#+title: consulting spotify #+date: <2021-01-08 04:02> #+filetags: emacs #+PROPERTY: header-args :tangle yes :comments no :results silent (/Note/: you can tangle this file (e.g., with =C-c C-v t= inside Emacs) into three elisp libraries, =espotify.el=, =espotify-consult.el, =espotify-embark=. and =espotify-counsel=) We have two kinds of interaction with Spotify: via its HTTP API to perform operations such as search, and via our local DBUS to talk to client players running in our computer, such as the official client, [[https://github.com/Spotifyd/spotifyd][spotifyd]] or [[https://mopidy.com/ext/spotify/][mopidy-spotify]]. Our goal is to obtain via the former a track or album identifier that we can send then to the latter to play, with emacs completion mechanisms (consult and friends in this case) providing the glue between both worlds. Let's start with an umbrella customization group: #+begin_src emacs-lisp ;;; espotify.el - spotify search and play - -*- lexical-binding: t; -*- (defgroup espotify nil "Access to Spotify API and clients" :group 'multimedia) #+end_src * Access to Spotify's API: authentication I am stealing most of the ideas on how to establish authenticated connections to the Spotify API and performing queries from [[https://github.com/Lautaro-Garcia/counsel-spotify][counsel-spotify]], with many simplifications. We start defining a couple of end-points: #+begin_src emacs-lisp (defvar espotify-spotify-api-url "https://api.spotify.com/v1") (defvar espotify-spotify-api-authentication-url "https://accounts.spotify.com/api/token") #+end_src And we're going to need as well a client id and secret for our application, which i am again defining as variables since i expect them to be set in some secure manner instead of via customize: #+begin_src emacs-lisp (defvar espotify-client-id nil "Spotify application client ID.") (defvar espotify-client-secret nil "Spotify application client secret.") #+end_src To get valid values for them, one just needs to [[https://developer.spotify.com/my-applications][register a Spotify application]]. From them we can derive a base64-encoded credentials value: #+begin_src emacs-lisp (defun espotify--basic-auth-credentials () (let ((credential (concat espotify-client-id ":" espotify-client-secret))) (concat "Basic " (base64-encode-string credential t)))) #+end_src The return value of the function above is to be used as the "Authorization" header of our requests to the authorization end-point, which is going to answer with an authorization token that we can then use to further requests. Let's define a function to wrap that operation: #+begin_src emacs-lisp (defun espotify--with-auth-token (callback) (let ((url-request-method "POST") (url-request-data "&grant_type=client_credentials") (url-request-extra-headers `(("Content-Type" . "application/x-www-form-urlencoded") ("Authorization" . ,(espotify--basic-auth-credentials))))) (url-retrieve espotify-spotify-api-authentication-url (lambda (_status) (goto-char url-http-end-of-headers) (funcall callback (alist-get 'access_token (json-read))))))) #+end_src For instance: #+begin_src emacs-lisp :load no :tangle no (espotify--with-auth-token (lambda (token) (message "Your token is: %s" token))) #+end_src obtains an auth token and prints it as a message. Note that ~body~ is evaluated asynchronously by ~url-retrieve~, so invocations to ~espotify-with-auth-token~ evaluate to the request's buffer and are usually discarded. * Search queries using the Spotify API We are interested in performing a search for some ~term~, of items of a given ~types~ (~:track~, ~:album~, ~:artist~, etc.), possibly with an additional ~filter~. That's specified in a GET request's URL as constructed by this function: #+begin_src emacs-lisp (defun espotify--make-search-url (term types &optional filter) (when (null types) (error "Must supply a non-empty list of types to search for")) (let ((term (url-encode-url term))) (format "%s/search?q=%s&type=%s&limit=50" espotify-spotify-api-url (if filter (format "%s:%s" filter term) term) (mapconcat #'symbol-name