;;; core-lib.el -*- lexical-binding: t; -*- (require 'cl-lib) (require 'subr-x) ;; ;;; Helpers (defun doom--resolve-hook-forms (hooks) "Converts a list of modes into a list of hook symbols. If a mode is quoted, it is left as is. If the entire HOOKS list is quoted, the list is returned as-is." (declare (pure t) (side-effect-free t)) (let ((hook-list (doom-enlist (doom-unquote hooks)))) (if (eq (car-safe hooks) 'quote) hook-list (cl-loop for hook in hook-list if (eq (car-safe hook) 'quote) collect (cadr hook) else collect (intern (format "%s-hook" (symbol-name hook))))))) (defun doom--setq-hook-fns (hooks rest &optional singles) (unless (or singles (= 0 (% (length rest) 2))) (signal 'wrong-number-of-arguments (list #'evenp (length rest)))) (cl-loop with vars = (let ((args rest) vars) (while args (push (if singles (list (pop args)) (cons (pop args) (pop args))) vars)) (nreverse vars)) for hook in (doom--resolve-hook-forms hooks) for mode = (string-remove-suffix "-hook" (symbol-name hook)) append (cl-loop for (var . val) in vars collect (list var val hook (intern (format "doom--setq-%s-for-%s-h" var mode)))))) ;; ;;; Public library (defun doom-unquote (exp) "Return EXP unquoted." (declare (pure t) (side-effect-free t)) (while (memq (car-safe exp) '(quote function)) (setq exp (cadr exp))) exp) (defun doom-enlist (exp) "Return EXP wrapped in a list, or as-is if already a list." (declare (pure t) (side-effect-free t)) (if (listp exp) exp (list exp))) (defun doom-keyword-intern (str) "Converts STR (a string) into a keyword (`keywordp')." (declare (pure t) (side-effect-free t)) (cl-check-type str string) (intern (concat ":" str))) (defun doom-keyword-name (keyword) "Returns the string name of KEYWORD (`keywordp') minus the leading colon." (declare (pure t) (side-effect-free t)) (cl-check-type keyword keyword) (substring (symbol-name keyword) 1)) (defmacro doom-log (format-string &rest args) "Log to *Messages* if `doom-debug-mode' is on. Does not interrupt the minibuffer if it is in use, but still logs to *Messages*. Accepts the same arguments as `message'." `(when doom-debug-mode (let ((inhibit-message (active-minibuffer-window))) (message ,(concat (propertize "DOOM " 'face 'font-lock-comment-face) (when (bound-and-true-p doom--current-module) (propertize (format "[%s/%s] " (doom-keyword-name (car doom--current-module)) (cdr doom--current-module)) 'face 'warning)) format-string) ,@args)))) (defalias 'doom-partial #'apply-partially) (defun doom-rpartial (fn &rest args) "Return a function that is a partial application of FUN to right-hand ARGS. ARGS is a list of the last N arguments to pass to FUN. The result is a new function which does the same as FUN, except that the last N arguments are fixed at the values with which this function was called." (declare (pure t) (side-effect-free t)) (lambda (&rest pre-args) (apply fn (append pre-args args)))) ;; ;;; Sugars (defmacro λ! (&rest body) "Expands to (lambda () (interactive) ,@body). A factory for quickly producing interaction commands, particularly for keybinds or aliases." (declare (doc-string 1) (pure t) (side-effect-free t)) `(lambda () (interactive) ,@body)) (defalias 'lambda! 'λ!) (defun λ!! (command &optional arg) "Expands to a command that interactively calls COMMAND with prefix ARG. A factory for quickly producing interactive, prefixed commands for keybinds or aliases." (declare (doc-string 1) (pure t) (side-effect-free t)) (lambda () (interactive) (let ((current-prefix-arg arg)) (call-interactively command)))) (defalias 'lambda!! 