("5b11f4ce-a62d-471e-81fc-a69a8278c7da") // maybe obtained via find
lookupArtist(nirvana) { misc(Artist.Misc.Aliases) }
  .onSuccess {}
  .onFailure {}

// Find releases for the artist name and release title
val jethroTull = ArtistName("Jethro Tull")
val aqualung = AlbumTitle("Aqualung")
findRelease(Limit(4)) { artist(jethroTull) and release(aqualung) }

// Browse events for the given artist and limit the results to 15
val metallicaMbid = ArtistMbid("65f4f0c5-ef9e-490c-aee3-909e7ae6b2ab") // maybe obtained via find
val limit = Limit(15)
browseEvents(EventBrowse.BrowseOn.Artist(metallicaMbid), limit)

// Browse Releases by an artist and limit the results to official, album releases (no bootlegs or
// promos and no singles, compilations, etc)
val theBeatles = ArtistMbid("b10bbbfc-cf9e-42e0-be17-e2c3e1d2600d") // maybe obtained via find
browseReleases(ReleaseBrowse.BrowseOn.Artist(theBeatles)) {
  types(ReleaseGroup.Type.Album)
  status(Release.Status.Official)
}.onSuccess { browseReleaseList ->
  // handle browse
}.onFailure {
  // handle error path
}

// Find all ReleaseGroups by The Beatles whose first release date was between 1967 and 1969
// inclusively, where the release was an album, but not a compilation or interview, and was an
// official release (not bootleg or promotion)
findReleaseGroup {
  artist(ArtistName("The Beatles")) and
    firstReleaseDate { Year("1967") inclusive Year("1969") } and
    primaryType(ReleaseGroup.Type.Album) and
    !secondaryType { ReleaseGroup.Type.Compilation or ReleaseGroup.Type.Interview } and
    status(Release.Status.Official)
}.onSuccess { releaseGroupList ->
  // handle group list
}.onFailure {
  // handle error path
}

Design philosophy

The design philosophy is to provide a type safe interface to the MusicBrainz server, dispatching work on a background thread using coroutine dispatchers, providing many of the requirements for well-behaved clients (rate limiting, user agent, etc), and converting responses to easily handled results. Given the complexity of a typical call path regarding the litany of possible errors with calling remote servers, parsing Json, etc., special care is given to returned values. A Result monad style was chosen to make sunny day and error path code straightforward and to avoid throwing exceptions across coroutine boundaries. This is not a functional library, but the style of Railway Oriented Programming fits very nicely with handling the various result possibilities.

For lookup and browse functions, a call specific lambda receiver is provided to guide the client with regard to what options are available without needing to know the underlying details. Find functions provide call specific lambda receivers which are the base of a relatively simple, but extensive, DSL for building a lucene query. This style provides type safety and attempts to constrain choices to a valid set of options. Using Android Studio's basic or smart completion inside one of the lambda receivers will display the possibilities for building the lookup, browse, or find in scope. Using the bare MusicBrainz retrofit client would require extensive string building which can be error-prone and lacks type support. There are quite a few value (inline) classes to provide type support without generating extra garbage.

The current version covers the majority of the MusicBrainz API. There is an escape hatch of sorts in that the client can indirectly call the Retrofit interfaces via the MusicBrainzService interface and have correct dispatching and error handling behavior. This is the same method used internally. There are currently no write capabilities (can't set ratings or create collections),

This is a Kotlin library and not much thought was given to possible Java clients. Input and pull requests are welcome.

This repository consists of 3 parts:

  • ealvabrainz - A library which consists of 2 Retrofit interfaces, MusicBrainz and CoverArt, and supporting data classes to generate a MusicBrainz REST client.
  • ealvabrainz-service - Higher-level abstractions that wrap the Retrofit clients with a richer interface, configures necessary Retrofit/OkHttp clients, provides support for cache control/throttling/user agent/authentication/etc, and dispatches calls on background threads using main-safe suspend functions.
  • app - Demonstrates search and lookup

Check here and here for the latest published releases. Pull requests welcome.

For the latest SNAPSHOT check here and here

Libraries

ealvabrainz

Provides MusicBrainz and CoverArt interfaces which Retrofit.Builder can use to generate a REST client for the MusicBrainz and CoverArtArchive servers. This module contains the bulk of the code to build the requests and decode the responses into objects.

The data classes created as response to MusicBrainz requests, plus added annotations/JsonAdapters, are provided to support the Null Object Pattern. Null is avoided almost entirely (one specific case remains). Null Strings become empty Strings, null Lists become empty lists, and a null reference is replaced by a specific instance of the class - known as a Null Object.