types ",")))) #+end_src For instance: #+begin_src emacs-lisp :load no :tangle no :results replace (espotify--make-search-url "dream blue turtles" '(album)) #+end_src #+RESULTS: : https://api.spotify.com/v1/search?q=dream%20blue%20turtles&type=album&limit=50 If we have an [[*Access to Spotify's API: authentication][authorisation token]] and a search URL in our hands, we can use them as in the following helper function, which will calls the given callback with the results of the query: #+begin_src emacs-lisp (defun espotify--with-query-results (token url callback) (let ((url-request-extra-headers `(("Authorization" . ,(concat "Bearer " token))))) (url-retrieve url (lambda (_status) (goto-char url-http-end-of-headers) (funcall callback (let ((json-array-type 'list)) (thread-first (buffer-substring (point) (point-max)) (decode-coding-string 'utf-8) (json-read-from-string)))))))) #+end_src So we can combine this macro with ~espotify--with-auth-token~ in a single search function that takes a callback that will be applied to a given query, specified as a triple of term, types and filter: #+begin_src emacs-lisp (defun espotify-get (callback url) (espotify--with-auth-token (lambda (token) (espotify--with-query-results token url callback)))) (defun espotify-search (callback term types &optional filter) (espotify-get callback (espotify--make-search-url term types filter))) #+end_src For instance: #+begin_src emacs-lisp :load no :tangle no (defvar espotify-query-result nil) (espotify-search (lambda (res) (setq espotify-query-result res)) "dream blue turtles" '(album artist)) (sit-for 0) #+end_src #+begin_src emacs-lisp :load no :tangle no :results replace (mapcar 'car espotify-query-result) #+end_src #+RESULTS: | albums | artists | So Spotify is returning a results entry per type, which in turn, contains an ~items~ with the list of actual results. So let's provide an interface for a callback that takes as many lists of items as types it asks for: #+begin_src emacs-lisp (defun espotify--type-items (res type) (alist-get 'items (alist-get (intern (format "%ss" type)) res))) (defun espotify-search* (callback term types &optional filter) (let* ((types (if (listp types) types (list types))) (cb (lambda (res) (let ((its (mapcar (lambda (tp) (espotify--type-items res tp)) types))) (apply callback its))))) (espotify-search cb term types filter))) #+end_src For example: #+begin_src emacs-lisp :load no :tangle no (defvar espotify-query-result nil) (espotify-search* (lambda (al ar) (message "Found %s albums, %s artists" (length al) (length ar)) (setq espotify-query-result (cons al ar))) "blue turtles" '(album artist)) (sit-for 0) (list (mapcar 'car (car (car espotify-query-result))) (mapcar 'car (car (cdr espotify-query-result)))) #+end_src #+RESULTS: | album_type | artists | available_markets | external_urls | href | id | images | name | release_date | release_date_precision | total_tracks | type | uri | | external_urls | followers | genres | href | id | images | name | popularity | type | uri | | | | Another strategy would be to search for several types and pass to our callback the concatenation of all items: #+begin_src emacs-lisp (defun espotify-search-all (callback term &optional types filter) (let ((types (or types '(album track artist playlist)))) (espotify-search* (lambda (&rest items) (funcall callback (apply 'append items))) term types filter))) #+end_src * Listing user resources in the Spotify API It is also possible to obtain lists of items of a given type for the current user, with a standard URL format: #+begin_src emacs-lisp (defun espotify--make-user-url (type) (format "%s/me/%ss" espotify-spotify-api-url (symbol-name type))) #+end_src and we can then use ~espotify-get~ to offer access to our playlists, albums, etc.: #+begin_src emacs-lisp (defun espotify-with-user-resources (callback type) (espotify-get (lambda (res) (funcall callback (alist-get 'items res))) (espotify--make-user-url type))) #+end_src * Sending commands to local players Once we now the URI we want to play (that ~uri~ entry in our