'λ!!) (defun file! () "Return the emacs lisp file this macro is called from." (cond ((bound-and-true-p byte-compile-current-file)) (load-file-name) ((stringp (car-safe current-load-list)) (car current-load-list)) (buffer-file-name) ((error "Cannot get this file-path")))) (defun dir! () "Returns the directory of the emacs lisp file this macro is called from." (when-let (path (file!)) (directory-file-name (file-name-directory path)))) (defmacro after! (package &rest body) "Evaluate BODY after PACKAGE have loaded. PACKAGE is a symbol or list of them. These are package names, not modes, functions or variables. It can be: - An unquoted package symbol (the name of a package) (after! helm BODY...) - An unquoted list of package symbols (i.e. BODY is evaluated once both magit and git-gutter have loaded) (after! (magit git-gutter) BODY...) - An unquoted, nested list of compound package lists, using any combination of :or/:any and :and/:all (after! (:or package-a package-b ...) BODY...) (after! (:and package-a package-b ...) BODY...) (after! (:and package-a (:or package-b package-c) ...) BODY...) Without :or/:any/:and/:all, :and/:all are implied. This is a wrapper around `eval-after-load' that: 1. Suppresses warnings for disabled packages at compile-time 2. No-ops for package that are disabled by the user (via `package!') 3. Supports compound package statements (see below) 4. Prevents eager expansion pulling in autoloaded macros all at once" (declare (indent defun) (debug t)) (if (symbolp package) (unless (memq package (bound-and-true-p doom-disabled-packages)) (list (if (or (not (bound-and-true-p byte-compile-current-file)) (require package nil 'noerror)) #'progn #'with-no-warnings) (let ((body (macroexp-progn body))) `(if (featurep ',package) ,body ;; We intentionally avoid `with-eval-after-load' to prevent ;; eager macro expansion from pulling (or failing to pull) in ;; autoloaded macros/packages. (eval-after-load ',package ',body))))) (let ((p (car package))) (cond ((not (keywordp p)) `(after! (:and ,@package) ,@body)) ((memq p '(:or :any)) (macroexp-progn (cl-loop for next in (cdr package) collect `(after! ,next ,@body)))) ((memq p '(:and :all)) (dolist (next (cdr package)) (setq body `((after! ,next ,@body)))) (car body)))))) (defmacro setq! (&rest settings) "A stripped-down `customize-set-variable' with the syntax of `setq'. Use this instead of `setq' when you know a variable has a custom setter (a :set property in its `defcustom' declaration). This trigger setters. `setq' does not." (macroexp-progn (cl-loop for (var val) on settings by 'cddr collect `(funcall (or (get ',var 'custom-set) #'set) ',var ,val)))) (defmacro pushnew! (place &rest values) "Push VALUES sequentially into PLACE, if they aren't already present. This is a variadic `cl-pushnew'." (let ((var (make-symbol "result"))) `(dolist (,var (list ,@values) (with-no-warnings ,place)) (cl-pushnew ,var ,place :test #'equal)))) (defmacro prependq! (sym &rest lists) "Prepend LISTS to SYM in place." `(setq ,sym (append ,@lists ,sym))) (defmacro appendq! (sym &rest lists) "Append LISTS to SYM in place." `(setq ,sym (append ,sym ,@lists))) (defmacro delq! (elt list &optional fetcher) "`delq' ELT from LIST in-place. If FETCHER is a function, ELT is used as the key in LIST (an alist)." `(setq ,list (delq ,(if fetcher `(funcall ,fetcher ,elt ,list) elt) ,list))) (defmacro letenv! (envvars &rest body) "Lexically bind ENVVARS in BODY, like `let' but for `process-environment'." (declare (indent 1)) `(let ((process-environment (copy-sequence process-environment))) (dolist (var (list ,@(cl-loop for (var val) in envvars collect `(cons ,var ,val)))) (setenv (car var) (cdr var))) ,@body)) (defmacro add-load-path! (&rest dirs) "Add DIRS to `load-path', relative to the current file. The current file is the file from which `add-to-load-path!' is used." `(let ((default-directory ,(dir!)) file-name-handler-alist) (dolist (dir (list ,@dirs)) (cl-pushnew (expand-file-name dir) load-path)))) (defmacro add-transient-hook! (hook-or-function &rest forms) "Attaches a self-removing function to HOOK-OR-FUNCTION. FORMS are evaluated once, when that function/hook is first invoked, then never again. HOOK-OR-FUNCTION can be a quoted hook or a sharp-quoted function (which will be advised)." (declare (indent 1)) (let ((append (if (eq (car forms) :after) (pop forms))) (fn (intern (format "doom--transient-%s-h" (sxhash hook-or-function))))) `(let ((sym ,hook-or-function)) (defun ,fn (&rest _) ,@forms (let ((sym ,hook-or-function)) (cond ((functionp sym) (advice-remove sym #',fn)) ((symbolp sym) (remove-hook sym #',fn)))) (unintern ',fn nil)) (cond ((functionp sym) (advice-add ,hook-or-function ,(if append :after :before) #',fn)) ((symbolp sym) (put ',fn 'permanent-local-hook t) (add-hook sym #',fn ,append)))))) (defmacro add-hook! (hooks &rest rest) "A convenience macro for adding N functions to M hooks. If N and M = 1, there's no benefit to using this macro over `add-hook'. This macro accepts, in order: 1. The mode(s) or hook(s) to add to. This is either an unquoted mode, an unquoted list of modes, a quoted hook variable or a quoted list of hook variables. 