Missing objects default to the their Null Object counterparts. Checking for null is not required, but it is possible to check for the Null Object via instance comparison. The Area class provides a short example:

@JsonClass(generateAdapter = true)
data class Area(
  var id: String = "",
  var name: String = "",
  @field:Json(name = "sort-name") var sortName: String = "",
  var disambiguation: String = "",
  @field:Json(name = "iso-3166-1-codes") var iso31661Codes: List<String> = emptyList()
) {
  companion object {
    val NullArea = Area()
    val fallbackMapping: Pair<String, Any> = Area::class.java.name to NullArea
  }
}

inline val Area.isNullObject
  get() = this === NullArea

@JvmInline
value class AreaMbid(override val value: String) : Mbid

inline val Area.mbid
  get() = AreaMbid(id)

A companion object is defined which contains the Null Object and a mapping between the class name and the fallback NullArea object. An extension function defines a Boolean isNullObject val. Also note the AreaMbid value class. Since a MusicBrainz identifier (MBID) is just a string, these inline classes are meant to differentiate types of MBID to facilitate compile time type checking.

The MusicBrainz and CoverArt interfaces are defined with suspend functions, so are only callable from a coroutine. It is expected that the service module will be used to handle constructing and calling the generated Retrofit classes.

interface CoverArt {
  /**
   * An example for looking up release artwork by mbid would be:
   * https://coverartarchive.org/release/91975b77-c9f2-46d1-a03b-f1fffbda1d1c
   *
   * @param entity either "release" or "release-group"
   * @param mbid the release or release-group mbid. In the example this would be:
   * 91975b77-c9f2-46d1-a03b-f1fffbda1d1c
   *
   * @return the CoverArtRelease associated with the mbid, wrapped in a Response
   */
  @GET("{entity}/{mbid}")
  suspend fun getArtwork(
    @Path("entity") entity: String,
    @Path("mbid") mbid: String
  ): Response<CoverArtRelease>
}

Note that getArtwork() is suspending and may only be called from a coroutine. The higher level abstractions in ealvabrainz-service also define suspend functions along with providing flows of images.

ealvabrainz-service

Provides CoverArtService and MusicBrainzService, which wrap the CoverArt and MusicBrainz Retrofit clients providing a higher-level function.

CoverArtService

The CoverArtService provides functions to retrieve artwork based on an MusicBrainz ID (MBID). It also has extension functions to convert flows of MBIDs to cover art images. The CoverArtService implementation builds and contains the necessary OkHttp client and Retrofit implementation of the CoverArt class.

interface CoverArtService {

  suspend fun getReleaseArt(mbid: ReleaseMbid): CoverArtResult

  suspend fun getReleaseGroupArt(mbid: ReleaseGroupMbid): CoverArtResult

  companion object {
    /**
     * Instantiate a CoverArtService implementation which handles MusicBrainz server requirements
     * such as a required User-Agent format, throttling requests, and factories/adapters to support
     * converting Json to objects.
     */
    operator fun invoke(
      ctx: Context,
      appName: String,
      appVersion: String,
      contactEmail: String,
      dispatcher: CoroutineDispatcher = Dispatchers.IO
    ): CoverArtService
  }
}

fun Flow<ReleaseMbid>.transform(service: CoverArtService): Flow<CoverArtImageInfo>

fun Flow<ReleaseGropMbid>.transform(service: CoverArtService): Flow<CoverArtImageInfo>

MusicBrainzService

This service is similar to CoverArtService in that it provides a higher-level abstraction and builds the appropriate underlying Retrofit/OkHttp classes. MusicBrainzService has functions that take type specific parameters and format these into parameters for the underlying calls to the MusicBrainz Retrofit client. There is also a generic brainz() function accepting a lambda which allows direct calls to the MusicBrainz Retrofit client while providing correct coroutine dispatch and simplifying error handling.

The MusicBrainz server API is extensively supported. Below are 3 examples of a lookup, a browse, a find (query), and brainz function which underlies all calls to the server.

typealias BrainzCall<T> = suspend MusicBrainz.() -> Response<T>
typealias BrainzResult<T> = Result<T, BrainzMessage>

interface MusicBrainzService {
  /**
   * Find the Artist with the mbid ID. Provide an optional lambda with an ArtistLookup
   * receiver to specify if any other information should be included.
   */
  suspend fun lookupArtist(
    mbid: ArtistMbid,
    lookup: ArtistLookup.() -> Unit = {}
  ): BrainzResult<Artist>

  /**
   * Browse the recordings of the entity specified by [browseOn] (eg. Artist, Collection, Release,
   * or Work). Use [limit] and [offset] to page through the results. Provide an optional lambda with
   * a RecordingBrowse receiver to specify if other information should be included, such as
   * Artist Credits or some other relationships. BrowseRecordingList contains the total
   * number of Recordings, the offset returned, and a list of Recording objects.
   */
  suspend fun browseRecordings(
    browseOn: RecordingBrowse.BrowseOn,
    limit: Limit? = null,
    offset: Offset? = null,
    browse: RecordingBrowse.() -> Unit = {}
  ): BrainzResult<BrowseRecordingList>


  suspend fun findRelease(
    limit: Limit? = null,
    offset: Offset? = null,
    search: ReleaseSearch.() -> Unit
  ): BrainzResult<ReleaseList>