items), sending it to a local player via DBUS is fairly easy. Let's define a couple of customizable variables pointing to the service name and bus: #+begin_src emacs-lisp (defcustom espotify-service-name "mopidy" "Name of the DBUS service used by the client we talk to. The official Spotify client uses `spotify', but one can also use alternative clients such as mopidy or spotifyd." :type 'string) (defcustom espotify-use-system-bus-p t "Whether to access the spotify client using the system DBUS.") #+end_src and then using the Emacs DBUS API to send methods to it is a breeze: #+begin_src emacs-lisp (defun espotify-call-spotify-via-dbus (method &rest args) "Tell Spotify to execute METHOD with ARGS through DBUS." (apply #'dbus-call-method `(,(if espotify-use-system-bus-p :system :session) ,(format "org.mpris.MediaPlayer2.%s" espotify-service-name) "/org/mpris/MediaPlayer2" "org.mpris.MediaPlayer2.Player" ,method ,@args))) (defun espotify-play-uri (uri) (espotify-call-spotify-via-dbus "OpenUri" uri)) #+end_src Although we're not going to use them explicitly below, we can define a couple more commands that may come in handy: #+begin_src emacs-lisp (defun espotify-play-pause () (interactive) (espotify-call-spotify-via-dbus "PlayPause")) (defun espotify-next () (interactive) (espotify-call-spotify-via-dbus "Next")) (defun espotify-previous () (interactive) (espotify-call-spotify-via-dbus "Previous")) #+end_src * Search front-end using consult :PROPERTIES: :header-args: :tangle espotify-consult.el :END: I am exploring [[https://github.com/minad/consult][consult.el]] (and friends) to replace ivy/counsel, inspired in part by [[https://protesilaos.com/codelog/2021-01-06-emacs-default-completion/][Protesilaos Stavrou's musings]], and liking a lot what i see. Up till now, everything i had with counsel is supported, often in better ways, with one exception: completing search of spotify albums using [[https://github.com/Lautaro-Garcia/counsel-spotify][counsel-spotify]]. So let's fix that by defining an asynchronous consult function that does precisely that! The top-level command will have this form: #+begin_src emacs-lisp ;;; espotify-consult.el - consult support - -*- lexical-binding: t; -*- (require 'espotify) (require 'consult) (defvar espotify-consult-history nil) (defun espotify-consult-by (type &optional filter) (let ((orderless-matching-styles '(orderless-literal))) (consult--read (espotify--search-generator type filter) :prompt (format "Search %ss: " type) :lookup 'espotify--consult-lookup :category 'espotify-search-item :history 'espotify-consult-history :initial consult-async-default-split :require-match t))) #+end_src where we can write an asynchronous generator of search results with the helper function: #+begin_src emacs-lisp (defun espotify--search-generator (type filter) (thread-first (consult--async-sink) (consult--async-refresh-immediate) (consult--async-map #'espotify--format-item) (espotify--async-search type filter) (consult--async-throttle) (consult--async-split))) #+end_src The above follows a generic consult pattern, where all functions are pre-defined for us except ~espotify--async-search~, an asynchronous dispatcher closure that must generate and handle a list of candidates, responding to a set of action messages (init, reset, get, flush, etc.) [fn:1] Here's its definition in our case: #+begin_src emacs-lisp (defun espotify--async-search (next type filter) (let ((current "")) (lambda (action) (pcase action ((pred stringp) (when-let (term (espotify-check-term current action)) (setq current term) (espotify-search-all (lambda (x) (funcall next 'flush) (funcall next x)) current type filter))) (_ (funcall next action)))))) #+end_src We have introduced the convention that we're only launching a search when the input string ends in "=", to avoid piling on HTTP requests, and also played a bit with Levenshtein distance, both via the function =espotify-check-search-term=: #+begin_src emacs-lisp :tangle espotify.el (defvar espotify-search-suffix "=" "Suffix in the search string launching an actual Web