2. Optional properties :local and/or :append, which will make the hook buffer-local or append to the list of hooks (respectively), 3. The function(s) to be added: this can be one function, a quoted list thereof, a list of `defun's, or body forms (implicitly wrapped in a lambda). \(fn HOOKS [:append :local] FUNCTIONS)" (declare (indent (lambda (indent-point state) (goto-char indent-point) (when (looking-at-p "\\s-*(") (lisp-indent-defform state indent-point)))) (debug t)) (let* ((hook-forms (doom--resolve-hook-forms hooks)) (func-forms ()) (defn-forms ()) append-p local-p remove-p forms) (while (keywordp (car rest)) (pcase (pop rest) (:append (setq append-p t)) (:local (setq local-p t)) (:remove (setq remove-p t)))) (let ((first (car-safe (car rest)))) (cond ((null first) (setq func-forms rest)) ((eq first 'defun) (setq func-forms (mapcar #'cadr rest) defn-forms rest)) ((memq first '(quote function)) (setq func-forms (if (cdr rest) (mapcar #'doom-unquote rest) (doom-enlist (doom-unquote (car rest)))))) ((setq func-forms (list `(lambda (&rest _) ,@rest))))) (dolist (hook hook-forms) (dolist (func func-forms) (push (if remove-p `(remove-hook ',hook #',func ,local-p) `(add-hook ',hook #',func ,append-p ,local-p)) forms))) (macroexp-progn (append defn-forms (if append-p (nreverse forms) forms)))))) (defmacro remove-hook! (hooks &rest rest) "A convenience macro for removing N functions from M hooks. Takes the same arguments as `add-hook!'. If N and M = 1, there's no benefit to using this macro over `remove-hook'. \(fn HOOKS [:append :local] FUNCTIONS)" (declare (indent defun) (debug t)) `(add-hook! ,hooks :remove ,@rest)) (defmacro setq-hook! (hooks &rest var-vals) "Sets buffer-local variables on HOOKS. \(fn HOOKS &rest [SYM VAL]...)" (declare (indent 1)) (macroexp-progn (cl-loop for (var val hook fn) in (doom--setq-hook-fns hooks var-vals) collect `(defun ,fn (&rest _) ,(format "%s = %s" var (pp-to-string val)) (setq-local ,var ,val)) collect `(remove-hook ',hook #',fn) ; ensure set order collect `(add-hook ',hook #',fn)))) (defmacro unsetq-hook! (hooks &rest vars) "Unbind setq hooks on HOOKS for VARS. \(fn HOOKS &rest [SYM VAL]...)" (declare (indent 1)) (macroexp-progn (cl-loop for (_var _val hook fn) in (doom--setq-hook-fns hooks vars 'singles) collect `(remove-hook ',hook #',fn)))) (defmacro load! (filename &optional path noerror) "Load a file relative to the current executing file (`load-file-name'). FILENAME is either a file path string or a form that should evaluate to such a string at run time. PATH is where to look for the file (a string representing a directory path). If omitted, the lookup is relative to either `load-file-name', `byte-compile-current-file' or `buffer-file-name' (checked in that order). If NOERROR is non-nil, don't throw an error if the file doesn't exist." (let* ((path (or path (dir!) (error "Could not detect path to look for '%s' in" filename))) (file (if path `(expand-file-name ,filename ,path) filename))) `(condition-case-unless-debug e (let (file-name-handler-alist) (load ,file ,noerror 'nomessage)) (doom-error (signal (car e) (cdr e))) (error (let* ((source (file-name-sans-extension ,file)) (err (cond ((not (featurep 'core)) (cons 'error (file-name-directory path))) ((file-in-directory-p source doom-core-dir) (cons 'doom-error doom-core-dir)) ((file-in-directory-p source doom-private-dir) (cons 'doom-private-error doom-private-dir)) ((cons 'doom-module-error doom-emacs-dir))))) (signal (car err) (list (file-relative-name (concat source ".el") (cdr err)) e))))))) (defmacro defer-until! (condition &rest body) "Run BODY when CONDITION is true (checks on `after-load-functions'). Meant to serve as a predicated alternative to `after!'