  // Calls the [block]
  suspend fun <T : Any> brainz(
    block: suspend MusicBrainz.() -> Response<T>
  ): Result<T, BrainzMessage>
}

The MusicBrainzService is constructed with a CoverArtService instance. This allows MusicBrainzService to provide functionality such as:

suspend fun getReleaseGroupArtwork(mbid: ReleaseGroupMbid): Uri

A small find release group example showing the query DSL:

val result = findReleaseGroup {
  artist(LED_ZEPPELIN) and releaseGroup(HOUSES_OF_THE_HOLY)
}

The ReleaseGroupSearch supports all 17 possible query fields and the term DSL support: required, prohibited, regular expressions, ranges, fuzzy search, proximity, and boosting. See the MusicBrainz docs for details.

val revolver = Field("album", Term("Revolver"))
val rubberSoul = Field("album", Term("Rubber Soul"))
val beatles = Field("artist", +Term("The Beatles"))  // + operator indicated required term
val exp = beatles and (revolver or rubberSoul)
val exp2 = beatles and revolver or rubberSoul

Most MusicBrainzService functions return a Result<T, BrainzMessage>. Result<V, E> is a monad for modelling success (Ok) or failure (Err) operations. When Result is of type Ok, the value of type T is the result of the call to MusicBrainz. If an Err is returned, the error is a subtype of BrainzMessage which indicates the type of error. Result is from the kotlin-result library and provides a nice implementation for Railway Oriented Programming.

Building and Executing Integration Tests and App

Several items must be defined in the local.properties file in the root folder of this project to successfully build and run the app and integration tests. If the file doesn't exist, create it and add the following (substituting your valid information):

BRAINZ_APP_NAME="YourAppName"
BRAINZ_APP_VERSION="0.0.1"
BRAINZ_CONTACT_EMAIL="your@email.com"

The fields will be combined into a user agent passed to the servers.

One or more integration tests require authentication with the MusicBrainz server. The required username and password must be defined in the local.properties file in the root folder of this project. This file is not committed to version control as it's contents are private (obviously). It would typically look something like:

BRAINZ_USERNAME="my_username"
BRAINZ_PASSWORD="my_password"

where BRAINZ_USERNAME and BRAINZ_PASSWORD are set to your MusicBrainz.org credentials. If you don't have an account, go to https://musicbrainz.org/register and create one. Not mandatory, however not setting these values correctly will result in some tests failing due to authentication errors.

Applications which call functions requiring authentication must implement the CredentialsProvider interface and use it when constructing a MusicBrainzService implementation.

app

The application demonstrates searching, browsing, and display of various MusicBrainz entities. Only a few APIs are called - look at the integration tests for more examples.

Given Kotlin coroutines, flows, and lifecycle scope, it is easy to define flows that properly set and remove listeners based on component lifecycle, to conflate events, and to possibly emit richer objects than provided by underlying Views. Consumers only need to collect from a flow and the underlying listener is properly registered/unregistered based on lifecycle.

The app uses no layout XML and instead uses a Kotlin DSL from the Splitties library. The UI is defined in a way so as to segregate UI functionality and, as a result, classes such as Activities, Fragments, ViewHolders, etc. are very small. Using this DSL keeps the UI definition and implementation together in a single file/class, is inherently type safe/null safe, eliminates the need for findViewById or view binding, eliminates reflection used during inflation, and greatly reduces development friction (1 language/1 class vs 2 languages/multiple files).

It's expected the app will be ported to Compose some time in the future.

Of Note

This library contains classes others may find useful in a different context. While not necessarily canonical, these may be used as examples or a starting point:

  • Moshi annotated data classes for codegen and json adapter generation
  • Moshi combination of data class style, annotations, and adapters to support the Null Object Pattern
  • Moshi annotation and adapter to support a fallback strategy for items missing from json (part of Null Object pattern)
  • Moshi adapter that peeks names to determine which subtype to instantiate in relationships
  • Retrofit interfaces defined with suspend
  • Retrofit, OkHttp, and Moshi builders to fully support the Rest client
  • Sealed class Result monad return from service calls avoiding exceptions across coroutine boundaries and providing transform/mapping/chaining style of result handling.
  • Coroutine test strategy with a JUnit rule and a test dispatcher (test concurrent code)
  • App uses Kotlin Views DSL for UI (Splitties) - no XML layout files
  • App defines some event callback flows to automate listener register/unregister based on lifecycle resulting in less client boilerplate

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