query.") (defvar espotify-search-threshold 8 "Threshold to automatically launch an actual Web query.") (defun espotify-check-term (prev new) (when (not (string-blank-p new)) (cond ((string-suffix-p espotify-search-suffix new) (substring new 0 (- (length new) (length espotify-search-suffix)))) ((>= (string-distance prev new) espotify-search-threshold) new)))) #+end_src In the consult case, a more natural choice for the search suffix is #+begin_src emacs-lisp (setq espotify-search-suffix consult-async-default-split) #+end_src When processing the results, we format them as a displayable string, while hiding in a property the URI that will allow us to play the item (and pass the formatter to ~consult-async--map~, in ~espotify--search-generator~ above): #+begin_src emacs-lisp :tangle espotify.el (defun espotify--additional-info (x) (mapconcat 'identity (seq-filter 'identity `(,(alist-get 'name (alist-get 'album x)) ,(alist-get 'name (car (alist-get 'artists x))) ,(alist-get 'display_name (alist-get 'owner x)))) ", ")) (defun espotify--format-item (x) (propertize (format "%s%s" (alist-get 'name x) (if-let ((info (espotify--additional-info x))) (format " (%s)" info) "")) 'espotify-item x)) (defun espotify--item (cand) (get-text-property 0 'espotify-item cand)) (defun espotify--uri (cand) (alist-get 'uri (espotify--item cand))) #+end_src and then we make sure that we access that original string when consult looks up for it using the ~:lookup~ function, which we can simply define as: #+begin_src emacs-lisp (require 'seq) (defun espotify--consult-lookup (_input cands cand) (seq-find (lambda (x) (string= cand x)) cands)) #+end_src With that, when we receive the final result from ~consult--read~, we can play the selected URI right away: #+begin_src emacs-lisp :tangle espotify.el (defun espotify--maybe-play (cand) (when-let (uri (when cand (espotify--uri cand))) (espotify-play-uri uri))) #+end_src And here, finally, are our interactive command to search and play albums using consult: #+begin_src emacs-lisp (defun espotify-consult-album (&optional filter) (interactive) (espotify--maybe-play (espotify-consult-by 'album filter))) #+end_src And likewise for playlists, artists and combinations thereof: #+begin_src emacs-lisp (defun espotify-consult-artist (&optional filter) (interactive) (espotify--maybe-play (espotify-consult-by 'artist filter))) (defun espotify-consult-track (&optional filter) (interactive) (espotify--maybe-play (espotify-consult-by 'track filter))) (defun espotify-consult-playlist (&optional filter) (interactive) (espotify--maybe-play (espotify-consult-by 'playlist filter))) #+end_src * Adding metadata to candidates using Marginalia :PROPERTIES: :header-args: :tangle espotify-consult.el :END: Let's add metadata fields to our candidates, so that packages like [[https://github.com/minad/marginalia][Marginalia]] can offer it to consult or selectrum. #+begin_src emacs-lisp (defun espotify-marginalia-annotate (cand) (when-let (x (espotify--item cand)) (marginalia--fields ((alist-get 'type x "") :face 'marginalia-mode :width 10) ((if-let (d (alist-get 'duration_ms x)) (let ((secs (/ d 1000))) (format "%02d:%02d" (/ secs 60) (mod secs 60))) "")) ((if-let (d (alist-get 'total_tracks x)) (format "%s tracks" d) "") :face 'marginalia-size :width 12) ((if-let (d (alist-get 'release_date (alist-get 'album x x))) (format "%s" d) "") :face 'marginalia-date :width 10)))) (add-to-list 'marginalia-annotators-heavy '(espotify-search-item . espotify-marginalia-annotate)) #+end_src * Embark actions :PROPERTIES: :header-args: :tangle espotify-embark.el :END: In addition to the default action (play the URI in the selected candidate), we can use embark to define other operations. For instance, we could print the full item alist in its own buffer, or always look for an album to play. These actions need access to the rich metadata attached to the candidate, and will therefore be defined as regular one-argument functions, rather than interactive commands (as is otherwise recommended for generic embark actions). #+begin_src