." (declare (indent defun) (debug t)) `(if ,condition (progn ,@body) ,(let ((fn (intern (format "doom--delay-form-%s-h" (sxhash (cons condition body)))))) `(progn (fset ',fn (lambda (&rest args) (when ,(or condition t) (remove-hook 'after-load-functions #',fn) (unintern ',fn nil) (ignore args) ,@body))) (put ',fn 'permanent-local-hook t) (add-hook 'after-load-functions #',fn))))) (defmacro defer-feature! (feature &optional fn) "Pretend FEATURE hasn't been loaded yet, until FEATURE-hook or FN runs. Some packages (like `elisp-mode' and `lisp-mode') are loaded immediately at startup, which will prematurely trigger `after!' (and `with-eval-after-load') blocks. To get around this we make Emacs believe FEATURE hasn't been loaded yet, then wait until FEATURE-hook (or MODE-hook, if FN is provided) is triggered to reverse this and trigger `after!' blocks at a more reasonable time." (let ((advice-fn (intern (format "doom--defer-feature-%s-a" feature))) (fn (or fn feature))) `(progn (setq features (delq ',feature features)) (advice-add #',fn :before #',advice-fn) (defun ,advice-fn (&rest _) ;; Some plugins (like yasnippet) will invoke a fn early to parse ;; code, which would prematurely trigger this. In those cases, well ;; behaved plugins will use `delay-mode-hooks', which we can check for: (when (and ,(intern (format "%s-hook" fn)) (not delay-mode-hooks)) ;; ...Otherwise, announce to the world this package has been loaded, ;; so `after!' handlers can react. (provide ',feature) (advice-remove #',fn #',advice-fn)))))) (defmacro quiet! (&rest forms) "Run FORMS without generating any output. This silences calls to `message', `load-file', `write-region' and anything that writes to `standard-output'." `(cond (doom-debug-mode ,@forms) ((not doom-interactive-mode) (let ((old-fn (symbol-function 'write-region))) (cl-letf ((standard-output (lambda (&rest _))) ((symbol-function 'load-file) (lambda (file) (load file nil t))) ((symbol-function 'message) (lambda (&rest _))) ((symbol-function 'write-region) (lambda (start end filename &optional append visit lockname mustbenew) (unless visit (setq visit 'no-message)) (funcall old-fn start end filename append visit lockname mustbenew)))) ,@forms))) ((let ((inhibit-message t) (save-silently t)) (prog1 ,@forms (message "")))))) ;; ;;; Definers (defmacro defadvice! (symbol arglist &optional docstring &rest body) "Define an advice called SYMBOL and add it to PLACES. ARGLIST is as in `defun'. WHERE is a keyword as passed to `advice-add', and PLACE is the function to which to add the advice, like in `advice-add'. DOCSTRING and BODY are as in `defun'. \(fn SYMBOL ARGLIST &optional DOCSTRING &rest [WHERE PLACES...] BODY\)" (declare (doc-string 3) (indent defun)) (unless (stringp docstring) (push docstring body) (setq docstring nil)) (let (where-alist) (while (keywordp (car body)) (push `(cons ,(pop body) (doom-enlist ,(pop body))) where-alist)) `(progn (defun ,symbol ,arglist ,docstring ,@body) (dolist (targets (list ,@(nreverse where-alist))) (dolist (target (cdr targets)) (advice-add target (car targets) #',symbol)))))) (defmacro undefadvice! (symbol _arglist &optional docstring &rest body) "Undefine an advice called SYMBOL. This has the same signature as `defadvice!' an exists as an easy undefiner when testing advice (when combined with `rotate-text'). \(fn SYMBOL ARGLIST &optional DOCSTRING &rest [WHERE PLACES...] BODY\)" (declare (doc-string 3) (indent defun)) (let (where-alist) (unless (stringp docstring) (push docstring body)) (while (keywordp (car body)) (push `(cons ,(pop body) (doom-enlist ,(pop body))) where-alist)) `(dolist (targets (list ,@(nreverse where-alist))) (dolist (target (cdr targets)) (advice-remove target #',symbol))))) (provide 'core-lib) ;;; core-lib.el ends here