emacs-lisp (require 'espotify-consult) (require 'embark) (defun espotify--show-info (candidate) "Show low-level info (an alist) about selection." (pop-to-buffer (get-buffer-create "*espotify info*")) (read-only-mode -1) (delete-region (point-min) (point-max)) (insert (propertize candidate 'face 'bold)) (newline) (when-let (item (espotify--item candidate)) (insert (pp-to-string item))) (newline) (goto-char (point-min)) (read-only-mode 1)) (defun espotify--play-album (candidate) "Play album associated with selected item." (when-let (item (espotify--item candidate)) (if-let (album (if (string= "album" (alist-get 'type item "")) item (alist-get 'album item))) (espotify-play-uri (alist-get 'uri album)) (error "No album for %s" (alist-get 'name item))))) (defun espotify--yank-url (candidate) "Add to kill ring the Spotify URL of this entry" (when-let (item (espotify--item candidate)) (if-let (url (alist-get 'spotify (alist-get 'external_urls item))) (kill-new url) (message "No spotify URL for this candidate")))) (embark-define-keymap espotify-item-keymap "Actions for Spotify search results" ("y" espotify--yank-url) ("a" espotify--play-album) ("h" espotify--show-info)) (defun espotify--annotate-item (cand) (setq espotify--current-item (espotify--item cand)) (cons 'espotify-search-item cand)) (add-to-list 'embark-keymap-alist '(espotify-search-item . espotify-item-keymap)) #+end_src * Search fronted using ivy :PROPERTIES: :header-args: :tangle espotify-counsel.el :END: #+begin_src emacs-lisp ;;; counsel-espotify.el - counsel and spotify - -*- lexical-binding: t; -*- (require 'espotify) (require 'ivy) #+end_src It is is also not too complicated to provide a counsel collection of functions. Here, we use =ivy-read= to access the completion interface, with the flag =dynamic-collection= set. Ivy will wait until we call =ivy-candidate-updates= with our items. #+begin_src emacs-lisp (defun espotify-counsel--search-by (type filter) (let ((current-term "")) (lambda (term) (when-let (term (espotify-check-term current-term term)) (espotify-search-all (lambda (its) (let ((cs (mapcar #'espotify--format-item its))) (ivy-update-candidates cs))) (setq current-term term) type filter)) 0))) #+end_src With that, we can define our generic completing read: #+begin_src emacs-lisp (defun espotify-counsel--play-album (candidate) "Play album associated with selected item." (interactive "s") (let ((item (espotify--item candidate))) (if-let (album (if (string= "album" (alist-get 'type item "")) item (alist-get 'album item))) (espotify-play-uri (alist-get 'uri album)) (error "No album for %s" (alist-get 'name item))))) (defun espotify-search-by (type filter) (ivy-read (format "Search %s: " type) (espotify-counsel--search-by type filter) :dynamic-collection t :action `(1 ("a" espotify-counsel--play-album "Play album") ("p" espotify--maybe-play ,(format "Play %s" type))))) #+end_src and our collection of searching commands: #+begin_src emacs-lisp (defun espotify-counsel-album (&optional filter) (interactive) (espotify-search-by 'album filter)) (defun espotify-counsel-artist (&optional filter) (interactive) (espotify-search-by 'artist filter)) (defun espotify-counsel-track (&optional filter) (interactive) (espotify-search-by 'track filter)) (defun espotify-counsel-playlist (&optional filter) (interactive) (espotify-search-by 'playlist filter)) #+end_src Simpler than our initial consult, although it's true that we already had part of the job done. The nice "split search" that counsult offers out of the box, though, is much more difficult to get. * Postamble #+begin_src emacs-lisp (provide 'espotify) #+end_src #+begin_src emacs-lisp :tangle espotify-consult.el (provide 'espotify-consult) #+end_src #+begin_src emacs-lisp :tangle espotify-embark.el (provide 'espotify-embark) #+end_src #+begin_src emacs-lisp :tangle espotify-counsel.el (provide 'espotify-counsel) #+end_src * Footnotes [fn:1] This is an elegant strategy i first learnt about in SICP, many, many years ago, and i must say that it is very charming to find it around in the wild!